Aggressive Lymphomas

We have a half-forgotten Indian immigrant to thank – a hospital night porter turned biochemist –for revolutionizing treatment of leukemia, the once deadly childhood scourge that is still the most common pediatric cancer.

Dr. Yellapragada SubbaRow has been called the “father of chemotherapy” for developing methotrexate, a powerful, inexpensive therapy for leukemia and other diseases, and he is celebrated for additional scientific achievements. Yet Dr. SubbaRow’s life was marked more by struggle than glory.

1995 Indian stamp; photo in public domain

Born poor in southeastern India, he nearly succumbed to a tropical disease that killed two older brothers, and he didn’t focus on schoolwork until his father died. Later, prejudice dogged his years as an immigrant to the United States, and a blood clot took his life at the age of 53.

Scientifically, however, Dr. SubbaRow (pronounced sue-buh-rao) triumphed, despite mammoth challenges and a lack of recognition that persists to this day. National Cancer Research Month is a fitting time to look back on his extraordinary life and work and pay tribute to his accomplishments.
 

‘Yella,’ folic acid, and a paradigm shift

No one appreciates Dr. SubbaRow more than a cadre of Indian-born physicians who have kept his legacy alive in journal articles, presentations, and a Pulitzer Prize-winning book. Among them is author and oncologist Siddhartha Mukherjee, MD, who chronicled Dr. SubbaRow’s achievements in his New York Times No. 1 bestseller, “The Emperor of All Maladies: A Biography of Cancer.”

As Dr. Mukherjee wrote, Dr. SubbaRow was a “pioneer in many ways, a physician turned cellular physiologist, a chemist who had accidentally wandered into biology.” (Per Indian tradition, SubbaRow is the doctor’s first name, and Yellapragada is his surname, but medical literature uses SubbaRow as his cognomen, with some variations in spelling. Dr. Mukherjee wrote that his friends called him “Yella.”)

Dr. SubbaRow came to the United States in 1923, after enduring a difficult childhood and young adulthood. He’d survived bouts of religious fervor, childhood rebellion (including a bid to run away from home and become a banana trader), and a failed arranged marriage. His wife bore him a child who died in infancy. He left it all behind.

In Boston, medical officials rejected his degree. Broke, he worked for a time as a night porter at Brigham and Women’s Hospital in Boston, changing sheets and cleaning urinals. To a poor but proud high-caste Indian Brahmin, the culture shock of carrying out these tasks must have been especially jarring.

Dr. SubbaRow went on to earn a diploma from Harvard Medical School, also in Boston, and became a junior faculty member. As a foreigner, Dr. Mukherjee wrote, Dr. SubbaRow was a “reclusive, nocturnal, heavily accented vegetarian,” so different from his colleagues that advancement seemed impossible. Despite his pioneering biochemistry work, Harvard later declined to offer Dr. SubbaRow a tenured faculty position.

By the early 1940s, he took a job at an upstate New York pharmaceutical company called Lederle Labs (later purchased by Pfizer). At Lederle, Dr. SubbaRow strove to synthesize the vitamin known as folic acid. He ended up creating a kind of antivitamin, a lookalike that acted like folic acid but only succeeded in gumming up the works in receptors. But what good would it do to stop the body from absorbing folic acid? Plenty, it turned out.
 

Discoveries pile up, but credit and fame prove elusive

Dr. SubbaRow was no stranger to producing landmark biological work. He’d previously codiscovered phosphocreatine and ATP, which are crucial to muscular contractions. However, “in 1935, he had to disown the extent of his role in the discovery of the color test related to phosphorus, instead giving the credit to his co-author, who was being considered for promotion to a full professorship at Harvard,” wrote author Gerald Posner in his 2020 book, “Pharma: Greed, Lies and the Poisoning of America.”

Houston-area oncologist Kirtan Nautiyal, MD, who paid tribute to Dr. SubbaRow in a 2018 article, contended that “with his Indian instinct for self-effacement, he had irreparably sabotaged his own career.”

Dr. SubbaRow and his team also developed “the first effective treatment of filariasis, which causes elephantiasis of the lower limbs and genitals in millions of people, mainly in tropical countries,” Dr. Nautiyal wrote. “Later in the decade, his antibiotic program generated polymyxin, the first effective treatment against the class of bacteria called Gram negatives, and aureomycin, the first “broad-spectrum’ antibiotic.” (Aureomycin is also the first tetracycline antibiotic.)

Dr. SubbaRow’s discovery of a folic acid antagonist would again go largely unheralded. But first came the realization that folic acid made childhood leukemia worse, not better, and the prospect that this process could potentially be reversed.
 

Rise of methotrexate and fall of leukemia

In Boston, Sidney Farber, MD, a Boston pathologist, was desperate to help Robert Sandler, a 2-year-old leukemia patient. Dr. Farber contacted his ex-colleague Dr. SubbaRow to request a supply of aminopterin, an early version of methotrexate that Dr. SubbaRow and his team had developed. Dr. Farber injected Robert with the substance and within 3 days, the toddler’s white blood count started falling – fast. He stopped bleeding, resumed eating, and once again seemed almost identical to his twin brother, as Dr. Mukherjee wrote in his book.

Leukemia had never gone into remission before. Unfortunately, the treatment only worked temporarily. Robert, like other children treated with the drug, relapsed and died within months. But Dr. Farber “saw a door open” – a chemical, a kind of chemotherapy, that could turn back cancer. In the case of folic acid antagonists, they do so by stopping cancer cells from replicating.

Methotrexate, a related agent synthesized by Dr. SubbaRow, would become a mainstay of leukemia treatment and begin to produce long-term remission from acute lymphoblastic leukemia in 1970, when combination chemotherapy was developed.

Other cancers fell to methotrexate treatment. “Previous assumptions that cancer was nearly always fatal were revised, and the field of medical oncology (treatment of cancer with chemotherapy), which had not previously existed, was formally established in 1971,” according to the National Cancer Institute’s history of methotrexate. This account does not mention Dr. SubbaRow.
 

Death takes the doctor, but his legacy remains

In biographies, as well as his own words, Dr. SubbaRow comes across as a prickly, hard-driving workaholic who had little interest in intimate human connections. “It is not good to ask in every letter when I will be back,” he wrote to his wife back in India, before cutting off ties completely in the early 1930s. “I will come as early as possible. ... I do not want to write anything more.”

It seems, as his biographer S.P.K. Gupta noted, that “he was quite determined that the time allotted to him on Earth should be completely devoted to finding cures for ailments that plagued mankind.”

Still, Dr. SubbaRow’s research team was devoted to him, and he had plenty of reasons to be bitter, such as the prejudice and isolation he encountered in the United States and earlier, in British-run India. According to Mr. Posner’s book, even as a young medical student, Dr. SubbaRow heeded the call of Indian independence activist Mohandas Gandhi. He “refused the British surgical gown given him at school and instead donned a traditional and simple cotton Khadi. That act of defiance cost SubbaRow the college degree that was necessary for him to get into the State Medical College.”

During the last year of his life, Dr. SubbaRow faced yet another humiliation: In his landmark 1948 study about aminopterin as a treatment for leukemia, his colleague Dr. Farber failed to credit him, an “astonishing omission” as Yaddanapudi Ravindranath, MBBS, a pediatric hematologist/oncologist at Wayne State University, Detroit, put it. “From everything I know, Dr. Farber spent the rest of his career apologizing and trying to make amends for it,” Dr. Ravindranath said in an interview.
 

A career cut short, and a lasting legacy

In 1948, at the age of 53, Dr. SubbaRow suddenly died. “Many think Dr. SubbaRow would have won [the] Nobel Prize had he lived a few years longer,” said Dr. Ravindranath.

Like Dr. SubbaRow, Dr. Ravindranath was born in Andhra Pradesh state, near the city of Chennai formerly known as Madras. “Being a compatriot, in a way I continue his legacy, and I am obviously proud of him,” said Dr. Ravindranath, who has conducted his own landmark research regarding methotrexate and leukemia.

Nearly 75 years after Dr. SubbaRow’s death, Indian-born physicians like Dr. Ravindranath continue to honor him in print, trying to ensure that he’s not forgotten. Methotrexate remains a crucial treatment for leukemia, along with a long list of other ailments, including psoriasis.

Recognition for “Yella” may have come late and infrequently, but a Lederle Laboratories research library named after him offered Dr. SubbaRow a kind of immortality. A plaque there memorialized him in stone as a scientist, teacher, philosopher, and humanitarian, featuring the quote: “Science simply prolongs life. Religion deepens it.”

By all accounts, Dr. SubbaRow was a man of science and faith who had faith in science.

We have a half-forgotten Indian immigrant to thank – a hospital night porter turned biochemist –for revolutionizing treatment of leukemia, the once deadly childhood scourge that is still the most common pediatric cancer.

Dr. Yellapragada SubbaRow has been called the “father of chemotherapy” for developing methotrexate, a powerful, inexpensive therapy for leukemia and other diseases, and he is celebrated for additional scientific achievements. Yet Dr. SubbaRow’s life was marked more by struggle than glory.

1995 Indian stamp; photo in public domain

Born poor in southeastern India, he nearly succumbed to a tropical disease that killed two older brothers, and he didn’t focus on schoolwork until his father died. Later, prejudice dogged his years as an immigrant to the United States, and a blood clot took his life at the age of 53.

Scientifically, however, Dr. SubbaRow (pronounced sue-buh-rao) triumphed, despite mammoth challenges and a lack of recognition that persists to this day. National Cancer Research Month is a fitting time to look back on his extraordinary life and work and pay tribute to his accomplishments.
 

‘Yella,’ folic acid, and a paradigm shift

No one appreciates Dr. SubbaRow more than a cadre of Indian-born physicians who have kept his legacy alive in journal articles, presentations, and a Pulitzer Prize-winning book. Among them is author and oncologist Siddhartha Mukherjee, MD, who chronicled Dr. SubbaRow’s achievements in his New York Times No. 1 bestseller, “The Emperor of All Maladies: A Biography of Cancer.”

As Dr. Mukherjee wrote, Dr. SubbaRow was a “pioneer in many ways, a physician turned cellular physiologist, a chemist who had accidentally wandered into biology.” (Per Indian tradition, SubbaRow is the doctor’s first name, and Yellapragada is his surname, but medical literature uses SubbaRow as his cognomen, with some variations in spelling. Dr. Mukherjee wrote that his friends called him “Yella.”)

Dr. SubbaRow came to the United States in 1923, after enduring a difficult childhood and young adulthood. He’d survived bouts of religious fervor, childhood rebellion (including a bid to run away from home and become a banana trader), and a failed arranged marriage. His wife bore him a child who died in infancy. He left it all behind.

In Boston, medical officials rejected his degree. Broke, he worked for a time as a night porter at Brigham and Women’s Hospital in Boston, changing sheets and cleaning urinals. To a poor but proud high-caste Indian Brahmin, the culture shock of carrying out these tasks must have been especially jarring.

Dr. SubbaRow went on to earn a diploma from Harvard Medical School, also in Boston, and became a junior faculty member. As a foreigner, Dr. Mukherjee wrote, Dr. SubbaRow was a “reclusive, nocturnal, heavily accented vegetarian,” so different from his colleagues that advancement seemed impossible. Despite his pioneering biochemistry work, Harvard later declined to offer Dr. SubbaRow a tenured faculty position.

By the early 1940s, he took a job at an upstate New York pharmaceutical company called Lederle Labs (later purchased by Pfizer). At Lederle, Dr. SubbaRow strove to synthesize the vitamin known as folic acid. He ended up creating a kind of antivitamin, a lookalike that acted like folic acid but only succeeded in gumming up the works in receptors. But what good would it do to stop the body from absorbing folic acid? Plenty, it turned out.
 

Discoveries pile up, but credit and fame prove elusive

Dr. SubbaRow was no stranger to producing landmark biological work. He’d previously codiscovered phosphocreatine and ATP, which are crucial to muscular contractions. However, “in 1935, he had to disown the extent of his role in the discovery of the color test related to phosphorus, instead giving the credit to his co-author, who was being considered for promotion to a full professorship at Harvard,” wrote author Gerald Posner in his 2020 book, “Pharma: Greed, Lies and the Poisoning of America.”

Houston-area oncologist Kirtan Nautiyal, MD, who paid tribute to Dr. SubbaRow in a 2018 article, contended that “with his Indian instinct for self-effacement, he had irreparably sabotaged his own career.”

Dr. SubbaRow and his team also developed “the first effective treatment of filariasis, which causes elephantiasis of the lower limbs and genitals in millions of people, mainly in tropical countries,” Dr. Nautiyal wrote. “Later in the decade, his antibiotic program generated polymyxin, the first effective treatment against the class of bacteria called Gram negatives, and aureomycin, the first “broad-spectrum’ antibiotic.” (Aureomycin is also the first tetracycline antibiotic.)

Dr. SubbaRow’s discovery of a folic acid antagonist would again go largely unheralded. But first came the realization that folic acid made childhood leukemia worse, not better, and the prospect that this process could potentially be reversed.
 

Rise of methotrexate and fall of leukemia

In Boston, Sidney Farber, MD, a Boston pathologist, was desperate to help Robert Sandler, a 2-year-old leukemia patient. Dr. Farber contacted his ex-colleague Dr. SubbaRow to request a supply of aminopterin, an early version of methotrexate that Dr. SubbaRow and his team had developed. Dr. Farber injected Robert with the substance and within 3 days, the toddler’s white blood count started falling – fast. He stopped bleeding, resumed eating, and once again seemed almost identical to his twin brother, as Dr. Mukherjee wrote in his book.

Leukemia had never gone into remission before. Unfortunately, the treatment only worked temporarily. Robert, like other children treated with the drug, relapsed and died within months. But Dr. Farber “saw a door open” – a chemical, a kind of chemotherapy, that could turn back cancer. In the case of folic acid antagonists, they do so by stopping cancer cells from replicating.

Methotrexate, a related agent synthesized by Dr. SubbaRow, would become a mainstay of leukemia treatment and begin to produce long-term remission from acute lymphoblastic leukemia in 1970, when combination chemotherapy was developed.

Other cancers fell to methotrexate treatment. “Previous assumptions that cancer was nearly always fatal were revised, and the field of medical oncology (treatment of cancer with chemotherapy), which had not previously existed, was formally established in 1971,” according to the National Cancer Institute’s history of methotrexate. This account does not mention Dr. SubbaRow.
 

Death takes the doctor, but his legacy remains

In biographies, as well as his own words, Dr. SubbaRow comes across as a prickly, hard-driving workaholic who had little interest in intimate human connections. “It is not good to ask in every letter when I will be back,” he wrote to his wife back in India, before cutting off ties completely in the early 1930s. “I will come as early as possible. ... I do not want to write anything more.”

It seems, as his biographer S.P.K. Gupta noted, that “he was quite determined that the time allotted to him on Earth should be completely devoted to finding cures for ailments that plagued mankind.”

Still, Dr. SubbaRow’s research team was devoted to him, and he had plenty of reasons to be bitter, such as the prejudice and isolation he encountered in the United States and earlier, in British-run India. According to Mr. Posner’s book, even as a young medical student, Dr. SubbaRow heeded the call of Indian independence activist Mohandas Gandhi. He “refused the British surgical gown given him at school and instead donned a traditional and simple cotton Khadi. That act of defiance cost SubbaRow the college degree that was necessary for him to get into the State Medical College.”

During the last year of his life, Dr. SubbaRow faced yet another humiliation: In his landmark 1948 study about aminopterin as a treatment for leukemia, his colleague Dr. Farber failed to credit him, an “astonishing omission” as Yaddanapudi Ravindranath, MBBS, a pediatric hematologist/oncologist at Wayne State University, Detroit, put it. “From everything I know, Dr. Farber spent the rest of his career apologizing and trying to make amends for it,” Dr. Ravindranath said in an interview.
 

A career cut short, and a lasting legacy

In 1948, at the age of 53, Dr. SubbaRow suddenly died. “Many think Dr. SubbaRow would have won [the] Nobel Prize had he lived a few years longer,” said Dr. Ravindranath.

Like Dr. SubbaRow, Dr. Ravindranath was born in Andhra Pradesh state, near the city of Chennai formerly known as Madras. “Being a compatriot, in a way I continue his legacy, and I am obviously proud of him,” said Dr. Ravindranath, who has conducted his own landmark research regarding methotrexate and leukemia.

Nearly 75 years after Dr. SubbaRow’s death, Indian-born physicians like Dr. Ravindranath continue to honor him in print, trying to ensure that he’s not forgotten. Methotrexate remains a crucial treatment for leukemia, along with a long list of other ailments, including psoriasis.

Recognition for “Yella” may have come late and infrequently, but a Lederle Laboratories research library named after him offered Dr. SubbaRow a kind of immortality. A plaque there memorialized him in stone as a scientist, teacher, philosopher, and humanitarian, featuring the quote: “Science simply prolongs life. Religion deepens it.”

By all accounts, Dr. SubbaRow was a man of science and faith who had faith in science.

We have a half-forgotten Indian immigrant to thank – a hospital night porter turned biochemist –for revolutionizing treatment of leukemia, the once deadly childhood scourge that is still the most common pediatric cancer.

Dr. Yellapragada SubbaRow has been called the “father of chemotherapy” for developing methotrexate, a powerful, inexpensive therapy for leukemia and other diseases, and he is celebrated for additional scientific achievements. Yet Dr. SubbaRow’s life was marked more by struggle than glory.

1995 Indian stamp; photo in public domain

Born poor in southeastern India, he nearly succumbed to a tropical disease that killed two older brothers, and he didn’t focus on schoolwork until his father died. Later, prejudice dogged his years as an immigrant to the United States, and a blood clot took his life at the age of 53.

Scientifically, however, Dr. SubbaRow (pronounced sue-buh-rao) triumphed, despite mammoth challenges and a lack of recognition that persists to this day. National Cancer Research Month is a fitting time to look back on his extraordinary life and work and pay tribute to his accomplishments.
 

‘Yella,’ folic acid, and a paradigm shift

No one appreciates Dr. SubbaRow more than a cadre of Indian-born physicians who have kept his legacy alive in journal articles, presentations, and a Pulitzer Prize-winning book. Among them is author and oncologist Siddhartha Mukherjee, MD, who chronicled Dr. SubbaRow’s achievements in his New York Times No. 1 bestseller, “The Emperor of All Maladies: A Biography of Cancer.”

As Dr. Mukherjee wrote, Dr. SubbaRow was a “pioneer in many ways, a physician turned cellular physiologist, a chemist who had accidentally wandered into biology.” (Per Indian tradition, SubbaRow is the doctor’s first name, and Yellapragada is his surname, but medical literature uses SubbaRow as his cognomen, with some variations in spelling. Dr. Mukherjee wrote that his friends called him “Yella.”)

Dr. SubbaRow came to the United States in 1923, after enduring a difficult childhood and young adulthood. He’d survived bouts of religious fervor, childhood rebellion (including a bid to run away from home and become a banana trader), and a failed arranged marriage. His wife bore him a child who died in infancy. He left it all behind.

In Boston, medical officials rejected his degree. Broke, he worked for a time as a night porter at Brigham and Women’s Hospital in Boston, changing sheets and cleaning urinals. To a poor but proud high-caste Indian Brahmin, the culture shock of carrying out these tasks must have been especially jarring.

Dr. SubbaRow went on to earn a diploma from Harvard Medical School, also in Boston, and became a junior faculty member. As a foreigner, Dr. Mukherjee wrote, Dr. SubbaRow was a “reclusive, nocturnal, heavily accented vegetarian,” so different from his colleagues that advancement seemed impossible. Despite his pioneering biochemistry work, Harvard later declined to offer Dr. SubbaRow a tenured faculty position.

By the early 1940s, he took a job at an upstate New York pharmaceutical company called Lederle Labs (later purchased by Pfizer). At Lederle, Dr. SubbaRow strove to synthesize the vitamin known as folic acid. He ended up creating a kind of antivitamin, a lookalike that acted like folic acid but only succeeded in gumming up the works in receptors. But what good would it do to stop the body from absorbing folic acid? Plenty, it turned out.
 

Discoveries pile up, but credit and fame prove elusive

Dr. SubbaRow was no stranger to producing landmark biological work. He’d previously codiscovered phosphocreatine and ATP, which are crucial to muscular contractions. However, “in 1935, he had to disown the extent of his role in the discovery of the color test related to phosphorus, instead giving the credit to his co-author, who was being considered for promotion to a full professorship at Harvard,” wrote author Gerald Posner in his 2020 book, “Pharma: Greed, Lies and the Poisoning of America.”

Houston-area oncologist Kirtan Nautiyal, MD, who paid tribute to Dr. SubbaRow in a 2018 article, contended that “with his Indian instinct for self-effacement, he had irreparably sabotaged his own career.”

Dr. SubbaRow and his team also developed “the first effective treatment of filariasis, which causes elephantiasis of the lower limbs and genitals in millions of people, mainly in tropical countries,” Dr. Nautiyal wrote. “Later in the decade, his antibiotic program generated polymyxin, the first effective treatment against the class of bacteria called Gram negatives, and aureomycin, the first “broad-spectrum’ antibiotic.” (Aureomycin is also the first tetracycline antibiotic.)

Dr. SubbaRow’s discovery of a folic acid antagonist would again go largely unheralded. But first came the realization that folic acid made childhood leukemia worse, not better, and the prospect that this process could potentially be reversed.
 

Rise of methotrexate and fall of leukemia

In Boston, Sidney Farber, MD, a Boston pathologist, was desperate to help Robert Sandler, a 2-year-old leukemia patient. Dr. Farber contacted his ex-colleague Dr. SubbaRow to request a supply of aminopterin, an early version of methotrexate that Dr. SubbaRow and his team had developed. Dr. Farber injected Robert with the substance and within 3 days, the toddler’s white blood count started falling – fast. He stopped bleeding, resumed eating, and once again seemed almost identical to his twin brother, as Dr. Mukherjee wrote in his book.

Leukemia had never gone into remission before. Unfortunately, the treatment only worked temporarily. Robert, like other children treated with the drug, relapsed and died within months. But Dr. Farber “saw a door open” – a chemical, a kind of chemotherapy, that could turn back cancer. In the case of folic acid antagonists, they do so by stopping cancer cells from replicating.

Methotrexate, a related agent synthesized by Dr. SubbaRow, would become a mainstay of leukemia treatment and begin to produce long-term remission from acute lymphoblastic leukemia in 1970, when combination chemotherapy was developed.

Other cancers fell to methotrexate treatment. “Previous assumptions that cancer was nearly always fatal were revised, and the field of medical oncology (treatment of cancer with chemotherapy), which had not previously existed, was formally established in 1971,” according to the National Cancer Institute’s history of methotrexate. This account does not mention Dr. SubbaRow.
 

Death takes the doctor, but his legacy remains

In biographies, as well as his own words, Dr. SubbaRow comes across as a prickly, hard-driving workaholic who had little interest in intimate human connections. “It is not good to ask in every letter when I will be back,” he wrote to his wife back in India, before cutting off ties completely in the early 1930s. “I will come as early as possible. ... I do not want to write anything more.”

It seems, as his biographer S.P.K. Gupta noted, that “he was quite determined that the time allotted to him on Earth should be completely devoted to finding cures for ailments that plagued mankind.”

Still, Dr. SubbaRow’s research team was devoted to him, and he had plenty of reasons to be bitter, such as the prejudice and isolation he encountered in the United States and earlier, in British-run India. According to Mr. Posner’s book, even as a young medical student, Dr. SubbaRow heeded the call of Indian independence activist Mohandas Gandhi. He “refused the British surgical gown given him at school and instead donned a traditional and simple cotton Khadi. That act of defiance cost SubbaRow the college degree that was necessary for him to get into the State Medical College.”

During the last year of his life, Dr. SubbaRow faced yet another humiliation: In his landmark 1948 study about aminopterin as a treatment for leukemia, his colleague Dr. Farber failed to credit him, an “astonishing omission” as Yaddanapudi Ravindranath, MBBS, a pediatric hematologist/oncologist at Wayne State University, Detroit, put it. “From everything I know, Dr. Farber spent the rest of his career apologizing and trying to make amends for it,” Dr. Ravindranath said in an interview.
 

A career cut short, and a lasting legacy

In 1948, at the age of 53, Dr. SubbaRow suddenly died. “Many think Dr. SubbaRow would have won [the] Nobel Prize had he lived a few years longer,” said Dr. Ravindranath.

Like Dr. SubbaRow, Dr. Ravindranath was born in Andhra Pradesh state, near the city of Chennai formerly known as Madras. “Being a compatriot, in a way I continue his legacy, and I am obviously proud of him,” said Dr. Ravindranath, who has conducted his own landmark research regarding methotrexate and leukemia.

Nearly 75 years after Dr. SubbaRow’s death, Indian-born physicians like Dr. Ravindranath continue to honor him in print, trying to ensure that he’s not forgotten. Methotrexate remains a crucial treatment for leukemia, along with a long list of other ailments, including psoriasis.

Recognition for “Yella” may have come late and infrequently, but a Lederle Laboratories research library named after him offered Dr. SubbaRow a kind of immortality. A plaque there memorialized him in stone as a scientist, teacher, philosopher, and humanitarian, featuring the quote: “Science simply prolongs life. Religion deepens it.”

By all accounts, Dr. SubbaRow was a man of science and faith who had faith in science.

Results of the phase 2 ZUMA-12 trial suggest that axicabtagene ciloleucel (axi-cel), a chimeric antigen receptor (CAR) T-cell therapy approved to treat certain types of lymphoma, also shows promise as a treatment for another group of lymphoma patients – those with high-risk large B-cell lymphoma (LBCL) who failed two rounds of standard chemoimmunotherapy. In fact, a study author said, first-line treatment with this therapy could help usher some patients toward a cure.

The results appeared March 21, 2022, in Nature Medicine.

“The high efficacy with manageable safety profile suggest that further evaluation of axi-cel in first-line setting in patients with high-risk LBCL is warranted in a randomized, phase 3 trial comparing it to standard chemoimmunotherapy,” study lead author Sattva S. Neelapu, MD, of the University of Texas MD Anderson Cancer Center, Houston, said in an interview.

According to Dr. Neelapu, “patients with high-risk LBCL include those with high-intermediate or high International Prognostic Index score and those with certain molecular subtypes such as double- or triple-hit lymphoma. These patients have lower response rates and lower progression-free and overall survival with standard chemoimmunotherapy.”

Treatment of these patients can be especially challenging because they are underrepresented in clinical research, hematologist Michael Dickinson, MBBS, of the Peter MacCallum Cancer Center in Melbourne, said in an interview. “They often have disease that requires urgent treatment, so there is no time to recruit them into trials. A feature of ZUMA-12 is that it allowed patients to be recruited after short exposure to chemotherapy, which means that higher-risk patients could successfully be recruited into the trial.”

Axi-cel is already Food and Drug Administration approved for treatment of relapsed or refractory LBCL after 2 or more lines of systemic therapy plus relapsed or refractory follicular lymphoma, also after two or more lines of systemic therapy, Dr. Neelapu said.

For this study, researchers administered the treatment to 40 subjects with high-risk disease from 2019-2020 (median age, 61 years; 68% male; 95% at disease stage III or IV).

The researchers reported that 78% of 37 patients in the primary efficacy analysis reached complete response rate (95% confidence interval, 62-90); the median time to first complete response rate was 30 days (range, 27-207). About 89% of these subjects reached the secondary endpoint of objective response rate (95% CI, 75-97); the median time to first objective response was 29 days (range, 27-207).

At a median follow-up of 15.9 months, 73% were still in objective response.

“This is quite remarkable,” Dr. Neelapu said. “The durability of more than 70% is far higher than what would be expected with standard chemoimmunotherapy in these patients – under 40% durability with standard chemoimmunotherapy. Also, axi-cel induces durable responses in about 40% of patients in second- and third-line setting. However, when used as part of first-line therapy in this study, durable responses were observed in more than 70% of patients, suggesting that the efficacy of axi-cel may be much higher when used in first-line setting.”

Dr. Neelapu added: “Although the follow-up is short, it is highly likely that the majority of the patients with ongoing response beyond 1 year will likely be cured of their lymphoma.”

As for side effects, no treatment-related grade 5 events occurred, but 18 patients (45%) experienced serious adverse events. Grade 3 or higher cytokine release syndrome occurred in three patients (8%) and nine experienced neurologic events (23%).

“The majority of the higher-grade adverse events observed were due to cytopenias, which were expected due to the conditioning therapy,” Dr. Neelapu said. “Such cytopenias would also have been expected if these patients had received standard chemoimmunotherapy.”

Six patients (15%) died, 4 of progressive disease after going forward to other therapies.

As for cost, Dr. Neelapu said it should be similar to that of axi-cel as an FDA-approved third-line therapy. Axi-cel is highly expensive. Research has suggested that CAR T-cell therapy can boost costs beyond standard chemotherapy by $350,000-$490,000 with gains of 2-8 years of life (J Med Econ. Jan-Dec 2021;24[1]:458-68).

The study was funded by Kite. The authors reported various disclosures.

Results of the phase 2 ZUMA-12 trial suggest that axicabtagene ciloleucel (axi-cel), a chimeric antigen receptor (CAR) T-cell therapy approved to treat certain types of lymphoma, also shows promise as a treatment for another group of lymphoma patients – those with high-risk large B-cell lymphoma (LBCL) who failed two rounds of standard chemoimmunotherapy. In fact, a study author said, first-line treatment with this therapy could help usher some patients toward a cure.

The results appeared March 21, 2022, in Nature Medicine.

“The high efficacy with manageable safety profile suggest that further evaluation of axi-cel in first-line setting in patients with high-risk LBCL is warranted in a randomized, phase 3 trial comparing it to standard chemoimmunotherapy,” study lead author Sattva S. Neelapu, MD, of the University of Texas MD Anderson Cancer Center, Houston, said in an interview.

According to Dr. Neelapu, “patients with high-risk LBCL include those with high-intermediate or high International Prognostic Index score and those with certain molecular subtypes such as double- or triple-hit lymphoma. These patients have lower response rates and lower progression-free and overall survival with standard chemoimmunotherapy.”

Treatment of these patients can be especially challenging because they are underrepresented in clinical research, hematologist Michael Dickinson, MBBS, of the Peter MacCallum Cancer Center in Melbourne, said in an interview. “They often have disease that requires urgent treatment, so there is no time to recruit them into trials. A feature of ZUMA-12 is that it allowed patients to be recruited after short exposure to chemotherapy, which means that higher-risk patients could successfully be recruited into the trial.”

Axi-cel is already Food and Drug Administration approved for treatment of relapsed or refractory LBCL after 2 or more lines of systemic therapy plus relapsed or refractory follicular lymphoma, also after two or more lines of systemic therapy, Dr. Neelapu said.

For this study, researchers administered the treatment to 40 subjects with high-risk disease from 2019-2020 (median age, 61 years; 68% male; 95% at disease stage III or IV).

The researchers reported that 78% of 37 patients in the primary efficacy analysis reached complete response rate (95% confidence interval, 62-90); the median time to first complete response rate was 30 days (range, 27-207). About 89% of these subjects reached the secondary endpoint of objective response rate (95% CI, 75-97); the median time to first objective response was 29 days (range, 27-207).

At a median follow-up of 15.9 months, 73% were still in objective response.

“This is quite remarkable,” Dr. Neelapu said. “The durability of more than 70% is far higher than what would be expected with standard chemoimmunotherapy in these patients – under 40% durability with standard chemoimmunotherapy. Also, axi-cel induces durable responses in about 40% of patients in second- and third-line setting. However, when used as part of first-line therapy in this study, durable responses were observed in more than 70% of patients, suggesting that the efficacy of axi-cel may be much higher when used in first-line setting.”

Dr. Neelapu added: “Although the follow-up is short, it is highly likely that the majority of the patients with ongoing response beyond 1 year will likely be cured of their lymphoma.”

As for side effects, no treatment-related grade 5 events occurred, but 18 patients (45%) experienced serious adverse events. Grade 3 or higher cytokine release syndrome occurred in three patients (8%) and nine experienced neurologic events (23%).

“The majority of the higher-grade adverse events observed were due to cytopenias, which were expected due to the conditioning therapy,” Dr. Neelapu said. “Such cytopenias would also have been expected if these patients had received standard chemoimmunotherapy.”

Six patients (15%) died, 4 of progressive disease after going forward to other therapies.

As for cost, Dr. Neelapu said it should be similar to that of axi-cel as an FDA-approved third-line therapy. Axi-cel is highly expensive. Research has suggested that CAR T-cell therapy can boost costs beyond standard chemotherapy by $350,000-$490,000 with gains of 2-8 years of life (J Med Econ. Jan-Dec 2021;24[1]:458-68).

The study was funded by Kite. The authors reported various disclosures.

Results of the phase 2 ZUMA-12 trial suggest that axicabtagene ciloleucel (axi-cel), a chimeric antigen receptor (CAR) T-cell therapy approved to treat certain types of lymphoma, also shows promise as a treatment for another group of lymphoma patients – those with high-risk large B-cell lymphoma (LBCL) who failed two rounds of standard chemoimmunotherapy. In fact, a study author said, first-line treatment with this therapy could help usher some patients toward a cure.

The results appeared March 21, 2022, in Nature Medicine.

“The high efficacy with manageable safety profile suggest that further evaluation of axi-cel in first-line setting in patients with high-risk LBCL is warranted in a randomized, phase 3 trial comparing it to standard chemoimmunotherapy,” study lead author Sattva S. Neelapu, MD, of the University of Texas MD Anderson Cancer Center, Houston, said in an interview.

According to Dr. Neelapu, “patients with high-risk LBCL include those with high-intermediate or high International Prognostic Index score and those with certain molecular subtypes such as double- or triple-hit lymphoma. These patients have lower response rates and lower progression-free and overall survival with standard chemoimmunotherapy.”

Treatment of these patients can be especially challenging because they are underrepresented in clinical research, hematologist Michael Dickinson, MBBS, of the Peter MacCallum Cancer Center in Melbourne, said in an interview. “They often have disease that requires urgent treatment, so there is no time to recruit them into trials. A feature of ZUMA-12 is that it allowed patients to be recruited after short exposure to chemotherapy, which means that higher-risk patients could successfully be recruited into the trial.”

Axi-cel is already Food and Drug Administration approved for treatment of relapsed or refractory LBCL after 2 or more lines of systemic therapy plus relapsed or refractory follicular lymphoma, also after two or more lines of systemic therapy, Dr. Neelapu said.

For this study, researchers administered the treatment to 40 subjects with high-risk disease from 2019-2020 (median age, 61 years; 68% male; 95% at disease stage III or IV).

The researchers reported that 78% of 37 patients in the primary efficacy analysis reached complete response rate (95% confidence interval, 62-90); the median time to first complete response rate was 30 days (range, 27-207). About 89% of these subjects reached the secondary endpoint of objective response rate (95% CI, 75-97); the median time to first objective response was 29 days (range, 27-207).

At a median follow-up of 15.9 months, 73% were still in objective response.

“This is quite remarkable,” Dr. Neelapu said. “The durability of more than 70% is far higher than what would be expected with standard chemoimmunotherapy in these patients – under 40% durability with standard chemoimmunotherapy. Also, axi-cel induces durable responses in about 40% of patients in second- and third-line setting. However, when used as part of first-line therapy in this study, durable responses were observed in more than 70% of patients, suggesting that the efficacy of axi-cel may be much higher when used in first-line setting.”

Dr. Neelapu added: “Although the follow-up is short, it is highly likely that the majority of the patients with ongoing response beyond 1 year will likely be cured of their lymphoma.”

As for side effects, no treatment-related grade 5 events occurred, but 18 patients (45%) experienced serious adverse events. Grade 3 or higher cytokine release syndrome occurred in three patients (8%) and nine experienced neurologic events (23%).

“The majority of the higher-grade adverse events observed were due to cytopenias, which were expected due to the conditioning therapy,” Dr. Neelapu said. “Such cytopenias would also have been expected if these patients had received standard chemoimmunotherapy.”

Six patients (15%) died, 4 of progressive disease after going forward to other therapies.

As for cost, Dr. Neelapu said it should be similar to that of axi-cel as an FDA-approved third-line therapy. Axi-cel is highly expensive. Research has suggested that CAR T-cell therapy can boost costs beyond standard chemotherapy by $350,000-$490,000 with gains of 2-8 years of life (J Med Econ. Jan-Dec 2021;24[1]:458-68).

The study was funded by Kite. The authors reported various disclosures.

Two close colleagues at New York’s Memorial Sloan Kettering Cancer Center, world leaders in hematopoietic stem cell transplantation (HSCT) who were both promoted days after COVID-19 locked down the city in 2020, were too busy battling the pandemic’s impact on patients in the summer of 2021 to notice their latest shared career milestone.

On July 29, 2021, Sergio Giralt, MD, deputy division head of the division of hematologic malignancies and Miguel-Angel Perales, MD, chief of the adult bone marrow transplant service at MSKCC, published their 100th peer-reviewed paper as coauthors. Listing hundreds of such articles on a CV is standard for top-tier physicians, but the pair had gone one better: 100 publications written together in 10 years.

Their centenary article hit scientific newsstands almost exactly a decade after their first joint paper, which appeared in September 2011, not long after they met.

Born in Cuba, Dr. Giralt grew up in Venezuela. From the age of 14, he knew that medicine was his path, and in 1984 he earned a medical degree from the Universidad Central de Venezuela, Caracas. Next came a research position at Harvard Medical School, a residency at the Good Samaritan Hospital, Cincinnati, and a fellowship at the University of Texas MD Anderson Cancer Center, Houston. Dr. Giralt arrived at MSKCC in 2010 as the new chief of the adult bone marrow transplant service. There he was introduced to a new colleague, Dr. Perales. They soon learned that in addition to expertise in hematology, they had second language in common: Spanish.

Dr. Giralt said: “We both have a Spanish background and in a certain sense, there was an affinity there. ... We both have shared experiences.”

Dr. Perales was brought up in Belgium, a European nation with three official languages: French, Dutch, and German. He speaks five tongues in all and learned Spanish from his father, who came from Spain.

Courtesy MSKCC

Fluency in Spanish enables both physicians to take care of the many New Yorkers who are more comfortable in that language – especially when navigating cancer treatment. However, both Dr. Giralt and Dr. Perales said that a second language is more than a professional tool. They described the enjoyable change of persona that happens when they switch to Spanish.

“People who are multilingual have different roles [as much as] different languages,” said Dr. Perales. “When I’m in Spanish, part of my brain is [thinking back to] summer vacations and hanging out with my cousins.”

When it comes to clinical science, however, English is the language of choice.
 

Global leaders in HSCT

Dr. Giralt and Dr. Perales are known worldwide in the field of allogeneic HSCT, a potentially curative treatment for an elongating list of both malignant and nonmalignant diseases.

In 1973, MSKCC conducted the first bone-marrow transplant from an unrelated donor. Fifty years on, medical oncologists in the United States conduct approximately 8,500 allogeneic transplants each year, 72% to treat acute leukemias or myelodysplastic syndrome (MDS).

However, stripping the immune system with intensive chemotherapy ‘conditioning,’ then rebuilding it with non-diseased donor hematopoietic cells is a hazardous undertaking. Older patients are less likely to survive the intensive conditioning, so historically have missed out. Also, even with a good human leukocyte antigen (HLA) match, the recipient needs often brutal immunosuppression.

Since Dr. Giralt and Dr. Perales began their partnership in 2010, the goals of their work have not changed: to develop safer, lower-intensity transplantation suitable for older, more vulnerable patients and reduce fearsome posttransplant sequelae such as graft-versus-host disease (GVHD).

Dr. Giralt’s publication list spans more than 600 peer-reviewed papers, articles and book chapters, almost exclusively on HSCT. Dr. Perales has more than 300 publication credits on the topic.

The two paired up on their first paper just months after Dr. Giralt arrived at MSKCC. That article, published in Biology of Blood and Marrow Transplantation, compared umbilical cord blood for HSCT with donor blood in 367 people with a variety of hematologic malignancies, including acute and chronic leukemias, MDS, and lymphoma.

Courtesy MSKCC

The MSKCC team found that transplant-related mortality in the first 180 days was higher for the cord blood (21%), but thereafter mortality and relapse were much lower than for donated blood, with the result that 2-year progression-free survival of 55% was similar. Dr. Perales, Dr. Giralt and their coauthors concluded that the data provided “strong support” for further work on cord blood as an alternative stem-cell source.

During their first decade of collaboration, Dr. Giralt and Dr. Perales worked on any promising avenue that could improve outcomes and the experience of HSCT recipients, including reduced-intensity conditioning regimens to allow older adults to benefit from curative HSCT and donor T-cell depletion by CD34 selection, to reduce graft-versus-host disease (GVHD).

The CD34 protein is typically found on the surface of early stage and highly active stem cell types. Selecting these cell types using a range of techniques can eliminate many other potentially interfering or inactive cells. This enriches the transplant population with the most effective cells and can lower the risk of GVHD.

The 100th paper on which Dr. Giralt and Dr. Perales were coauthors was published in Blood Advances on July 27, 2021. The retrospective study examined the fate of 58 MSKCC patients with a rare form of chronic lymphocytic leukemia, CLL with Richter’s transformation (CLL-RT). It was the largest such study to date of this rare disease.
M.D. Anderson Cancer Center had shown in 2006 that, despite chemotherapy, overall survival in patients with CLL-RT was approximately 8 months. HSCT improved survival dramatically (75% at 3 years; n = 7). However, with the advent of novel targeted drugs for CLL such as ibrutinib (Imbruvica), venetoclax (Venclexta), or idelalisib (Zydelig), the MSKCC team asked themselves: What was the role of reduced-intensive conditioning HSCT? Was it even safe? Among other findings, Dr. Giralt and Dr. Perales’ 100th paper showed that reduced-intensity HSCT remained a viable alternative after a CLL-RT patient progressed on a novel agent.

Impact of the pandemic

When COVID-19 hit, the team lost many research staff and developed a huge backlog, said Dr. Giralt. He and Dr. Perales realized that they needed to be “thoughtful and careful” about which studies to continue. “For example, the CD-34 selection trials we did not close because these are our workhorse trials,” Dr. Giralt said. “We have people we need to treat, and some of the patients that we need to treat can only be treated on trial.”

The team was also able to pivot some of their work into COVID 19 itself, and they collected crucial information on HSCT in recovered COVID-19 patients, as an example.

“We were living through a critical time, but that doesn’t mean we [aren’t] obligated to continue our mission, our research mission,” said Dr. Giralt. “It really is team science. The way we look at it ... there’s a common thread: We both like to do allogeneic transplant, and we both believe in trying to make CD-34 selection better. So we’re both very much [working on] how can we improve what we call ‘the Memorial way’ of doing transplants. Where we separate is, Miguel does primarily lymphoma. He doesn’t do myeloma [like me]. So in those two areas, we’re helping develop the junior faculty in a different way.”
 

Something more in common

Right from the start, Dr. Perales and Dr. Giralt also shared a commitment to mentoring. Since 2010, Dr. Perales has mentored 22 up-and-coming junior faculty, including 10 from Europe (8 from Spain) and 2 from Latin America.

“[It makes] the research enterprise much more productive but [these young scientists] really increase the visibility of the program,” said Dr. Giralt.

He cited Dr. Perales’ track record of mentoring as one of the reasons for his promotion to chief of the adult bone marrow transplant service. In March 2020, Dr. Perales seamlessly stepped into Dr. Giralt’s shoes, while Dr. Giralt moved on to his present role as deputy division head of the division of hematologic malignancies.

Dr. Perales said: “The key aspect [of these promotions] is the fantastic working relationship that we’ve had over the years. ... I consider Sergio my mentor, but also a good friend and colleague. And so I think it’s this ability that we’ve had to work together and that relationship of trust, which has been key.”

“Sergio is somebody who lifts people up,” Dr. Perales added. “Many people will tell you that Sergio has helped them in their career. ... And I think that’s a lesson I’ve learned from him: training the next generation. And [that’s] not just in the U.S., but outside. I think that’s a key role that we have. And our responsibility.”

Asked to comment on their 100th-paper milestone, Dr. Perales firmly turned the spotlight from himself and Dr. Giralt to the junior investigators who have passed through the doors of the bone-marrow transplant program: “This body of work represents not just our collaboration but also the many contributions of our team at MSK ... and beyond MSK.”

This article was updated 1/26/22.

Two close colleagues at New York’s Memorial Sloan Kettering Cancer Center, world leaders in hematopoietic stem cell transplantation (HSCT) who were both promoted days after COVID-19 locked down the city in 2020, were too busy battling the pandemic’s impact on patients in the summer of 2021 to notice their latest shared career milestone.

On July 29, 2021, Sergio Giralt, MD, deputy division head of the division of hematologic malignancies and Miguel-Angel Perales, MD, chief of the adult bone marrow transplant service at MSKCC, published their 100th peer-reviewed paper as coauthors. Listing hundreds of such articles on a CV is standard for top-tier physicians, but the pair had gone one better: 100 publications written together in 10 years.

Their centenary article hit scientific newsstands almost exactly a decade after their first joint paper, which appeared in September 2011, not long after they met.

Born in Cuba, Dr. Giralt grew up in Venezuela. From the age of 14, he knew that medicine was his path, and in 1984 he earned a medical degree from the Universidad Central de Venezuela, Caracas. Next came a research position at Harvard Medical School, a residency at the Good Samaritan Hospital, Cincinnati, and a fellowship at the University of Texas MD Anderson Cancer Center, Houston. Dr. Giralt arrived at MSKCC in 2010 as the new chief of the adult bone marrow transplant service. There he was introduced to a new colleague, Dr. Perales. They soon learned that in addition to expertise in hematology, they had second language in common: Spanish.

Dr. Giralt said: “We both have a Spanish background and in a certain sense, there was an affinity there. ... We both have shared experiences.”

Dr. Perales was brought up in Belgium, a European nation with three official languages: French, Dutch, and German. He speaks five tongues in all and learned Spanish from his father, who came from Spain.

Courtesy MSKCC

Fluency in Spanish enables both physicians to take care of the many New Yorkers who are more comfortable in that language – especially when navigating cancer treatment. However, both Dr. Giralt and Dr. Perales said that a second language is more than a professional tool. They described the enjoyable change of persona that happens when they switch to Spanish.

“People who are multilingual have different roles [as much as] different languages,” said Dr. Perales. “When I’m in Spanish, part of my brain is [thinking back to] summer vacations and hanging out with my cousins.”

When it comes to clinical science, however, English is the language of choice.
 

Global leaders in HSCT

Dr. Giralt and Dr. Perales are known worldwide in the field of allogeneic HSCT, a potentially curative treatment for an elongating list of both malignant and nonmalignant diseases.

In 1973, MSKCC conducted the first bone-marrow transplant from an unrelated donor. Fifty years on, medical oncologists in the United States conduct approximately 8,500 allogeneic transplants each year, 72% to treat acute leukemias or myelodysplastic syndrome (MDS).

However, stripping the immune system with intensive chemotherapy ‘conditioning,’ then rebuilding it with non-diseased donor hematopoietic cells is a hazardous undertaking. Older patients are less likely to survive the intensive conditioning, so historically have missed out. Also, even with a good human leukocyte antigen (HLA) match, the recipient needs often brutal immunosuppression.

Since Dr. Giralt and Dr. Perales began their partnership in 2010, the goals of their work have not changed: to develop safer, lower-intensity transplantation suitable for older, more vulnerable patients and reduce fearsome posttransplant sequelae such as graft-versus-host disease (GVHD).

Dr. Giralt’s publication list spans more than 600 peer-reviewed papers, articles and book chapters, almost exclusively on HSCT. Dr. Perales has more than 300 publication credits on the topic.

The two paired up on their first paper just months after Dr. Giralt arrived at MSKCC. That article, published in Biology of Blood and Marrow Transplantation, compared umbilical cord blood for HSCT with donor blood in 367 people with a variety of hematologic malignancies, including acute and chronic leukemias, MDS, and lymphoma.

Courtesy MSKCC

The MSKCC team found that transplant-related mortality in the first 180 days was higher for the cord blood (21%), but thereafter mortality and relapse were much lower than for donated blood, with the result that 2-year progression-free survival of 55% was similar. Dr. Perales, Dr. Giralt and their coauthors concluded that the data provided “strong support” for further work on cord blood as an alternative stem-cell source.

During their first decade of collaboration, Dr. Giralt and Dr. Perales worked on any promising avenue that could improve outcomes and the experience of HSCT recipients, including reduced-intensity conditioning regimens to allow older adults to benefit from curative HSCT and donor T-cell depletion by CD34 selection, to reduce graft-versus-host disease (GVHD).

The CD34 protein is typically found on the surface of early stage and highly active stem cell types. Selecting these cell types using a range of techniques can eliminate many other potentially interfering or inactive cells. This enriches the transplant population with the most effective cells and can lower the risk of GVHD.

The 100th paper on which Dr. Giralt and Dr. Perales were coauthors was published in Blood Advances on July 27, 2021. The retrospective study examined the fate of 58 MSKCC patients with a rare form of chronic lymphocytic leukemia, CLL with Richter’s transformation (CLL-RT). It was the largest such study to date of this rare disease.
M.D. Anderson Cancer Center had shown in 2006 that, despite chemotherapy, overall survival in patients with CLL-RT was approximately 8 months. HSCT improved survival dramatically (75% at 3 years; n = 7). However, with the advent of novel targeted drugs for CLL such as ibrutinib (Imbruvica), venetoclax (Venclexta), or idelalisib (Zydelig), the MSKCC team asked themselves: What was the role of reduced-intensive conditioning HSCT? Was it even safe? Among other findings, Dr. Giralt and Dr. Perales’ 100th paper showed that reduced-intensity HSCT remained a viable alternative after a CLL-RT patient progressed on a novel agent.

Impact of the pandemic

When COVID-19 hit, the team lost many research staff and developed a huge backlog, said Dr. Giralt. He and Dr. Perales realized that they needed to be “thoughtful and careful” about which studies to continue. “For example, the CD-34 selection trials we did not close because these are our workhorse trials,” Dr. Giralt said. “We have people we need to treat, and some of the patients that we need to treat can only be treated on trial.”

The team was also able to pivot some of their work into COVID 19 itself, and they collected crucial information on HSCT in recovered COVID-19 patients, as an example.

“We were living through a critical time, but that doesn’t mean we [aren’t] obligated to continue our mission, our research mission,” said Dr. Giralt. “It really is team science. The way we look at it ... there’s a common thread: We both like to do allogeneic transplant, and we both believe in trying to make CD-34 selection better. So we’re both very much [working on] how can we improve what we call ‘the Memorial way’ of doing transplants. Where we separate is, Miguel does primarily lymphoma. He doesn’t do myeloma [like me]. So in those two areas, we’re helping develop the junior faculty in a different way.”
 

Something more in common

Right from the start, Dr. Perales and Dr. Giralt also shared a commitment to mentoring. Since 2010, Dr. Perales has mentored 22 up-and-coming junior faculty, including 10 from Europe (8 from Spain) and 2 from Latin America.

“[It makes] the research enterprise much more productive but [these young scientists] really increase the visibility of the program,” said Dr. Giralt.

He cited Dr. Perales’ track record of mentoring as one of the reasons for his promotion to chief of the adult bone marrow transplant service. In March 2020, Dr. Perales seamlessly stepped into Dr. Giralt’s shoes, while Dr. Giralt moved on to his present role as deputy division head of the division of hematologic malignancies.

Dr. Perales said: “The key aspect [of these promotions] is the fantastic working relationship that we’ve had over the years. ... I consider Sergio my mentor, but also a good friend and colleague. And so I think it’s this ability that we’ve had to work together and that relationship of trust, which has been key.”

“Sergio is somebody who lifts people up,” Dr. Perales added. “Many people will tell you that Sergio has helped them in their career. ... And I think that’s a lesson I’ve learned from him: training the next generation. And [that’s] not just in the U.S., but outside. I think that’s a key role that we have. And our responsibility.”

Asked to comment on their 100th-paper milestone, Dr. Perales firmly turned the spotlight from himself and Dr. Giralt to the junior investigators who have passed through the doors of the bone-marrow transplant program: “This body of work represents not just our collaboration but also the many contributions of our team at MSK ... and beyond MSK.”

This article was updated 1/26/22.

Two close colleagues at New York’s Memorial Sloan Kettering Cancer Center, world leaders in hematopoietic stem cell transplantation (HSCT) who were both promoted days after COVID-19 locked down the city in 2020, were too busy battling the pandemic’s impact on patients in the summer of 2021 to notice their latest shared career milestone.

On July 29, 2021, Sergio Giralt, MD, deputy division head of the division of hematologic malignancies and Miguel-Angel Perales, MD, chief of the adult bone marrow transplant service at MSKCC, published their 100th peer-reviewed paper as coauthors. Listing hundreds of such articles on a CV is standard for top-tier physicians, but the pair had gone one better: 100 publications written together in 10 years.

Their centenary article hit scientific newsstands almost exactly a decade after their first joint paper, which appeared in September 2011, not long after they met.

Born in Cuba, Dr. Giralt grew up in Venezuela. From the age of 14, he knew that medicine was his path, and in 1984 he earned a medical degree from the Universidad Central de Venezuela, Caracas. Next came a research position at Harvard Medical School, a residency at the Good Samaritan Hospital, Cincinnati, and a fellowship at the University of Texas MD Anderson Cancer Center, Houston. Dr. Giralt arrived at MSKCC in 2010 as the new chief of the adult bone marrow transplant service. There he was introduced to a new colleague, Dr. Perales. They soon learned that in addition to expertise in hematology, they had second language in common: Spanish.

Dr. Giralt said: “We both have a Spanish background and in a certain sense, there was an affinity there. ... We both have shared experiences.”

Dr. Perales was brought up in Belgium, a European nation with three official languages: French, Dutch, and German. He speaks five tongues in all and learned Spanish from his father, who came from Spain.

Courtesy MSKCC

Fluency in Spanish enables both physicians to take care of the many New Yorkers who are more comfortable in that language – especially when navigating cancer treatment. However, both Dr. Giralt and Dr. Perales said that a second language is more than a professional tool. They described the enjoyable change of persona that happens when they switch to Spanish.

“People who are multilingual have different roles [as much as] different languages,” said Dr. Perales. “When I’m in Spanish, part of my brain is [thinking back to] summer vacations and hanging out with my cousins.”

When it comes to clinical science, however, English is the language of choice.
 

Global leaders in HSCT

Dr. Giralt and Dr. Perales are known worldwide in the field of allogeneic HSCT, a potentially curative treatment for an elongating list of both malignant and nonmalignant diseases.

In 1973, MSKCC conducted the first bone-marrow transplant from an unrelated donor. Fifty years on, medical oncologists in the United States conduct approximately 8,500 allogeneic transplants each year, 72% to treat acute leukemias or myelodysplastic syndrome (MDS).

However, stripping the immune system with intensive chemotherapy ‘conditioning,’ then rebuilding it with non-diseased donor hematopoietic cells is a hazardous undertaking. Older patients are less likely to survive the intensive conditioning, so historically have missed out. Also, even with a good human leukocyte antigen (HLA) match, the recipient needs often brutal immunosuppression.

Since Dr. Giralt and Dr. Perales began their partnership in 2010, the goals of their work have not changed: to develop safer, lower-intensity transplantation suitable for older, more vulnerable patients and reduce fearsome posttransplant sequelae such as graft-versus-host disease (GVHD).

Dr. Giralt’s publication list spans more than 600 peer-reviewed papers, articles and book chapters, almost exclusively on HSCT. Dr. Perales has more than 300 publication credits on the topic.

The two paired up on their first paper just months after Dr. Giralt arrived at MSKCC. That article, published in Biology of Blood and Marrow Transplantation, compared umbilical cord blood for HSCT with donor blood in 367 people with a variety of hematologic malignancies, including acute and chronic leukemias, MDS, and lymphoma.

Courtesy MSKCC

The MSKCC team found that transplant-related mortality in the first 180 days was higher for the cord blood (21%), but thereafter mortality and relapse were much lower than for donated blood, with the result that 2-year progression-free survival of 55% was similar. Dr. Perales, Dr. Giralt and their coauthors concluded that the data provided “strong support” for further work on cord blood as an alternative stem-cell source.

During their first decade of collaboration, Dr. Giralt and Dr. Perales worked on any promising avenue that could improve outcomes and the experience of HSCT recipients, including reduced-intensity conditioning regimens to allow older adults to benefit from curative HSCT and donor T-cell depletion by CD34 selection, to reduce graft-versus-host disease (GVHD).

The CD34 protein is typically found on the surface of early stage and highly active stem cell types. Selecting these cell types using a range of techniques can eliminate many other potentially interfering or inactive cells. This enriches the transplant population with the most effective cells and can lower the risk of GVHD.

The 100th paper on which Dr. Giralt and Dr. Perales were coauthors was published in Blood Advances on July 27, 2021. The retrospective study examined the fate of 58 MSKCC patients with a rare form of chronic lymphocytic leukemia, CLL with Richter’s transformation (CLL-RT). It was the largest such study to date of this rare disease.
M.D. Anderson Cancer Center had shown in 2006 that, despite chemotherapy, overall survival in patients with CLL-RT was approximately 8 months. HSCT improved survival dramatically (75% at 3 years; n = 7). However, with the advent of novel targeted drugs for CLL such as ibrutinib (Imbruvica), venetoclax (Venclexta), or idelalisib (Zydelig), the MSKCC team asked themselves: What was the role of reduced-intensive conditioning HSCT? Was it even safe? Among other findings, Dr. Giralt and Dr. Perales’ 100th paper showed that reduced-intensity HSCT remained a viable alternative after a CLL-RT patient progressed on a novel agent.

Impact of the pandemic

When COVID-19 hit, the team lost many research staff and developed a huge backlog, said Dr. Giralt. He and Dr. Perales realized that they needed to be “thoughtful and careful” about which studies to continue. “For example, the CD-34 selection trials we did not close because these are our workhorse trials,” Dr. Giralt said. “We have people we need to treat, and some of the patients that we need to treat can only be treated on trial.”

The team was also able to pivot some of their work into COVID 19 itself, and they collected crucial information on HSCT in recovered COVID-19 patients, as an example.

“We were living through a critical time, but that doesn’t mean we [aren’t] obligated to continue our mission, our research mission,” said Dr. Giralt. “It really is team science. The way we look at it ... there’s a common thread: We both like to do allogeneic transplant, and we both believe in trying to make CD-34 selection better. So we’re both very much [working on] how can we improve what we call ‘the Memorial way’ of doing transplants. Where we separate is, Miguel does primarily lymphoma. He doesn’t do myeloma [like me]. So in those two areas, we’re helping develop the junior faculty in a different way.”
 

Something more in common

Right from the start, Dr. Perales and Dr. Giralt also shared a commitment to mentoring. Since 2010, Dr. Perales has mentored 22 up-and-coming junior faculty, including 10 from Europe (8 from Spain) and 2 from Latin America.

“[It makes] the research enterprise much more productive but [these young scientists] really increase the visibility of the program,” said Dr. Giralt.

He cited Dr. Perales’ track record of mentoring as one of the reasons for his promotion to chief of the adult bone marrow transplant service. In March 2020, Dr. Perales seamlessly stepped into Dr. Giralt’s shoes, while Dr. Giralt moved on to his present role as deputy division head of the division of hematologic malignancies.

Dr. Perales said: “The key aspect [of these promotions] is the fantastic working relationship that we’ve had over the years. ... I consider Sergio my mentor, but also a good friend and colleague. And so I think it’s this ability that we’ve had to work together and that relationship of trust, which has been key.”

“Sergio is somebody who lifts people up,” Dr. Perales added. “Many people will tell you that Sergio has helped them in their career. ... And I think that’s a lesson I’ve learned from him: training the next generation. And [that’s] not just in the U.S., but outside. I think that’s a key role that we have. And our responsibility.”

Asked to comment on their 100th-paper milestone, Dr. Perales firmly turned the spotlight from himself and Dr. Giralt to the junior investigators who have passed through the doors of the bone-marrow transplant program: “This body of work represents not just our collaboration but also the many contributions of our team at MSK ... and beyond MSK.”

This article was updated 1/26/22.

When Mechtild Harf was diagnosed with acute leukemia in 1990, physicians told her and her husband Peter that a bone marrow transplant was her best hope for survival. Back then, her native Germany had only 3,000 registered donors, and none was a match.

“My dad just went crazy, you know, to save his wife,” recalled Katharina Harf, who was a young teen at the time of her mother’s diagnosis.

Courtesy DKMS.org

In the course of 1 year, the Harfs recruited more than 68,000 potential bone marrow donors, but their heroic efforts couldn’t save Mechtild.

“She unfortunately didn’t make it. She died because of leukemia,” Katharina said.

Although Mechtild Harf did not survive, her legacy lives on in the bone marrow and stem cell donor recruitment organization DKMS (Deutsche Knochenmarkspenderdatei, or German Bone Marrow Donor Center).

In May of 1991, Peter Harf and Gerhard Ehninger, MD, the hematologist who treated Mechtild, founded DKMS with the mission, as its website states, “to provide as many blood cancer patients as possible with a second chance at life.”

From its German roots, the nonprofit organization has extended its mission to the United States (where it was initially known as Delete Blood Cancer DKMS), Poland, the United Kingdom, Chile, and in 2021, to South Africa.

Three decades after her mother’s death, Katharina Harf serves as Executive Chairwoman of DKMS U.S., based in New York.
 

World’s largest registry

“DKMS has the largest number of unrelated donors of any organization in the world,” noted Richard E. Champlin, MD, chair of the department of stem cell transplantation and cellular therapy at the University of Texas MD Anderson Cancer Center in Houston.

“In a large fraction of our donor searches, we find matches that are in the DKMS registry,” he said in an interview,

In 2022, DKMS is the largest global bone marrow donor recruitment organization, with more than 10.6 million potential donors registered. Worldwide, more than 91,000 patients have received bone marrow or stem cell grafts donated by registered volunteers.

Alexander Schmidt, MD, PhD, global chief medical officer for DKMS, said that approximately 25% of all registered donors worldwide were recruited by his organization, and 39% of all unrelated donor transplants are made with peripheral blood stem cell or bone marrow products, donated by volunteers who are recruited by DKMS.

Since its founding, DKMS has registered 7.1 million potential donors in Germany, who made a total of 80,000 stem cell donations. DKMS U.S., which began operations in 2004, has registered 1.1 million donors and enabled 4,700 donations.
 

Global partners

DKMS partners with donor centers and recruitment organizations in each country where it operates. In the United States, DKMS works with the National Marrow Donor Program (NMDP) and its “Be The Match” donor registry.

“DKMS donors, both those from DKMS in Germany and those from DKMS in the United States are also listed in the NMDP registry, to make it easier for US search coordinators to accept these donors,” Dr. Schmidt explained in an interview.

The international cooperation and coordination makes it possible for a donor in the UK, for example, to save a life of a patient in Germany, the U.S., Chile, India, or many other parts of the world – anywhere that can be reached in time for a patient in need to receive a stem cell donation.
 

Pandemic affects donations

But, as with just about every aspect of life, the COVID-19 pandemic has created enormous challenges for recruiters, donor centers, and stem cell transplant centers.

Dr. Schmidt said that decline in donations during the pandemic was less severe than initially feared, with a decrease of just 3.5% in 2020, compared with the prepandemic year of 2019. In contrast, though, the average annual growth rate for donations prior to the pandemic was about 4%.

“Nevertheless, at the beginning of the pandemic in March 2020, for a few days things looked quite terrible, because all the borders were closed and flights were canceled, and about 50% of all stem cell products go abroad, and between 20% and 25% go intercontinental,” Dr. Schmidt said.

However, close cooperation and coordination between donor centers and national health authorities soon resolved the problem and helped insure that the flow of life-saving donations could continue with minimal disruption, he noted.

“I don’t think we had any product that could not be delivered at the end of the day, due to the pandemic,” he told this news organization.
 

Workforce and clinical problems

Although the flow of donations within and between nations has continued, the COVID-19 pandemic has had profound negative effects on transplant centers, particularly during the wave of infections caused by the Omicron variant, according to a transplant expert.

“With this most recent strain and how transmissible it is, what we’re dealing with is mass workforce shortages,” said Yi-Bin Chen, MD, director of the bone marrow transplant program at Massachusetts General Hospital in Boston.

“On top of a short-staffed hospital, you then take a very transmissible variant and deplete it even more due to the need to quarantine,” he said in an interview.

Both Dr. Champlin and Dr. Chen said that on-again, off-again pandemic travel bans and donor illnesses have necessitated first obtaining products and cryopreserving them before starting the recipient on a conditioning regimen for the transplant.

“The problem is that, while you can preserve peripheral blood stem cells pretty reliably, cryopreserving bone marrow is a bit more difficult,” Dr. Chen said.

In addition, evidence from recent studies comparing stem cell sources suggest that outcomes are less good with cryopreserved products than with fresh products, and with peripheral blood stem cells compared with bone marrow.

“But you’ve got to make do. A transplant with a cryopreserved product is better than no transplant,” Dr. Chen said.

To make things even more frustrating, as the pandemic waxed and waned throughout 2020 and 2021, the recommendations from donor centers seesawed between using fresh or cryopreserved product, making it difficult to plan a transplant for an individual patient.

The Omicron wave has also resulted in a much higher rate of donor dropout than anticipated, making it that much harder to schedule a transplant, Dr. Chen noted.
 

‘Every patient saved’

The pandemic will eventually subside, however, while the need for stem cell transplantation to treat hematologic malignancies will continue.

DKMS recently launched special aid programs to improve access to stem cell transplants in developing nations by offering financial support, free HLA typing, and other services.

In addition to its core mission of recruiting donors, DKMS is dedicated to improving the quality and efficiency of stem cell transplants. For example, in 2017 scientists in DKMS’ Life Science Lab created an antibody test for donor cytomegalovirus (CMV) infection, using a simple buccal swab rather than a more invasive blood sample. CMV infections can compromise the integrity of stem cell grafts and could be fatal to immunocompromised transplant recipients.

The last word goes to Mechtild Harf’s daughter Katharina.

“My big dream is that every patient will be saved from blood cancer,” she said in a video posted on the DKMS website. “When they get sick, we have a solution for them, whether it’s because they need a donor, with research, building hospitals, providing them with the best medical care we can. I will just keep fighting and keep spreading the word, recruiting donors, raising money – all the things that it takes for us to delete blood cancer.”

“I have to believe that this dream will come true because otherwise, why dream, right?” she said.

Dr. Champlin was the recipient of a Mechtild Harf Science Award and is a member of the board of DKMS U.S. Dr. Schmidt is employed by DKMS. Dr. Chen reported having no relevant disclosures.

When Mechtild Harf was diagnosed with acute leukemia in 1990, physicians told her and her husband Peter that a bone marrow transplant was her best hope for survival. Back then, her native Germany had only 3,000 registered donors, and none was a match.

“My dad just went crazy, you know, to save his wife,” recalled Katharina Harf, who was a young teen at the time of her mother’s diagnosis.

Courtesy DKMS.org

In the course of 1 year, the Harfs recruited more than 68,000 potential bone marrow donors, but their heroic efforts couldn’t save Mechtild.

“She unfortunately didn’t make it. She died because of leukemia,” Katharina said.

Although Mechtild Harf did not survive, her legacy lives on in the bone marrow and stem cell donor recruitment organization DKMS (Deutsche Knochenmarkspenderdatei, or German Bone Marrow Donor Center).

In May of 1991, Peter Harf and Gerhard Ehninger, MD, the hematologist who treated Mechtild, founded DKMS with the mission, as its website states, “to provide as many blood cancer patients as possible with a second chance at life.”

From its German roots, the nonprofit organization has extended its mission to the United States (where it was initially known as Delete Blood Cancer DKMS), Poland, the United Kingdom, Chile, and in 2021, to South Africa.

Three decades after her mother’s death, Katharina Harf serves as Executive Chairwoman of DKMS U.S., based in New York.
 

World’s largest registry

“DKMS has the largest number of unrelated donors of any organization in the world,” noted Richard E. Champlin, MD, chair of the department of stem cell transplantation and cellular therapy at the University of Texas MD Anderson Cancer Center in Houston.

“In a large fraction of our donor searches, we find matches that are in the DKMS registry,” he said in an interview,

In 2022, DKMS is the largest global bone marrow donor recruitment organization, with more than 10.6 million potential donors registered. Worldwide, more than 91,000 patients have received bone marrow or stem cell grafts donated by registered volunteers.

Alexander Schmidt, MD, PhD, global chief medical officer for DKMS, said that approximately 25% of all registered donors worldwide were recruited by his organization, and 39% of all unrelated donor transplants are made with peripheral blood stem cell or bone marrow products, donated by volunteers who are recruited by DKMS.

Since its founding, DKMS has registered 7.1 million potential donors in Germany, who made a total of 80,000 stem cell donations. DKMS U.S., which began operations in 2004, has registered 1.1 million donors and enabled 4,700 donations.
 

Global partners

DKMS partners with donor centers and recruitment organizations in each country where it operates. In the United States, DKMS works with the National Marrow Donor Program (NMDP) and its “Be The Match” donor registry.

“DKMS donors, both those from DKMS in Germany and those from DKMS in the United States are also listed in the NMDP registry, to make it easier for US search coordinators to accept these donors,” Dr. Schmidt explained in an interview.

The international cooperation and coordination makes it possible for a donor in the UK, for example, to save a life of a patient in Germany, the U.S., Chile, India, or many other parts of the world – anywhere that can be reached in time for a patient in need to receive a stem cell donation.
 

Pandemic affects donations

But, as with just about every aspect of life, the COVID-19 pandemic has created enormous challenges for recruiters, donor centers, and stem cell transplant centers.

Dr. Schmidt said that decline in donations during the pandemic was less severe than initially feared, with a decrease of just 3.5% in 2020, compared with the prepandemic year of 2019. In contrast, though, the average annual growth rate for donations prior to the pandemic was about 4%.

“Nevertheless, at the beginning of the pandemic in March 2020, for a few days things looked quite terrible, because all the borders were closed and flights were canceled, and about 50% of all stem cell products go abroad, and between 20% and 25% go intercontinental,” Dr. Schmidt said.

However, close cooperation and coordination between donor centers and national health authorities soon resolved the problem and helped insure that the flow of life-saving donations could continue with minimal disruption, he noted.

“I don’t think we had any product that could not be delivered at the end of the day, due to the pandemic,” he told this news organization.
 

Workforce and clinical problems

Although the flow of donations within and between nations has continued, the COVID-19 pandemic has had profound negative effects on transplant centers, particularly during the wave of infections caused by the Omicron variant, according to a transplant expert.

“With this most recent strain and how transmissible it is, what we’re dealing with is mass workforce shortages,” said Yi-Bin Chen, MD, director of the bone marrow transplant program at Massachusetts General Hospital in Boston.

“On top of a short-staffed hospital, you then take a very transmissible variant and deplete it even more due to the need to quarantine,” he said in an interview.

Both Dr. Champlin and Dr. Chen said that on-again, off-again pandemic travel bans and donor illnesses have necessitated first obtaining products and cryopreserving them before starting the recipient on a conditioning regimen for the transplant.

“The problem is that, while you can preserve peripheral blood stem cells pretty reliably, cryopreserving bone marrow is a bit more difficult,” Dr. Chen said.

In addition, evidence from recent studies comparing stem cell sources suggest that outcomes are less good with cryopreserved products than with fresh products, and with peripheral blood stem cells compared with bone marrow.

“But you’ve got to make do. A transplant with a cryopreserved product is better than no transplant,” Dr. Chen said.

To make things even more frustrating, as the pandemic waxed and waned throughout 2020 and 2021, the recommendations from donor centers seesawed between using fresh or cryopreserved product, making it difficult to plan a transplant for an individual patient.

The Omicron wave has also resulted in a much higher rate of donor dropout than anticipated, making it that much harder to schedule a transplant, Dr. Chen noted.
 

‘Every patient saved’

The pandemic will eventually subside, however, while the need for stem cell transplantation to treat hematologic malignancies will continue.

DKMS recently launched special aid programs to improve access to stem cell transplants in developing nations by offering financial support, free HLA typing, and other services.

In addition to its core mission of recruiting donors, DKMS is dedicated to improving the quality and efficiency of stem cell transplants. For example, in 2017 scientists in DKMS’ Life Science Lab created an antibody test for donor cytomegalovirus (CMV) infection, using a simple buccal swab rather than a more invasive blood sample. CMV infections can compromise the integrity of stem cell grafts and could be fatal to immunocompromised transplant recipients.

The last word goes to Mechtild Harf’s daughter Katharina.

“My big dream is that every patient will be saved from blood cancer,” she said in a video posted on the DKMS website. “When they get sick, we have a solution for them, whether it’s because they need a donor, with research, building hospitals, providing them with the best medical care we can. I will just keep fighting and keep spreading the word, recruiting donors, raising money – all the things that it takes for us to delete blood cancer.”

“I have to believe that this dream will come true because otherwise, why dream, right?” she said.

Dr. Champlin was the recipient of a Mechtild Harf Science Award and is a member of the board of DKMS U.S. Dr. Schmidt is employed by DKMS. Dr. Chen reported having no relevant disclosures.

When Mechtild Harf was diagnosed with acute leukemia in 1990, physicians told her and her husband Peter that a bone marrow transplant was her best hope for survival. Back then, her native Germany had only 3,000 registered donors, and none was a match.

“My dad just went crazy, you know, to save his wife,” recalled Katharina Harf, who was a young teen at the time of her mother’s diagnosis.

Courtesy DKMS.org

In the course of 1 year, the Harfs recruited more than 68,000 potential bone marrow donors, but their heroic efforts couldn’t save Mechtild.

“She unfortunately didn’t make it. She died because of leukemia,” Katharina said.

Although Mechtild Harf did not survive, her legacy lives on in the bone marrow and stem cell donor recruitment organization DKMS (Deutsche Knochenmarkspenderdatei, or German Bone Marrow Donor Center).

In May of 1991, Peter Harf and Gerhard Ehninger, MD, the hematologist who treated Mechtild, founded DKMS with the mission, as its website states, “to provide as many blood cancer patients as possible with a second chance at life.”

From its German roots, the nonprofit organization has extended its mission to the United States (where it was initially known as Delete Blood Cancer DKMS), Poland, the United Kingdom, Chile, and in 2021, to South Africa.

Three decades after her mother’s death, Katharina Harf serves as Executive Chairwoman of DKMS U.S., based in New York.
 

World’s largest registry

“DKMS has the largest number of unrelated donors of any organization in the world,” noted Richard E. Champlin, MD, chair of the department of stem cell transplantation and cellular therapy at the University of Texas MD Anderson Cancer Center in Houston.

“In a large fraction of our donor searches, we find matches that are in the DKMS registry,” he said in an interview,

In 2022, DKMS is the largest global bone marrow donor recruitment organization, with more than 10.6 million potential donors registered. Worldwide, more than 91,000 patients have received bone marrow or stem cell grafts donated by registered volunteers.

Alexander Schmidt, MD, PhD, global chief medical officer for DKMS, said that approximately 25% of all registered donors worldwide were recruited by his organization, and 39% of all unrelated donor transplants are made with peripheral blood stem cell or bone marrow products, donated by volunteers who are recruited by DKMS.

Since its founding, DKMS has registered 7.1 million potential donors in Germany, who made a total of 80,000 stem cell donations. DKMS U.S., which began operations in 2004, has registered 1.1 million donors and enabled 4,700 donations.
 

Global partners

DKMS partners with donor centers and recruitment organizations in each country where it operates. In the United States, DKMS works with the National Marrow Donor Program (NMDP) and its “Be The Match” donor registry.

“DKMS donors, both those from DKMS in Germany and those from DKMS in the United States are also listed in the NMDP registry, to make it easier for US search coordinators to accept these donors,” Dr. Schmidt explained in an interview.

The international cooperation and coordination makes it possible for a donor in the UK, for example, to save a life of a patient in Germany, the U.S., Chile, India, or many other parts of the world – anywhere that can be reached in time for a patient in need to receive a stem cell donation.
 

Pandemic affects donations

But, as with just about every aspect of life, the COVID-19 pandemic has created enormous challenges for recruiters, donor centers, and stem cell transplant centers.

Dr. Schmidt said that decline in donations during the pandemic was less severe than initially feared, with a decrease of just 3.5% in 2020, compared with the prepandemic year of 2019. In contrast, though, the average annual growth rate for donations prior to the pandemic was about 4%.

“Nevertheless, at the beginning of the pandemic in March 2020, for a few days things looked quite terrible, because all the borders were closed and flights were canceled, and about 50% of all stem cell products go abroad, and between 20% and 25% go intercontinental,” Dr. Schmidt said.

However, close cooperation and coordination between donor centers and national health authorities soon resolved the problem and helped insure that the flow of life-saving donations could continue with minimal disruption, he noted.

“I don’t think we had any product that could not be delivered at the end of the day, due to the pandemic,” he told this news organization.
 

Workforce and clinical problems

Although the flow of donations within and between nations has continued, the COVID-19 pandemic has had profound negative effects on transplant centers, particularly during the wave of infections caused by the Omicron variant, according to a transplant expert.

“With this most recent strain and how transmissible it is, what we’re dealing with is mass workforce shortages,” said Yi-Bin Chen, MD, director of the bone marrow transplant program at Massachusetts General Hospital in Boston.

“On top of a short-staffed hospital, you then take a very transmissible variant and deplete it even more due to the need to quarantine,” he said in an interview.

Both Dr. Champlin and Dr. Chen said that on-again, off-again pandemic travel bans and donor illnesses have necessitated first obtaining products and cryopreserving them before starting the recipient on a conditioning regimen for the transplant.

“The problem is that, while you can preserve peripheral blood stem cells pretty reliably, cryopreserving bone marrow is a bit more difficult,” Dr. Chen said.

In addition, evidence from recent studies comparing stem cell sources suggest that outcomes are less good with cryopreserved products than with fresh products, and with peripheral blood stem cells compared with bone marrow.

“But you’ve got to make do. A transplant with a cryopreserved product is better than no transplant,” Dr. Chen said.

To make things even more frustrating, as the pandemic waxed and waned throughout 2020 and 2021, the recommendations from donor centers seesawed between using fresh or cryopreserved product, making it difficult to plan a transplant for an individual patient.

The Omicron wave has also resulted in a much higher rate of donor dropout than anticipated, making it that much harder to schedule a transplant, Dr. Chen noted.
 

‘Every patient saved’

The pandemic will eventually subside, however, while the need for stem cell transplantation to treat hematologic malignancies will continue.

DKMS recently launched special aid programs to improve access to stem cell transplants in developing nations by offering financial support, free HLA typing, and other services.

In addition to its core mission of recruiting donors, DKMS is dedicated to improving the quality and efficiency of stem cell transplants. For example, in 2017 scientists in DKMS’ Life Science Lab created an antibody test for donor cytomegalovirus (CMV) infection, using a simple buccal swab rather than a more invasive blood sample. CMV infections can compromise the integrity of stem cell grafts and could be fatal to immunocompromised transplant recipients.

The last word goes to Mechtild Harf’s daughter Katharina.

“My big dream is that every patient will be saved from blood cancer,” she said in a video posted on the DKMS website. “When they get sick, we have a solution for them, whether it’s because they need a donor, with research, building hospitals, providing them with the best medical care we can. I will just keep fighting and keep spreading the word, recruiting donors, raising money – all the things that it takes for us to delete blood cancer.”

“I have to believe that this dream will come true because otherwise, why dream, right?” she said.

Dr. Champlin was the recipient of a Mechtild Harf Science Award and is a member of the board of DKMS U.S. Dr. Schmidt is employed by DKMS. Dr. Chen reported having no relevant disclosures.

Tisagenlecleucel failed to outperform standard of care treatment when given as a second-line treatment for certain patients with relapsed/refractory aggressive non-Hodgkin lymphomas, according to results of a randomized, phase 3 trial.

The chimeric antigen receptor (CAR) T-cell therapy did not improve event-free survival (EFS) in this phase 3 BELINDA study, potentially because of study design decisions or imbalances in relevant patient characteristics, according to the study investigators.

Despite the negative result, insights from this study will inform the development of future clinical trials of CAR T-cell therapy, said BELINDA investigator Michael R. Bishop, MD, of the David and Etta Jonas Center for Cellular Therapy, University of Chicago.

Findings of BELINDA, presented at the annual meeting of the American Society of Hematology, stand in contrast to two other high-profile CAR T-cell therapy studies also presented at the meeting. Those other studies demonstrated significant improvements in EFS in the second-line treatment of large B-cell lymphomas.

“All of us are excited to see that the other two trials were positive, and we were hoping that ours would be as well, but there are significant differences in the trial design,” Dr. Bishop said in a press conference held at the ASH meeting.

Tisagenlecleucel (tisa-cel), an anti-CD19 CAR T-cell therapy, is already approved by the Food and Drug Administration for the treatment of patients with relapsed or refractory large B-cell lymphomas after at least two other lines of systemic therapy.

The aim of the pivotal phase 3, randomized, multicenter BELINDA study was to evaluate tisa-cel earlier in the course of treatment for patients with more aggressive disease, according to Dr. Bishop.

About two-thirds of non-Hodgkin lymphoma patients will be cured with first-line treatment. However, very poor outcomes are seen among patients with disease that does not respond to the initial treatment or that reoccurs shortly afterward, Dr. Bishop said.

The standard of care approach for those patients is second-line therapy, he noted, usually with combination chemoimmunotherapy, followed by autologous stem cell transplant if the disease responds to chemotherapy.

“Unfortunately, only a minority of those patients will be found to have chemotherapy-sensitive disease and be able to go on to autologous stem cell transplantation,” Dr. Bishop said. “And even in that subgroup of patients, the outcomes are relatively poor.”

Accordingly, the phase 3 BELINDA study enrolled patients with aggressive non-Hodgkin lymphomas that either did not respond to first-line treatment or that reoccurred within 12 months.

The primary endpoint of the study was EFS, defined as the time from randomization to either stable or progressive disease at or after a week 12 assessment or to any-cause death at any time.

While that primary endpoint was not met for tisa-cel versus standard of care therapy, two other randomized, phase 3 studies presented at the ASH meeting did demonstrate that CAR T-cell therapy extended EFS when given as a second-line lymphoma treatment.

In the randomized, phase 3 ZUMA-7 trial, axicabtagene ciloleucel (axi-cel) significantly improved EFS versus standard of care in the treatment of patients with large B-cell lymphoma refractory to or relapsed within 12 months of adequate first-line therapy, according to investigators.

Similarly, the investigators said that treatment with lisocabtagene maraleucel (liso-cel) led to a significant improvement in EFS in TRANSFORM, a randomized, phase 3 clinical trial that enrolled patients with large B-cell lymphoma that was refractory to first-line therapy or else relapsed within 12 months of that treatment.

“It’s very possible that either or both the patient characteristics and the study design is what led to the difference in the top-line study results,” lymphoma specialist Andrew M. Evens, DO, said in an interview.

There were substantial differences between the studies in terms of what was allowed as optional bridging therapy and salvage therapy, according to Dr. Evens, associate director for clinical services and director of the lymphoma program at Rutgers Cancer Institute in New Brunswick, N.J.

“In ZUMA-7, they only allowed steroids as bridging therapy,” said Dr. Evens, who was not an investigator on any of the three second-line CAR T-cell studies.

In the BELINDA study, optional platinum-based chemotherapy bridging treatment allowed in one arm of the study could have potentially delayed tisa-cel infusion until after the week 6 assessment, study investigators reported in their ASH meeting abstract.

Differences in lymphodepleting therapy prior to CAR T-cell therapy could have also played a role. According to Dr. Bishop, the total doses of cyclophosphamide and fludarabine in BELINDA were 900 mg/m2 and 75 mg/m2, respectively, while in the other two trials, doses were 1,500 mg/m² and 90 mg/m², respectively.

Lymphodepleting chemotherapy is “extremely important” in the success of CAR T-cell therapeutic approaches, he noted at the press conference.

Dr. Bishop reported receiving consultancy fees from Arcellx, Autolus Therapeutics, Bristol-Myers Squibb, CRISPR, Kite/Gilead, and Novartis. He also reported research funding from Bristol-Myers Squibb and Kite/Gilead.

Tisagenlecleucel failed to outperform standard of care treatment when given as a second-line treatment for certain patients with relapsed/refractory aggressive non-Hodgkin lymphomas, according to results of a randomized, phase 3 trial.

The chimeric antigen receptor (CAR) T-cell therapy did not improve event-free survival (EFS) in this phase 3 BELINDA study, potentially because of study design decisions or imbalances in relevant patient characteristics, according to the study investigators.

Despite the negative result, insights from this study will inform the development of future clinical trials of CAR T-cell therapy, said BELINDA investigator Michael R. Bishop, MD, of the David and Etta Jonas Center for Cellular Therapy, University of Chicago.

Findings of BELINDA, presented at the annual meeting of the American Society of Hematology, stand in contrast to two other high-profile CAR T-cell therapy studies also presented at the meeting. Those other studies demonstrated significant improvements in EFS in the second-line treatment of large B-cell lymphomas.

“All of us are excited to see that the other two trials were positive, and we were hoping that ours would be as well, but there are significant differences in the trial design,” Dr. Bishop said in a press conference held at the ASH meeting.

Tisagenlecleucel (tisa-cel), an anti-CD19 CAR T-cell therapy, is already approved by the Food and Drug Administration for the treatment of patients with relapsed or refractory large B-cell lymphomas after at least two other lines of systemic therapy.

The aim of the pivotal phase 3, randomized, multicenter BELINDA study was to evaluate tisa-cel earlier in the course of treatment for patients with more aggressive disease, according to Dr. Bishop.

About two-thirds of non-Hodgkin lymphoma patients will be cured with first-line treatment. However, very poor outcomes are seen among patients with disease that does not respond to the initial treatment or that reoccurs shortly afterward, Dr. Bishop said.

The standard of care approach for those patients is second-line therapy, he noted, usually with combination chemoimmunotherapy, followed by autologous stem cell transplant if the disease responds to chemotherapy.

“Unfortunately, only a minority of those patients will be found to have chemotherapy-sensitive disease and be able to go on to autologous stem cell transplantation,” Dr. Bishop said. “And even in that subgroup of patients, the outcomes are relatively poor.”

Accordingly, the phase 3 BELINDA study enrolled patients with aggressive non-Hodgkin lymphomas that either did not respond to first-line treatment or that reoccurred within 12 months.

The primary endpoint of the study was EFS, defined as the time from randomization to either stable or progressive disease at or after a week 12 assessment or to any-cause death at any time.

While that primary endpoint was not met for tisa-cel versus standard of care therapy, two other randomized, phase 3 studies presented at the ASH meeting did demonstrate that CAR T-cell therapy extended EFS when given as a second-line lymphoma treatment.

In the randomized, phase 3 ZUMA-7 trial, axicabtagene ciloleucel (axi-cel) significantly improved EFS versus standard of care in the treatment of patients with large B-cell lymphoma refractory to or relapsed within 12 months of adequate first-line therapy, according to investigators.

Similarly, the investigators said that treatment with lisocabtagene maraleucel (liso-cel) led to a significant improvement in EFS in TRANSFORM, a randomized, phase 3 clinical trial that enrolled patients with large B-cell lymphoma that was refractory to first-line therapy or else relapsed within 12 months of that treatment.

“It’s very possible that either or both the patient characteristics and the study design is what led to the difference in the top-line study results,” lymphoma specialist Andrew M. Evens, DO, said in an interview.

There were substantial differences between the studies in terms of what was allowed as optional bridging therapy and salvage therapy, according to Dr. Evens, associate director for clinical services and director of the lymphoma program at Rutgers Cancer Institute in New Brunswick, N.J.

“In ZUMA-7, they only allowed steroids as bridging therapy,” said Dr. Evens, who was not an investigator on any of the three second-line CAR T-cell studies.

In the BELINDA study, optional platinum-based chemotherapy bridging treatment allowed in one arm of the study could have potentially delayed tisa-cel infusion until after the week 6 assessment, study investigators reported in their ASH meeting abstract.

Differences in lymphodepleting therapy prior to CAR T-cell therapy could have also played a role. According to Dr. Bishop, the total doses of cyclophosphamide and fludarabine in BELINDA were 900 mg/m2 and 75 mg/m2, respectively, while in the other two trials, doses were 1,500 mg/m² and 90 mg/m², respectively.

Lymphodepleting chemotherapy is “extremely important” in the success of CAR T-cell therapeutic approaches, he noted at the press conference.

Dr. Bishop reported receiving consultancy fees from Arcellx, Autolus Therapeutics, Bristol-Myers Squibb, CRISPR, Kite/Gilead, and Novartis. He also reported research funding from Bristol-Myers Squibb and Kite/Gilead.

Tisagenlecleucel failed to outperform standard of care treatment when given as a second-line treatment for certain patients with relapsed/refractory aggressive non-Hodgkin lymphomas, according to results of a randomized, phase 3 trial.

The chimeric antigen receptor (CAR) T-cell therapy did not improve event-free survival (EFS) in this phase 3 BELINDA study, potentially because of study design decisions or imbalances in relevant patient characteristics, according to the study investigators.

Despite the negative result, insights from this study will inform the development of future clinical trials of CAR T-cell therapy, said BELINDA investigator Michael R. Bishop, MD, of the David and Etta Jonas Center for Cellular Therapy, University of Chicago.

Findings of BELINDA, presented at the annual meeting of the American Society of Hematology, stand in contrast to two other high-profile CAR T-cell therapy studies also presented at the meeting. Those other studies demonstrated significant improvements in EFS in the second-line treatment of large B-cell lymphomas.

“All of us are excited to see that the other two trials were positive, and we were hoping that ours would be as well, but there are significant differences in the trial design,” Dr. Bishop said in a press conference held at the ASH meeting.

Tisagenlecleucel (tisa-cel), an anti-CD19 CAR T-cell therapy, is already approved by the Food and Drug Administration for the treatment of patients with relapsed or refractory large B-cell lymphomas after at least two other lines of systemic therapy.

The aim of the pivotal phase 3, randomized, multicenter BELINDA study was to evaluate tisa-cel earlier in the course of treatment for patients with more aggressive disease, according to Dr. Bishop.

About two-thirds of non-Hodgkin lymphoma patients will be cured with first-line treatment. However, very poor outcomes are seen among patients with disease that does not respond to the initial treatment or that reoccurs shortly afterward, Dr. Bishop said.

The standard of care approach for those patients is second-line therapy, he noted, usually with combination chemoimmunotherapy, followed by autologous stem cell transplant if the disease responds to chemotherapy.

“Unfortunately, only a minority of those patients will be found to have chemotherapy-sensitive disease and be able to go on to autologous stem cell transplantation,” Dr. Bishop said. “And even in that subgroup of patients, the outcomes are relatively poor.”

Accordingly, the phase 3 BELINDA study enrolled patients with aggressive non-Hodgkin lymphomas that either did not respond to first-line treatment or that reoccurred within 12 months.

The primary endpoint of the study was EFS, defined as the time from randomization to either stable or progressive disease at or after a week 12 assessment or to any-cause death at any time.

While that primary endpoint was not met for tisa-cel versus standard of care therapy, two other randomized, phase 3 studies presented at the ASH meeting did demonstrate that CAR T-cell therapy extended EFS when given as a second-line lymphoma treatment.

In the randomized, phase 3 ZUMA-7 trial, axicabtagene ciloleucel (axi-cel) significantly improved EFS versus standard of care in the treatment of patients with large B-cell lymphoma refractory to or relapsed within 12 months of adequate first-line therapy, according to investigators.

Similarly, the investigators said that treatment with lisocabtagene maraleucel (liso-cel) led to a significant improvement in EFS in TRANSFORM, a randomized, phase 3 clinical trial that enrolled patients with large B-cell lymphoma that was refractory to first-line therapy or else relapsed within 12 months of that treatment.

“It’s very possible that either or both the patient characteristics and the study design is what led to the difference in the top-line study results,” lymphoma specialist Andrew M. Evens, DO, said in an interview.

There were substantial differences between the studies in terms of what was allowed as optional bridging therapy and salvage therapy, according to Dr. Evens, associate director for clinical services and director of the lymphoma program at Rutgers Cancer Institute in New Brunswick, N.J.

“In ZUMA-7, they only allowed steroids as bridging therapy,” said Dr. Evens, who was not an investigator on any of the three second-line CAR T-cell studies.

In the BELINDA study, optional platinum-based chemotherapy bridging treatment allowed in one arm of the study could have potentially delayed tisa-cel infusion until after the week 6 assessment, study investigators reported in their ASH meeting abstract.

Differences in lymphodepleting therapy prior to CAR T-cell therapy could have also played a role. According to Dr. Bishop, the total doses of cyclophosphamide and fludarabine in BELINDA were 900 mg/m2 and 75 mg/m2, respectively, while in the other two trials, doses were 1,500 mg/m² and 90 mg/m², respectively.

Lymphodepleting chemotherapy is “extremely important” in the success of CAR T-cell therapeutic approaches, he noted at the press conference.

Dr. Bishop reported receiving consultancy fees from Arcellx, Autolus Therapeutics, Bristol-Myers Squibb, CRISPR, Kite/Gilead, and Novartis. He also reported research funding from Bristol-Myers Squibb and Kite/Gilead.

The first report on responses to COVID-19 vaccination among patients with cancer suggests that, for these patients, the immune response that occurs after the first dose of vaccine is reduced, in comparison with the response that occurs in healthy individuals.

The new findings, which are soon to be published as a preprint, cast doubt on the current U.K. policy of delaying the second dose of the vaccine.

Delaying the second dose can leave most patients with cancer wholly or partially unprotected, according to the researchers. Moreover, such a delay has implications for transmission of SARS-CoV-2 in the cancer patient’s environs as well as for the evolution of virus variants that could be of concern, the researchers concluded.

The data come from a British study that included 151 patients with cancer and 54 healthy control persons. All participants received the COVID-19 mRNA BNT162b2 vaccine (Pfizer-BioNTech).

This vaccine requires two doses. The first few participants in this study were given the second dose 21 days after they had received the first dose, but then national guidelines changed, and the remaining participants had to wait 12 weeks to receive their second dose.

The researchers reported that, among health controls, the immune efficacy of the first dose was very high (97% efficacious). By contrast, among patients with solid tumors, the immune efficacy of a single dose was strikingly low (39%), and it was even lower in patients with hematologic malignancies (13%).

The second dose of vaccine greatly and rapidly increased the immune efficacy in patients with solid tumors (95% within 2 weeks of receiving the second dose), the researchers added.

Too few patients with hematologic cancers had received the second dose before the study ended for clear conclusions to be drawn. Nevertheless, the available data suggest that 50% of patients with hematologic cancers who had received the booster at day 21 were seropositive at 5 weeks vs. only 8% of those who had not received the booster.

“Our data provide the first real-world evidence of immune efficacy following one dose of the Pfizer vaccine in immunocompromised patient populations [and] clearly show that the poor one-dose efficacy in cancer patients can be rescued with an early booster at day 21,” commented senior author Sheeba Irshad, MD, senior clinical lecturer, King’s College London.

“Based on our findings, we would recommend an urgent review of the vaccine strategy for clinically extremely vulnerable groups. Until then, it is important that cancer patients continue to observe all public health measures in place, such as social distancing and shielding when attending hospitals, even after vaccination,” Dr. Irshad added.

The paper, with first author Leticia Monin-Aldama, PhD, is scheduled to appear on the preprint server medRxiv. It has not undergone peer review. The paper was distributed to journalists, with comments from experts not involved in the study, by the UK Science Media Centre.

These data are “of immediate importance” to patients with cancer, commented Shoba Amarnath, PhD, Newcastle University research fellow, Laboratory of T-cell Regulation, Newcastle University Center for Cancer, Newcastle upon Tyne, England.

“These findings are consistent with our understanding. … We know that the immune system within cancer patients is compromised as compared to healthy controls,” Dr. Amarnath said. “The data in the study support the notion that, in solid cancer patients, a considerable delay in second dose will extend the period when cancer patients are at risk of SARS-CoV-2 infection.”

Although more data are required, “this study does raise the issue of whether patients with cancer, other diseases, or those undergoing therapies that affect the body’s immune response should be fast-tracked for their second vaccine dose,” commented Lawrence Young, PhD, professor of molecular oncology and director of the Warwick Cancer Research Center, University of Warwick, Coventry, England.

Stephen Evans, MSc, professor of pharmacoepidemiology, London School of Hygiene and Tropical Medicine, underlined that the study is “essentially” observational and “inevitable limitations must be taken into account.

“Nevertheless, these results do suggest that the vaccines may well not protect those patients with cancer as well as those without cancer,” Mr. Evans said. He added that it is “important that this population continues to observe all COVID-19–associated measures, such as social distancing and shielding when attending hospitals, even after vaccination.”

Study details

Previous studies have shown that some patients with cancer have prolonged responses to SARS-CoV-2 infection, with ongoing immune dysregulation, inefficient seroconversion, and prolonged viral shedding.

There are few data, however, on how these patients respond to COVID-19 vaccination. The authors point out that, among the 18,860 individuals who received the Pfizer vaccine during its development trials, “none with an active oncological diagnosis was included.”

To investigate this issue, they launched the SARS-CoV-2 for Cancer Patients (SOAP-02) study.

The 151 patients with cancer who participated in this study were mostly elderly, the authors noted (75% were older than 65 years; the median age was 73 years). The majority (63%) had solid-tumor malignancies. Of those, 8% had late-stage disease and had been living with their cancer for more than 24 months.

The healthy control persons were vaccine-eligible primary health care workers who were not age matched to the cancer patients.

All participants received the first dose of vaccine; 31 (of 151) patients with cancer and 16 (of 54) healthy control persons received the second dose on day 21.

The remaining participants were scheduled to receive their second dose 12 weeks later (after the study ended), in line with the changes in the national guidelines.

The team reported that, approximately 21 days after receiving the first vaccine dose, the immune efficacy of the vaccine was estimated to be 97% among healthy control persons vs. 39% for patients with solid tumors and only 13% for those with hematologic malignancies (P < .0001 for both).

T-cell responses, as assessed via interferon-gamma and/or interleukin-2 production, were observed in 82% of healthy control persons, 71% of patients with solid tumors, and 50% of those with hematologic cancers.

Vaccine boosting at day 21 resulted in immune efficacy of 100% for healthy control persons and 95% for patients with solid tumors. In contrast, only 43% of those who did not receive the second dose were seropositive 2 weeks later.

Further analysis suggested that participants who did not have a serologic response were “spread evenly” across different cancer types, but the reduced responses were more frequent among patients who had received the vaccine within 15 days of cancer treatment, especially chemotherapy, and had undergone intensive treatments.

The SOAP study is sponsored by King’s College London and Guy’s and St. Thomas Trust Foundation NHS Trust. It is funded from grants from the KCL Charity, Cancer Research UK, and program grants from Breast Cancer Now. The investigators have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The first report on responses to COVID-19 vaccination among patients with cancer suggests that, for these patients, the immune response that occurs after the first dose of vaccine is reduced, in comparison with the response that occurs in healthy individuals.

The new findings, which are soon to be published as a preprint, cast doubt on the current U.K. policy of delaying the second dose of the vaccine.

Delaying the second dose can leave most patients with cancer wholly or partially unprotected, according to the researchers. Moreover, such a delay has implications for transmission of SARS-CoV-2 in the cancer patient’s environs as well as for the evolution of virus variants that could be of concern, the researchers concluded.

The data come from a British study that included 151 patients with cancer and 54 healthy control persons. All participants received the COVID-19 mRNA BNT162b2 vaccine (Pfizer-BioNTech).

This vaccine requires two doses. The first few participants in this study were given the second dose 21 days after they had received the first dose, but then national guidelines changed, and the remaining participants had to wait 12 weeks to receive their second dose.

The researchers reported that, among health controls, the immune efficacy of the first dose was very high (97% efficacious). By contrast, among patients with solid tumors, the immune efficacy of a single dose was strikingly low (39%), and it was even lower in patients with hematologic malignancies (13%).

The second dose of vaccine greatly and rapidly increased the immune efficacy in patients with solid tumors (95% within 2 weeks of receiving the second dose), the researchers added.

Too few patients with hematologic cancers had received the second dose before the study ended for clear conclusions to be drawn. Nevertheless, the available data suggest that 50% of patients with hematologic cancers who had received the booster at day 21 were seropositive at 5 weeks vs. only 8% of those who had not received the booster.

“Our data provide the first real-world evidence of immune efficacy following one dose of the Pfizer vaccine in immunocompromised patient populations [and] clearly show that the poor one-dose efficacy in cancer patients can be rescued with an early booster at day 21,” commented senior author Sheeba Irshad, MD, senior clinical lecturer, King’s College London.

“Based on our findings, we would recommend an urgent review of the vaccine strategy for clinically extremely vulnerable groups. Until then, it is important that cancer patients continue to observe all public health measures in place, such as social distancing and shielding when attending hospitals, even after vaccination,” Dr. Irshad added.

The paper, with first author Leticia Monin-Aldama, PhD, is scheduled to appear on the preprint server medRxiv. It has not undergone peer review. The paper was distributed to journalists, with comments from experts not involved in the study, by the UK Science Media Centre.

These data are “of immediate importance” to patients with cancer, commented Shoba Amarnath, PhD, Newcastle University research fellow, Laboratory of T-cell Regulation, Newcastle University Center for Cancer, Newcastle upon Tyne, England.

“These findings are consistent with our understanding. … We know that the immune system within cancer patients is compromised as compared to healthy controls,” Dr. Amarnath said. “The data in the study support the notion that, in solid cancer patients, a considerable delay in second dose will extend the period when cancer patients are at risk of SARS-CoV-2 infection.”

Although more data are required, “this study does raise the issue of whether patients with cancer, other diseases, or those undergoing therapies that affect the body’s immune response should be fast-tracked for their second vaccine dose,” commented Lawrence Young, PhD, professor of molecular oncology and director of the Warwick Cancer Research Center, University of Warwick, Coventry, England.

Stephen Evans, MSc, professor of pharmacoepidemiology, London School of Hygiene and Tropical Medicine, underlined that the study is “essentially” observational and “inevitable limitations must be taken into account.

“Nevertheless, these results do suggest that the vaccines may well not protect those patients with cancer as well as those without cancer,” Mr. Evans said. He added that it is “important that this population continues to observe all COVID-19–associated measures, such as social distancing and shielding when attending hospitals, even after vaccination.”

Study details

Previous studies have shown that some patients with cancer have prolonged responses to SARS-CoV-2 infection, with ongoing immune dysregulation, inefficient seroconversion, and prolonged viral shedding.

There are few data, however, on how these patients respond to COVID-19 vaccination. The authors point out that, among the 18,860 individuals who received the Pfizer vaccine during its development trials, “none with an active oncological diagnosis was included.”

To investigate this issue, they launched the SARS-CoV-2 for Cancer Patients (SOAP-02) study.

The 151 patients with cancer who participated in this study were mostly elderly, the authors noted (75% were older than 65 years; the median age was 73 years). The majority (63%) had solid-tumor malignancies. Of those, 8% had late-stage disease and had been living with their cancer for more than 24 months.

The healthy control persons were vaccine-eligible primary health care workers who were not age matched to the cancer patients.

All participants received the first dose of vaccine; 31 (of 151) patients with cancer and 16 (of 54) healthy control persons received the second dose on day 21.

The remaining participants were scheduled to receive their second dose 12 weeks later (after the study ended), in line with the changes in the national guidelines.

The team reported that, approximately 21 days after receiving the first vaccine dose, the immune efficacy of the vaccine was estimated to be 97% among healthy control persons vs. 39% for patients with solid tumors and only 13% for those with hematologic malignancies (P < .0001 for both).

T-cell responses, as assessed via interferon-gamma and/or interleukin-2 production, were observed in 82% of healthy control persons, 71% of patients with solid tumors, and 50% of those with hematologic cancers.

Vaccine boosting at day 21 resulted in immune efficacy of 100% for healthy control persons and 95% for patients with solid tumors. In contrast, only 43% of those who did not receive the second dose were seropositive 2 weeks later.

Further analysis suggested that participants who did not have a serologic response were “spread evenly” across different cancer types, but the reduced responses were more frequent among patients who had received the vaccine within 15 days of cancer treatment, especially chemotherapy, and had undergone intensive treatments.

The SOAP study is sponsored by King’s College London and Guy’s and St. Thomas Trust Foundation NHS Trust. It is funded from grants from the KCL Charity, Cancer Research UK, and program grants from Breast Cancer Now. The investigators have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The first report on responses to COVID-19 vaccination among patients with cancer suggests that, for these patients, the immune response that occurs after the first dose of vaccine is reduced, in comparison with the response that occurs in healthy individuals.

The new findings, which are soon to be published as a preprint, cast doubt on the current U.K. policy of delaying the second dose of the vaccine.

Delaying the second dose can leave most patients with cancer wholly or partially unprotected, according to the researchers. Moreover, such a delay has implications for transmission of SARS-CoV-2 in the cancer patient’s environs as well as for the evolution of virus variants that could be of concern, the researchers concluded.

The data come from a British study that included 151 patients with cancer and 54 healthy control persons. All participants received the COVID-19 mRNA BNT162b2 vaccine (Pfizer-BioNTech).

This vaccine requires two doses. The first few participants in this study were given the second dose 21 days after they had received the first dose, but then national guidelines changed, and the remaining participants had to wait 12 weeks to receive their second dose.

The researchers reported that, among health controls, the immune efficacy of the first dose was very high (97% efficacious). By contrast, among patients with solid tumors, the immune efficacy of a single dose was strikingly low (39%), and it was even lower in patients with hematologic malignancies (13%).

The second dose of vaccine greatly and rapidly increased the immune efficacy in patients with solid tumors (95% within 2 weeks of receiving the second dose), the researchers added.

Too few patients with hematologic cancers had received the second dose before the study ended for clear conclusions to be drawn. Nevertheless, the available data suggest that 50% of patients with hematologic cancers who had received the booster at day 21 were seropositive at 5 weeks vs. only 8% of those who had not received the booster.

“Our data provide the first real-world evidence of immune efficacy following one dose of the Pfizer vaccine in immunocompromised patient populations [and] clearly show that the poor one-dose efficacy in cancer patients can be rescued with an early booster at day 21,” commented senior author Sheeba Irshad, MD, senior clinical lecturer, King’s College London.

“Based on our findings, we would recommend an urgent review of the vaccine strategy for clinically extremely vulnerable groups. Until then, it is important that cancer patients continue to observe all public health measures in place, such as social distancing and shielding when attending hospitals, even after vaccination,” Dr. Irshad added.

The paper, with first author Leticia Monin-Aldama, PhD, is scheduled to appear on the preprint server medRxiv. It has not undergone peer review. The paper was distributed to journalists, with comments from experts not involved in the study, by the UK Science Media Centre.

These data are “of immediate importance” to patients with cancer, commented Shoba Amarnath, PhD, Newcastle University research fellow, Laboratory of T-cell Regulation, Newcastle University Center for Cancer, Newcastle upon Tyne, England.

“These findings are consistent with our understanding. … We know that the immune system within cancer patients is compromised as compared to healthy controls,” Dr. Amarnath said. “The data in the study support the notion that, in solid cancer patients, a considerable delay in second dose will extend the period when cancer patients are at risk of SARS-CoV-2 infection.”

Although more data are required, “this study does raise the issue of whether patients with cancer, other diseases, or those undergoing therapies that affect the body’s immune response should be fast-tracked for their second vaccine dose,” commented Lawrence Young, PhD, professor of molecular oncology and director of the Warwick Cancer Research Center, University of Warwick, Coventry, England.

Stephen Evans, MSc, professor of pharmacoepidemiology, London School of Hygiene and Tropical Medicine, underlined that the study is “essentially” observational and “inevitable limitations must be taken into account.

“Nevertheless, these results do suggest that the vaccines may well not protect those patients with cancer as well as those without cancer,” Mr. Evans said. He added that it is “important that this population continues to observe all COVID-19–associated measures, such as social distancing and shielding when attending hospitals, even after vaccination.”

Study details

Previous studies have shown that some patients with cancer have prolonged responses to SARS-CoV-2 infection, with ongoing immune dysregulation, inefficient seroconversion, and prolonged viral shedding.

There are few data, however, on how these patients respond to COVID-19 vaccination. The authors point out that, among the 18,860 individuals who received the Pfizer vaccine during its development trials, “none with an active oncological diagnosis was included.”

To investigate this issue, they launched the SARS-CoV-2 for Cancer Patients (SOAP-02) study.

The 151 patients with cancer who participated in this study were mostly elderly, the authors noted (75% were older than 65 years; the median age was 73 years). The majority (63%) had solid-tumor malignancies. Of those, 8% had late-stage disease and had been living with their cancer for more than 24 months.

The healthy control persons were vaccine-eligible primary health care workers who were not age matched to the cancer patients.

All participants received the first dose of vaccine; 31 (of 151) patients with cancer and 16 (of 54) healthy control persons received the second dose on day 21.

The remaining participants were scheduled to receive their second dose 12 weeks later (after the study ended), in line with the changes in the national guidelines.

The team reported that, approximately 21 days after receiving the first vaccine dose, the immune efficacy of the vaccine was estimated to be 97% among healthy control persons vs. 39% for patients with solid tumors and only 13% for those with hematologic malignancies (P < .0001 for both).

T-cell responses, as assessed via interferon-gamma and/or interleukin-2 production, were observed in 82% of healthy control persons, 71% of patients with solid tumors, and 50% of those with hematologic cancers.

Vaccine boosting at day 21 resulted in immune efficacy of 100% for healthy control persons and 95% for patients with solid tumors. In contrast, only 43% of those who did not receive the second dose were seropositive 2 weeks later.

Further analysis suggested that participants who did not have a serologic response were “spread evenly” across different cancer types, but the reduced responses were more frequent among patients who had received the vaccine within 15 days of cancer treatment, especially chemotherapy, and had undergone intensive treatments.

The SOAP study is sponsored by King’s College London and Guy’s and St. Thomas Trust Foundation NHS Trust. It is funded from grants from the KCL Charity, Cancer Research UK, and program grants from Breast Cancer Now. The investigators have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Since joining the Food and Drug Administration in 1986, Janet Woodcock, MD, has built a reputation as a stalwart champion of patients and consumers, from helping to usher the approval of the first treatments for cystic fibrosis and multiple sclerosis during her tenure as director of the Office of Therapeutics Research and Review, to introducing the concept of risk management in the agency’s analysis of drug safety during her role as acting director of the Center for Drug Evaluation and Research (CDER).

During an online event on Oct. 9, Dr. Woodcock, who became CDER’s director in 2008, will receive a lifetime achievement award from the National Organization for Rare Disorders*. In this interview, she reflects on the CDER’s accomplishments in the field of rare diseases, from which she draws inspiration, and what it’s like to be overseeing the therapeutics component of Operation Warp Speed amid the COVID-19 pandemic.

Q: In what practical ways can physicians become advocates for patients and their families who are navigating life with a rare disease?

Dr. Woodcock: I advise people to get involved in the association or advocacy group for their rare disease. It’s empowering. They can share stories and information with others who have been suffering from the disease. Also, they would get information about what trials might be available. As for physicians themselves, they have a bewildering variety of jobs they’re supposed to do, so it’s hard to be good in any one of them. People with rare disease often suffer terribly because they don’t get diagnosed for 10 years even though they have classic symptoms of a particular disorder. If physicians have never seen it or never heard of it, they may not know how to treat it. It’s a huge problem.



Q: Who inspires you most in your work today?

Dr. Woodcock: The dedication of the staff at the FDA is unbelievable. When you look at responses to the Federal Employee Viewpoint Survey administered by the Office of Personnel Management, FDA workers consistently express a strong sense of mission and dedication. It’s out of the park, really. They have worked night and day during this pandemic. I’m inspired by everyone who works at the FDA and their incredible dedication to their work.

Q: In what ways do you cope with the pressure that comes with your line of work? Do you have a favorite hobby or that activity that helps keep you grounded?

Dr. Woodcock: I’m an avid gardener, so I have a garden with vegetables, fruits, and flowers, including a large orchid collection. I’m also a hiker and a physical fitness buff, so I feel like there isn’t enough time in the day for all of my hobbies. Formal hiking trails near me are very crowded now, so I’ve been hiking around my neighborhood, taking long walks and going up and down hills quickly. Last November, I went hiking in New Zealand with my daughter. We hiked the Milford Track, which is about 33 miles long. It goes from an inland lake, over a mountain pass, and to the Pacific Ocean. It was fun, with unbelievable scenery.



Q: What novel treatment developments in rare disorders are you most excited about in the next 5 years?

Dr. Woodcock: I think gene therapy will come into its own. I think that could be a game-changer for people with genetic mutations causing rare diseases, and even cancer. We’ll see. It takes the technology a long time to mature. There are also gene-directed therapies such as RNA inhibition. We’ve already approved a couple of products like that for rare diseases, including treatments for the cardiomyopathy and neuropathy associated with ATTR amyloidosis. As our knowledge of biology continues to grow, I think more of these diseases will be amenable to interventions.



Q: In May of 2020 you were asked to temporarily step aside from your post as director of CDER to work on Operation Warp Speed. Please describe what your role is in this effort to accelerate COVID-19 treatments.

Dr. Woodcock: I’m the lead on therapeutics. Operation Warp Speed is mainly focused on developing vaccines for COVID-19. In the meantime, people who don’t respond to vaccines are going to need therapeutics, such as the elderly, or those who refuse to take vaccines, or those who are immunosuppressed and can’t mount a response to a vaccine. If we can develop those therapeutics now, that would be good to get that populous vaccinated. The team identified what we thought were the five highest priority agents to work on, and we’re testing them. We have identified many more in a priority list. We have five master protocols running for different times in the disease, such as when you’re an outpatient, when you’re an inpatient, or when you’re in the ICU. The work is stressful, because we need these treatments as soon as possible, but we have a great team working on this. I feel like I’m making a contribution in this role, because I know people in industry and in the National Institutes of Health. I try to bring everyone together and get things done.

*Correction, 10/22/20: An earlier version of this article misstated the name of the National Organization for Rare Disorders.

[email protected]

Since joining the Food and Drug Administration in 1986, Janet Woodcock, MD, has built a reputation as a stalwart champion of patients and consumers, from helping to usher the approval of the first treatments for cystic fibrosis and multiple sclerosis during her tenure as director of the Office of Therapeutics Research and Review, to introducing the concept of risk management in the agency’s analysis of drug safety during her role as acting director of the Center for Drug Evaluation and Research (CDER).

During an online event on Oct. 9, Dr. Woodcock, who became CDER’s director in 2008, will receive a lifetime achievement award from the National Organization for Rare Disorders*. In this interview, she reflects on the CDER’s accomplishments in the field of rare diseases, from which she draws inspiration, and what it’s like to be overseeing the therapeutics component of Operation Warp Speed amid the COVID-19 pandemic.

Q: In what practical ways can physicians become advocates for patients and their families who are navigating life with a rare disease?

Dr. Woodcock: I advise people to get involved in the association or advocacy group for their rare disease. It’s empowering. They can share stories and information with others who have been suffering from the disease. Also, they would get information about what trials might be available. As for physicians themselves, they have a bewildering variety of jobs they’re supposed to do, so it’s hard to be good in any one of them. People with rare disease often suffer terribly because they don’t get diagnosed for 10 years even though they have classic symptoms of a particular disorder. If physicians have never seen it or never heard of it, they may not know how to treat it. It’s a huge problem.



Q: Who inspires you most in your work today?

Dr. Woodcock: The dedication of the staff at the FDA is unbelievable. When you look at responses to the Federal Employee Viewpoint Survey administered by the Office of Personnel Management, FDA workers consistently express a strong sense of mission and dedication. It’s out of the park, really. They have worked night and day during this pandemic. I’m inspired by everyone who works at the FDA and their incredible dedication to their work.

Q: In what ways do you cope with the pressure that comes with your line of work? Do you have a favorite hobby or that activity that helps keep you grounded?

Dr. Woodcock: I’m an avid gardener, so I have a garden with vegetables, fruits, and flowers, including a large orchid collection. I’m also a hiker and a physical fitness buff, so I feel like there isn’t enough time in the day for all of my hobbies. Formal hiking trails near me are very crowded now, so I’ve been hiking around my neighborhood, taking long walks and going up and down hills quickly. Last November, I went hiking in New Zealand with my daughter. We hiked the Milford Track, which is about 33 miles long. It goes from an inland lake, over a mountain pass, and to the Pacific Ocean. It was fun, with unbelievable scenery.



Q: What novel treatment developments in rare disorders are you most excited about in the next 5 years?

Dr. Woodcock: I think gene therapy will come into its own. I think that could be a game-changer for people with genetic mutations causing rare diseases, and even cancer. We’ll see. It takes the technology a long time to mature. There are also gene-directed therapies such as RNA inhibition. We’ve already approved a couple of products like that for rare diseases, including treatments for the cardiomyopathy and neuropathy associated with ATTR amyloidosis. As our knowledge of biology continues to grow, I think more of these diseases will be amenable to interventions.



Q: In May of 2020 you were asked to temporarily step aside from your post as director of CDER to work on Operation Warp Speed. Please describe what your role is in this effort to accelerate COVID-19 treatments.

Dr. Woodcock: I’m the lead on therapeutics. Operation Warp Speed is mainly focused on developing vaccines for COVID-19. In the meantime, people who don’t respond to vaccines are going to need therapeutics, such as the elderly, or those who refuse to take vaccines, or those who are immunosuppressed and can’t mount a response to a vaccine. If we can develop those therapeutics now, that would be good to get that populous vaccinated. The team identified what we thought were the five highest priority agents to work on, and we’re testing them. We have identified many more in a priority list. We have five master protocols running for different times in the disease, such as when you’re an outpatient, when you’re an inpatient, or when you’re in the ICU. The work is stressful, because we need these treatments as soon as possible, but we have a great team working on this. I feel like I’m making a contribution in this role, because I know people in industry and in the National Institutes of Health. I try to bring everyone together and get things done.

*Correction, 10/22/20: An earlier version of this article misstated the name of the National Organization for Rare Disorders.

[email protected]

Since joining the Food and Drug Administration in 1986, Janet Woodcock, MD, has built a reputation as a stalwart champion of patients and consumers, from helping to usher the approval of the first treatments for cystic fibrosis and multiple sclerosis during her tenure as director of the Office of Therapeutics Research and Review, to introducing the concept of risk management in the agency’s analysis of drug safety during her role as acting director of the Center for Drug Evaluation and Research (CDER).

During an online event on Oct. 9, Dr. Woodcock, who became CDER’s director in 2008, will receive a lifetime achievement award from the National Organization for Rare Disorders*. In this interview, she reflects on the CDER’s accomplishments in the field of rare diseases, from which she draws inspiration, and what it’s like to be overseeing the therapeutics component of Operation Warp Speed amid the COVID-19 pandemic.

Q: In what practical ways can physicians become advocates for patients and their families who are navigating life with a rare disease?

Dr. Woodcock: I advise people to get involved in the association or advocacy group for their rare disease. It’s empowering. They can share stories and information with others who have been suffering from the disease. Also, they would get information about what trials might be available. As for physicians themselves, they have a bewildering variety of jobs they’re supposed to do, so it’s hard to be good in any one of them. People with rare disease often suffer terribly because they don’t get diagnosed for 10 years even though they have classic symptoms of a particular disorder. If physicians have never seen it or never heard of it, they may not know how to treat it. It’s a huge problem.



Q: Who inspires you most in your work today?

Dr. Woodcock: The dedication of the staff at the FDA is unbelievable. When you look at responses to the Federal Employee Viewpoint Survey administered by the Office of Personnel Management, FDA workers consistently express a strong sense of mission and dedication. It’s out of the park, really. They have worked night and day during this pandemic. I’m inspired by everyone who works at the FDA and their incredible dedication to their work.

Q: In what ways do you cope with the pressure that comes with your line of work? Do you have a favorite hobby or that activity that helps keep you grounded?

Dr. Woodcock: I’m an avid gardener, so I have a garden with vegetables, fruits, and flowers, including a large orchid collection. I’m also a hiker and a physical fitness buff, so I feel like there isn’t enough time in the day for all of my hobbies. Formal hiking trails near me are very crowded now, so I’ve been hiking around my neighborhood, taking long walks and going up and down hills quickly. Last November, I went hiking in New Zealand with my daughter. We hiked the Milford Track, which is about 33 miles long. It goes from an inland lake, over a mountain pass, and to the Pacific Ocean. It was fun, with unbelievable scenery.



Q: What novel treatment developments in rare disorders are you most excited about in the next 5 years?

Dr. Woodcock: I think gene therapy will come into its own. I think that could be a game-changer for people with genetic mutations causing rare diseases, and even cancer. We’ll see. It takes the technology a long time to mature. There are also gene-directed therapies such as RNA inhibition. We’ve already approved a couple of products like that for rare diseases, including treatments for the cardiomyopathy and neuropathy associated with ATTR amyloidosis. As our knowledge of biology continues to grow, I think more of these diseases will be amenable to interventions.



Q: In May of 2020 you were asked to temporarily step aside from your post as director of CDER to work on Operation Warp Speed. Please describe what your role is in this effort to accelerate COVID-19 treatments.

Dr. Woodcock: I’m the lead on therapeutics. Operation Warp Speed is mainly focused on developing vaccines for COVID-19. In the meantime, people who don’t respond to vaccines are going to need therapeutics, such as the elderly, or those who refuse to take vaccines, or those who are immunosuppressed and can’t mount a response to a vaccine. If we can develop those therapeutics now, that would be good to get that populous vaccinated. The team identified what we thought were the five highest priority agents to work on, and we’re testing them. We have identified many more in a priority list. We have five master protocols running for different times in the disease, such as when you’re an outpatient, when you’re an inpatient, or when you’re in the ICU. The work is stressful, because we need these treatments as soon as possible, but we have a great team working on this. I feel like I’m making a contribution in this role, because I know people in industry and in the National Institutes of Health. I try to bring everyone together and get things done.

*Correction, 10/22/20: An earlier version of this article misstated the name of the National Organization for Rare Disorders.

[email protected]

An international survey provides new insights into how COVID-19 has affected, and may continue to affect, the field of oncology.

The survey showed that “COVID-19 has had a major impact on the organization of patient care, on the well-being of caregivers, on continued medical education, and on clinical trial activities in oncology,” stated Guy Jerusalem, MD, PhD, of Centre Hospitalier Universitaire de Liège (Belgium).

Dr. Jerusalem presented these findings at the European Society for Medical Oncology Virtual Congress 2020.

The survey was distributed by 20 oncologists from 10 of the countries most affected by COVID-19. Responses were obtained from 109 oncologists representing centers in 18 countries. The responses were recorded between June 17 and July 14, 2020.

The survey consisted of 95 items intended to evaluate the impact of COVID-19 on the organization of oncologic care. Questions encompassed the capacity and service offered at each center, the magnitude of COVID-19–based care interruptions and the reasons for them, the ensuing challenges faced, interventions implemented, and the estimated harms to patients during the pandemic.

The 109 oncologists surveyed had a median of 20 years of oncology experience. A majority of respondents were men (61.5%), and the median age was 48.5 years.

The respondents had worked predominantly (62.4%) at academic hospitals, with 29.6% at community hospitals. Most respondents worked at general hospitals with an oncology unit (66.1%) rather than a specialized separate cancer center (32.1%).

The most common specialty was breast cancer (60.6%), followed by gastrointestinal cancer (10.1%), urogenital cancer (9.2%), and lung cancer (8.3%).
 

Impact on treatment

The treatment modalities affected by the pandemic – through cancellations or delays in more than 10% of patients – included surgery (in 34% of centers), chemotherapy (22%), radiotherapy (13.7%), checkpoint inhibitor therapy (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Among oncologists treating breast cancer, cancellations/delays in more than 10% of patients were reported for everolimus (18%), CDK4/6 inhibitors (8.9%), and endocrine therapy (2.2%).

Overall, 34.8% of respondents reported increased use of granulocyte colony–stimulating factor, and 6.4% reported increased use of erythropoietin.

On the other hand, 11.1% of respondents reported a decrease in the use of double immunotherapy, and 21.9% reported decreased use of corticosteroids.

Not only can the immunosuppressive effects of steroid use increase infection risks, Dr. Jerusalem noted, fever suppression can lead to a delayed diagnosis of COVID-19.

“To circumvent potential higher infection risks or greater disease severity, we use lower doses of steroids, but this is not based on studies,” he said.

“Previous exposure to steroids or being on steroids at the time of COVID-19 infection is a detrimental factor for complications and mortality,” commented ESMO President Solange Peters, MD, PhD, of Centre Hospitalier Universitaire Vaudois in Lausanne, Switzerland.

Frontline Medical News

Dr. Peters noted that the observation was based on lung cancer registry findings. Furthermore, because data from smaller outbreaks of other coronavirus infections suggested worse prognosis and increased mortality, steroid use was already feared in the very early days of the COVID-19 pandemic.

Lastly, earlier cessation of palliative treatment was observed in 32.1% of centers, and 64.2% of respondents agreed that undertreatment because of COVID-19 is a major concern.

Dr. Jerusalem noted that the survey data do not explain the early cessation of palliative treatment. “I suspect that many patients died at home rather than alone in institutions because it was the only way they could die with their families around them.”
 

Telehealth, meetings, and trials

The survey also revealed rationales for the use of teleconsultation, including follow-up (94.5%), oral therapy (92.7%), immunotherapy (57.8%), and chemotherapy (55%).

Most respondents reported more frequent use of virtual meetings for continuing medical education (94%), oncologic team meetings (92%), and tumor boards (82%).

While about 82% of respondents said they were likely to continue the use of telemedicine, 45% said virtual conferences are not an acceptable alternative to live international conferences such as ESMO, Dr. Jerusalem said.

Finally, nearly three-quarters of respondents (72.5%) said all clinical trial activities are or will soon be activated, or never stopped, at their centers. On the other hand, 27.5% of respondents reported that their centers had major protocol violations or deviations, and 37% of respondents said they expect significant reductions in clinical trial activities this year.

Dr. Jerusalem concluded that COVID-19 is having a major, long-term impact on the organization of patient care, caregivers, continued medical education, and clinical trial activities in oncology.

He cautioned that “the risk of a delayed diagnosis of new cancers and economic consequences of COVID-19 on access to health care and cancer treatments have to be carefully evaluated.”

This research was funded by Fondation Léon Fredericq. Dr. Jerusalem disclosed relationships with Novartis, Roche, Lilly, Pfizer, Amgen, Bristol-Myers Squibb, AstraZeneca, Daiichi Sankyo, AbbVie, MedImmune, and Merck. Dr. Peters disclosed relationships with AbbVie, Amgen, AstraZeneca, and many other companies.

SOURCE: Jerusalem G et al. ESMO 2020, Abstract LBA76.

An international survey provides new insights into how COVID-19 has affected, and may continue to affect, the field of oncology.

The survey showed that “COVID-19 has had a major impact on the organization of patient care, on the well-being of caregivers, on continued medical education, and on clinical trial activities in oncology,” stated Guy Jerusalem, MD, PhD, of Centre Hospitalier Universitaire de Liège (Belgium).

Dr. Jerusalem presented these findings at the European Society for Medical Oncology Virtual Congress 2020.

The survey was distributed by 20 oncologists from 10 of the countries most affected by COVID-19. Responses were obtained from 109 oncologists representing centers in 18 countries. The responses were recorded between June 17 and July 14, 2020.

The survey consisted of 95 items intended to evaluate the impact of COVID-19 on the organization of oncologic care. Questions encompassed the capacity and service offered at each center, the magnitude of COVID-19–based care interruptions and the reasons for them, the ensuing challenges faced, interventions implemented, and the estimated harms to patients during the pandemic.

The 109 oncologists surveyed had a median of 20 years of oncology experience. A majority of respondents were men (61.5%), and the median age was 48.5 years.

The respondents had worked predominantly (62.4%) at academic hospitals, with 29.6% at community hospitals. Most respondents worked at general hospitals with an oncology unit (66.1%) rather than a specialized separate cancer center (32.1%).

The most common specialty was breast cancer (60.6%), followed by gastrointestinal cancer (10.1%), urogenital cancer (9.2%), and lung cancer (8.3%).
 

Impact on treatment

The treatment modalities affected by the pandemic – through cancellations or delays in more than 10% of patients – included surgery (in 34% of centers), chemotherapy (22%), radiotherapy (13.7%), checkpoint inhibitor therapy (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Among oncologists treating breast cancer, cancellations/delays in more than 10% of patients were reported for everolimus (18%), CDK4/6 inhibitors (8.9%), and endocrine therapy (2.2%).

Overall, 34.8% of respondents reported increased use of granulocyte colony–stimulating factor, and 6.4% reported increased use of erythropoietin.

On the other hand, 11.1% of respondents reported a decrease in the use of double immunotherapy, and 21.9% reported decreased use of corticosteroids.

Not only can the immunosuppressive effects of steroid use increase infection risks, Dr. Jerusalem noted, fever suppression can lead to a delayed diagnosis of COVID-19.

“To circumvent potential higher infection risks or greater disease severity, we use lower doses of steroids, but this is not based on studies,” he said.

“Previous exposure to steroids or being on steroids at the time of COVID-19 infection is a detrimental factor for complications and mortality,” commented ESMO President Solange Peters, MD, PhD, of Centre Hospitalier Universitaire Vaudois in Lausanne, Switzerland.

Frontline Medical News

Dr. Peters noted that the observation was based on lung cancer registry findings. Furthermore, because data from smaller outbreaks of other coronavirus infections suggested worse prognosis and increased mortality, steroid use was already feared in the very early days of the COVID-19 pandemic.

Lastly, earlier cessation of palliative treatment was observed in 32.1% of centers, and 64.2% of respondents agreed that undertreatment because of COVID-19 is a major concern.

Dr. Jerusalem noted that the survey data do not explain the early cessation of palliative treatment. “I suspect that many patients died at home rather than alone in institutions because it was the only way they could die with their families around them.”
 

Telehealth, meetings, and trials

The survey also revealed rationales for the use of teleconsultation, including follow-up (94.5%), oral therapy (92.7%), immunotherapy (57.8%), and chemotherapy (55%).

Most respondents reported more frequent use of virtual meetings for continuing medical education (94%), oncologic team meetings (92%), and tumor boards (82%).

While about 82% of respondents said they were likely to continue the use of telemedicine, 45% said virtual conferences are not an acceptable alternative to live international conferences such as ESMO, Dr. Jerusalem said.

Finally, nearly three-quarters of respondents (72.5%) said all clinical trial activities are or will soon be activated, or never stopped, at their centers. On the other hand, 27.5% of respondents reported that their centers had major protocol violations or deviations, and 37% of respondents said they expect significant reductions in clinical trial activities this year.

Dr. Jerusalem concluded that COVID-19 is having a major, long-term impact on the organization of patient care, caregivers, continued medical education, and clinical trial activities in oncology.

He cautioned that “the risk of a delayed diagnosis of new cancers and economic consequences of COVID-19 on access to health care and cancer treatments have to be carefully evaluated.”

This research was funded by Fondation Léon Fredericq. Dr. Jerusalem disclosed relationships with Novartis, Roche, Lilly, Pfizer, Amgen, Bristol-Myers Squibb, AstraZeneca, Daiichi Sankyo, AbbVie, MedImmune, and Merck. Dr. Peters disclosed relationships with AbbVie, Amgen, AstraZeneca, and many other companies.

SOURCE: Jerusalem G et al. ESMO 2020, Abstract LBA76.

An international survey provides new insights into how COVID-19 has affected, and may continue to affect, the field of oncology.

The survey showed that “COVID-19 has had a major impact on the organization of patient care, on the well-being of caregivers, on continued medical education, and on clinical trial activities in oncology,” stated Guy Jerusalem, MD, PhD, of Centre Hospitalier Universitaire de Liège (Belgium).

Dr. Jerusalem presented these findings at the European Society for Medical Oncology Virtual Congress 2020.

The survey was distributed by 20 oncologists from 10 of the countries most affected by COVID-19. Responses were obtained from 109 oncologists representing centers in 18 countries. The responses were recorded between June 17 and July 14, 2020.

The survey consisted of 95 items intended to evaluate the impact of COVID-19 on the organization of oncologic care. Questions encompassed the capacity and service offered at each center, the magnitude of COVID-19–based care interruptions and the reasons for them, the ensuing challenges faced, interventions implemented, and the estimated harms to patients during the pandemic.

The 109 oncologists surveyed had a median of 20 years of oncology experience. A majority of respondents were men (61.5%), and the median age was 48.5 years.

The respondents had worked predominantly (62.4%) at academic hospitals, with 29.6% at community hospitals. Most respondents worked at general hospitals with an oncology unit (66.1%) rather than a specialized separate cancer center (32.1%).

The most common specialty was breast cancer (60.6%), followed by gastrointestinal cancer (10.1%), urogenital cancer (9.2%), and lung cancer (8.3%).
 

Impact on treatment

The treatment modalities affected by the pandemic – through cancellations or delays in more than 10% of patients – included surgery (in 34% of centers), chemotherapy (22%), radiotherapy (13.7%), checkpoint inhibitor therapy (9.1%), monoclonal antibodies (9%), and oral targeted therapy (3.7%).

Among oncologists treating breast cancer, cancellations/delays in more than 10% of patients were reported for everolimus (18%), CDK4/6 inhibitors (8.9%), and endocrine therapy (2.2%).

Overall, 34.8% of respondents reported increased use of granulocyte colony–stimulating factor, and 6.4% reported increased use of erythropoietin.

On the other hand, 11.1% of respondents reported a decrease in the use of double immunotherapy, and 21.9% reported decreased use of corticosteroids.

Not only can the immunosuppressive effects of steroid use increase infection risks, Dr. Jerusalem noted, fever suppression can lead to a delayed diagnosis of COVID-19.

“To circumvent potential higher infection risks or greater disease severity, we use lower doses of steroids, but this is not based on studies,” he said.

“Previous exposure to steroids or being on steroids at the time of COVID-19 infection is a detrimental factor for complications and mortality,” commented ESMO President Solange Peters, MD, PhD, of Centre Hospitalier Universitaire Vaudois in Lausanne, Switzerland.

Frontline Medical News

Dr. Peters noted that the observation was based on lung cancer registry findings. Furthermore, because data from smaller outbreaks of other coronavirus infections suggested worse prognosis and increased mortality, steroid use was already feared in the very early days of the COVID-19 pandemic.

Lastly, earlier cessation of palliative treatment was observed in 32.1% of centers, and 64.2% of respondents agreed that undertreatment because of COVID-19 is a major concern.

Dr. Jerusalem noted that the survey data do not explain the early cessation of palliative treatment. “I suspect that many patients died at home rather than alone in institutions because it was the only way they could die with their families around them.”
 

Telehealth, meetings, and trials

The survey also revealed rationales for the use of teleconsultation, including follow-up (94.5%), oral therapy (92.7%), immunotherapy (57.8%), and chemotherapy (55%).

Most respondents reported more frequent use of virtual meetings for continuing medical education (94%), oncologic team meetings (92%), and tumor boards (82%).

While about 82% of respondents said they were likely to continue the use of telemedicine, 45% said virtual conferences are not an acceptable alternative to live international conferences such as ESMO, Dr. Jerusalem said.

Finally, nearly three-quarters of respondents (72.5%) said all clinical trial activities are or will soon be activated, or never stopped, at their centers. On the other hand, 27.5% of respondents reported that their centers had major protocol violations or deviations, and 37% of respondents said they expect significant reductions in clinical trial activities this year.

Dr. Jerusalem concluded that COVID-19 is having a major, long-term impact on the organization of patient care, caregivers, continued medical education, and clinical trial activities in oncology.

He cautioned that “the risk of a delayed diagnosis of new cancers and economic consequences of COVID-19 on access to health care and cancer treatments have to be carefully evaluated.”

This research was funded by Fondation Léon Fredericq. Dr. Jerusalem disclosed relationships with Novartis, Roche, Lilly, Pfizer, Amgen, Bristol-Myers Squibb, AstraZeneca, Daiichi Sankyo, AbbVie, MedImmune, and Merck. Dr. Peters disclosed relationships with AbbVie, Amgen, AstraZeneca, and many other companies.

SOURCE: Jerusalem G et al. ESMO 2020, Abstract LBA76.

All patients with cancer who are candidates for systemic anticancer therapy should be screened for hepatitis B virus (HBV) infection prior to or at the start of therapy, according to an updated provisional clinical opinion (PCO) from the American Society of Clinical Oncology.

“This is a new approach [that] will actively take system changes ... but it will ultimately be safer for patients – and that is crucial,” commented Jessica P. Hwang, MD, MPH, cochair of the American Society of Clinical Oncology HBV Screening Expert Panel and the first author of the PCO.

Uptake of this universal screening approach would streamline testing protocols and identify more patients at risk for HBV reactivation who should receive prophylactic antiviral therapy, Dr. Hwang said in an interview.

The PCO calls for antiviral prophylaxis during and for at least 12 months after therapy for those with chronic HBV infection who are receiving any systemic anticancer treatment and for those with have had HBV in the past and are receiving any therapies that pose a risk for HBV reactivation.

“Hepatitis B reactivation can cause really terrible outcomes, like organ failure and even death,” Dr. Hwang, who is also a professor at the University of Texas MD Anderson Cancer Center, Houston, commented in an interview.

“This whole [issue of] reactivation and adverse outcomes with anticancer therapies is completely preventable with good planning, good communication, comanagement with specialists, and antiviral therapy and monitoring,” she added.

The updated opinion was published online July 27 in the Journal of Clinical Oncology.

It was developed in response to new data that call into question the previously recommended risk-adaptive approach to HBV screening of cancer patients, say the authors.

ASCO PCOs are developed “to provide timely clinical guidance” on the basis of emerging practice-changing information. This is the second update to follow the initial HBV screening PCO, published in 2010. In the absence of clear consensus because of limited data, the original PCO called for a risk-based approach to screening. A 2015 update extended the recommendation for screening to patients starting anti-CD20 therapy or who are to undergo stem cell transplant and to those with risk factors for HBV exposure.

The current update provides “a clinically pragmatic approach to HBV screening and management” that is based on the latest findings, say the authors. These include findings from a multicenter prospective cohort study of more than 3000 patients. In that study, 21% of patients with chronic HBV had no known risk factors for the infection. In another large prospective observational cohort study, led by Dr. Hwang, which included more than 2100 patients with cancer, 90% had one or more significant risk factors for HBV infection, making selective screening “inefficient and impractical,” she said.

“The results of these two studies suggest that a universal screening approach, its potential harms (e.g., patient and clinician anxiety about management, financial burden associated with antiviral therapy) notwithstanding, is the most efficient, clinically pragmatic approach to HBV screening in persons anticipating systemic anticancer treatment,” the authors comment.

The screening recommended in the PCO requires three tests: hepatitis B surface antigen (HBsAg), core antibody total immunoglobulin or IgG, and antibody to HBsAg tests.

Anticancer therapy should not be delayed pending the results, they write.

Planning for monitoring and long-term prophylaxis for chronic HBV infection should involve a clinician experienced in HBV management, the authors write. Management of those with past infection should be individualized. Alternatively, patients with past infection can be carefully monitored rather than given prophylactic treatment, as long as frequent and consistent follow-up is possible to allow for rapid initiation of antiviral therapy in the event of reactivation, they say.

Hormonal therapy without systemic anticancer therapy is not likely to lead to HBV reactivation in patients with chronic or past infection; antiviral therapy and management of these patients should follow relevant national HBV guidelines, they note.

Challenges in implementing universal HBV screening

The expert panel acknowledges the challenges associated with implementation of universal HBV screening as recommended in their report and notes that electronic health record–based approaches that use alerts to prompt screening have demonstrated success. In one study of high-risk primary care patients, an EHR alert system significantly increased testing rates (odds ratio, 2.64 in comparison with a control group without alerts), and another study that used a simple “sticky-note” alert system to promote referral of HBsAg patients to hepatologists increased referrals from 28% to 73%.

In a cancer population, a “comprehensive set of multimodal interventions,” including pharmacy staff checks for screening prior to anti-CD20 therapy administration and electronic medication order reviews to assess for appropriate testing and treatment before anti-CD20 therapy, increased testing rates to greater than 90% and antiviral prophylaxis rates to more than 80%.

A study of 965 patients in Taiwan showed that a computer-assisted reminder system that prompted for testing prior to ordering anticancer therapy increased screening from 8% to 86% but was less effective for improving the rates of antiviral prophylaxis for those who tested positive for HBV, particularly among physicians treating patients with nonhematologic malignancies.

“Future studies will be needed to make universal HBV screening and linkage to care efficient and systematic, likely based in EHR systems,” the panel says. The authors note that “[o]ngoing studies of HBV tests such as ultrasensitive HBsAg, HBV RNA, and hepatitis B core antigen are being studied and may be useful in predicting risk of HBV reactivation.”

The panel also identified a research gap related to HBV reactivation risks “for the growing list of agents that deplete or modulate B cells.” It notes a need for additional research on the cost-effectiveness of HBV screening. The results of prior cost analyses have been inconsistent and vary with respect to the population studied. For example, universal screening and antiviral prophylaxis approaches have been shown to be cost-effective for patients with hematologic malignancies and high HBV reactivation risk but are less so for patients with solid tumors and lower reactivation risk, they explain.

Dr. Hwang said that not one of the more than 2100 patients in her HBV screening cohort study encountered problems with receiving insurance payment for their HBV screening.

“That’s a really strong statement that insurance payers are accepting of this kind of preventative service,” she said.

Expert panel cochair Andrew Artz, MD, commented that there is now greater acceptance of the need for HBV screening across medical specialties.

“There’s growing consensus among hepatologists, infectious disease specialists, oncologists, and HBV specialists that we need to do a better job of finding patients with hepatitis B [who are] about to receive immunocompromising treatment,” Dr. Artz said in an interview.

Dr. Artz is director of the Program for Aging and Blood Cancers and deputy director of the Center for Cancer and Aging at City of Hope Comprehensive Cancer Center, Duarte, California.

He suggested that the growing acceptance is due in part to the increasing number of anticancer therapies available and the resulting increase in the likelihood of patients receiving therapies that could cause reactivation.

More therapies – and more lines of therapy – could mean greater risk, he explained. He said that testing is easy and that universal screening is the simplest approach to determining who needs it. “There’s no question we will have to change practice,” Dr. Artz said in an interview. “But this is easier than the previous approach that essentially wasn’t being followed because it was too difficult to follow and patients were being missed.”

Most clinicians will appreciate having an approach that’s easier to follow, Dr. Artz predicted.

If there’s a challenge it will be in developing partnerships with HBV specialists, particularly in rural areas. In areas where there is a paucity of subspecialists, oncologists will have to “take some ownership of the issue,” as they often do in such settings, he said.

However, with support from pharmacists, administrators, and others in embracing this guidance, implementation can take place at a systems level rather than an individual clinician level, he added.

The recommendations in this updated PCO were all rated as “strong,” with the exception of the recommendation on hormonal therapy in the absence of systemic anticancer therapy, which was rated as “moderate.” All were based on “informal consensus,” with the exception of the key recommendation for universal HBV screening – use of three specific tests – which was “evidence based.”

The expert panel agreed that the benefits outweigh the harms for each recommendation in the update.

Dr. Hwang received research funding to her institution from Gilead Sciences and Merck Sharp & Dohme. She also has a relationship with the Asian Health Foundation. Dr. Artz received research funding from Miltenyi Biotec. All expert panel members’ disclosures are available in the PCO update.

This article first appeared on Medscape.com.

All patients with cancer who are candidates for systemic anticancer therapy should be screened for hepatitis B virus (HBV) infection prior to or at the start of therapy, according to an updated provisional clinical opinion (PCO) from the American Society of Clinical Oncology.

“This is a new approach [that] will actively take system changes ... but it will ultimately be safer for patients – and that is crucial,” commented Jessica P. Hwang, MD, MPH, cochair of the American Society of Clinical Oncology HBV Screening Expert Panel and the first author of the PCO.

Uptake of this universal screening approach would streamline testing protocols and identify more patients at risk for HBV reactivation who should receive prophylactic antiviral therapy, Dr. Hwang said in an interview.

The PCO calls for antiviral prophylaxis during and for at least 12 months after therapy for those with chronic HBV infection who are receiving any systemic anticancer treatment and for those with have had HBV in the past and are receiving any therapies that pose a risk for HBV reactivation.

“Hepatitis B reactivation can cause really terrible outcomes, like organ failure and even death,” Dr. Hwang, who is also a professor at the University of Texas MD Anderson Cancer Center, Houston, commented in an interview.

“This whole [issue of] reactivation and adverse outcomes with anticancer therapies is completely preventable with good planning, good communication, comanagement with specialists, and antiviral therapy and monitoring,” she added.

The updated opinion was published online July 27 in the Journal of Clinical Oncology.

It was developed in response to new data that call into question the previously recommended risk-adaptive approach to HBV screening of cancer patients, say the authors.

ASCO PCOs are developed “to provide timely clinical guidance” on the basis of emerging practice-changing information. This is the second update to follow the initial HBV screening PCO, published in 2010. In the absence of clear consensus because of limited data, the original PCO called for a risk-based approach to screening. A 2015 update extended the recommendation for screening to patients starting anti-CD20 therapy or who are to undergo stem cell transplant and to those with risk factors for HBV exposure.

The current update provides “a clinically pragmatic approach to HBV screening and management” that is based on the latest findings, say the authors. These include findings from a multicenter prospective cohort study of more than 3000 patients. In that study, 21% of patients with chronic HBV had no known risk factors for the infection. In another large prospective observational cohort study, led by Dr. Hwang, which included more than 2100 patients with cancer, 90% had one or more significant risk factors for HBV infection, making selective screening “inefficient and impractical,” she said.

“The results of these two studies suggest that a universal screening approach, its potential harms (e.g., patient and clinician anxiety about management, financial burden associated with antiviral therapy) notwithstanding, is the most efficient, clinically pragmatic approach to HBV screening in persons anticipating systemic anticancer treatment,” the authors comment.

The screening recommended in the PCO requires three tests: hepatitis B surface antigen (HBsAg), core antibody total immunoglobulin or IgG, and antibody to HBsAg tests.

Anticancer therapy should not be delayed pending the results, they write.

Planning for monitoring and long-term prophylaxis for chronic HBV infection should involve a clinician experienced in HBV management, the authors write. Management of those with past infection should be individualized. Alternatively, patients with past infection can be carefully monitored rather than given prophylactic treatment, as long as frequent and consistent follow-up is possible to allow for rapid initiation of antiviral therapy in the event of reactivation, they say.

Hormonal therapy without systemic anticancer therapy is not likely to lead to HBV reactivation in patients with chronic or past infection; antiviral therapy and management of these patients should follow relevant national HBV guidelines, they note.

Challenges in implementing universal HBV screening

The expert panel acknowledges the challenges associated with implementation of universal HBV screening as recommended in their report and notes that electronic health record–based approaches that use alerts to prompt screening have demonstrated success. In one study of high-risk primary care patients, an EHR alert system significantly increased testing rates (odds ratio, 2.64 in comparison with a control group without alerts), and another study that used a simple “sticky-note” alert system to promote referral of HBsAg patients to hepatologists increased referrals from 28% to 73%.

In a cancer population, a “comprehensive set of multimodal interventions,” including pharmacy staff checks for screening prior to anti-CD20 therapy administration and electronic medication order reviews to assess for appropriate testing and treatment before anti-CD20 therapy, increased testing rates to greater than 90% and antiviral prophylaxis rates to more than 80%.

A study of 965 patients in Taiwan showed that a computer-assisted reminder system that prompted for testing prior to ordering anticancer therapy increased screening from 8% to 86% but was less effective for improving the rates of antiviral prophylaxis for those who tested positive for HBV, particularly among physicians treating patients with nonhematologic malignancies.

“Future studies will be needed to make universal HBV screening and linkage to care efficient and systematic, likely based in EHR systems,” the panel says. The authors note that “[o]ngoing studies of HBV tests such as ultrasensitive HBsAg, HBV RNA, and hepatitis B core antigen are being studied and may be useful in predicting risk of HBV reactivation.”

The panel also identified a research gap related to HBV reactivation risks “for the growing list of agents that deplete or modulate B cells.” It notes a need for additional research on the cost-effectiveness of HBV screening. The results of prior cost analyses have been inconsistent and vary with respect to the population studied. For example, universal screening and antiviral prophylaxis approaches have been shown to be cost-effective for patients with hematologic malignancies and high HBV reactivation risk but are less so for patients with solid tumors and lower reactivation risk, they explain.

Dr. Hwang said that not one of the more than 2100 patients in her HBV screening cohort study encountered problems with receiving insurance payment for their HBV screening.

“That’s a really strong statement that insurance payers are accepting of this kind of preventative service,” she said.

Expert panel cochair Andrew Artz, MD, commented that there is now greater acceptance of the need for HBV screening across medical specialties.

“There’s growing consensus among hepatologists, infectious disease specialists, oncologists, and HBV specialists that we need to do a better job of finding patients with hepatitis B [who are] about to receive immunocompromising treatment,” Dr. Artz said in an interview.

Dr. Artz is director of the Program for Aging and Blood Cancers and deputy director of the Center for Cancer and Aging at City of Hope Comprehensive Cancer Center, Duarte, California.

He suggested that the growing acceptance is due in part to the increasing number of anticancer therapies available and the resulting increase in the likelihood of patients receiving therapies that could cause reactivation.

More therapies – and more lines of therapy – could mean greater risk, he explained. He said that testing is easy and that universal screening is the simplest approach to determining who needs it. “There’s no question we will have to change practice,” Dr. Artz said in an interview. “But this is easier than the previous approach that essentially wasn’t being followed because it was too difficult to follow and patients were being missed.”

Most clinicians will appreciate having an approach that’s easier to follow, Dr. Artz predicted.

If there’s a challenge it will be in developing partnerships with HBV specialists, particularly in rural areas. In areas where there is a paucity of subspecialists, oncologists will have to “take some ownership of the issue,” as they often do in such settings, he said.

However, with support from pharmacists, administrators, and others in embracing this guidance, implementation can take place at a systems level rather than an individual clinician level, he added.

The recommendations in this updated PCO were all rated as “strong,” with the exception of the recommendation on hormonal therapy in the absence of systemic anticancer therapy, which was rated as “moderate.” All were based on “informal consensus,” with the exception of the key recommendation for universal HBV screening – use of three specific tests – which was “evidence based.”

The expert panel agreed that the benefits outweigh the harms for each recommendation in the update.

Dr. Hwang received research funding to her institution from Gilead Sciences and Merck Sharp & Dohme. She also has a relationship with the Asian Health Foundation. Dr. Artz received research funding from Miltenyi Biotec. All expert panel members’ disclosures are available in the PCO update.

This article first appeared on Medscape.com.

All patients with cancer who are candidates for systemic anticancer therapy should be screened for hepatitis B virus (HBV) infection prior to or at the start of therapy, according to an updated provisional clinical opinion (PCO) from the American Society of Clinical Oncology.

“This is a new approach [that] will actively take system changes ... but it will ultimately be safer for patients – and that is crucial,” commented Jessica P. Hwang, MD, MPH, cochair of the American Society of Clinical Oncology HBV Screening Expert Panel and the first author of the PCO.

Uptake of this universal screening approach would streamline testing protocols and identify more patients at risk for HBV reactivation who should receive prophylactic antiviral therapy, Dr. Hwang said in an interview.

The PCO calls for antiviral prophylaxis during and for at least 12 months after therapy for those with chronic HBV infection who are receiving any systemic anticancer treatment and for those with have had HBV in the past and are receiving any therapies that pose a risk for HBV reactivation.

“Hepatitis B reactivation can cause really terrible outcomes, like organ failure and even death,” Dr. Hwang, who is also a professor at the University of Texas MD Anderson Cancer Center, Houston, commented in an interview.

“This whole [issue of] reactivation and adverse outcomes with anticancer therapies is completely preventable with good planning, good communication, comanagement with specialists, and antiviral therapy and monitoring,” she added.

The updated opinion was published online July 27 in the Journal of Clinical Oncology.

It was developed in response to new data that call into question the previously recommended risk-adaptive approach to HBV screening of cancer patients, say the authors.

ASCO PCOs are developed “to provide timely clinical guidance” on the basis of emerging practice-changing information. This is the second update to follow the initial HBV screening PCO, published in 2010. In the absence of clear consensus because of limited data, the original PCO called for a risk-based approach to screening. A 2015 update extended the recommendation for screening to patients starting anti-CD20 therapy or who are to undergo stem cell transplant and to those with risk factors for HBV exposure.

The current update provides “a clinically pragmatic approach to HBV screening and management” that is based on the latest findings, say the authors. These include findings from a multicenter prospective cohort study of more than 3000 patients. In that study, 21% of patients with chronic HBV had no known risk factors for the infection. In another large prospective observational cohort study, led by Dr. Hwang, which included more than 2100 patients with cancer, 90% had one or more significant risk factors for HBV infection, making selective screening “inefficient and impractical,” she said.

“The results of these two studies suggest that a universal screening approach, its potential harms (e.g., patient and clinician anxiety about management, financial burden associated with antiviral therapy) notwithstanding, is the most efficient, clinically pragmatic approach to HBV screening in persons anticipating systemic anticancer treatment,” the authors comment.

The screening recommended in the PCO requires three tests: hepatitis B surface antigen (HBsAg), core antibody total immunoglobulin or IgG, and antibody to HBsAg tests.

Anticancer therapy should not be delayed pending the results, they write.

Planning for monitoring and long-term prophylaxis for chronic HBV infection should involve a clinician experienced in HBV management, the authors write. Management of those with past infection should be individualized. Alternatively, patients with past infection can be carefully monitored rather than given prophylactic treatment, as long as frequent and consistent follow-up is possible to allow for rapid initiation of antiviral therapy in the event of reactivation, they say.

Hormonal therapy without systemic anticancer therapy is not likely to lead to HBV reactivation in patients with chronic or past infection; antiviral therapy and management of these patients should follow relevant national HBV guidelines, they note.

Challenges in implementing universal HBV screening

The expert panel acknowledges the challenges associated with implementation of universal HBV screening as recommended in their report and notes that electronic health record–based approaches that use alerts to prompt screening have demonstrated success. In one study of high-risk primary care patients, an EHR alert system significantly increased testing rates (odds ratio, 2.64 in comparison with a control group without alerts), and another study that used a simple “sticky-note” alert system to promote referral of HBsAg patients to hepatologists increased referrals from 28% to 73%.

In a cancer population, a “comprehensive set of multimodal interventions,” including pharmacy staff checks for screening prior to anti-CD20 therapy administration and electronic medication order reviews to assess for appropriate testing and treatment before anti-CD20 therapy, increased testing rates to greater than 90% and antiviral prophylaxis rates to more than 80%.

A study of 965 patients in Taiwan showed that a computer-assisted reminder system that prompted for testing prior to ordering anticancer therapy increased screening from 8% to 86% but was less effective for improving the rates of antiviral prophylaxis for those who tested positive for HBV, particularly among physicians treating patients with nonhematologic malignancies.

“Future studies will be needed to make universal HBV screening and linkage to care efficient and systematic, likely based in EHR systems,” the panel says. The authors note that “[o]ngoing studies of HBV tests such as ultrasensitive HBsAg, HBV RNA, and hepatitis B core antigen are being studied and may be useful in predicting risk of HBV reactivation.”

The panel also identified a research gap related to HBV reactivation risks “for the growing list of agents that deplete or modulate B cells.” It notes a need for additional research on the cost-effectiveness of HBV screening. The results of prior cost analyses have been inconsistent and vary with respect to the population studied. For example, universal screening and antiviral prophylaxis approaches have been shown to be cost-effective for patients with hematologic malignancies and high HBV reactivation risk but are less so for patients with solid tumors and lower reactivation risk, they explain.

Dr. Hwang said that not one of the more than 2100 patients in her HBV screening cohort study encountered problems with receiving insurance payment for their HBV screening.

“That’s a really strong statement that insurance payers are accepting of this kind of preventative service,” she said.

Expert panel cochair Andrew Artz, MD, commented that there is now greater acceptance of the need for HBV screening across medical specialties.

“There’s growing consensus among hepatologists, infectious disease specialists, oncologists, and HBV specialists that we need to do a better job of finding patients with hepatitis B [who are] about to receive immunocompromising treatment,” Dr. Artz said in an interview.

Dr. Artz is director of the Program for Aging and Blood Cancers and deputy director of the Center for Cancer and Aging at City of Hope Comprehensive Cancer Center, Duarte, California.

He suggested that the growing acceptance is due in part to the increasing number of anticancer therapies available and the resulting increase in the likelihood of patients receiving therapies that could cause reactivation.

More therapies – and more lines of therapy – could mean greater risk, he explained. He said that testing is easy and that universal screening is the simplest approach to determining who needs it. “There’s no question we will have to change practice,” Dr. Artz said in an interview. “But this is easier than the previous approach that essentially wasn’t being followed because it was too difficult to follow and patients were being missed.”

Most clinicians will appreciate having an approach that’s easier to follow, Dr. Artz predicted.

If there’s a challenge it will be in developing partnerships with HBV specialists, particularly in rural areas. In areas where there is a paucity of subspecialists, oncologists will have to “take some ownership of the issue,” as they often do in such settings, he said.

However, with support from pharmacists, administrators, and others in embracing this guidance, implementation can take place at a systems level rather than an individual clinician level, he added.

The recommendations in this updated PCO were all rated as “strong,” with the exception of the recommendation on hormonal therapy in the absence of systemic anticancer therapy, which was rated as “moderate.” All were based on “informal consensus,” with the exception of the key recommendation for universal HBV screening – use of three specific tests – which was “evidence based.”

The expert panel agreed that the benefits outweigh the harms for each recommendation in the update.

Dr. Hwang received research funding to her institution from Gilead Sciences and Merck Sharp & Dohme. She also has a relationship with the Asian Health Foundation. Dr. Artz received research funding from Miltenyi Biotec. All expert panel members’ disclosures are available in the PCO update.

This article first appeared on Medscape.com.

In its updated cancer prevention guidelines, the American Cancer Society now recommends that “it is best not to drink alcohol.”

Previously, ACS suggested that, for those who consume alcoholic beverages, intake should be no more than one drink per day for women or two per day for men. That recommendation is still in place, but is now accompanied by this new, stronger directive.

The revised guidelines also place more emphasis on reducing the consumption of processed and red meat and highly processed foods, and on increasing physical activity.

But importantly, there is also a call for action from public, private, and community organizations to work to together to increase access to affordable, nutritious foods and physical activity.

“Making healthy choices can be challenging for many, and there are strategies included in the guidelines that communities can undertake to help reduce barriers to eating well and physical activity,” said Laura Makaroff, DO, American Cancer Society senior vice president. “Individual choice is an important part of a healthy lifestyle, but having the right policies and environmental factors to break down these barriers is also important, and that is something that clinicians can support.”

The guidelines were published in CA: A Cancer Journal for Clinicians.

The link between cancer and lifestyle factors has long been established, and for the past 4 decades, both government and leading nonprofit health organizations, including the ACS and the World Cancer Research Fund/American Institute for Cancer Research (WCRF/AICR), have released cancer prevention guidelines and recommendations that focus on managing weight, diet, physical activity, and alcohol consumption.

In 2012, the ACS issued guidelines on diet and physical activity, and their current guideline is largely based on the WCRF/AICR systematic reviews and Continuous Update Project reports, which were last updated in 2018. The ACS guidelines also incorporated systematic reviews conducted by the International Agency on Cancer Research (IARC) and the U.S. Department of Agriculture and the Department of Health and Human Services (USDA/HHS) and other analyses that were published since the WCRF/AICR recommendations were released.
 

Emphasis on three areas

The differences between the old guidelines and the update do not differ dramatically, but Makaroff highlighted a few areas that have increased emphasis.

Time spent being physically active is critical. The recommendation has changed to encourage adults to engage in 150-300 minutes (2.5-5 hours) of moderate-intensity physical activity, or 75-150 minutes (1.25-2.5 hours) of vigorous-intensity physical activity, or an equivalent combination, per week. Achieving or exceeding the upper limit of 300 minutes is optimal.

“That is more than what we have recommended in the past, along with the continued message that children and adolescents engage in at least 1 hour of moderate- or vigorous-intensity activity each day,” she told Medscape Medical News.

The ACS has also increased emphasis on reducing the consumption of processed and red meat. “This is part of a healthy eating pattern and making sure that people are eating food that is high in nutrients that help achieve and maintain a healthy body weight,” said Makaroff.

A healthy diet should include a variety of dark green, red, and orange vegetables; fiber-rich legumes; and fruits with a variety of colors and whole grains, according to the guidelines. Sugar-sweetened beverages, highly processed foods, and refined grain products should be limited or avoided.

The revised dietary recommendations reflect a shift from a “reductionist or nutrient-centric” approach to one that is more “holistic” and that focuses on dietary patterns. In contrast to a focus on individual nutrients and bioactive compounds, the new approach is more consistent with what and how people actually eat, ACS points out.

The third area that Makaroff highlighted is alcohol, where the recommendation is to avoid or limit consumption. “The current update says not to drink alcohol, which is in line with the scientific evidence, but for those people who choose to drink alcohol, to limit it to one drink per day for women and two drinks per day for men.”

Thus, the change here is that the previous guideline only recommended limiting alcohol consumption, while the update suggests that, optimally, it should be avoided completely.

The ACS has also called for community involvement to help implement these goals: “Public, private, and community organizations should work collaboratively at national, state, and local levels to develop, advocate for, and implement policy and environmental changes that increase access to affordable, nutritious foods; provide safe, enjoyable, and accessible opportunities for physical activity; and limit alcohol for all individuals.”
 

No smoking guns

Commenting on the guidelines, Steven K. Clinton, MD, PhD, associate director of the Center for Advanced Functional Foods Research and Entrepreneurship at the Ohio State University, Columbus, explained that he didn’t view the change in alcohol as that much of an evolution. “It’s been 8 years since they revised their overall guidelines, and during that time frame, there has been an enormous growth in the evidence that has been used by many organizations,” he said.

Clinton noted that the guidelines are consistent with the whole body of current scientific literature. “It’s very easy to go to the document and look for the ‘smoking gun’ – but the smoking gun is really not one thing,” he said. “It’s a pattern, and what dietitians and nutritionists are telling people is that you need to orchestrate a healthy lifestyle and diet, with a diet that has a foundation of fruits, vegetables, whole grains, and modest intake of refined grains and meat. You are orchestrating an entire pattern to get the maximum benefit.”

Makaroff is an employee of the ACS. Clinton has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

In its updated cancer prevention guidelines, the American Cancer Society now recommends that “it is best not to drink alcohol.”

Previously, ACS suggested that, for those who consume alcoholic beverages, intake should be no more than one drink per day for women or two per day for men. That recommendation is still in place, but is now accompanied by this new, stronger directive.

The revised guidelines also place more emphasis on reducing the consumption of processed and red meat and highly processed foods, and on increasing physical activity.

But importantly, there is also a call for action from public, private, and community organizations to work to together to increase access to affordable, nutritious foods and physical activity.

“Making healthy choices can be challenging for many, and there are strategies included in the guidelines that communities can undertake to help reduce barriers to eating well and physical activity,” said Laura Makaroff, DO, American Cancer Society senior vice president. “Individual choice is an important part of a healthy lifestyle, but having the right policies and environmental factors to break down these barriers is also important, and that is something that clinicians can support.”

The guidelines were published in CA: A Cancer Journal for Clinicians.

The link between cancer and lifestyle factors has long been established, and for the past 4 decades, both government and leading nonprofit health organizations, including the ACS and the World Cancer Research Fund/American Institute for Cancer Research (WCRF/AICR), have released cancer prevention guidelines and recommendations that focus on managing weight, diet, physical activity, and alcohol consumption.

In 2012, the ACS issued guidelines on diet and physical activity, and their current guideline is largely based on the WCRF/AICR systematic reviews and Continuous Update Project reports, which were last updated in 2018. The ACS guidelines also incorporated systematic reviews conducted by the International Agency on Cancer Research (IARC) and the U.S. Department of Agriculture and the Department of Health and Human Services (USDA/HHS) and other analyses that were published since the WCRF/AICR recommendations were released.
 

Emphasis on three areas

The differences between the old guidelines and the update do not differ dramatically, but Makaroff highlighted a few areas that have increased emphasis.

Time spent being physically active is critical. The recommendation has changed to encourage adults to engage in 150-300 minutes (2.5-5 hours) of moderate-intensity physical activity, or 75-150 minutes (1.25-2.5 hours) of vigorous-intensity physical activity, or an equivalent combination, per week. Achieving or exceeding the upper limit of 300 minutes is optimal.

“That is more than what we have recommended in the past, along with the continued message that children and adolescents engage in at least 1 hour of moderate- or vigorous-intensity activity each day,” she told Medscape Medical News.

The ACS has also increased emphasis on reducing the consumption of processed and red meat. “This is part of a healthy eating pattern and making sure that people are eating food that is high in nutrients that help achieve and maintain a healthy body weight,” said Makaroff.

A healthy diet should include a variety of dark green, red, and orange vegetables; fiber-rich legumes; and fruits with a variety of colors and whole grains, according to the guidelines. Sugar-sweetened beverages, highly processed foods, and refined grain products should be limited or avoided.

The revised dietary recommendations reflect a shift from a “reductionist or nutrient-centric” approach to one that is more “holistic” and that focuses on dietary patterns. In contrast to a focus on individual nutrients and bioactive compounds, the new approach is more consistent with what and how people actually eat, ACS points out.

The third area that Makaroff highlighted is alcohol, where the recommendation is to avoid or limit consumption. “The current update says not to drink alcohol, which is in line with the scientific evidence, but for those people who choose to drink alcohol, to limit it to one drink per day for women and two drinks per day for men.”

Thus, the change here is that the previous guideline only recommended limiting alcohol consumption, while the update suggests that, optimally, it should be avoided completely.

The ACS has also called for community involvement to help implement these goals: “Public, private, and community organizations should work collaboratively at national, state, and local levels to develop, advocate for, and implement policy and environmental changes that increase access to affordable, nutritious foods; provide safe, enjoyable, and accessible opportunities for physical activity; and limit alcohol for all individuals.”
 

No smoking guns

Commenting on the guidelines, Steven K. Clinton, MD, PhD, associate director of the Center for Advanced Functional Foods Research and Entrepreneurship at the Ohio State University, Columbus, explained that he didn’t view the change in alcohol as that much of an evolution. “It’s been 8 years since they revised their overall guidelines, and during that time frame, there has been an enormous growth in the evidence that has been used by many organizations,” he said.

Clinton noted that the guidelines are consistent with the whole body of current scientific literature. “It’s very easy to go to the document and look for the ‘smoking gun’ – but the smoking gun is really not one thing,” he said. “It’s a pattern, and what dietitians and nutritionists are telling people is that you need to orchestrate a healthy lifestyle and diet, with a diet that has a foundation of fruits, vegetables, whole grains, and modest intake of refined grains and meat. You are orchestrating an entire pattern to get the maximum benefit.”

Makaroff is an employee of the ACS. Clinton has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

In its updated cancer prevention guidelines, the American Cancer Society now recommends that “it is best not to drink alcohol.”

Previously, ACS suggested that, for those who consume alcoholic beverages, intake should be no more than one drink per day for women or two per day for men. That recommendation is still in place, but is now accompanied by this new, stronger directive.

The revised guidelines also place more emphasis on reducing the consumption of processed and red meat and highly processed foods, and on increasing physical activity.

But importantly, there is also a call for action from public, private, and community organizations to work to together to increase access to affordable, nutritious foods and physical activity.

“Making healthy choices can be challenging for many, and there are strategies included in the guidelines that communities can undertake to help reduce barriers to eating well and physical activity,” said Laura Makaroff, DO, American Cancer Society senior vice president. “Individual choice is an important part of a healthy lifestyle, but having the right policies and environmental factors to break down these barriers is also important, and that is something that clinicians can support.”

The guidelines were published in CA: A Cancer Journal for Clinicians.

The link between cancer and lifestyle factors has long been established, and for the past 4 decades, both government and leading nonprofit health organizations, including the ACS and the World Cancer Research Fund/American Institute for Cancer Research (WCRF/AICR), have released cancer prevention guidelines and recommendations that focus on managing weight, diet, physical activity, and alcohol consumption.

In 2012, the ACS issued guidelines on diet and physical activity, and their current guideline is largely based on the WCRF/AICR systematic reviews and Continuous Update Project reports, which were last updated in 2018. The ACS guidelines also incorporated systematic reviews conducted by the International Agency on Cancer Research (IARC) and the U.S. Department of Agriculture and the Department of Health and Human Services (USDA/HHS) and other analyses that were published since the WCRF/AICR recommendations were released.
 

Emphasis on three areas

The differences between the old guidelines and the update do not differ dramatically, but Makaroff highlighted a few areas that have increased emphasis.

Time spent being physically active is critical. The recommendation has changed to encourage adults to engage in 150-300 minutes (2.5-5 hours) of moderate-intensity physical activity, or 75-150 minutes (1.25-2.5 hours) of vigorous-intensity physical activity, or an equivalent combination, per week. Achieving or exceeding the upper limit of 300 minutes is optimal.

“That is more than what we have recommended in the past, along with the continued message that children and adolescents engage in at least 1 hour of moderate- or vigorous-intensity activity each day,” she told Medscape Medical News.

The ACS has also increased emphasis on reducing the consumption of processed and red meat. “This is part of a healthy eating pattern and making sure that people are eating food that is high in nutrients that help achieve and maintain a healthy body weight,” said Makaroff.

A healthy diet should include a variety of dark green, red, and orange vegetables; fiber-rich legumes; and fruits with a variety of colors and whole grains, according to the guidelines. Sugar-sweetened beverages, highly processed foods, and refined grain products should be limited or avoided.

The revised dietary recommendations reflect a shift from a “reductionist or nutrient-centric” approach to one that is more “holistic” and that focuses on dietary patterns. In contrast to a focus on individual nutrients and bioactive compounds, the new approach is more consistent with what and how people actually eat, ACS points out.

The third area that Makaroff highlighted is alcohol, where the recommendation is to avoid or limit consumption. “The current update says not to drink alcohol, which is in line with the scientific evidence, but for those people who choose to drink alcohol, to limit it to one drink per day for women and two drinks per day for men.”

Thus, the change here is that the previous guideline only recommended limiting alcohol consumption, while the update suggests that, optimally, it should be avoided completely.

The ACS has also called for community involvement to help implement these goals: “Public, private, and community organizations should work collaboratively at national, state, and local levels to develop, advocate for, and implement policy and environmental changes that increase access to affordable, nutritious foods; provide safe, enjoyable, and accessible opportunities for physical activity; and limit alcohol for all individuals.”
 

No smoking guns

Commenting on the guidelines, Steven K. Clinton, MD, PhD, associate director of the Center for Advanced Functional Foods Research and Entrepreneurship at the Ohio State University, Columbus, explained that he didn’t view the change in alcohol as that much of an evolution. “It’s been 8 years since they revised their overall guidelines, and during that time frame, there has been an enormous growth in the evidence that has been used by many organizations,” he said.

Clinton noted that the guidelines are consistent with the whole body of current scientific literature. “It’s very easy to go to the document and look for the ‘smoking gun’ – but the smoking gun is really not one thing,” he said. “It’s a pattern, and what dietitians and nutritionists are telling people is that you need to orchestrate a healthy lifestyle and diet, with a diet that has a foundation of fruits, vegetables, whole grains, and modest intake of refined grains and meat. You are orchestrating an entire pattern to get the maximum benefit.”

Makaroff is an employee of the ACS. Clinton has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.