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Don’t cross the friends line with patients
All that moving can make it hard to maintain friendships. Factor in the challenges from the pandemic, and a physician’s life can be lonely. So, when a patient invites you for coffee or a game of pickleball, do you accept? For almost one-third of the physicians who responded to the Medscape Physician Friendships: The Joys and Challenges 2022, the answer might be yes.
About 29% said they develop friendships with patients. However, a lot depends on the circumstances. As one physician in the report said: “I have been a pediatrician for 35 years, and my patients have grown up and become productive adults in our small, rural, isolated area. You can’t help but know almost everyone.”
As the daughter of a cardiologist, Nishi Mehta, MD, a radiologist and founder of the largest physician-only Facebook group in the country, grew up with that small-town-everyone-knows-the-doctor model.
“When I was a kid, I’d go to the mall, and my friends and I would play a game: How long before a patient [of my dad’s] comes up to me?” she said. At the time, Dr. Mehta was embarrassed, but now she marvels that her dad knew his patients so well that they would recognize his daughter in crowded suburban mall.
In other instances, a physician may develop a friendly relationship after a patient leaves their care. For example, Leo Nissola, MD, now a full-time researcher and immunotherapy scientist in San Francisco, has stayed in touch with some of the patients he treated while at the University of Texas MD Anderson Cancer Center, Houston.
Dr. Nissola said it was important to stay connected with the patients he had meaningful relationships with. “It becomes challenging, though, when a former patient asks for medical advice.” At that moment, “you have to be explicitly clear that the relationship has changed.”
A hard line in the sand
The blurring of lines is one reason many doctors refuse to befriend patients, even after they are no longer treating them. The American College of Physicians Ethics Manual advises against treating anyone with whom you have a close relationship, including family and friends.
“Friendships can get in the way of patients being honest with you, which can interfere with medical care,” Dr. Mehta said. “If a patient has a concern related to something they wouldn’t want you to know as friends, it can get awkward. They may elect not to tell you.”
And on the flip side, friendship can provide a view into your private life that you may not welcome in the exam room.
“Let’s say you go out for drinks [with a patient], and you’re up late, but you have surgery the next day,” said Brandi Ring, MD, an ob.gyn. and the associate medical director at the Center for Children and Women in Houston. Now, one of your patients knows you were out until midnight when you had to be in the OR at 5:00 a.m.
Worse still, your relationship could color your decisions about a patient’s care, even unconsciously. It can be hard to maintain objectivity when you have an emotional investment in someone’s well-being.
“We don’t necessarily treat family and friends to the standards of medical care,” said Dr. Ring. “We go above and beyond. We might order more tests and more scans. We don’t always follow the guidelines, especially in critical illness.”
For all these reasons and more, the ACP advises against treating friends.
Put physician before friend
But adhering to those guidelines can lead physicians to make some painful decisions. Cutting yourself off from the possibility of friendship is never easy, and the Medscape report found that physicians tend to have fewer friends than the average American.
“Especially earlier in my practice, when I was a young parent, and I would see a lot of other young parents in the same stage in life, I’d think, ‘In other circumstances, I would be hanging out at the park with this person,’ “ said Kathleen Rowland, MD, a family medicine physician and vice chair of education in the department of family medicine at Rush University, Chicago. “But the hard part is, the doctor-patient relationship always comes first.”
To a certain extent, one’s specialty may determine the feasibility of becoming friends with a patient. While Dr. Mehta has never done so, as a radiologist, she doesn’t usually see patients repeatedly. Likewise, a young gerontologist may have little in common with his octogenarian patients. And an older pediatrician is not in the same life stage as his patients’ sleep-deprived new parents, possibly making them less attractive friends.
However, practicing family medicine is all about long-term physician-patient relationships. Getting to know patients and their families over many years can lead to a certain intimacy. Dr. Rowland said that, while a wonderful part of being a physician is getting that unique trust whereby patients tell you all sorts of things about their lives, she’s never gone down the friendship path.
“There’s the assumption I’ll take care of someone for a long period of time, and their partner and their kids, maybe another generation or two,” Dr. Rowland said. “People really do rely on that relationship to contribute to their health.”
Worse, nowadays, when people may be starved for connection, many patients want to feel emotionally close and cared for by their doctor, so it’d be easy to cross the line. While patients deserve a compassionate, caring doctor, the physician is left to walk the line between those boundaries. Dr. Rowland said, “It’s up to the clinician to say: ‘My role is as a doctor. You deserve caring friends, but I have to order your mammogram and your blood counts. My role is different.’ ”
Friendly but not friends
It can be tricky to navigate the boundary between a cordial, warm relationship with a patient and that patient inviting you to their daughter’s wedding.
“People may mistake being pleasant and friendly for being friends,” said Larry Blosser, MD, chief medical officer at Central Ohio Primary Care, Westerville. In his position, he sometimes hears from patients who have misunderstood their relationship with a doctor in the practice. When that happens, he advises the physician to consider the persona they’re presenting to the patient. If you’re overly friendly, there’s the potential for confusion, but you can’t be aloof and cold, he said.
Maintaining that awareness helps to prevent a patient’s offhand invitation to catch a movie or go on a hike. And verbalizing it to your patients can make your relationship clear from the get-go.
“I tell patients we’re a team. I’m the captain, and they’re my MVP. When the match is over, whatever the results, we’re done,” said Karenne Fru, MD, PhD, a fertility specialist at Oma Fertility Atlanta. Making deep connections is essential to her practice, so Dr. Fru structures her patient interactions carefully. “Infertility is such an isolating experience. While you’re with us, we care about what’s going on in your life, your pets, and your mom’s chemo. We need mutual trust for you to be compliant with the care.”
However, that approach won’t work when you see patients regularly, as with family practice or specialties that see the same patients repeatedly throughout the year. In those circumstances, the match is never over but one in which the onus is on the physician to establish a friendly yet professional rapport without letting your self-interest, loneliness, or lack of friends interfere.
“It’s been a very difficult couple of years for a lot of us. Depending on what kind of clinical work we do, some of us took care of healthy people that got very sick or passed away,” Dr. Rowland said. “Having the chance to reconnect with people and reestablish some of that closeness, both physical and emotional, is going to be good for us.”
Just continue conveying warm, trusting compassion for your patients without blurring the friend lines.
A version of this article first appeared on Medscape.com.
All that moving can make it hard to maintain friendships. Factor in the challenges from the pandemic, and a physician’s life can be lonely. So, when a patient invites you for coffee or a game of pickleball, do you accept? For almost one-third of the physicians who responded to the Medscape Physician Friendships: The Joys and Challenges 2022, the answer might be yes.
About 29% said they develop friendships with patients. However, a lot depends on the circumstances. As one physician in the report said: “I have been a pediatrician for 35 years, and my patients have grown up and become productive adults in our small, rural, isolated area. You can’t help but know almost everyone.”
As the daughter of a cardiologist, Nishi Mehta, MD, a radiologist and founder of the largest physician-only Facebook group in the country, grew up with that small-town-everyone-knows-the-doctor model.
“When I was a kid, I’d go to the mall, and my friends and I would play a game: How long before a patient [of my dad’s] comes up to me?” she said. At the time, Dr. Mehta was embarrassed, but now she marvels that her dad knew his patients so well that they would recognize his daughter in crowded suburban mall.
In other instances, a physician may develop a friendly relationship after a patient leaves their care. For example, Leo Nissola, MD, now a full-time researcher and immunotherapy scientist in San Francisco, has stayed in touch with some of the patients he treated while at the University of Texas MD Anderson Cancer Center, Houston.
Dr. Nissola said it was important to stay connected with the patients he had meaningful relationships with. “It becomes challenging, though, when a former patient asks for medical advice.” At that moment, “you have to be explicitly clear that the relationship has changed.”
A hard line in the sand
The blurring of lines is one reason many doctors refuse to befriend patients, even after they are no longer treating them. The American College of Physicians Ethics Manual advises against treating anyone with whom you have a close relationship, including family and friends.
“Friendships can get in the way of patients being honest with you, which can interfere with medical care,” Dr. Mehta said. “If a patient has a concern related to something they wouldn’t want you to know as friends, it can get awkward. They may elect not to tell you.”
And on the flip side, friendship can provide a view into your private life that you may not welcome in the exam room.
“Let’s say you go out for drinks [with a patient], and you’re up late, but you have surgery the next day,” said Brandi Ring, MD, an ob.gyn. and the associate medical director at the Center for Children and Women in Houston. Now, one of your patients knows you were out until midnight when you had to be in the OR at 5:00 a.m.
Worse still, your relationship could color your decisions about a patient’s care, even unconsciously. It can be hard to maintain objectivity when you have an emotional investment in someone’s well-being.
“We don’t necessarily treat family and friends to the standards of medical care,” said Dr. Ring. “We go above and beyond. We might order more tests and more scans. We don’t always follow the guidelines, especially in critical illness.”
For all these reasons and more, the ACP advises against treating friends.
Put physician before friend
But adhering to those guidelines can lead physicians to make some painful decisions. Cutting yourself off from the possibility of friendship is never easy, and the Medscape report found that physicians tend to have fewer friends than the average American.
“Especially earlier in my practice, when I was a young parent, and I would see a lot of other young parents in the same stage in life, I’d think, ‘In other circumstances, I would be hanging out at the park with this person,’ “ said Kathleen Rowland, MD, a family medicine physician and vice chair of education in the department of family medicine at Rush University, Chicago. “But the hard part is, the doctor-patient relationship always comes first.”
To a certain extent, one’s specialty may determine the feasibility of becoming friends with a patient. While Dr. Mehta has never done so, as a radiologist, she doesn’t usually see patients repeatedly. Likewise, a young gerontologist may have little in common with his octogenarian patients. And an older pediatrician is not in the same life stage as his patients’ sleep-deprived new parents, possibly making them less attractive friends.
However, practicing family medicine is all about long-term physician-patient relationships. Getting to know patients and their families over many years can lead to a certain intimacy. Dr. Rowland said that, while a wonderful part of being a physician is getting that unique trust whereby patients tell you all sorts of things about their lives, she’s never gone down the friendship path.
“There’s the assumption I’ll take care of someone for a long period of time, and their partner and their kids, maybe another generation or two,” Dr. Rowland said. “People really do rely on that relationship to contribute to their health.”
Worse, nowadays, when people may be starved for connection, many patients want to feel emotionally close and cared for by their doctor, so it’d be easy to cross the line. While patients deserve a compassionate, caring doctor, the physician is left to walk the line between those boundaries. Dr. Rowland said, “It’s up to the clinician to say: ‘My role is as a doctor. You deserve caring friends, but I have to order your mammogram and your blood counts. My role is different.’ ”
Friendly but not friends
It can be tricky to navigate the boundary between a cordial, warm relationship with a patient and that patient inviting you to their daughter’s wedding.
“People may mistake being pleasant and friendly for being friends,” said Larry Blosser, MD, chief medical officer at Central Ohio Primary Care, Westerville. In his position, he sometimes hears from patients who have misunderstood their relationship with a doctor in the practice. When that happens, he advises the physician to consider the persona they’re presenting to the patient. If you’re overly friendly, there’s the potential for confusion, but you can’t be aloof and cold, he said.
Maintaining that awareness helps to prevent a patient’s offhand invitation to catch a movie or go on a hike. And verbalizing it to your patients can make your relationship clear from the get-go.
“I tell patients we’re a team. I’m the captain, and they’re my MVP. When the match is over, whatever the results, we’re done,” said Karenne Fru, MD, PhD, a fertility specialist at Oma Fertility Atlanta. Making deep connections is essential to her practice, so Dr. Fru structures her patient interactions carefully. “Infertility is such an isolating experience. While you’re with us, we care about what’s going on in your life, your pets, and your mom’s chemo. We need mutual trust for you to be compliant with the care.”
However, that approach won’t work when you see patients regularly, as with family practice or specialties that see the same patients repeatedly throughout the year. In those circumstances, the match is never over but one in which the onus is on the physician to establish a friendly yet professional rapport without letting your self-interest, loneliness, or lack of friends interfere.
“It’s been a very difficult couple of years for a lot of us. Depending on what kind of clinical work we do, some of us took care of healthy people that got very sick or passed away,” Dr. Rowland said. “Having the chance to reconnect with people and reestablish some of that closeness, both physical and emotional, is going to be good for us.”
Just continue conveying warm, trusting compassion for your patients without blurring the friend lines.
A version of this article first appeared on Medscape.com.
All that moving can make it hard to maintain friendships. Factor in the challenges from the pandemic, and a physician’s life can be lonely. So, when a patient invites you for coffee or a game of pickleball, do you accept? For almost one-third of the physicians who responded to the Medscape Physician Friendships: The Joys and Challenges 2022, the answer might be yes.
About 29% said they develop friendships with patients. However, a lot depends on the circumstances. As one physician in the report said: “I have been a pediatrician for 35 years, and my patients have grown up and become productive adults in our small, rural, isolated area. You can’t help but know almost everyone.”
As the daughter of a cardiologist, Nishi Mehta, MD, a radiologist and founder of the largest physician-only Facebook group in the country, grew up with that small-town-everyone-knows-the-doctor model.
“When I was a kid, I’d go to the mall, and my friends and I would play a game: How long before a patient [of my dad’s] comes up to me?” she said. At the time, Dr. Mehta was embarrassed, but now she marvels that her dad knew his patients so well that they would recognize his daughter in crowded suburban mall.
In other instances, a physician may develop a friendly relationship after a patient leaves their care. For example, Leo Nissola, MD, now a full-time researcher and immunotherapy scientist in San Francisco, has stayed in touch with some of the patients he treated while at the University of Texas MD Anderson Cancer Center, Houston.
Dr. Nissola said it was important to stay connected with the patients he had meaningful relationships with. “It becomes challenging, though, when a former patient asks for medical advice.” At that moment, “you have to be explicitly clear that the relationship has changed.”
A hard line in the sand
The blurring of lines is one reason many doctors refuse to befriend patients, even after they are no longer treating them. The American College of Physicians Ethics Manual advises against treating anyone with whom you have a close relationship, including family and friends.
“Friendships can get in the way of patients being honest with you, which can interfere with medical care,” Dr. Mehta said. “If a patient has a concern related to something they wouldn’t want you to know as friends, it can get awkward. They may elect not to tell you.”
And on the flip side, friendship can provide a view into your private life that you may not welcome in the exam room.
“Let’s say you go out for drinks [with a patient], and you’re up late, but you have surgery the next day,” said Brandi Ring, MD, an ob.gyn. and the associate medical director at the Center for Children and Women in Houston. Now, one of your patients knows you were out until midnight when you had to be in the OR at 5:00 a.m.
Worse still, your relationship could color your decisions about a patient’s care, even unconsciously. It can be hard to maintain objectivity when you have an emotional investment in someone’s well-being.
“We don’t necessarily treat family and friends to the standards of medical care,” said Dr. Ring. “We go above and beyond. We might order more tests and more scans. We don’t always follow the guidelines, especially in critical illness.”
For all these reasons and more, the ACP advises against treating friends.
Put physician before friend
But adhering to those guidelines can lead physicians to make some painful decisions. Cutting yourself off from the possibility of friendship is never easy, and the Medscape report found that physicians tend to have fewer friends than the average American.
“Especially earlier in my practice, when I was a young parent, and I would see a lot of other young parents in the same stage in life, I’d think, ‘In other circumstances, I would be hanging out at the park with this person,’ “ said Kathleen Rowland, MD, a family medicine physician and vice chair of education in the department of family medicine at Rush University, Chicago. “But the hard part is, the doctor-patient relationship always comes first.”
To a certain extent, one’s specialty may determine the feasibility of becoming friends with a patient. While Dr. Mehta has never done so, as a radiologist, she doesn’t usually see patients repeatedly. Likewise, a young gerontologist may have little in common with his octogenarian patients. And an older pediatrician is not in the same life stage as his patients’ sleep-deprived new parents, possibly making them less attractive friends.
However, practicing family medicine is all about long-term physician-patient relationships. Getting to know patients and their families over many years can lead to a certain intimacy. Dr. Rowland said that, while a wonderful part of being a physician is getting that unique trust whereby patients tell you all sorts of things about their lives, she’s never gone down the friendship path.
“There’s the assumption I’ll take care of someone for a long period of time, and their partner and their kids, maybe another generation or two,” Dr. Rowland said. “People really do rely on that relationship to contribute to their health.”
Worse, nowadays, when people may be starved for connection, many patients want to feel emotionally close and cared for by their doctor, so it’d be easy to cross the line. While patients deserve a compassionate, caring doctor, the physician is left to walk the line between those boundaries. Dr. Rowland said, “It’s up to the clinician to say: ‘My role is as a doctor. You deserve caring friends, but I have to order your mammogram and your blood counts. My role is different.’ ”
Friendly but not friends
It can be tricky to navigate the boundary between a cordial, warm relationship with a patient and that patient inviting you to their daughter’s wedding.
“People may mistake being pleasant and friendly for being friends,” said Larry Blosser, MD, chief medical officer at Central Ohio Primary Care, Westerville. In his position, he sometimes hears from patients who have misunderstood their relationship with a doctor in the practice. When that happens, he advises the physician to consider the persona they’re presenting to the patient. If you’re overly friendly, there’s the potential for confusion, but you can’t be aloof and cold, he said.
Maintaining that awareness helps to prevent a patient’s offhand invitation to catch a movie or go on a hike. And verbalizing it to your patients can make your relationship clear from the get-go.
“I tell patients we’re a team. I’m the captain, and they’re my MVP. When the match is over, whatever the results, we’re done,” said Karenne Fru, MD, PhD, a fertility specialist at Oma Fertility Atlanta. Making deep connections is essential to her practice, so Dr. Fru structures her patient interactions carefully. “Infertility is such an isolating experience. While you’re with us, we care about what’s going on in your life, your pets, and your mom’s chemo. We need mutual trust for you to be compliant with the care.”
However, that approach won’t work when you see patients regularly, as with family practice or specialties that see the same patients repeatedly throughout the year. In those circumstances, the match is never over but one in which the onus is on the physician to establish a friendly yet professional rapport without letting your self-interest, loneliness, or lack of friends interfere.
“It’s been a very difficult couple of years for a lot of us. Depending on what kind of clinical work we do, some of us took care of healthy people that got very sick or passed away,” Dr. Rowland said. “Having the chance to reconnect with people and reestablish some of that closeness, both physical and emotional, is going to be good for us.”
Just continue conveying warm, trusting compassion for your patients without blurring the friend lines.
A version of this article first appeared on Medscape.com.
75 years: A look back on the fascinating history of methotrexate and folate antagonists
If you could go back in time 75 years and tell Dr. Sidney Farber, the developer of methotrexate for cancer therapy, that 21st-century medicine would utilize his specially designed drug more in rheumatology than oncology, he might be surprised. He might scratch his head even more, hearing of his drug sparking interest in still other medical fields, like cardiology.
But drug repurposing is not so uncommon. One classic example is aspirin. Once the most common pain medication and used also in rheumatology, aspirin now finds a range of applications, from colorectal cancer to the prevention of cardiovascular and cerebrovascular thrombosis. Minoxidil is another example, developed for hypertension but used today mostly to stop hair loss. Perhaps most ironic is thalidomide, utilized today for leprosy and multiple myeloma, yet actually contraindicated for its original application, nausea of pregnancy.
Methotrexate, thus, has much in common with other medical treatments, and yet its origin story is as unique and as fascinating as the story of Dr. Farber himself. While this is a rheumatology article, it’s also a story about the origin of a particular rheumatologic treatment, and so the story of that origin will take us mostly through a discussion of hematologic malignancy and of the clinical researcher who dared search for a cure.
Born in 1903, in Buffalo, New York, third of fourteen children of Jewish immigrants from Poland, Dr. Farber grew up in a household that was crowded but academically rigorous. His father, Simon, routinely brought home textbooks, assigning each child a book to read and on which to write a report. His mother, Matilda, was as devoted as her husband to raising the children to succeed in their adopted new country. Upstairs, the children were permitted to speak Yiddish, but downstairs they were required to use only English and German.
As a teen, Dr. Farber lived through the 1918 influenza pandemic that killed at least 50 million people worldwide, including more than 2,000 Buffalonians. This probably helped motivate him to study medicine, but with antisemitism overt in the America of the early 1920s, securing admission to a U.S. medical school was close to impossible. So, in what now seems like the greatest of ironies, Dr. Farber began medical studies in Germany, then transferred for the second year to a U.S. program that seemed adequate – Harvard Medical School, from which he graduated in 1927. From there, he trained as a pathologist, focusing ultimately on pediatric pathology. But, frustrated by case after case of malignancy, whose young victims he’d often have to autopsy, Dr. Farber decided that he wanted to advance the pitiful state of cancer therapeutics, especially for hematologic malignancy.
This was a tall order in the 1930s and early 1940s, when cancer therapeutics consisted only of surgical resection and very primitive forms of radiation therapy. Applicable only to neoplasia that was localized, these options were useless against malignancies in the blood, like acute lymphoblastic leukemia (ALL), but by January 1948 there was at least one glimmer of hope. At that time, one patient with ALL, 2-year-old Robert Sandler, was too ill to join his twin brother Elliott for snow play outside their home in the Dorchester section of Boston. Diagnosed back in August, Robert had suffered multiple episodes of fever, anemia, and thrombocytopenia. His illness had enlarged his spleen dramatically and caused pathologic bone fractures with excruciating bone pain, and for a while he couldn’t walk because of pressure on his lower spinal cord. All of this was the result of uncontrolled mitosis and cell division of lymphoblasts, immature lymphocytes. By December, these out-of-control cells had elevated the boy’s white blood cell count to a peak of 70,000/mcL, more than six times the high end of the normal range (4,500-11,000/mcL). This had happened despite treatment with an experimental drug, developed at Boston Children’s Hospital by Dr. Farber and his team, working on the assumption that inhibition of folate metabolism should slow the growth of tumor cells. On Dec. 28, however, Dr. Farber had switched the child to a new drug with a chemical structure just slightly different from the other agent’s.
Merely another chemical modification in a series of attempts by the research team, the new drug, aminopterin, was not expected to do anything dramatic, but Dr. Farber and the team had come such a long way since the middle of 1947, when he’d actually done the opposite of what he was doing now. On the basis of British research from India showing folic acid deficiency as the basis of a common type of anemia in malnourished people, Dr. Farber had reasoned that children with leukemia, who also suffered from anemia, might also benefit from folic acid supplementation. Even without prior rodent testing, Dr. Farber had tried giving the nutrient to patients with ALL, a strategy made possible by the presence of a spectacular chemist working on folic acid synthesis at Farber’s own hospital to help combat folate deficiency. Born into a poor Brahmin family in India, the chemist, Dr. Yellapragada SubbaRow, had begun life with so much stacked against him as to appear even less likely during childhood than the young Dr. Farber to grow up to make major contributions to medicine. Going through childhood with death all around him, Dr. SubbaRow was motivated to study medicine, but getting into medical school had been an uphill fight, given his family’s economic difficulty. Knowing that he’d also face discrimination on account of his low status after receiving admission to a medical program, SubbaRow could have made things a bit easier for himself by living within the norms of the British Imperial system, but as a supporter of Mohandas Gandhi’s nationalist movement, he boycotted British goods. As a medical student, this meant doing things like wearing Indian-made surgical gloves, instead of the English products that were expected of the students. Such actions led Dr. SubbaRow to receive a kind of second-rate medical degree, rather than the prestigious MBBS.
The political situation also led Dr. SubbaRow to emigrate to the United States, where, ironically, his medical degree initially was taken less seriously than it had been taken in his British-occupied homeland. He thus worked in the capacity of a hospital night porter at Peter Bent Brigham Hospital (the future Brigham and Women’s Hospital), doing menial tasks like changing sheets to make ends meet. He studied, however, and made enough of an impression to gain admission to the same institution that also admitted Farber through the backdoor, Harvard Medical School. This launched him into a research career in which he not only would be instrumental in developing folate antagonists and other classes of drugs, but also would make him the codiscoverer of the role of creatine phosphate and ATP in cellular energy metabolism. Sadly, even after obtaining his top-notch American credentials and contributing through his research to what you might say is a good chunk of the biochemistry pathways that first year medical students memorize without ever learning who discovered them, Dr. SubbaRow still faced prejudice for the rest of his life, which turned out to last only until the age of 53. To add insult to injury, he is rarely remembered for his role.
Dr. Farber proceeded with the folic acid supplementation idea in patients with ALL, even though ALL caused a hypoproliferative anemia, whereas anemia from folate deficiency was megaloblastic, meaning that erythrocytes were produced but they were oversized and dysfunctional. Tragically, folic acid had accelerated the disease process in children with ALL, but the process of chemical experimentation aimed at synthesizing folate also produced some compounds that mimicked chemical precursors of folate in a way that made them antifolates, inhibitors of folate metabolism. If folic acid made lymphoblasts grow faster, Dr. Farber had reasoned that antifolates should inhibit their growth. He thus asked the chemistry lab to focus on folate inhibitors. Testing aminopterin, beginning with young Robert Sandler at the end of December, is what proved his hypothesis correct. By late January, aminopterin had brought the child’s WBC count down to the realm of 12,000, just slightly above normal, with symptoms and signs abating as well, and by February, the child could play with his twin brother. It was not a cure; malignant lymphoblasts still showed on microscopy of Robert’s blood. While he and some 15 other children whom Dr. Farber treated in this early trial would all succumb to ALL, they experienced remission lasting several months.
This was a big deal because the concept of chemotherapy was based only on serendipitous observations of WBC counts dropping in soldiers exposed to nitrogen mustard gas during World War I and during an incident in World War II, yet aminopterin had been designed from the ground up. Though difficult to synthesize in quantities, there was no reason for Dr. Farber’s team not to keep tweaking the drug, and so they did. Replacing one hydrogen atom with a methyl group, they turned it into methotrexate.
Proving easier to synthesize and less toxic, methotrexate would become a workhorse for chemotherapy over the next couple of decades, but the capability of both methotrexate and aminopterin to blunt the growth of white blood cells and other cells did not go unnoticed outside the realm of oncology. As early as the 1950s, dermatologists were using aminopterin to treat psoriasis. This led to the approval of methotrexate for psoriasis in 1972.
Meanwhile, like oncology, infectious diseases, aviation medicine, and so many other areas of practice, rheumatology had gotten a major boost from research stemming from World War II. During the war, Dr. Philip Hench of the Mayo Clinic developed cortisone, which pilots used to stay alert and energetic during trans-Atlantic flights. But it turned out that cortisone had a powerful immunosuppressive effect that dramatically improved rheumatoid arthritis, leading Dr. Hench to receive the Nobel Prize in Physiology or Medicine in 1950. By the end of the 1950s, however, the significant side effects of long-term corticosteroid therapy were very clear, so over the next few decades there was a major effort to develop different treatments for RA and other rheumatologic diseases.
Top on the list of such agents was methotrexate, developed for RA in part by Dr. Michael Weinblatt of Brigham and Women’s Hospital in Boston. In the 1980s, Dr. Weinblatt published the first clinical trial showing the benefits of methotrexate for RA patients. This has since developed into a standard treatment, noticeably different from the original malignancy application in that it is a low-dose regimen. Patients taking methotrexate for RA typically receive no more than 25 mg per week orally, and often much less. Rheumatology today includes expertise in keeping long-term methotrexate therapy safe by monitoring liver function and through other routine tests. The routine nature of the therapy has brought methotrexate to the point of beckoning in a realm that Dr. Farber might not have predicted in his wildest imagination: cardiology. This is on account of the growing appreciation of the inflammatory process in the pathophysiology of atherosclerotic heart disease.
Meanwhile, being an antimetabolite, harmful to rapidly dividing cells, the danger of methotrexate to the embryo and fetus was recognized early. This made methotrexate off-limits to pregnant women, yet it also has made the drug useful as an abortifacient. Though not as good for medication abortion in unwanted but thriving pregnancies, where mifepristone/misoprostol has become the regimen of choice, methotrexate has become a workhorse in other obstetrical settings, such as for ending ectopic pregnancy.
Looking at the present and into the future, the potential for this very old medication looks wide open, as if it could go in any direction, so let’s wind up the discussion with the thought that we may be in for some surprises. Rather than jumping deeply into any rheumatologic issue, we spent most of this article weaving through other medical issues, but does this not make today’s story fairly analogous to rheumatology itself?
Dr. Warmflash is a physician from Portland, Ore. He reported no conflicts of interest.
This story was updated 2/10/2023.
A version of this article first appeared on Medscape.com.
If you could go back in time 75 years and tell Dr. Sidney Farber, the developer of methotrexate for cancer therapy, that 21st-century medicine would utilize his specially designed drug more in rheumatology than oncology, he might be surprised. He might scratch his head even more, hearing of his drug sparking interest in still other medical fields, like cardiology.
But drug repurposing is not so uncommon. One classic example is aspirin. Once the most common pain medication and used also in rheumatology, aspirin now finds a range of applications, from colorectal cancer to the prevention of cardiovascular and cerebrovascular thrombosis. Minoxidil is another example, developed for hypertension but used today mostly to stop hair loss. Perhaps most ironic is thalidomide, utilized today for leprosy and multiple myeloma, yet actually contraindicated for its original application, nausea of pregnancy.
Methotrexate, thus, has much in common with other medical treatments, and yet its origin story is as unique and as fascinating as the story of Dr. Farber himself. While this is a rheumatology article, it’s also a story about the origin of a particular rheumatologic treatment, and so the story of that origin will take us mostly through a discussion of hematologic malignancy and of the clinical researcher who dared search for a cure.
Born in 1903, in Buffalo, New York, third of fourteen children of Jewish immigrants from Poland, Dr. Farber grew up in a household that was crowded but academically rigorous. His father, Simon, routinely brought home textbooks, assigning each child a book to read and on which to write a report. His mother, Matilda, was as devoted as her husband to raising the children to succeed in their adopted new country. Upstairs, the children were permitted to speak Yiddish, but downstairs they were required to use only English and German.
As a teen, Dr. Farber lived through the 1918 influenza pandemic that killed at least 50 million people worldwide, including more than 2,000 Buffalonians. This probably helped motivate him to study medicine, but with antisemitism overt in the America of the early 1920s, securing admission to a U.S. medical school was close to impossible. So, in what now seems like the greatest of ironies, Dr. Farber began medical studies in Germany, then transferred for the second year to a U.S. program that seemed adequate – Harvard Medical School, from which he graduated in 1927. From there, he trained as a pathologist, focusing ultimately on pediatric pathology. But, frustrated by case after case of malignancy, whose young victims he’d often have to autopsy, Dr. Farber decided that he wanted to advance the pitiful state of cancer therapeutics, especially for hematologic malignancy.
This was a tall order in the 1930s and early 1940s, when cancer therapeutics consisted only of surgical resection and very primitive forms of radiation therapy. Applicable only to neoplasia that was localized, these options were useless against malignancies in the blood, like acute lymphoblastic leukemia (ALL), but by January 1948 there was at least one glimmer of hope. At that time, one patient with ALL, 2-year-old Robert Sandler, was too ill to join his twin brother Elliott for snow play outside their home in the Dorchester section of Boston. Diagnosed back in August, Robert had suffered multiple episodes of fever, anemia, and thrombocytopenia. His illness had enlarged his spleen dramatically and caused pathologic bone fractures with excruciating bone pain, and for a while he couldn’t walk because of pressure on his lower spinal cord. All of this was the result of uncontrolled mitosis and cell division of lymphoblasts, immature lymphocytes. By December, these out-of-control cells had elevated the boy’s white blood cell count to a peak of 70,000/mcL, more than six times the high end of the normal range (4,500-11,000/mcL). This had happened despite treatment with an experimental drug, developed at Boston Children’s Hospital by Dr. Farber and his team, working on the assumption that inhibition of folate metabolism should slow the growth of tumor cells. On Dec. 28, however, Dr. Farber had switched the child to a new drug with a chemical structure just slightly different from the other agent’s.
Merely another chemical modification in a series of attempts by the research team, the new drug, aminopterin, was not expected to do anything dramatic, but Dr. Farber and the team had come such a long way since the middle of 1947, when he’d actually done the opposite of what he was doing now. On the basis of British research from India showing folic acid deficiency as the basis of a common type of anemia in malnourished people, Dr. Farber had reasoned that children with leukemia, who also suffered from anemia, might also benefit from folic acid supplementation. Even without prior rodent testing, Dr. Farber had tried giving the nutrient to patients with ALL, a strategy made possible by the presence of a spectacular chemist working on folic acid synthesis at Farber’s own hospital to help combat folate deficiency. Born into a poor Brahmin family in India, the chemist, Dr. Yellapragada SubbaRow, had begun life with so much stacked against him as to appear even less likely during childhood than the young Dr. Farber to grow up to make major contributions to medicine. Going through childhood with death all around him, Dr. SubbaRow was motivated to study medicine, but getting into medical school had been an uphill fight, given his family’s economic difficulty. Knowing that he’d also face discrimination on account of his low status after receiving admission to a medical program, SubbaRow could have made things a bit easier for himself by living within the norms of the British Imperial system, but as a supporter of Mohandas Gandhi’s nationalist movement, he boycotted British goods. As a medical student, this meant doing things like wearing Indian-made surgical gloves, instead of the English products that were expected of the students. Such actions led Dr. SubbaRow to receive a kind of second-rate medical degree, rather than the prestigious MBBS.
The political situation also led Dr. SubbaRow to emigrate to the United States, where, ironically, his medical degree initially was taken less seriously than it had been taken in his British-occupied homeland. He thus worked in the capacity of a hospital night porter at Peter Bent Brigham Hospital (the future Brigham and Women’s Hospital), doing menial tasks like changing sheets to make ends meet. He studied, however, and made enough of an impression to gain admission to the same institution that also admitted Farber through the backdoor, Harvard Medical School. This launched him into a research career in which he not only would be instrumental in developing folate antagonists and other classes of drugs, but also would make him the codiscoverer of the role of creatine phosphate and ATP in cellular energy metabolism. Sadly, even after obtaining his top-notch American credentials and contributing through his research to what you might say is a good chunk of the biochemistry pathways that first year medical students memorize without ever learning who discovered them, Dr. SubbaRow still faced prejudice for the rest of his life, which turned out to last only until the age of 53. To add insult to injury, he is rarely remembered for his role.
Dr. Farber proceeded with the folic acid supplementation idea in patients with ALL, even though ALL caused a hypoproliferative anemia, whereas anemia from folate deficiency was megaloblastic, meaning that erythrocytes were produced but they were oversized and dysfunctional. Tragically, folic acid had accelerated the disease process in children with ALL, but the process of chemical experimentation aimed at synthesizing folate also produced some compounds that mimicked chemical precursors of folate in a way that made them antifolates, inhibitors of folate metabolism. If folic acid made lymphoblasts grow faster, Dr. Farber had reasoned that antifolates should inhibit their growth. He thus asked the chemistry lab to focus on folate inhibitors. Testing aminopterin, beginning with young Robert Sandler at the end of December, is what proved his hypothesis correct. By late January, aminopterin had brought the child’s WBC count down to the realm of 12,000, just slightly above normal, with symptoms and signs abating as well, and by February, the child could play with his twin brother. It was not a cure; malignant lymphoblasts still showed on microscopy of Robert’s blood. While he and some 15 other children whom Dr. Farber treated in this early trial would all succumb to ALL, they experienced remission lasting several months.
This was a big deal because the concept of chemotherapy was based only on serendipitous observations of WBC counts dropping in soldiers exposed to nitrogen mustard gas during World War I and during an incident in World War II, yet aminopterin had been designed from the ground up. Though difficult to synthesize in quantities, there was no reason for Dr. Farber’s team not to keep tweaking the drug, and so they did. Replacing one hydrogen atom with a methyl group, they turned it into methotrexate.
Proving easier to synthesize and less toxic, methotrexate would become a workhorse for chemotherapy over the next couple of decades, but the capability of both methotrexate and aminopterin to blunt the growth of white blood cells and other cells did not go unnoticed outside the realm of oncology. As early as the 1950s, dermatologists were using aminopterin to treat psoriasis. This led to the approval of methotrexate for psoriasis in 1972.
Meanwhile, like oncology, infectious diseases, aviation medicine, and so many other areas of practice, rheumatology had gotten a major boost from research stemming from World War II. During the war, Dr. Philip Hench of the Mayo Clinic developed cortisone, which pilots used to stay alert and energetic during trans-Atlantic flights. But it turned out that cortisone had a powerful immunosuppressive effect that dramatically improved rheumatoid arthritis, leading Dr. Hench to receive the Nobel Prize in Physiology or Medicine in 1950. By the end of the 1950s, however, the significant side effects of long-term corticosteroid therapy were very clear, so over the next few decades there was a major effort to develop different treatments for RA and other rheumatologic diseases.
Top on the list of such agents was methotrexate, developed for RA in part by Dr. Michael Weinblatt of Brigham and Women’s Hospital in Boston. In the 1980s, Dr. Weinblatt published the first clinical trial showing the benefits of methotrexate for RA patients. This has since developed into a standard treatment, noticeably different from the original malignancy application in that it is a low-dose regimen. Patients taking methotrexate for RA typically receive no more than 25 mg per week orally, and often much less. Rheumatology today includes expertise in keeping long-term methotrexate therapy safe by monitoring liver function and through other routine tests. The routine nature of the therapy has brought methotrexate to the point of beckoning in a realm that Dr. Farber might not have predicted in his wildest imagination: cardiology. This is on account of the growing appreciation of the inflammatory process in the pathophysiology of atherosclerotic heart disease.
Meanwhile, being an antimetabolite, harmful to rapidly dividing cells, the danger of methotrexate to the embryo and fetus was recognized early. This made methotrexate off-limits to pregnant women, yet it also has made the drug useful as an abortifacient. Though not as good for medication abortion in unwanted but thriving pregnancies, where mifepristone/misoprostol has become the regimen of choice, methotrexate has become a workhorse in other obstetrical settings, such as for ending ectopic pregnancy.
Looking at the present and into the future, the potential for this very old medication looks wide open, as if it could go in any direction, so let’s wind up the discussion with the thought that we may be in for some surprises. Rather than jumping deeply into any rheumatologic issue, we spent most of this article weaving through other medical issues, but does this not make today’s story fairly analogous to rheumatology itself?
Dr. Warmflash is a physician from Portland, Ore. He reported no conflicts of interest.
This story was updated 2/10/2023.
A version of this article first appeared on Medscape.com.
If you could go back in time 75 years and tell Dr. Sidney Farber, the developer of methotrexate for cancer therapy, that 21st-century medicine would utilize his specially designed drug more in rheumatology than oncology, he might be surprised. He might scratch his head even more, hearing of his drug sparking interest in still other medical fields, like cardiology.
But drug repurposing is not so uncommon. One classic example is aspirin. Once the most common pain medication and used also in rheumatology, aspirin now finds a range of applications, from colorectal cancer to the prevention of cardiovascular and cerebrovascular thrombosis. Minoxidil is another example, developed for hypertension but used today mostly to stop hair loss. Perhaps most ironic is thalidomide, utilized today for leprosy and multiple myeloma, yet actually contraindicated for its original application, nausea of pregnancy.
Methotrexate, thus, has much in common with other medical treatments, and yet its origin story is as unique and as fascinating as the story of Dr. Farber himself. While this is a rheumatology article, it’s also a story about the origin of a particular rheumatologic treatment, and so the story of that origin will take us mostly through a discussion of hematologic malignancy and of the clinical researcher who dared search for a cure.
Born in 1903, in Buffalo, New York, third of fourteen children of Jewish immigrants from Poland, Dr. Farber grew up in a household that was crowded but academically rigorous. His father, Simon, routinely brought home textbooks, assigning each child a book to read and on which to write a report. His mother, Matilda, was as devoted as her husband to raising the children to succeed in their adopted new country. Upstairs, the children were permitted to speak Yiddish, but downstairs they were required to use only English and German.
As a teen, Dr. Farber lived through the 1918 influenza pandemic that killed at least 50 million people worldwide, including more than 2,000 Buffalonians. This probably helped motivate him to study medicine, but with antisemitism overt in the America of the early 1920s, securing admission to a U.S. medical school was close to impossible. So, in what now seems like the greatest of ironies, Dr. Farber began medical studies in Germany, then transferred for the second year to a U.S. program that seemed adequate – Harvard Medical School, from which he graduated in 1927. From there, he trained as a pathologist, focusing ultimately on pediatric pathology. But, frustrated by case after case of malignancy, whose young victims he’d often have to autopsy, Dr. Farber decided that he wanted to advance the pitiful state of cancer therapeutics, especially for hematologic malignancy.
This was a tall order in the 1930s and early 1940s, when cancer therapeutics consisted only of surgical resection and very primitive forms of radiation therapy. Applicable only to neoplasia that was localized, these options were useless against malignancies in the blood, like acute lymphoblastic leukemia (ALL), but by January 1948 there was at least one glimmer of hope. At that time, one patient with ALL, 2-year-old Robert Sandler, was too ill to join his twin brother Elliott for snow play outside their home in the Dorchester section of Boston. Diagnosed back in August, Robert had suffered multiple episodes of fever, anemia, and thrombocytopenia. His illness had enlarged his spleen dramatically and caused pathologic bone fractures with excruciating bone pain, and for a while he couldn’t walk because of pressure on his lower spinal cord. All of this was the result of uncontrolled mitosis and cell division of lymphoblasts, immature lymphocytes. By December, these out-of-control cells had elevated the boy’s white blood cell count to a peak of 70,000/mcL, more than six times the high end of the normal range (4,500-11,000/mcL). This had happened despite treatment with an experimental drug, developed at Boston Children’s Hospital by Dr. Farber and his team, working on the assumption that inhibition of folate metabolism should slow the growth of tumor cells. On Dec. 28, however, Dr. Farber had switched the child to a new drug with a chemical structure just slightly different from the other agent’s.
Merely another chemical modification in a series of attempts by the research team, the new drug, aminopterin, was not expected to do anything dramatic, but Dr. Farber and the team had come such a long way since the middle of 1947, when he’d actually done the opposite of what he was doing now. On the basis of British research from India showing folic acid deficiency as the basis of a common type of anemia in malnourished people, Dr. Farber had reasoned that children with leukemia, who also suffered from anemia, might also benefit from folic acid supplementation. Even without prior rodent testing, Dr. Farber had tried giving the nutrient to patients with ALL, a strategy made possible by the presence of a spectacular chemist working on folic acid synthesis at Farber’s own hospital to help combat folate deficiency. Born into a poor Brahmin family in India, the chemist, Dr. Yellapragada SubbaRow, had begun life with so much stacked against him as to appear even less likely during childhood than the young Dr. Farber to grow up to make major contributions to medicine. Going through childhood with death all around him, Dr. SubbaRow was motivated to study medicine, but getting into medical school had been an uphill fight, given his family’s economic difficulty. Knowing that he’d also face discrimination on account of his low status after receiving admission to a medical program, SubbaRow could have made things a bit easier for himself by living within the norms of the British Imperial system, but as a supporter of Mohandas Gandhi’s nationalist movement, he boycotted British goods. As a medical student, this meant doing things like wearing Indian-made surgical gloves, instead of the English products that were expected of the students. Such actions led Dr. SubbaRow to receive a kind of second-rate medical degree, rather than the prestigious MBBS.
The political situation also led Dr. SubbaRow to emigrate to the United States, where, ironically, his medical degree initially was taken less seriously than it had been taken in his British-occupied homeland. He thus worked in the capacity of a hospital night porter at Peter Bent Brigham Hospital (the future Brigham and Women’s Hospital), doing menial tasks like changing sheets to make ends meet. He studied, however, and made enough of an impression to gain admission to the same institution that also admitted Farber through the backdoor, Harvard Medical School. This launched him into a research career in which he not only would be instrumental in developing folate antagonists and other classes of drugs, but also would make him the codiscoverer of the role of creatine phosphate and ATP in cellular energy metabolism. Sadly, even after obtaining his top-notch American credentials and contributing through his research to what you might say is a good chunk of the biochemistry pathways that first year medical students memorize without ever learning who discovered them, Dr. SubbaRow still faced prejudice for the rest of his life, which turned out to last only until the age of 53. To add insult to injury, he is rarely remembered for his role.
Dr. Farber proceeded with the folic acid supplementation idea in patients with ALL, even though ALL caused a hypoproliferative anemia, whereas anemia from folate deficiency was megaloblastic, meaning that erythrocytes were produced but they were oversized and dysfunctional. Tragically, folic acid had accelerated the disease process in children with ALL, but the process of chemical experimentation aimed at synthesizing folate also produced some compounds that mimicked chemical precursors of folate in a way that made them antifolates, inhibitors of folate metabolism. If folic acid made lymphoblasts grow faster, Dr. Farber had reasoned that antifolates should inhibit their growth. He thus asked the chemistry lab to focus on folate inhibitors. Testing aminopterin, beginning with young Robert Sandler at the end of December, is what proved his hypothesis correct. By late January, aminopterin had brought the child’s WBC count down to the realm of 12,000, just slightly above normal, with symptoms and signs abating as well, and by February, the child could play with his twin brother. It was not a cure; malignant lymphoblasts still showed on microscopy of Robert’s blood. While he and some 15 other children whom Dr. Farber treated in this early trial would all succumb to ALL, they experienced remission lasting several months.
This was a big deal because the concept of chemotherapy was based only on serendipitous observations of WBC counts dropping in soldiers exposed to nitrogen mustard gas during World War I and during an incident in World War II, yet aminopterin had been designed from the ground up. Though difficult to synthesize in quantities, there was no reason for Dr. Farber’s team not to keep tweaking the drug, and so they did. Replacing one hydrogen atom with a methyl group, they turned it into methotrexate.
Proving easier to synthesize and less toxic, methotrexate would become a workhorse for chemotherapy over the next couple of decades, but the capability of both methotrexate and aminopterin to blunt the growth of white blood cells and other cells did not go unnoticed outside the realm of oncology. As early as the 1950s, dermatologists were using aminopterin to treat psoriasis. This led to the approval of methotrexate for psoriasis in 1972.
Meanwhile, like oncology, infectious diseases, aviation medicine, and so many other areas of practice, rheumatology had gotten a major boost from research stemming from World War II. During the war, Dr. Philip Hench of the Mayo Clinic developed cortisone, which pilots used to stay alert and energetic during trans-Atlantic flights. But it turned out that cortisone had a powerful immunosuppressive effect that dramatically improved rheumatoid arthritis, leading Dr. Hench to receive the Nobel Prize in Physiology or Medicine in 1950. By the end of the 1950s, however, the significant side effects of long-term corticosteroid therapy were very clear, so over the next few decades there was a major effort to develop different treatments for RA and other rheumatologic diseases.
Top on the list of such agents was methotrexate, developed for RA in part by Dr. Michael Weinblatt of Brigham and Women’s Hospital in Boston. In the 1980s, Dr. Weinblatt published the first clinical trial showing the benefits of methotrexate for RA patients. This has since developed into a standard treatment, noticeably different from the original malignancy application in that it is a low-dose regimen. Patients taking methotrexate for RA typically receive no more than 25 mg per week orally, and often much less. Rheumatology today includes expertise in keeping long-term methotrexate therapy safe by monitoring liver function and through other routine tests. The routine nature of the therapy has brought methotrexate to the point of beckoning in a realm that Dr. Farber might not have predicted in his wildest imagination: cardiology. This is on account of the growing appreciation of the inflammatory process in the pathophysiology of atherosclerotic heart disease.
Meanwhile, being an antimetabolite, harmful to rapidly dividing cells, the danger of methotrexate to the embryo and fetus was recognized early. This made methotrexate off-limits to pregnant women, yet it also has made the drug useful as an abortifacient. Though not as good for medication abortion in unwanted but thriving pregnancies, where mifepristone/misoprostol has become the regimen of choice, methotrexate has become a workhorse in other obstetrical settings, such as for ending ectopic pregnancy.
Looking at the present and into the future, the potential for this very old medication looks wide open, as if it could go in any direction, so let’s wind up the discussion with the thought that we may be in for some surprises. Rather than jumping deeply into any rheumatologic issue, we spent most of this article weaving through other medical issues, but does this not make today’s story fairly analogous to rheumatology itself?
Dr. Warmflash is a physician from Portland, Ore. He reported no conflicts of interest.
This story was updated 2/10/2023.
A version of this article first appeared on Medscape.com.
The longevity gene: Healthy mutant reverses heart aging
Everybody wants a younger heart
As more people live well past 90, scientists have been taking a closer look at how they’ve been doing it. Mostly it boiled down to genetics. You either had it or you didn’t. Well, a recent study suggests that doesn’t have to be true anymore, at least for the heart.
Scientists from the United Kingdom and Italy found an antiaging gene in some centenarians that has shown possible antiaging effects in mice and in human heart cells. A single administration of the mutant antiaging gene, they found, stopped heart function decay in middle-aged mice and even reversed the biological clock by the human equivalent of 10 years in elderly mice.
When the researchers applied the antiaging gene to samples of human heart cells from elderly people with heart problems, the cells “resumed functioning properly, proving to be more efficient in building new blood vessels,” they said in a written statement. It all kind of sounds like something out of Dr. Frankenstein’s lab.
I want to believe … in better sleep
The “X-Files” theme song plays. Mulder and Scully are sitting in a diner, breakfast laid out around them. The diner is quiet, with only a few people inside.
Mulder: I’m telling you, Scully, there’s something spooky going on here.
Scully: You mean other than the fact that this town in Georgia looks suspiciously like Vancouver?
Mulder: Not one person we spoke to yesterday has gotten a full night’s sleep since the UFO sighting last month. I’m telling you, they’re here, they’re experimenting.
Scully: Do you really want me to do this to you again?
Mulder: Do what again?
Scully: There’s nothing going on here that can’t be explained by the current research. Why, in January 2023 a study was published revealing a link between poor sleep and belief in paranormal phenomena like UFOS, demons, or ghosts. Which probably explains why you’re on your third cup of coffee for the morning.
Mulder: Scully, you’ve literally been abducted by aliens. Do we have to play this game every time?
Scully: Look, it’s simple. In a sample of nearly 9,000 people, nearly two-thirds of those who reported experiencing sleep paralysis or exploding head syndrome reported believing in UFOs and aliens walking amongst humanity, despite making up just 3% of the overall sample.
Furthermore, about 60% of those reporting sleep paralysis also reported believing near-death experiences prove the soul lingers on after death, and those with stronger insomnia symptoms were more likely to believe in the devil.
Mulder: Aha!
Scully: Aha what?
Mulder: You’re a devout Christian. You believe in the devil and the soul.
Scully: Yes, but I don’t let it interfere with a good night’s sleep, Mulder. These people saw something strange, convinced themselves it was a UFO, and now they can’t sleep. It’s a vicious cycle. The study authors even said that people experiencing strange nighttime phenomena could interpret this as evidence of aliens or other paranormal beings, thus making them even more susceptible to further sleep disruption and deepening beliefs. Look who I’m talking to.
Mulder: Always with the facts, eh?
Scully: I am a doctor, after all. And if you want more research into how paranormal belief and poor sleep quality are linked, I’d be happy to dig out the literature, because the truth is out there, Mulder.
Mulder: I hate you sometimes.
It’s ChatGPT’s world. We’re just living in it
Have you heard about ChatGPT? The artificial intelligence chatbot was just launched in November and it’s already more important to the Internet than either Vladimir Putin or “Rick and Morty.”
What’s that? You’re wondering why you should care? Well, excuuuuuse us, but we thought you might want to know that ChatGPT is in the process of taking over the world. Let’s take a quick look at what it’s been up to.
“ChatGPT bot passes law school exam”
“ChatGPT passes MBA exam given by a Wharton professor”
“A freelance writer says ChatGPT wrote a $600 article in just 30 seconds”
And here’s one that might be of interest to those of the health care persuasion: “ChatGPT can pass part of the U.S. Medical Licensing Exam.” See? It’s coming for you, too.
The artificial intelligence known as ChatGPT “performed at >50% accuracy across [the three USMLE] examinations, exceeding 60% in most analyses,” a group of researchers wrote on the preprint server medRxiv, noting that 60% is usually the pass threshold for humans taking the exam in any given year.
ChatGPT was not given any special medical training before the exam, but the investigators pointed out that another AI, PubMedGPT, which is trained exclusively on biomedical domain literature, was only 50.8% accurate on the USMLE. Its reliance on “ongoing academic discourse that tends to be inconclusive, contradictory, or highly conservative or noncommittal in its language” was its undoing, the team suggested.
To top it off, ChatGPT is listed as one of the authors at the top of the medRxiv report, with an acknowledgment at the end saying that “ChatGPT contributed to the writing of several sections of this manuscript.”
We’ve said it before, and no doubt we’ll say it again: We’re doomed.
Everybody wants a younger heart
As more people live well past 90, scientists have been taking a closer look at how they’ve been doing it. Mostly it boiled down to genetics. You either had it or you didn’t. Well, a recent study suggests that doesn’t have to be true anymore, at least for the heart.
Scientists from the United Kingdom and Italy found an antiaging gene in some centenarians that has shown possible antiaging effects in mice and in human heart cells. A single administration of the mutant antiaging gene, they found, stopped heart function decay in middle-aged mice and even reversed the biological clock by the human equivalent of 10 years in elderly mice.
When the researchers applied the antiaging gene to samples of human heart cells from elderly people with heart problems, the cells “resumed functioning properly, proving to be more efficient in building new blood vessels,” they said in a written statement. It all kind of sounds like something out of Dr. Frankenstein’s lab.
I want to believe … in better sleep
The “X-Files” theme song plays. Mulder and Scully are sitting in a diner, breakfast laid out around them. The diner is quiet, with only a few people inside.
Mulder: I’m telling you, Scully, there’s something spooky going on here.
Scully: You mean other than the fact that this town in Georgia looks suspiciously like Vancouver?
Mulder: Not one person we spoke to yesterday has gotten a full night’s sleep since the UFO sighting last month. I’m telling you, they’re here, they’re experimenting.
Scully: Do you really want me to do this to you again?
Mulder: Do what again?
Scully: There’s nothing going on here that can’t be explained by the current research. Why, in January 2023 a study was published revealing a link between poor sleep and belief in paranormal phenomena like UFOS, demons, or ghosts. Which probably explains why you’re on your third cup of coffee for the morning.
Mulder: Scully, you’ve literally been abducted by aliens. Do we have to play this game every time?
Scully: Look, it’s simple. In a sample of nearly 9,000 people, nearly two-thirds of those who reported experiencing sleep paralysis or exploding head syndrome reported believing in UFOs and aliens walking amongst humanity, despite making up just 3% of the overall sample.
Furthermore, about 60% of those reporting sleep paralysis also reported believing near-death experiences prove the soul lingers on after death, and those with stronger insomnia symptoms were more likely to believe in the devil.
Mulder: Aha!
Scully: Aha what?
Mulder: You’re a devout Christian. You believe in the devil and the soul.
Scully: Yes, but I don’t let it interfere with a good night’s sleep, Mulder. These people saw something strange, convinced themselves it was a UFO, and now they can’t sleep. It’s a vicious cycle. The study authors even said that people experiencing strange nighttime phenomena could interpret this as evidence of aliens or other paranormal beings, thus making them even more susceptible to further sleep disruption and deepening beliefs. Look who I’m talking to.
Mulder: Always with the facts, eh?
Scully: I am a doctor, after all. And if you want more research into how paranormal belief and poor sleep quality are linked, I’d be happy to dig out the literature, because the truth is out there, Mulder.
Mulder: I hate you sometimes.
It’s ChatGPT’s world. We’re just living in it
Have you heard about ChatGPT? The artificial intelligence chatbot was just launched in November and it’s already more important to the Internet than either Vladimir Putin or “Rick and Morty.”
What’s that? You’re wondering why you should care? Well, excuuuuuse us, but we thought you might want to know that ChatGPT is in the process of taking over the world. Let’s take a quick look at what it’s been up to.
“ChatGPT bot passes law school exam”
“ChatGPT passes MBA exam given by a Wharton professor”
“A freelance writer says ChatGPT wrote a $600 article in just 30 seconds”
And here’s one that might be of interest to those of the health care persuasion: “ChatGPT can pass part of the U.S. Medical Licensing Exam.” See? It’s coming for you, too.
The artificial intelligence known as ChatGPT “performed at >50% accuracy across [the three USMLE] examinations, exceeding 60% in most analyses,” a group of researchers wrote on the preprint server medRxiv, noting that 60% is usually the pass threshold for humans taking the exam in any given year.
ChatGPT was not given any special medical training before the exam, but the investigators pointed out that another AI, PubMedGPT, which is trained exclusively on biomedical domain literature, was only 50.8% accurate on the USMLE. Its reliance on “ongoing academic discourse that tends to be inconclusive, contradictory, or highly conservative or noncommittal in its language” was its undoing, the team suggested.
To top it off, ChatGPT is listed as one of the authors at the top of the medRxiv report, with an acknowledgment at the end saying that “ChatGPT contributed to the writing of several sections of this manuscript.”
We’ve said it before, and no doubt we’ll say it again: We’re doomed.
Everybody wants a younger heart
As more people live well past 90, scientists have been taking a closer look at how they’ve been doing it. Mostly it boiled down to genetics. You either had it or you didn’t. Well, a recent study suggests that doesn’t have to be true anymore, at least for the heart.
Scientists from the United Kingdom and Italy found an antiaging gene in some centenarians that has shown possible antiaging effects in mice and in human heart cells. A single administration of the mutant antiaging gene, they found, stopped heart function decay in middle-aged mice and even reversed the biological clock by the human equivalent of 10 years in elderly mice.
When the researchers applied the antiaging gene to samples of human heart cells from elderly people with heart problems, the cells “resumed functioning properly, proving to be more efficient in building new blood vessels,” they said in a written statement. It all kind of sounds like something out of Dr. Frankenstein’s lab.
I want to believe … in better sleep
The “X-Files” theme song plays. Mulder and Scully are sitting in a diner, breakfast laid out around them. The diner is quiet, with only a few people inside.
Mulder: I’m telling you, Scully, there’s something spooky going on here.
Scully: You mean other than the fact that this town in Georgia looks suspiciously like Vancouver?
Mulder: Not one person we spoke to yesterday has gotten a full night’s sleep since the UFO sighting last month. I’m telling you, they’re here, they’re experimenting.
Scully: Do you really want me to do this to you again?
Mulder: Do what again?
Scully: There’s nothing going on here that can’t be explained by the current research. Why, in January 2023 a study was published revealing a link between poor sleep and belief in paranormal phenomena like UFOS, demons, or ghosts. Which probably explains why you’re on your third cup of coffee for the morning.
Mulder: Scully, you’ve literally been abducted by aliens. Do we have to play this game every time?
Scully: Look, it’s simple. In a sample of nearly 9,000 people, nearly two-thirds of those who reported experiencing sleep paralysis or exploding head syndrome reported believing in UFOs and aliens walking amongst humanity, despite making up just 3% of the overall sample.
Furthermore, about 60% of those reporting sleep paralysis also reported believing near-death experiences prove the soul lingers on after death, and those with stronger insomnia symptoms were more likely to believe in the devil.
Mulder: Aha!
Scully: Aha what?
Mulder: You’re a devout Christian. You believe in the devil and the soul.
Scully: Yes, but I don’t let it interfere with a good night’s sleep, Mulder. These people saw something strange, convinced themselves it was a UFO, and now they can’t sleep. It’s a vicious cycle. The study authors even said that people experiencing strange nighttime phenomena could interpret this as evidence of aliens or other paranormal beings, thus making them even more susceptible to further sleep disruption and deepening beliefs. Look who I’m talking to.
Mulder: Always with the facts, eh?
Scully: I am a doctor, after all. And if you want more research into how paranormal belief and poor sleep quality are linked, I’d be happy to dig out the literature, because the truth is out there, Mulder.
Mulder: I hate you sometimes.
It’s ChatGPT’s world. We’re just living in it
Have you heard about ChatGPT? The artificial intelligence chatbot was just launched in November and it’s already more important to the Internet than either Vladimir Putin or “Rick and Morty.”
What’s that? You’re wondering why you should care? Well, excuuuuuse us, but we thought you might want to know that ChatGPT is in the process of taking over the world. Let’s take a quick look at what it’s been up to.
“ChatGPT bot passes law school exam”
“ChatGPT passes MBA exam given by a Wharton professor”
“A freelance writer says ChatGPT wrote a $600 article in just 30 seconds”
And here’s one that might be of interest to those of the health care persuasion: “ChatGPT can pass part of the U.S. Medical Licensing Exam.” See? It’s coming for you, too.
The artificial intelligence known as ChatGPT “performed at >50% accuracy across [the three USMLE] examinations, exceeding 60% in most analyses,” a group of researchers wrote on the preprint server medRxiv, noting that 60% is usually the pass threshold for humans taking the exam in any given year.
ChatGPT was not given any special medical training before the exam, but the investigators pointed out that another AI, PubMedGPT, which is trained exclusively on biomedical domain literature, was only 50.8% accurate on the USMLE. Its reliance on “ongoing academic discourse that tends to be inconclusive, contradictory, or highly conservative or noncommittal in its language” was its undoing, the team suggested.
To top it off, ChatGPT is listed as one of the authors at the top of the medRxiv report, with an acknowledgment at the end saying that “ChatGPT contributed to the writing of several sections of this manuscript.”
We’ve said it before, and no doubt we’ll say it again: We’re doomed.
Over half of ED visits from cancer patients could be prevented
Overall, researchers found that 18.3 million (52%) ED visits among patients with cancer between 2012 and 2019 were potentially avoidable. Pain was the most common reason for such a visit. Notably, the number of potentially preventable ED visits documented each year increased over the study period.
“These findings highlight the need for cancer care programs to implement evidence-based interventions to better manage cancer treatment complications, such as uncontrolled pain, in outpatient and ambulatory settings,” said the authors, led by Amir Alishahi Tabriz, MD, PhD, MPH, department of health outcomes and behavior, Moffitt Cancer Center, Tampa.
Authors of an accompanying editorial agree, noting that “patients at risk for having uncontrolled pain could potentially be identified earlier, and steps could be taken that would address their pain and help prevent acute care visits.”
The study and the editorial were published online Jan. 19, 2022, in JAMA Network Open.
Patients with cancer experience a range of side effects from their cancer and treatment. Many such problems can be managed in the ambulatory setting but are often managed in the ED, which is far from optimal for patients with cancer from both a complications and cost perspective. Still, little is known about whether ED visits among patients with cancer are avoidable.
To better understand unnecessary emergency care use by these patients, Dr. Tabriz and colleagues evaluated trends and characteristics of potentially preventable ED visits among adults with cancer who had an ED visit between 2012 and 2019. The authors used the Centers for Medicare & Medicaid Services definition for a potentially preventable ED visit among patients receiving chemotherapy.
Among the 35.5 million ED visits made by patients with cancer during the study period, 18.3 million (52%) were identified as potentially preventable. Nearly 5.8 million of these visits (21%) were classified as being of “high acuity,” and almost 30% resulted in unplanned hospitalizations.
Pain was the most common reason for potentially preventable ED visits, accounting for 37% of these visits.
The absolute number of potentially preventable ED visits among cancer patients increased from about 1.8 million in 2012 to 3.2 million in 2019. The number of patients who visited the ED because of pain more than doubled, from roughly 1.2 million in 2012 to 2.4 million in 2019.
“The disproportionate increase in the number of ED visits by patients with cancer has put a substantial burden on EDs that are already operating at peak capacity” and “reinforces the need for cancer care programs to devise innovative ways to manage complications associated with cancer treatment in the outpatient and ambulatory settings,” Dr. Tabriz and coauthors wrote.
The increase could be an “unintended” consequence of efforts to decrease overall opioid administration in response to the opioid epidemic, Dr. Tabriz and colleagues noted. For example, the authors point to a recent study that found that about half of patients with cancer who had severe pain did not receive outpatient opioids in the week before visiting the ED.
“Even access to outpatient care does not mean patients can get the care they need outside an ED,” wrote editorialists Erek Majka, MD, with Summerlin Hospital, Las Vegas, and N. Seth Trueger, MD, MPH, with Northwestern University, Chicago. Thus, “it is no surprise that patients are sent to the ED if the alternatives do not have the staff or diagnostic and therapeutic capabilities the patients need.”
Overall, however, the “goal is not to eliminate ED visits for their own sake; rather, the goal is better care of patients with cancer, and secondarily, in a manner that is cost-effective,” Dr. Majka and Dr. Trueger explained.
No specific funding for the study was reported. The authors disclosed no relevant financial relationships. Dr. Trueger is digital media editor of JAMA Network Open, but he was not involved in decisions regarding review of the manuscript or its acceptance.
A version of this article first appeared on Medscape.com.
Overall, researchers found that 18.3 million (52%) ED visits among patients with cancer between 2012 and 2019 were potentially avoidable. Pain was the most common reason for such a visit. Notably, the number of potentially preventable ED visits documented each year increased over the study period.
“These findings highlight the need for cancer care programs to implement evidence-based interventions to better manage cancer treatment complications, such as uncontrolled pain, in outpatient and ambulatory settings,” said the authors, led by Amir Alishahi Tabriz, MD, PhD, MPH, department of health outcomes and behavior, Moffitt Cancer Center, Tampa.
Authors of an accompanying editorial agree, noting that “patients at risk for having uncontrolled pain could potentially be identified earlier, and steps could be taken that would address their pain and help prevent acute care visits.”
The study and the editorial were published online Jan. 19, 2022, in JAMA Network Open.
Patients with cancer experience a range of side effects from their cancer and treatment. Many such problems can be managed in the ambulatory setting but are often managed in the ED, which is far from optimal for patients with cancer from both a complications and cost perspective. Still, little is known about whether ED visits among patients with cancer are avoidable.
To better understand unnecessary emergency care use by these patients, Dr. Tabriz and colleagues evaluated trends and characteristics of potentially preventable ED visits among adults with cancer who had an ED visit between 2012 and 2019. The authors used the Centers for Medicare & Medicaid Services definition for a potentially preventable ED visit among patients receiving chemotherapy.
Among the 35.5 million ED visits made by patients with cancer during the study period, 18.3 million (52%) were identified as potentially preventable. Nearly 5.8 million of these visits (21%) were classified as being of “high acuity,” and almost 30% resulted in unplanned hospitalizations.
Pain was the most common reason for potentially preventable ED visits, accounting for 37% of these visits.
The absolute number of potentially preventable ED visits among cancer patients increased from about 1.8 million in 2012 to 3.2 million in 2019. The number of patients who visited the ED because of pain more than doubled, from roughly 1.2 million in 2012 to 2.4 million in 2019.
“The disproportionate increase in the number of ED visits by patients with cancer has put a substantial burden on EDs that are already operating at peak capacity” and “reinforces the need for cancer care programs to devise innovative ways to manage complications associated with cancer treatment in the outpatient and ambulatory settings,” Dr. Tabriz and coauthors wrote.
The increase could be an “unintended” consequence of efforts to decrease overall opioid administration in response to the opioid epidemic, Dr. Tabriz and colleagues noted. For example, the authors point to a recent study that found that about half of patients with cancer who had severe pain did not receive outpatient opioids in the week before visiting the ED.
“Even access to outpatient care does not mean patients can get the care they need outside an ED,” wrote editorialists Erek Majka, MD, with Summerlin Hospital, Las Vegas, and N. Seth Trueger, MD, MPH, with Northwestern University, Chicago. Thus, “it is no surprise that patients are sent to the ED if the alternatives do not have the staff or diagnostic and therapeutic capabilities the patients need.”
Overall, however, the “goal is not to eliminate ED visits for their own sake; rather, the goal is better care of patients with cancer, and secondarily, in a manner that is cost-effective,” Dr. Majka and Dr. Trueger explained.
No specific funding for the study was reported. The authors disclosed no relevant financial relationships. Dr. Trueger is digital media editor of JAMA Network Open, but he was not involved in decisions regarding review of the manuscript or its acceptance.
A version of this article first appeared on Medscape.com.
Overall, researchers found that 18.3 million (52%) ED visits among patients with cancer between 2012 and 2019 were potentially avoidable. Pain was the most common reason for such a visit. Notably, the number of potentially preventable ED visits documented each year increased over the study period.
“These findings highlight the need for cancer care programs to implement evidence-based interventions to better manage cancer treatment complications, such as uncontrolled pain, in outpatient and ambulatory settings,” said the authors, led by Amir Alishahi Tabriz, MD, PhD, MPH, department of health outcomes and behavior, Moffitt Cancer Center, Tampa.
Authors of an accompanying editorial agree, noting that “patients at risk for having uncontrolled pain could potentially be identified earlier, and steps could be taken that would address their pain and help prevent acute care visits.”
The study and the editorial were published online Jan. 19, 2022, in JAMA Network Open.
Patients with cancer experience a range of side effects from their cancer and treatment. Many such problems can be managed in the ambulatory setting but are often managed in the ED, which is far from optimal for patients with cancer from both a complications and cost perspective. Still, little is known about whether ED visits among patients with cancer are avoidable.
To better understand unnecessary emergency care use by these patients, Dr. Tabriz and colleagues evaluated trends and characteristics of potentially preventable ED visits among adults with cancer who had an ED visit between 2012 and 2019. The authors used the Centers for Medicare & Medicaid Services definition for a potentially preventable ED visit among patients receiving chemotherapy.
Among the 35.5 million ED visits made by patients with cancer during the study period, 18.3 million (52%) were identified as potentially preventable. Nearly 5.8 million of these visits (21%) were classified as being of “high acuity,” and almost 30% resulted in unplanned hospitalizations.
Pain was the most common reason for potentially preventable ED visits, accounting for 37% of these visits.
The absolute number of potentially preventable ED visits among cancer patients increased from about 1.8 million in 2012 to 3.2 million in 2019. The number of patients who visited the ED because of pain more than doubled, from roughly 1.2 million in 2012 to 2.4 million in 2019.
“The disproportionate increase in the number of ED visits by patients with cancer has put a substantial burden on EDs that are already operating at peak capacity” and “reinforces the need for cancer care programs to devise innovative ways to manage complications associated with cancer treatment in the outpatient and ambulatory settings,” Dr. Tabriz and coauthors wrote.
The increase could be an “unintended” consequence of efforts to decrease overall opioid administration in response to the opioid epidemic, Dr. Tabriz and colleagues noted. For example, the authors point to a recent study that found that about half of patients with cancer who had severe pain did not receive outpatient opioids in the week before visiting the ED.
“Even access to outpatient care does not mean patients can get the care they need outside an ED,” wrote editorialists Erek Majka, MD, with Summerlin Hospital, Las Vegas, and N. Seth Trueger, MD, MPH, with Northwestern University, Chicago. Thus, “it is no surprise that patients are sent to the ED if the alternatives do not have the staff or diagnostic and therapeutic capabilities the patients need.”
Overall, however, the “goal is not to eliminate ED visits for their own sake; rather, the goal is better care of patients with cancer, and secondarily, in a manner that is cost-effective,” Dr. Majka and Dr. Trueger explained.
No specific funding for the study was reported. The authors disclosed no relevant financial relationships. Dr. Trueger is digital media editor of JAMA Network Open, but he was not involved in decisions regarding review of the manuscript or its acceptance.
A version of this article first appeared on Medscape.com.
FROM JAMA NETWORK OPEN
VEXAS syndrome: More common, variable, and severe than expected
A recently discovered inflammatory disease known as VEXAS syndrome is more common, variable, and dangerous than previously understood, according to results of a retrospective observational study of a large health care system database. The findings, published in JAMA, found that it struck 1 in 4,269 men over the age of 50 in a largely White population and caused a wide variety of symptoms.
“The disease is quite severe,” study lead author David Beck, MD, PhD, of the department of medicine at NYU Langone Health, said in an interview. Patients with the condition “have a variety of clinical symptoms affecting different parts of the body and are being managed by different medical specialties.”
Dr. Beck and colleagues first described VEXAS (vacuoles, E1-ubiquitin-activating enzyme, X-linked, autoinflammatory, somatic) syndrome in 2020. They linked it to mutations in the UBA1 (ubiquitin-like modifier activating enzyme 1) gene. The enzyme initiates a process that identifies misfolded proteins as targets for degradation.
“VEXAS syndrome is characterized by anemia and inflammation in the skin, lungs, cartilage, and joints,” Dr. Beck said. “These symptoms are frequently mistaken for other rheumatic or hematologic diseases. However, this syndrome has a different cause, is treated differently, requires additional monitoring, and can be far more severe.”
According to him, hundreds of people have been diagnosed with the disease in the short time since it was defined. The disease is believed to be fatal in some cases. A previous report found that the median survival was 9 years among patients with a certain variant; that was significantly less than patients with two other variants.
For the new study, researchers searched for UBA1 variants in genetic data from 163,096 subjects (mean age, 52.8 years; 94% White, 61% women) who took part in the Geisinger MyCode Community Health Initiative. The 1996-2022 data comes from patients at 10 Pennsylvania hospitals.
Eleven people (9 males, 2 females) had likely UBA1 variants, and all had anemia. The cases accounted for 1 in 13,591 unrelated people (95% confidence interval, 1:7,775-1:23,758), 1 in 4,269 men older than 50 years (95% CI, 1:2,319-1:7,859), and 1 in 26,238 women older than 50 years (95% CI, 1:7,196-1:147,669).
Other common findings included macrocytosis (91%), skin problems (73%), and pulmonary disease (91%). Ten patients (91%) required transfusions.
Five of the 11 subjects didn’t meet the previously defined criteria for VEXAS syndrome. None had been diagnosed with the condition, which is not surprising considering that it hadn’t been discovered and described until recently.
Just over half of the patients – 55% – had a clinical diagnosis that was previously linked to VEXAS syndrome. “This means that slightly less than half of the patients with VEXAS syndrome had no clear associated clinical diagnosis,” Dr. Beck said. “The lack of associated clinical diagnoses may be due to the variety of nonspecific clinical characteristics that span different subspecialities in VEXAS syndrome. VEXAS syndrome represents an example of a multisystem disease where patients and their symptoms may get lost in the shuffle.”
In the future, “professionals should look out for patients with unexplained inflammation – and some combination of hematologic, rheumatologic, pulmonary, and dermatologic clinical manifestations – that either don’t carry a clinical diagnosis or don’t respond to first-line therapies,” Dr. Beck said. “These patients will also frequently be anemic, have low platelet counts, elevated markers of inflammation in the blood, and be dependent on corticosteroids.”
Diagnosis can be made via genetic testing, but the study authors note that it “is not routinely offered on standard workup for myeloid neoplasms or immune dysregulation diagnostic panels.”
As for treatment, Dr. Beck said the disease “can be partially controlled by multiple different anticytokine therapies or biologics. However, in most cases, patients still need additional steroids and/or disease-modifying antirheumatic agents [DMARDs]. In addition, bone marrow transplantation has shown signs of being a highly effective therapy.”
The study authors say more research is needed to understand the disease’s prevalence in more diverse populations.
In an interview, Matthew J. Koster, MD, a rheumatologist at Mayo Clinic in Rochester, Minn., who’s studied the disease but didn’t take part in this research project, said the findings are valid and “highly important.
“The findings of this study highlight what many academic and quaternary referral centers were wondering: Is VEXAS really more common than we think, with patients hiding in plain sight? The answer is yes,” he said. “Currently, there are less than 400 cases reported in the literature of VEXAS, but large centers are diagnosing this condition with some frequency. For example, at Mayo Clinic in Rochester, we diagnose on average one new patient with VEXAS every 7-14 days and have diagnosed 60 in the past 18 months. A national collaborative group in France has diagnosed approximately 250 patients over that same time frame when pooling patients nationwide.”
The prevalence is high enough, he said, that “clinicians should consider that some of the patients with diseases that are not responding to treatment may in fact have VEXAS rather than ‘refractory’ relapsing polychondritis or ‘recalcitrant’ rheumatoid arthritis, etc.”
The National Institute of Health funded the study. Dr. Beck, the other authors, and Dr. Koster report no disclosures.
A recently discovered inflammatory disease known as VEXAS syndrome is more common, variable, and dangerous than previously understood, according to results of a retrospective observational study of a large health care system database. The findings, published in JAMA, found that it struck 1 in 4,269 men over the age of 50 in a largely White population and caused a wide variety of symptoms.
“The disease is quite severe,” study lead author David Beck, MD, PhD, of the department of medicine at NYU Langone Health, said in an interview. Patients with the condition “have a variety of clinical symptoms affecting different parts of the body and are being managed by different medical specialties.”
Dr. Beck and colleagues first described VEXAS (vacuoles, E1-ubiquitin-activating enzyme, X-linked, autoinflammatory, somatic) syndrome in 2020. They linked it to mutations in the UBA1 (ubiquitin-like modifier activating enzyme 1) gene. The enzyme initiates a process that identifies misfolded proteins as targets for degradation.
“VEXAS syndrome is characterized by anemia and inflammation in the skin, lungs, cartilage, and joints,” Dr. Beck said. “These symptoms are frequently mistaken for other rheumatic or hematologic diseases. However, this syndrome has a different cause, is treated differently, requires additional monitoring, and can be far more severe.”
According to him, hundreds of people have been diagnosed with the disease in the short time since it was defined. The disease is believed to be fatal in some cases. A previous report found that the median survival was 9 years among patients with a certain variant; that was significantly less than patients with two other variants.
For the new study, researchers searched for UBA1 variants in genetic data from 163,096 subjects (mean age, 52.8 years; 94% White, 61% women) who took part in the Geisinger MyCode Community Health Initiative. The 1996-2022 data comes from patients at 10 Pennsylvania hospitals.
Eleven people (9 males, 2 females) had likely UBA1 variants, and all had anemia. The cases accounted for 1 in 13,591 unrelated people (95% confidence interval, 1:7,775-1:23,758), 1 in 4,269 men older than 50 years (95% CI, 1:2,319-1:7,859), and 1 in 26,238 women older than 50 years (95% CI, 1:7,196-1:147,669).
Other common findings included macrocytosis (91%), skin problems (73%), and pulmonary disease (91%). Ten patients (91%) required transfusions.
Five of the 11 subjects didn’t meet the previously defined criteria for VEXAS syndrome. None had been diagnosed with the condition, which is not surprising considering that it hadn’t been discovered and described until recently.
Just over half of the patients – 55% – had a clinical diagnosis that was previously linked to VEXAS syndrome. “This means that slightly less than half of the patients with VEXAS syndrome had no clear associated clinical diagnosis,” Dr. Beck said. “The lack of associated clinical diagnoses may be due to the variety of nonspecific clinical characteristics that span different subspecialities in VEXAS syndrome. VEXAS syndrome represents an example of a multisystem disease where patients and their symptoms may get lost in the shuffle.”
In the future, “professionals should look out for patients with unexplained inflammation – and some combination of hematologic, rheumatologic, pulmonary, and dermatologic clinical manifestations – that either don’t carry a clinical diagnosis or don’t respond to first-line therapies,” Dr. Beck said. “These patients will also frequently be anemic, have low platelet counts, elevated markers of inflammation in the blood, and be dependent on corticosteroids.”
Diagnosis can be made via genetic testing, but the study authors note that it “is not routinely offered on standard workup for myeloid neoplasms or immune dysregulation diagnostic panels.”
As for treatment, Dr. Beck said the disease “can be partially controlled by multiple different anticytokine therapies or biologics. However, in most cases, patients still need additional steroids and/or disease-modifying antirheumatic agents [DMARDs]. In addition, bone marrow transplantation has shown signs of being a highly effective therapy.”
The study authors say more research is needed to understand the disease’s prevalence in more diverse populations.
In an interview, Matthew J. Koster, MD, a rheumatologist at Mayo Clinic in Rochester, Minn., who’s studied the disease but didn’t take part in this research project, said the findings are valid and “highly important.
“The findings of this study highlight what many academic and quaternary referral centers were wondering: Is VEXAS really more common than we think, with patients hiding in plain sight? The answer is yes,” he said. “Currently, there are less than 400 cases reported in the literature of VEXAS, but large centers are diagnosing this condition with some frequency. For example, at Mayo Clinic in Rochester, we diagnose on average one new patient with VEXAS every 7-14 days and have diagnosed 60 in the past 18 months. A national collaborative group in France has diagnosed approximately 250 patients over that same time frame when pooling patients nationwide.”
The prevalence is high enough, he said, that “clinicians should consider that some of the patients with diseases that are not responding to treatment may in fact have VEXAS rather than ‘refractory’ relapsing polychondritis or ‘recalcitrant’ rheumatoid arthritis, etc.”
The National Institute of Health funded the study. Dr. Beck, the other authors, and Dr. Koster report no disclosures.
A recently discovered inflammatory disease known as VEXAS syndrome is more common, variable, and dangerous than previously understood, according to results of a retrospective observational study of a large health care system database. The findings, published in JAMA, found that it struck 1 in 4,269 men over the age of 50 in a largely White population and caused a wide variety of symptoms.
“The disease is quite severe,” study lead author David Beck, MD, PhD, of the department of medicine at NYU Langone Health, said in an interview. Patients with the condition “have a variety of clinical symptoms affecting different parts of the body and are being managed by different medical specialties.”
Dr. Beck and colleagues first described VEXAS (vacuoles, E1-ubiquitin-activating enzyme, X-linked, autoinflammatory, somatic) syndrome in 2020. They linked it to mutations in the UBA1 (ubiquitin-like modifier activating enzyme 1) gene. The enzyme initiates a process that identifies misfolded proteins as targets for degradation.
“VEXAS syndrome is characterized by anemia and inflammation in the skin, lungs, cartilage, and joints,” Dr. Beck said. “These symptoms are frequently mistaken for other rheumatic or hematologic diseases. However, this syndrome has a different cause, is treated differently, requires additional monitoring, and can be far more severe.”
According to him, hundreds of people have been diagnosed with the disease in the short time since it was defined. The disease is believed to be fatal in some cases. A previous report found that the median survival was 9 years among patients with a certain variant; that was significantly less than patients with two other variants.
For the new study, researchers searched for UBA1 variants in genetic data from 163,096 subjects (mean age, 52.8 years; 94% White, 61% women) who took part in the Geisinger MyCode Community Health Initiative. The 1996-2022 data comes from patients at 10 Pennsylvania hospitals.
Eleven people (9 males, 2 females) had likely UBA1 variants, and all had anemia. The cases accounted for 1 in 13,591 unrelated people (95% confidence interval, 1:7,775-1:23,758), 1 in 4,269 men older than 50 years (95% CI, 1:2,319-1:7,859), and 1 in 26,238 women older than 50 years (95% CI, 1:7,196-1:147,669).
Other common findings included macrocytosis (91%), skin problems (73%), and pulmonary disease (91%). Ten patients (91%) required transfusions.
Five of the 11 subjects didn’t meet the previously defined criteria for VEXAS syndrome. None had been diagnosed with the condition, which is not surprising considering that it hadn’t been discovered and described until recently.
Just over half of the patients – 55% – had a clinical diagnosis that was previously linked to VEXAS syndrome. “This means that slightly less than half of the patients with VEXAS syndrome had no clear associated clinical diagnosis,” Dr. Beck said. “The lack of associated clinical diagnoses may be due to the variety of nonspecific clinical characteristics that span different subspecialities in VEXAS syndrome. VEXAS syndrome represents an example of a multisystem disease where patients and their symptoms may get lost in the shuffle.”
In the future, “professionals should look out for patients with unexplained inflammation – and some combination of hematologic, rheumatologic, pulmonary, and dermatologic clinical manifestations – that either don’t carry a clinical diagnosis or don’t respond to first-line therapies,” Dr. Beck said. “These patients will also frequently be anemic, have low platelet counts, elevated markers of inflammation in the blood, and be dependent on corticosteroids.”
Diagnosis can be made via genetic testing, but the study authors note that it “is not routinely offered on standard workup for myeloid neoplasms or immune dysregulation diagnostic panels.”
As for treatment, Dr. Beck said the disease “can be partially controlled by multiple different anticytokine therapies or biologics. However, in most cases, patients still need additional steroids and/or disease-modifying antirheumatic agents [DMARDs]. In addition, bone marrow transplantation has shown signs of being a highly effective therapy.”
The study authors say more research is needed to understand the disease’s prevalence in more diverse populations.
In an interview, Matthew J. Koster, MD, a rheumatologist at Mayo Clinic in Rochester, Minn., who’s studied the disease but didn’t take part in this research project, said the findings are valid and “highly important.
“The findings of this study highlight what many academic and quaternary referral centers were wondering: Is VEXAS really more common than we think, with patients hiding in plain sight? The answer is yes,” he said. “Currently, there are less than 400 cases reported in the literature of VEXAS, but large centers are diagnosing this condition with some frequency. For example, at Mayo Clinic in Rochester, we diagnose on average one new patient with VEXAS every 7-14 days and have diagnosed 60 in the past 18 months. A national collaborative group in France has diagnosed approximately 250 patients over that same time frame when pooling patients nationwide.”
The prevalence is high enough, he said, that “clinicians should consider that some of the patients with diseases that are not responding to treatment may in fact have VEXAS rather than ‘refractory’ relapsing polychondritis or ‘recalcitrant’ rheumatoid arthritis, etc.”
The National Institute of Health funded the study. Dr. Beck, the other authors, and Dr. Koster report no disclosures.
FROM JAMA
Mastocytosis: Rare, underdiagnosed, potentially fatal
Nationwide, approximately 1,000 adults are diagnosed with systemic mastocytosis annually. This rare disease is a myeloid neoplasm with a highly variable phenotypic expression, in which abnormal mast cells proliferate and infiltrate organs and tissues. It swings widely from a nonadvanced form, composed of indolent or smoldering disease, to advanced disease that progresses to leukemia in 6% of cases.
More than 80% of systemic mastocytosis is driven by the KIT D816V mutation. Along with a host of other rare KIT mutations, KIT D816V activates KIT-receptor tyrosine kinase to trigger mast cell proliferation.
Dr. Gotlib could not be contacted for an interview. However, there are many good reasons to identify patients with systemic mastocytosis, according to Attilio Orazi, MD, professor and chair of the department of pathology at Texas Tech University, El Paso. The chief reason is that the patient may be in grave peril.
“The degree of heterogeneity is amazing. ... There’s very indolent [disease], which is really not a big deal. And then you have a disease in which you’re dead in 3 months,” Dr. Orazi said. “So you run the gamut between an indolent, no-problem cutaneous disease to a very nasty systemic, aggressive leukemia-like neoplasm.”
Since 2001, the diagnosis of mastocytosis has been guided by the World Health Organization Classification of Tumours, or “Blue Book.” In 2022, Dr. Orazi along with 137 other senior experts, most of whom were involved in past editions of the Blue Book, published their own version: The International Consensus Classification of Myeloid Neoplasms and Acute Leukemias (the ICC 2022).
In September 2021, this group of specialists held a virtual/in-person advisory committee meeting at the University of Chicago to create the document. One factor in their decision to go it alone, Dr. Orazi said, was that WHO decided to proceed with the fifth edition of the Blue Book using its own internal editorial group without convening an advisory committee, despite repeated requests to do so.
ICC 2022 divides advanced systemic mastocytosis into three subtypes: aggressive systemic mastocytosis (ASM), systemic mastocytosis with an associated hematologic neoplasm (SM-AHN), and mast cell leukemia (MCL). Median survival is 3.5 years for patients with ASM, 2 years for those with SM-AHN and as low as 2 months for MCL.
The second key reason to increase awareness of mastocytosis among physicians, said Dr. Orazi, is that patients falling through the net are likely to be ambulatory, and their presentation can be “a little confusing.”
Patients with indolent disease are relatively straightforward to recognize, explained Dr. Orazi. Similarly, very sick patients with SM-AHN or MCL are easily recognized by hem-oncs.
“But if you see a patient in an ambulatory setting, in your clinic or whatever, and you’re suspicious, then you need to decide [how] you’re going to investigate that patient further,” he said, Dr. Orazi noted the next step is not always obvious, especially for primary-practice or internal medicine physicians likely to be unfamiliar with such a rare disease.
A practice survey published in 2022 by other researchers backed up Dr. Orazi’s remarks. The study found that community/solo-practice physicians were less likely to have tested systemic mastocytosis patients for KIT816V mutation than academic/specialty physicians (58% vs. 80%; P = .004; n = 111). Clinicians treating these patients estimated that it took an average of 8.5 months for a “typical” patient to receive the diagnosis from the time of symptom onset.
The research was headed by Ruben Mesa, MD, director of University of Texas Health, San Antonio, and funded by Blueprint Medicines, the manufacturer of avapritinib (Ayvakit), a new drug for the disease.
Dr. Orazi urged clinicians to have a high degree of suspicion for mastocytosis in a patient who walks into the clinic with any combination of the following: urticarial-type skin manifestations, especially if persistent into adulthood; history of undue reaction to an insect sting; a big spleen in a patient with a history of cutaneous flushing or rash; chronic diarrhea, especially if a biopsy has shown “too many mast cells” in the lamina propria of the small bowel; and positivity for KIT816V mutation.
Dr. Orazi stressed that the majority of patients will have indolent disease, but for the few patients for whom immediate treatment is essential, “the distinction between indolent and aggressive [disease] is really very, very important.”
Patients with advanced systemic mastocytosis can now be effectively treated, following the arrival of midostaurin (Rydapt, Tauritmo) and avapritinib.
Midostaurin, a multikinase/KIT inhibitor, was approved by the Food and Drug Administration in 2017 for the treatment of advanced systemic mastocytosis (ASM, SM-AHN, and MCL). Avapritinib, a selective kinase inhibitor of KIT816V and platelet-derived growth factor receptor alpha as well as multiple KIT exon 11, 11/17 and 17 mutants, gained the same indication in June 2021.
As with all rare diseases, it is challenging to obtain accurate numbers on how many patients are affected by systemic mastocytosis. The first population-based study of the disorder, presented at the 2018 annual meeting of the American Society of Hematology, used the Surveillance, Epidemiology, and End Results database from 2000 to 2014 to estimate incidence at 0.046 per 10,000, which translates to 1,050 new adult cases per year. The study data have never been published in full.
How many of these cases are advanced disease? There are no U.S. data but extrapolating from a Danish registry study that found 82% of systemic mastocytosis cases to be indolent disease, the incidence of advanced systemic mastocytosis in the United States could be as low as 200 adults a year.
This information, in turn, suggests that identifying more patients with advanced disease would not only benefit those patients but would also benefit clinical trial investigators who are seeking the proverbial needle in the haystack.
Nationwide, five clinical trials are recruiting individuals with advanced systemic mastocytosis, collectively looking for 352 patients in the United States. Two of the studies focus on mast-cell activation (NCT0544944) and cutaneous mastocytoses (NCT04846348). Two trials in a range of hematological malignancies are testing bispecific antibodies flotetuzumab and MGD024 (both from Macrogenics; NCT04681105, NCT05362773).
Apex, a phase 2 study of tyrosine-kinase inhibitor bezuclastinib (a Cogent hopeful), is specifically focusing on advanced disease. Dr. Gotlib and coinvestigators are aiming for 140 participants.
As a pathologist, Dr. Orazi said he find mastocytosis fascinating because he believes he has “a truly useful role,” contrasting with some other hematological diseases in which the molecular profile rules.
“Pathology plays a major role here,” he explained, “because you have to correlate what you see at the microscope with the full clinical picture, selected laboratory tests such as CBC and serum tryptase, and molecular results. You often need integration through a pathologist to put all the pieces together.
“It’s easier to treat once you know exactly what disease you’re dealing with and whether it is an aggressive or indolent subtype,” Dr. Orazi concluded.
Dr. Orazi disclosed no conflicts of interest. Dr. Gotlib has disclosed ties with Blueprint Medicines, Deciphera, Incyte, and Kartos Therapeutics, and has led committees for Blueprint Medicine’s EXPLORER and PATHFINDER studies, Deciphera’s Study Steering Committee for ripretinib in AdvSM, and the Central Response Review Committee for the phase 2 study of bezuclastinib in AdvSM.
Nationwide, approximately 1,000 adults are diagnosed with systemic mastocytosis annually. This rare disease is a myeloid neoplasm with a highly variable phenotypic expression, in which abnormal mast cells proliferate and infiltrate organs and tissues. It swings widely from a nonadvanced form, composed of indolent or smoldering disease, to advanced disease that progresses to leukemia in 6% of cases.
More than 80% of systemic mastocytosis is driven by the KIT D816V mutation. Along with a host of other rare KIT mutations, KIT D816V activates KIT-receptor tyrosine kinase to trigger mast cell proliferation.
Dr. Gotlib could not be contacted for an interview. However, there are many good reasons to identify patients with systemic mastocytosis, according to Attilio Orazi, MD, professor and chair of the department of pathology at Texas Tech University, El Paso. The chief reason is that the patient may be in grave peril.
“The degree of heterogeneity is amazing. ... There’s very indolent [disease], which is really not a big deal. And then you have a disease in which you’re dead in 3 months,” Dr. Orazi said. “So you run the gamut between an indolent, no-problem cutaneous disease to a very nasty systemic, aggressive leukemia-like neoplasm.”
Since 2001, the diagnosis of mastocytosis has been guided by the World Health Organization Classification of Tumours, or “Blue Book.” In 2022, Dr. Orazi along with 137 other senior experts, most of whom were involved in past editions of the Blue Book, published their own version: The International Consensus Classification of Myeloid Neoplasms and Acute Leukemias (the ICC 2022).
In September 2021, this group of specialists held a virtual/in-person advisory committee meeting at the University of Chicago to create the document. One factor in their decision to go it alone, Dr. Orazi said, was that WHO decided to proceed with the fifth edition of the Blue Book using its own internal editorial group without convening an advisory committee, despite repeated requests to do so.
ICC 2022 divides advanced systemic mastocytosis into three subtypes: aggressive systemic mastocytosis (ASM), systemic mastocytosis with an associated hematologic neoplasm (SM-AHN), and mast cell leukemia (MCL). Median survival is 3.5 years for patients with ASM, 2 years for those with SM-AHN and as low as 2 months for MCL.
The second key reason to increase awareness of mastocytosis among physicians, said Dr. Orazi, is that patients falling through the net are likely to be ambulatory, and their presentation can be “a little confusing.”
Patients with indolent disease are relatively straightforward to recognize, explained Dr. Orazi. Similarly, very sick patients with SM-AHN or MCL are easily recognized by hem-oncs.
“But if you see a patient in an ambulatory setting, in your clinic or whatever, and you’re suspicious, then you need to decide [how] you’re going to investigate that patient further,” he said, Dr. Orazi noted the next step is not always obvious, especially for primary-practice or internal medicine physicians likely to be unfamiliar with such a rare disease.
A practice survey published in 2022 by other researchers backed up Dr. Orazi’s remarks. The study found that community/solo-practice physicians were less likely to have tested systemic mastocytosis patients for KIT816V mutation than academic/specialty physicians (58% vs. 80%; P = .004; n = 111). Clinicians treating these patients estimated that it took an average of 8.5 months for a “typical” patient to receive the diagnosis from the time of symptom onset.
The research was headed by Ruben Mesa, MD, director of University of Texas Health, San Antonio, and funded by Blueprint Medicines, the manufacturer of avapritinib (Ayvakit), a new drug for the disease.
Dr. Orazi urged clinicians to have a high degree of suspicion for mastocytosis in a patient who walks into the clinic with any combination of the following: urticarial-type skin manifestations, especially if persistent into adulthood; history of undue reaction to an insect sting; a big spleen in a patient with a history of cutaneous flushing or rash; chronic diarrhea, especially if a biopsy has shown “too many mast cells” in the lamina propria of the small bowel; and positivity for KIT816V mutation.
Dr. Orazi stressed that the majority of patients will have indolent disease, but for the few patients for whom immediate treatment is essential, “the distinction between indolent and aggressive [disease] is really very, very important.”
Patients with advanced systemic mastocytosis can now be effectively treated, following the arrival of midostaurin (Rydapt, Tauritmo) and avapritinib.
Midostaurin, a multikinase/KIT inhibitor, was approved by the Food and Drug Administration in 2017 for the treatment of advanced systemic mastocytosis (ASM, SM-AHN, and MCL). Avapritinib, a selective kinase inhibitor of KIT816V and platelet-derived growth factor receptor alpha as well as multiple KIT exon 11, 11/17 and 17 mutants, gained the same indication in June 2021.
As with all rare diseases, it is challenging to obtain accurate numbers on how many patients are affected by systemic mastocytosis. The first population-based study of the disorder, presented at the 2018 annual meeting of the American Society of Hematology, used the Surveillance, Epidemiology, and End Results database from 2000 to 2014 to estimate incidence at 0.046 per 10,000, which translates to 1,050 new adult cases per year. The study data have never been published in full.
How many of these cases are advanced disease? There are no U.S. data but extrapolating from a Danish registry study that found 82% of systemic mastocytosis cases to be indolent disease, the incidence of advanced systemic mastocytosis in the United States could be as low as 200 adults a year.
This information, in turn, suggests that identifying more patients with advanced disease would not only benefit those patients but would also benefit clinical trial investigators who are seeking the proverbial needle in the haystack.
Nationwide, five clinical trials are recruiting individuals with advanced systemic mastocytosis, collectively looking for 352 patients in the United States. Two of the studies focus on mast-cell activation (NCT0544944) and cutaneous mastocytoses (NCT04846348). Two trials in a range of hematological malignancies are testing bispecific antibodies flotetuzumab and MGD024 (both from Macrogenics; NCT04681105, NCT05362773).
Apex, a phase 2 study of tyrosine-kinase inhibitor bezuclastinib (a Cogent hopeful), is specifically focusing on advanced disease. Dr. Gotlib and coinvestigators are aiming for 140 participants.
As a pathologist, Dr. Orazi said he find mastocytosis fascinating because he believes he has “a truly useful role,” contrasting with some other hematological diseases in which the molecular profile rules.
“Pathology plays a major role here,” he explained, “because you have to correlate what you see at the microscope with the full clinical picture, selected laboratory tests such as CBC and serum tryptase, and molecular results. You often need integration through a pathologist to put all the pieces together.
“It’s easier to treat once you know exactly what disease you’re dealing with and whether it is an aggressive or indolent subtype,” Dr. Orazi concluded.
Dr. Orazi disclosed no conflicts of interest. Dr. Gotlib has disclosed ties with Blueprint Medicines, Deciphera, Incyte, and Kartos Therapeutics, and has led committees for Blueprint Medicine’s EXPLORER and PATHFINDER studies, Deciphera’s Study Steering Committee for ripretinib in AdvSM, and the Central Response Review Committee for the phase 2 study of bezuclastinib in AdvSM.
Nationwide, approximately 1,000 adults are diagnosed with systemic mastocytosis annually. This rare disease is a myeloid neoplasm with a highly variable phenotypic expression, in which abnormal mast cells proliferate and infiltrate organs and tissues. It swings widely from a nonadvanced form, composed of indolent or smoldering disease, to advanced disease that progresses to leukemia in 6% of cases.
More than 80% of systemic mastocytosis is driven by the KIT D816V mutation. Along with a host of other rare KIT mutations, KIT D816V activates KIT-receptor tyrosine kinase to trigger mast cell proliferation.
Dr. Gotlib could not be contacted for an interview. However, there are many good reasons to identify patients with systemic mastocytosis, according to Attilio Orazi, MD, professor and chair of the department of pathology at Texas Tech University, El Paso. The chief reason is that the patient may be in grave peril.
“The degree of heterogeneity is amazing. ... There’s very indolent [disease], which is really not a big deal. And then you have a disease in which you’re dead in 3 months,” Dr. Orazi said. “So you run the gamut between an indolent, no-problem cutaneous disease to a very nasty systemic, aggressive leukemia-like neoplasm.”
Since 2001, the diagnosis of mastocytosis has been guided by the World Health Organization Classification of Tumours, or “Blue Book.” In 2022, Dr. Orazi along with 137 other senior experts, most of whom were involved in past editions of the Blue Book, published their own version: The International Consensus Classification of Myeloid Neoplasms and Acute Leukemias (the ICC 2022).
In September 2021, this group of specialists held a virtual/in-person advisory committee meeting at the University of Chicago to create the document. One factor in their decision to go it alone, Dr. Orazi said, was that WHO decided to proceed with the fifth edition of the Blue Book using its own internal editorial group without convening an advisory committee, despite repeated requests to do so.
ICC 2022 divides advanced systemic mastocytosis into three subtypes: aggressive systemic mastocytosis (ASM), systemic mastocytosis with an associated hematologic neoplasm (SM-AHN), and mast cell leukemia (MCL). Median survival is 3.5 years for patients with ASM, 2 years for those with SM-AHN and as low as 2 months for MCL.
The second key reason to increase awareness of mastocytosis among physicians, said Dr. Orazi, is that patients falling through the net are likely to be ambulatory, and their presentation can be “a little confusing.”
Patients with indolent disease are relatively straightforward to recognize, explained Dr. Orazi. Similarly, very sick patients with SM-AHN or MCL are easily recognized by hem-oncs.
“But if you see a patient in an ambulatory setting, in your clinic or whatever, and you’re suspicious, then you need to decide [how] you’re going to investigate that patient further,” he said, Dr. Orazi noted the next step is not always obvious, especially for primary-practice or internal medicine physicians likely to be unfamiliar with such a rare disease.
A practice survey published in 2022 by other researchers backed up Dr. Orazi’s remarks. The study found that community/solo-practice physicians were less likely to have tested systemic mastocytosis patients for KIT816V mutation than academic/specialty physicians (58% vs. 80%; P = .004; n = 111). Clinicians treating these patients estimated that it took an average of 8.5 months for a “typical” patient to receive the diagnosis from the time of symptom onset.
The research was headed by Ruben Mesa, MD, director of University of Texas Health, San Antonio, and funded by Blueprint Medicines, the manufacturer of avapritinib (Ayvakit), a new drug for the disease.
Dr. Orazi urged clinicians to have a high degree of suspicion for mastocytosis in a patient who walks into the clinic with any combination of the following: urticarial-type skin manifestations, especially if persistent into adulthood; history of undue reaction to an insect sting; a big spleen in a patient with a history of cutaneous flushing or rash; chronic diarrhea, especially if a biopsy has shown “too many mast cells” in the lamina propria of the small bowel; and positivity for KIT816V mutation.
Dr. Orazi stressed that the majority of patients will have indolent disease, but for the few patients for whom immediate treatment is essential, “the distinction between indolent and aggressive [disease] is really very, very important.”
Patients with advanced systemic mastocytosis can now be effectively treated, following the arrival of midostaurin (Rydapt, Tauritmo) and avapritinib.
Midostaurin, a multikinase/KIT inhibitor, was approved by the Food and Drug Administration in 2017 for the treatment of advanced systemic mastocytosis (ASM, SM-AHN, and MCL). Avapritinib, a selective kinase inhibitor of KIT816V and platelet-derived growth factor receptor alpha as well as multiple KIT exon 11, 11/17 and 17 mutants, gained the same indication in June 2021.
As with all rare diseases, it is challenging to obtain accurate numbers on how many patients are affected by systemic mastocytosis. The first population-based study of the disorder, presented at the 2018 annual meeting of the American Society of Hematology, used the Surveillance, Epidemiology, and End Results database from 2000 to 2014 to estimate incidence at 0.046 per 10,000, which translates to 1,050 new adult cases per year. The study data have never been published in full.
How many of these cases are advanced disease? There are no U.S. data but extrapolating from a Danish registry study that found 82% of systemic mastocytosis cases to be indolent disease, the incidence of advanced systemic mastocytosis in the United States could be as low as 200 adults a year.
This information, in turn, suggests that identifying more patients with advanced disease would not only benefit those patients but would also benefit clinical trial investigators who are seeking the proverbial needle in the haystack.
Nationwide, five clinical trials are recruiting individuals with advanced systemic mastocytosis, collectively looking for 352 patients in the United States. Two of the studies focus on mast-cell activation (NCT0544944) and cutaneous mastocytoses (NCT04846348). Two trials in a range of hematological malignancies are testing bispecific antibodies flotetuzumab and MGD024 (both from Macrogenics; NCT04681105, NCT05362773).
Apex, a phase 2 study of tyrosine-kinase inhibitor bezuclastinib (a Cogent hopeful), is specifically focusing on advanced disease. Dr. Gotlib and coinvestigators are aiming for 140 participants.
As a pathologist, Dr. Orazi said he find mastocytosis fascinating because he believes he has “a truly useful role,” contrasting with some other hematological diseases in which the molecular profile rules.
“Pathology plays a major role here,” he explained, “because you have to correlate what you see at the microscope with the full clinical picture, selected laboratory tests such as CBC and serum tryptase, and molecular results. You often need integration through a pathologist to put all the pieces together.
“It’s easier to treat once you know exactly what disease you’re dealing with and whether it is an aggressive or indolent subtype,” Dr. Orazi concluded.
Dr. Orazi disclosed no conflicts of interest. Dr. Gotlib has disclosed ties with Blueprint Medicines, Deciphera, Incyte, and Kartos Therapeutics, and has led committees for Blueprint Medicine’s EXPLORER and PATHFINDER studies, Deciphera’s Study Steering Committee for ripretinib in AdvSM, and the Central Response Review Committee for the phase 2 study of bezuclastinib in AdvSM.
Adding venetoclax improves ibrutinib outcomes in CLL
Investigators led by Philip Thompson, MD, a hematologist/oncologist at the center, explained that CLL patients receiving ibrutinib, a Bruton’s kinase inhibitor, “rarely achieve complete remission with undetectable measurable residual disease,” so they stay on the costly treatment indefinitely or until disease progression or accumulating adverse events force a switch to venetoclax.
Using the two agents together, instead of consecutively, may allow strong responders to stop treatment altogether and suboptimal responders to have longer remissions, they said.
“We would not advocate prolonged Bruton’s kinase inhibitor use prior to starting venetoclax in treatment-naive patients, as the safety and efficacy of commencing venetoclax after a 3-month ibrutinib monotherapy phase has been repeatedly demonstrated,” the team said.
However, the investigators noted that their “study was not intended to directly answer the question of whether combination therapy is superior to the current paradigm of sequential monotherapy.” Randomized trials are looking into the matter. The study was published recently as a preprint on ResearchSquare.com and has not been peer reviewed.
Complete remission in over half
The 45 adult subjects had one or more high-risk features for CLL progression and had received at least 1 year of ibrutinib at 140-420 mg once daily, depending on tolerance. They had bone marrow detectable disease at study entry but did not meet criteria for progression. Median duration of ibrutinib at baseline was 32 months, and about half the subjects were on it as their initial therapy.
Venetoclax, a BCL2 inhibitor with a completely different mechanisms of action, was added to ibrutinib for up to 2 years, escalated up to a target dose of 400 mg once daily.
On intention-to-treat analysis, venetoclax add-on improved ibrutinib response to complete remission in 55% of patients; complete remission was defined as less than 1 CLL cell per 10,000 leukocytes in bone marrow on two consecutive occasions 6 months apart.
The rate of undetectable bone marrow disease was 57% after 1 year of combined treatment and 71% after venetoclax completion, at which point 23 patients with undetectable disease stopped ibrutinib along with venetoclax.
Five patients had disease progression at a median of 41 months after venetoclax initiation, one during combined therapy, three during ibrutinib maintenance afterward, and one with Richter transformation after complete remission and discontinuation of all treatment. No patient had died from CLL.
“There has so far been no significant difference noted in” time to residual disease re-emergence, the team said, based on whether or not patients continued ibrutinib after venetoclax add-on.
There was no significant difference in the rate of bone marrow clearance according to the presence or absence of TP53 abnormalities, complex karyotypes, or prior treatment status.
The most common grade 3/4 adverse event was neutropenia in 20% of patients. Nine patients developed nonmelanoma skin cancer during the trial; six were diagnosed with other solid tumors; three came down with grade 3 infections, and two developed myelodysplastic syndrome, both with a prior history of chemotherapy.
No one stopped venetoclax because of toxicity, but about a third of subjects required dose reductions, most often because of neutropenia.
The study was funded by AbbVie, which is commercializing venetoclax along with Genentech. Investigators disclosed ties to both companies and many others. Dr. Thompson disclosed ties to AbbVie, Pharmacyclics, Lilly, Adaptive Biotechnologies, Janssen, Beigene, and Genentech.
Investigators led by Philip Thompson, MD, a hematologist/oncologist at the center, explained that CLL patients receiving ibrutinib, a Bruton’s kinase inhibitor, “rarely achieve complete remission with undetectable measurable residual disease,” so they stay on the costly treatment indefinitely or until disease progression or accumulating adverse events force a switch to venetoclax.
Using the two agents together, instead of consecutively, may allow strong responders to stop treatment altogether and suboptimal responders to have longer remissions, they said.
“We would not advocate prolonged Bruton’s kinase inhibitor use prior to starting venetoclax in treatment-naive patients, as the safety and efficacy of commencing venetoclax after a 3-month ibrutinib monotherapy phase has been repeatedly demonstrated,” the team said.
However, the investigators noted that their “study was not intended to directly answer the question of whether combination therapy is superior to the current paradigm of sequential monotherapy.” Randomized trials are looking into the matter. The study was published recently as a preprint on ResearchSquare.com and has not been peer reviewed.
Complete remission in over half
The 45 adult subjects had one or more high-risk features for CLL progression and had received at least 1 year of ibrutinib at 140-420 mg once daily, depending on tolerance. They had bone marrow detectable disease at study entry but did not meet criteria for progression. Median duration of ibrutinib at baseline was 32 months, and about half the subjects were on it as their initial therapy.
Venetoclax, a BCL2 inhibitor with a completely different mechanisms of action, was added to ibrutinib for up to 2 years, escalated up to a target dose of 400 mg once daily.
On intention-to-treat analysis, venetoclax add-on improved ibrutinib response to complete remission in 55% of patients; complete remission was defined as less than 1 CLL cell per 10,000 leukocytes in bone marrow on two consecutive occasions 6 months apart.
The rate of undetectable bone marrow disease was 57% after 1 year of combined treatment and 71% after venetoclax completion, at which point 23 patients with undetectable disease stopped ibrutinib along with venetoclax.
Five patients had disease progression at a median of 41 months after venetoclax initiation, one during combined therapy, three during ibrutinib maintenance afterward, and one with Richter transformation after complete remission and discontinuation of all treatment. No patient had died from CLL.
“There has so far been no significant difference noted in” time to residual disease re-emergence, the team said, based on whether or not patients continued ibrutinib after venetoclax add-on.
There was no significant difference in the rate of bone marrow clearance according to the presence or absence of TP53 abnormalities, complex karyotypes, or prior treatment status.
The most common grade 3/4 adverse event was neutropenia in 20% of patients. Nine patients developed nonmelanoma skin cancer during the trial; six were diagnosed with other solid tumors; three came down with grade 3 infections, and two developed myelodysplastic syndrome, both with a prior history of chemotherapy.
No one stopped venetoclax because of toxicity, but about a third of subjects required dose reductions, most often because of neutropenia.
The study was funded by AbbVie, which is commercializing venetoclax along with Genentech. Investigators disclosed ties to both companies and many others. Dr. Thompson disclosed ties to AbbVie, Pharmacyclics, Lilly, Adaptive Biotechnologies, Janssen, Beigene, and Genentech.
Investigators led by Philip Thompson, MD, a hematologist/oncologist at the center, explained that CLL patients receiving ibrutinib, a Bruton’s kinase inhibitor, “rarely achieve complete remission with undetectable measurable residual disease,” so they stay on the costly treatment indefinitely or until disease progression or accumulating adverse events force a switch to venetoclax.
Using the two agents together, instead of consecutively, may allow strong responders to stop treatment altogether and suboptimal responders to have longer remissions, they said.
“We would not advocate prolonged Bruton’s kinase inhibitor use prior to starting venetoclax in treatment-naive patients, as the safety and efficacy of commencing venetoclax after a 3-month ibrutinib monotherapy phase has been repeatedly demonstrated,” the team said.
However, the investigators noted that their “study was not intended to directly answer the question of whether combination therapy is superior to the current paradigm of sequential monotherapy.” Randomized trials are looking into the matter. The study was published recently as a preprint on ResearchSquare.com and has not been peer reviewed.
Complete remission in over half
The 45 adult subjects had one or more high-risk features for CLL progression and had received at least 1 year of ibrutinib at 140-420 mg once daily, depending on tolerance. They had bone marrow detectable disease at study entry but did not meet criteria for progression. Median duration of ibrutinib at baseline was 32 months, and about half the subjects were on it as their initial therapy.
Venetoclax, a BCL2 inhibitor with a completely different mechanisms of action, was added to ibrutinib for up to 2 years, escalated up to a target dose of 400 mg once daily.
On intention-to-treat analysis, venetoclax add-on improved ibrutinib response to complete remission in 55% of patients; complete remission was defined as less than 1 CLL cell per 10,000 leukocytes in bone marrow on two consecutive occasions 6 months apart.
The rate of undetectable bone marrow disease was 57% after 1 year of combined treatment and 71% after venetoclax completion, at which point 23 patients with undetectable disease stopped ibrutinib along with venetoclax.
Five patients had disease progression at a median of 41 months after venetoclax initiation, one during combined therapy, three during ibrutinib maintenance afterward, and one with Richter transformation after complete remission and discontinuation of all treatment. No patient had died from CLL.
“There has so far been no significant difference noted in” time to residual disease re-emergence, the team said, based on whether or not patients continued ibrutinib after venetoclax add-on.
There was no significant difference in the rate of bone marrow clearance according to the presence or absence of TP53 abnormalities, complex karyotypes, or prior treatment status.
The most common grade 3/4 adverse event was neutropenia in 20% of patients. Nine patients developed nonmelanoma skin cancer during the trial; six were diagnosed with other solid tumors; three came down with grade 3 infections, and two developed myelodysplastic syndrome, both with a prior history of chemotherapy.
No one stopped venetoclax because of toxicity, but about a third of subjects required dose reductions, most often because of neutropenia.
The study was funded by AbbVie, which is commercializing venetoclax along with Genentech. Investigators disclosed ties to both companies and many others. Dr. Thompson disclosed ties to AbbVie, Pharmacyclics, Lilly, Adaptive Biotechnologies, Janssen, Beigene, and Genentech.
FROM RESEARCHSQUARE
Doctors’ happiness has not rebounded as pandemic drags on
Physicians reported similar levels of unhappiness in 2022 too.
Fewer than half of physicians said they were currently somewhat or very happy at work, compared with 75% of physicians who said they were somewhat or very happy at work in a previous survey conducted before the pandemic, the new Medscape Physician Lifestyle & Happiness Report 2023 shows.*
“I am not surprised that we’re less happy now,” said Amaryllis Sánchez, MD, a board-certified family medicine physician and a certified physician coach.
“I speak to physicians around the country and I hear that their workplaces are understaffed, they’re overworked and they don’t feel safe. Although we’re in a different phase of the pandemic, doctors feel that the ground beneath them is still shaky,” said Dr. Sánchez, the author of “Recapturing Joy in Medicine.”
Most doctors are seeing more patients than they can handle and are expected to do that consistently. “When you no longer have the capacity to give of yourself, that becomes a nearly impossible task,” said Dr. Sánchez.
Also, physicians in understaffed workplaces often must take on additional work such as administrative or nursing duties, said Katie Cole, DO, a board-certified psychiatrist and a physician coach.
While health systems are aware that physicians need time to rest and recharge, staffing shortages prevent doctors from taking time off because they can’t find coverage, said Dr. Cole.
“While we know that it’s important for physicians to take vacations, more than one-third of doctors still take 2 weeks or less of vacation annually,” said Dr. Cole.
Physicians also tend to have less compassion for themselves and sacrifice self-care compared to other health care workers. “When a patient dies, nurses get together, debrief, and hug each other, whereas doctors have another patient to see. The culture of medicine doesn’t support self-compassion for physicians,” said Dr. Cole.
Physicians also felt less safe at work during the pandemic because of to shortages of personal protective equipment, said Dr. Sánchez. They have also witnessed or experienced an increase in abusive behavior, violence and threats of violence.
Physicians’ personal life suffers
Doctors maintain their mental health primarily by spending time with family members and friends, according to 2022’s Medscape Physician Lifestyle & Happiness Report. Yet half of doctors reported in a survey by the Physicians Foundation that they withdrew from family, friends or coworkers in 2022, said Dr. Sánchez.
“When you exceed your mental, emotional, and physical capacity at work, you have no reserve left for your personal life,” said Dr. Cole.
That may explain why only 58% of doctors reported feeling somewhat or very happy outside of work, compared with 84% who felt that way before the pandemic.
More women doctors said they deal with stronger feelings of conflict in trying to balance parenting responsibilities with a highly demanding job. Nearly one in two women physician-parents reported feeling very conflicted at work, compared with about one in four male physician-parents.
When physicians go home, they may be emotionally drained and tired mentally from making a lot of decisions at work, said Dr. Cole.
“As a woman, if you have children and a husband and you’re responsible for dinner, picking up the kids at daycare or helping them with homework, and making all these decisions when you get home, it’s overwhelming,” said Dr. Cole.
Prioritize your well-being
Doctors need to prioritize their own well-being, said Dr. Sánchez. “That’s not being selfish, that’s doing what’s necessary to stay well and be able to take care of patients. If doctors don’t take care of themselves, no one else will.”
Dr. Sánchez recommended that doctors regularly interact with relatives, friends, trusted colleagues, or clergy to help maintain their well-being, rather than waiting until a crisis to reach out.
A good coach, mentor, or counselor can help physicians gain enough self-awareness to handle their emotions and gain more clarity about what changes need to be made, she said.
Dr. Cole suggested that doctors figure out what makes them happy and fulfilled at work and try to spend more time on that activity. “Knowing what makes you happy and your strengths are foundational for creating a life you love.”
She urged doctors to “start thinking now about what you love about medicine and what is going right at home, and what areas you want to change. Then, start advocating for your needs.”
A version of this article originally appeared on Medscape.com.
Correction, 1/26/23: An earlier version of this article misstated the findings of the survey.
Physicians reported similar levels of unhappiness in 2022 too.
Fewer than half of physicians said they were currently somewhat or very happy at work, compared with 75% of physicians who said they were somewhat or very happy at work in a previous survey conducted before the pandemic, the new Medscape Physician Lifestyle & Happiness Report 2023 shows.*
“I am not surprised that we’re less happy now,” said Amaryllis Sánchez, MD, a board-certified family medicine physician and a certified physician coach.
“I speak to physicians around the country and I hear that their workplaces are understaffed, they’re overworked and they don’t feel safe. Although we’re in a different phase of the pandemic, doctors feel that the ground beneath them is still shaky,” said Dr. Sánchez, the author of “Recapturing Joy in Medicine.”
Most doctors are seeing more patients than they can handle and are expected to do that consistently. “When you no longer have the capacity to give of yourself, that becomes a nearly impossible task,” said Dr. Sánchez.
Also, physicians in understaffed workplaces often must take on additional work such as administrative or nursing duties, said Katie Cole, DO, a board-certified psychiatrist and a physician coach.
While health systems are aware that physicians need time to rest and recharge, staffing shortages prevent doctors from taking time off because they can’t find coverage, said Dr. Cole.
“While we know that it’s important for physicians to take vacations, more than one-third of doctors still take 2 weeks or less of vacation annually,” said Dr. Cole.
Physicians also tend to have less compassion for themselves and sacrifice self-care compared to other health care workers. “When a patient dies, nurses get together, debrief, and hug each other, whereas doctors have another patient to see. The culture of medicine doesn’t support self-compassion for physicians,” said Dr. Cole.
Physicians also felt less safe at work during the pandemic because of to shortages of personal protective equipment, said Dr. Sánchez. They have also witnessed or experienced an increase in abusive behavior, violence and threats of violence.
Physicians’ personal life suffers
Doctors maintain their mental health primarily by spending time with family members and friends, according to 2022’s Medscape Physician Lifestyle & Happiness Report. Yet half of doctors reported in a survey by the Physicians Foundation that they withdrew from family, friends or coworkers in 2022, said Dr. Sánchez.
“When you exceed your mental, emotional, and physical capacity at work, you have no reserve left for your personal life,” said Dr. Cole.
That may explain why only 58% of doctors reported feeling somewhat or very happy outside of work, compared with 84% who felt that way before the pandemic.
More women doctors said they deal with stronger feelings of conflict in trying to balance parenting responsibilities with a highly demanding job. Nearly one in two women physician-parents reported feeling very conflicted at work, compared with about one in four male physician-parents.
When physicians go home, they may be emotionally drained and tired mentally from making a lot of decisions at work, said Dr. Cole.
“As a woman, if you have children and a husband and you’re responsible for dinner, picking up the kids at daycare or helping them with homework, and making all these decisions when you get home, it’s overwhelming,” said Dr. Cole.
Prioritize your well-being
Doctors need to prioritize their own well-being, said Dr. Sánchez. “That’s not being selfish, that’s doing what’s necessary to stay well and be able to take care of patients. If doctors don’t take care of themselves, no one else will.”
Dr. Sánchez recommended that doctors regularly interact with relatives, friends, trusted colleagues, or clergy to help maintain their well-being, rather than waiting until a crisis to reach out.
A good coach, mentor, or counselor can help physicians gain enough self-awareness to handle their emotions and gain more clarity about what changes need to be made, she said.
Dr. Cole suggested that doctors figure out what makes them happy and fulfilled at work and try to spend more time on that activity. “Knowing what makes you happy and your strengths are foundational for creating a life you love.”
She urged doctors to “start thinking now about what you love about medicine and what is going right at home, and what areas you want to change. Then, start advocating for your needs.”
A version of this article originally appeared on Medscape.com.
Correction, 1/26/23: An earlier version of this article misstated the findings of the survey.
Physicians reported similar levels of unhappiness in 2022 too.
Fewer than half of physicians said they were currently somewhat or very happy at work, compared with 75% of physicians who said they were somewhat or very happy at work in a previous survey conducted before the pandemic, the new Medscape Physician Lifestyle & Happiness Report 2023 shows.*
“I am not surprised that we’re less happy now,” said Amaryllis Sánchez, MD, a board-certified family medicine physician and a certified physician coach.
“I speak to physicians around the country and I hear that their workplaces are understaffed, they’re overworked and they don’t feel safe. Although we’re in a different phase of the pandemic, doctors feel that the ground beneath them is still shaky,” said Dr. Sánchez, the author of “Recapturing Joy in Medicine.”
Most doctors are seeing more patients than they can handle and are expected to do that consistently. “When you no longer have the capacity to give of yourself, that becomes a nearly impossible task,” said Dr. Sánchez.
Also, physicians in understaffed workplaces often must take on additional work such as administrative or nursing duties, said Katie Cole, DO, a board-certified psychiatrist and a physician coach.
While health systems are aware that physicians need time to rest and recharge, staffing shortages prevent doctors from taking time off because they can’t find coverage, said Dr. Cole.
“While we know that it’s important for physicians to take vacations, more than one-third of doctors still take 2 weeks or less of vacation annually,” said Dr. Cole.
Physicians also tend to have less compassion for themselves and sacrifice self-care compared to other health care workers. “When a patient dies, nurses get together, debrief, and hug each other, whereas doctors have another patient to see. The culture of medicine doesn’t support self-compassion for physicians,” said Dr. Cole.
Physicians also felt less safe at work during the pandemic because of to shortages of personal protective equipment, said Dr. Sánchez. They have also witnessed or experienced an increase in abusive behavior, violence and threats of violence.
Physicians’ personal life suffers
Doctors maintain their mental health primarily by spending time with family members and friends, according to 2022’s Medscape Physician Lifestyle & Happiness Report. Yet half of doctors reported in a survey by the Physicians Foundation that they withdrew from family, friends or coworkers in 2022, said Dr. Sánchez.
“When you exceed your mental, emotional, and physical capacity at work, you have no reserve left for your personal life,” said Dr. Cole.
That may explain why only 58% of doctors reported feeling somewhat or very happy outside of work, compared with 84% who felt that way before the pandemic.
More women doctors said they deal with stronger feelings of conflict in trying to balance parenting responsibilities with a highly demanding job. Nearly one in two women physician-parents reported feeling very conflicted at work, compared with about one in four male physician-parents.
When physicians go home, they may be emotionally drained and tired mentally from making a lot of decisions at work, said Dr. Cole.
“As a woman, if you have children and a husband and you’re responsible for dinner, picking up the kids at daycare or helping them with homework, and making all these decisions when you get home, it’s overwhelming,” said Dr. Cole.
Prioritize your well-being
Doctors need to prioritize their own well-being, said Dr. Sánchez. “That’s not being selfish, that’s doing what’s necessary to stay well and be able to take care of patients. If doctors don’t take care of themselves, no one else will.”
Dr. Sánchez recommended that doctors regularly interact with relatives, friends, trusted colleagues, or clergy to help maintain their well-being, rather than waiting until a crisis to reach out.
A good coach, mentor, or counselor can help physicians gain enough self-awareness to handle their emotions and gain more clarity about what changes need to be made, she said.
Dr. Cole suggested that doctors figure out what makes them happy and fulfilled at work and try to spend more time on that activity. “Knowing what makes you happy and your strengths are foundational for creating a life you love.”
She urged doctors to “start thinking now about what you love about medicine and what is going right at home, and what areas you want to change. Then, start advocating for your needs.”
A version of this article originally appeared on Medscape.com.
Correction, 1/26/23: An earlier version of this article misstated the findings of the survey.
A patient named ‘Settle’ decides to sue instead
On Nov. 1, 2020, Dallas Settle went to Plateau Medical Center, Oak Hill, W.Va., complaining of pain that was later described in court documents as being “in his right mid-abdomen migrating to his right lower abdomen.” Following a CT scan, Mr. Settle was diagnosed with diverticulitis resulting in pneumoperitoneum, which is the presence of air or other gas in the abdominal cavity. The patient, it was decided, required surgery to correct the problem, but Plateau Medical Center didn’t have the staff to perform the procedure.
Mr. Settle was then transferred to another West Virginia hospital, Charleston Area Medical Center (CAMC). Here, he was evaluated by doctors in the facility’s General Division, who initiated treatment with IV fluids and opiate analgesics. He was then placed under the care of a trauma surgeon, who initially decided to treat the patient nonoperatively. If that approach failed, the surgeon believed, Mr. Settle would probably require a laparotomy, bowel resection, and ostomy.
Another surgical team performed an exploratory laparotomy the following day. The team determined that Mr. Settle was suffering from a ruptured appendicitis and allegedly performed an appendectomy. But Mr. Settle’s condition continued to deteriorate the following day.
Another CT scan followed. It revealed various problems – multiple fluid collections, an ileus, distended loops of the patient’s small bowel, a left renal cyst, subcentimeter mesenteric, and retroperitoneal adenopathy. Additional CT scans conducted 4 days later indicated other problems, including fluid collections in the patient’s right- and left-lower quadrants.
Over the next few days, doctors performed further exploratory laparotomies. Finally, on Nov. 22, Mr. Settle was transferred out of the intensive care unit in preparation for his discharge the following day.
His pain continued to worsen, however, and he was readmitted to CAMC a day later. At this point, an examination revealed that his surgical incisions had become infected.
Worse news was on the horizon. On Nov. 28, the trauma surgeon who had first agreed to treat Mr. Settle informed him that, despite claims to the contrary, his appendix hadn’t been removed.
Eventually, Mr. Settle was referred to the Cleveland Clinic, where at press time he was still being treated.
Mr. Settle has hired the firm Calwell Luce diTrapano to sue CAMC, accusing it of medical malpractice, medical negligence, and other lapses in the standard of care. In his complaint, he accused the hospital and its staff of breaching their duty of care “by negligently and improperly treating him” and by failing “to exercise the degree of care, skill, and learning required and expected of reasonable health care providers.”
His suit seeks not only compensatory damages and other relief but also punitive damages.
The content contained in this article is for informational purposes only and does not constitute legal advice. Reliance on any information provided in this article is solely at your own risk.
A version of this article originally appeared on Medscape.com.
On Nov. 1, 2020, Dallas Settle went to Plateau Medical Center, Oak Hill, W.Va., complaining of pain that was later described in court documents as being “in his right mid-abdomen migrating to his right lower abdomen.” Following a CT scan, Mr. Settle was diagnosed with diverticulitis resulting in pneumoperitoneum, which is the presence of air or other gas in the abdominal cavity. The patient, it was decided, required surgery to correct the problem, but Plateau Medical Center didn’t have the staff to perform the procedure.
Mr. Settle was then transferred to another West Virginia hospital, Charleston Area Medical Center (CAMC). Here, he was evaluated by doctors in the facility’s General Division, who initiated treatment with IV fluids and opiate analgesics. He was then placed under the care of a trauma surgeon, who initially decided to treat the patient nonoperatively. If that approach failed, the surgeon believed, Mr. Settle would probably require a laparotomy, bowel resection, and ostomy.
Another surgical team performed an exploratory laparotomy the following day. The team determined that Mr. Settle was suffering from a ruptured appendicitis and allegedly performed an appendectomy. But Mr. Settle’s condition continued to deteriorate the following day.
Another CT scan followed. It revealed various problems – multiple fluid collections, an ileus, distended loops of the patient’s small bowel, a left renal cyst, subcentimeter mesenteric, and retroperitoneal adenopathy. Additional CT scans conducted 4 days later indicated other problems, including fluid collections in the patient’s right- and left-lower quadrants.
Over the next few days, doctors performed further exploratory laparotomies. Finally, on Nov. 22, Mr. Settle was transferred out of the intensive care unit in preparation for his discharge the following day.
His pain continued to worsen, however, and he was readmitted to CAMC a day later. At this point, an examination revealed that his surgical incisions had become infected.
Worse news was on the horizon. On Nov. 28, the trauma surgeon who had first agreed to treat Mr. Settle informed him that, despite claims to the contrary, his appendix hadn’t been removed.
Eventually, Mr. Settle was referred to the Cleveland Clinic, where at press time he was still being treated.
Mr. Settle has hired the firm Calwell Luce diTrapano to sue CAMC, accusing it of medical malpractice, medical negligence, and other lapses in the standard of care. In his complaint, he accused the hospital and its staff of breaching their duty of care “by negligently and improperly treating him” and by failing “to exercise the degree of care, skill, and learning required and expected of reasonable health care providers.”
His suit seeks not only compensatory damages and other relief but also punitive damages.
The content contained in this article is for informational purposes only and does not constitute legal advice. Reliance on any information provided in this article is solely at your own risk.
A version of this article originally appeared on Medscape.com.
On Nov. 1, 2020, Dallas Settle went to Plateau Medical Center, Oak Hill, W.Va., complaining of pain that was later described in court documents as being “in his right mid-abdomen migrating to his right lower abdomen.” Following a CT scan, Mr. Settle was diagnosed with diverticulitis resulting in pneumoperitoneum, which is the presence of air or other gas in the abdominal cavity. The patient, it was decided, required surgery to correct the problem, but Plateau Medical Center didn’t have the staff to perform the procedure.
Mr. Settle was then transferred to another West Virginia hospital, Charleston Area Medical Center (CAMC). Here, he was evaluated by doctors in the facility’s General Division, who initiated treatment with IV fluids and opiate analgesics. He was then placed under the care of a trauma surgeon, who initially decided to treat the patient nonoperatively. If that approach failed, the surgeon believed, Mr. Settle would probably require a laparotomy, bowel resection, and ostomy.
Another surgical team performed an exploratory laparotomy the following day. The team determined that Mr. Settle was suffering from a ruptured appendicitis and allegedly performed an appendectomy. But Mr. Settle’s condition continued to deteriorate the following day.
Another CT scan followed. It revealed various problems – multiple fluid collections, an ileus, distended loops of the patient’s small bowel, a left renal cyst, subcentimeter mesenteric, and retroperitoneal adenopathy. Additional CT scans conducted 4 days later indicated other problems, including fluid collections in the patient’s right- and left-lower quadrants.
Over the next few days, doctors performed further exploratory laparotomies. Finally, on Nov. 22, Mr. Settle was transferred out of the intensive care unit in preparation for his discharge the following day.
His pain continued to worsen, however, and he was readmitted to CAMC a day later. At this point, an examination revealed that his surgical incisions had become infected.
Worse news was on the horizon. On Nov. 28, the trauma surgeon who had first agreed to treat Mr. Settle informed him that, despite claims to the contrary, his appendix hadn’t been removed.
Eventually, Mr. Settle was referred to the Cleveland Clinic, where at press time he was still being treated.
Mr. Settle has hired the firm Calwell Luce diTrapano to sue CAMC, accusing it of medical malpractice, medical negligence, and other lapses in the standard of care. In his complaint, he accused the hospital and its staff of breaching their duty of care “by negligently and improperly treating him” and by failing “to exercise the degree of care, skill, and learning required and expected of reasonable health care providers.”
His suit seeks not only compensatory damages and other relief but also punitive damages.
The content contained in this article is for informational purposes only and does not constitute legal advice. Reliance on any information provided in this article is solely at your own risk.
A version of this article originally appeared on Medscape.com.
FDA OKs zanubrutinib for CLL or SLL
By giving the nod to these uses of this second-generation Bruton’s tyrosine kinase inhibitor, the FDA expanded on its previous approvals of this drug in mantle cell and marginal zone lymphoma.
“We have seen striking data from the Brukinsa development program demonstrating significant and consistent efficacy across CLL patient subtypes, including the high-risk del17p/TP53-mutated population, and regardless of treatment setting,” Jennifer R. Brown, MD, PhD, of Dana-Farber Cancer Institute in Boston, said in a press release from drug developer BeiGene.
The FDA’s decision was based on two phase 3 trials – SEQUOIA and ALPINE. The SEQUOIA trial assessed 479 patients with treatment-naive CLL/SLL who either received zanubrutinib until disease progression or unacceptable toxicity or bendamustine plus rituximab for six cycles. Median progression-free survival was not reached in the zanubrutinib arm and was 33.7 months in the bendamustine plus rituximab arm (hazard ratio, 0.42).
In a separate, nonrandomized SEQUOIA cohort, investigators assessed zanubrutinib in patients with a 17p deletion and found an overall response rate of 88%. In addition, over the 25-month follow-up, the median duration of response was not reached.
The ALPINE trial included 652 patients with relapsed or refractory CLL/SLL who received either zanubrutinib or ibrutinib. The overall response rate was 80% in the zanubrutinib arm versus 73% in the ibrutinib arm, and the median duration of response was not reached in either arm over the 14-month follow-up period. Median progression-free survival was not reached in the zanubrutinib arm and was 35 months in the ibrutinib group.
Dr. Brown, a lead investigator on both drug trials, suggested that, given the improvements observed in progression-free survival, zanubrutinib could become the standard of care in this setting.
In the ALPINE trial, treatment discontinuation rate was lower among patients receiving zanubrutinib (26%) versus ibrutinib (41.2%), with most discontinuations a result of adverse events or progressive disease.
And across both trials, the most common adverse reactions were decreased neutrophil count (42%), upper respiratory tract infection (39%), decreased platelet count (34%), hemorrhage (30%), and musculoskeletal pain (30%).
A version of this article first appeared on Medscape.com.
By giving the nod to these uses of this second-generation Bruton’s tyrosine kinase inhibitor, the FDA expanded on its previous approvals of this drug in mantle cell and marginal zone lymphoma.
“We have seen striking data from the Brukinsa development program demonstrating significant and consistent efficacy across CLL patient subtypes, including the high-risk del17p/TP53-mutated population, and regardless of treatment setting,” Jennifer R. Brown, MD, PhD, of Dana-Farber Cancer Institute in Boston, said in a press release from drug developer BeiGene.
The FDA’s decision was based on two phase 3 trials – SEQUOIA and ALPINE. The SEQUOIA trial assessed 479 patients with treatment-naive CLL/SLL who either received zanubrutinib until disease progression or unacceptable toxicity or bendamustine plus rituximab for six cycles. Median progression-free survival was not reached in the zanubrutinib arm and was 33.7 months in the bendamustine plus rituximab arm (hazard ratio, 0.42).
In a separate, nonrandomized SEQUOIA cohort, investigators assessed zanubrutinib in patients with a 17p deletion and found an overall response rate of 88%. In addition, over the 25-month follow-up, the median duration of response was not reached.
The ALPINE trial included 652 patients with relapsed or refractory CLL/SLL who received either zanubrutinib or ibrutinib. The overall response rate was 80% in the zanubrutinib arm versus 73% in the ibrutinib arm, and the median duration of response was not reached in either arm over the 14-month follow-up period. Median progression-free survival was not reached in the zanubrutinib arm and was 35 months in the ibrutinib group.
Dr. Brown, a lead investigator on both drug trials, suggested that, given the improvements observed in progression-free survival, zanubrutinib could become the standard of care in this setting.
In the ALPINE trial, treatment discontinuation rate was lower among patients receiving zanubrutinib (26%) versus ibrutinib (41.2%), with most discontinuations a result of adverse events or progressive disease.
And across both trials, the most common adverse reactions were decreased neutrophil count (42%), upper respiratory tract infection (39%), decreased platelet count (34%), hemorrhage (30%), and musculoskeletal pain (30%).
A version of this article first appeared on Medscape.com.
By giving the nod to these uses of this second-generation Bruton’s tyrosine kinase inhibitor, the FDA expanded on its previous approvals of this drug in mantle cell and marginal zone lymphoma.
“We have seen striking data from the Brukinsa development program demonstrating significant and consistent efficacy across CLL patient subtypes, including the high-risk del17p/TP53-mutated population, and regardless of treatment setting,” Jennifer R. Brown, MD, PhD, of Dana-Farber Cancer Institute in Boston, said in a press release from drug developer BeiGene.
The FDA’s decision was based on two phase 3 trials – SEQUOIA and ALPINE. The SEQUOIA trial assessed 479 patients with treatment-naive CLL/SLL who either received zanubrutinib until disease progression or unacceptable toxicity or bendamustine plus rituximab for six cycles. Median progression-free survival was not reached in the zanubrutinib arm and was 33.7 months in the bendamustine plus rituximab arm (hazard ratio, 0.42).
In a separate, nonrandomized SEQUOIA cohort, investigators assessed zanubrutinib in patients with a 17p deletion and found an overall response rate of 88%. In addition, over the 25-month follow-up, the median duration of response was not reached.
The ALPINE trial included 652 patients with relapsed or refractory CLL/SLL who received either zanubrutinib or ibrutinib. The overall response rate was 80% in the zanubrutinib arm versus 73% in the ibrutinib arm, and the median duration of response was not reached in either arm over the 14-month follow-up period. Median progression-free survival was not reached in the zanubrutinib arm and was 35 months in the ibrutinib group.
Dr. Brown, a lead investigator on both drug trials, suggested that, given the improvements observed in progression-free survival, zanubrutinib could become the standard of care in this setting.
In the ALPINE trial, treatment discontinuation rate was lower among patients receiving zanubrutinib (26%) versus ibrutinib (41.2%), with most discontinuations a result of adverse events or progressive disease.
And across both trials, the most common adverse reactions were decreased neutrophil count (42%), upper respiratory tract infection (39%), decreased platelet count (34%), hemorrhage (30%), and musculoskeletal pain (30%).
A version of this article first appeared on Medscape.com.