Patient & Survivor Care

More Black men with elevated prostate-specific antigen (PSA) counts are diagnosed with prostate cancer than their White counterparts, but incidence of advanced prostate cancer is similar for Black and White men within 1 year of the PSA test, a new study finds.

There was a substantial difference in prostate cancer diagnosis across ethnic groups: 25% of Black men with a raised PSA were diagnosed with prostate cancer within 1 year of being tested, compared with 20% of White men and 13% of Asian men, in the analysis of a large primary care cohort in the United Kingdom.

Incidence of advanced prostate cancer for Asian men with a raised PSA result was 4.5%, compared with 7.5% for White men and 7.0% for Black men.

Men included in the study were aged 40 and older and had no prior cancer diagnosis. Their ethnicity and PSA test result were logged in a national dataset between 2010 and 2017.

The study of more than 730,000 men, published in BMC Medicine, didn’t explore reasons for the differences, but experts offer their thoughts on what led to the findings and what these results imply.

Why the Higher Diagnosis Rates but Not More Advanced Disease in Black Men?

Lead author Liz Down, a graduate research assistant at the University of Exeter, Exeter, England, suggests the higher diagnosis rates but not more advanced disease in Black men may be linked to genetic variations.

Her team’s studies have shown that Black men in the United Kingdom and United States have higher levels of PSA. The PSA value is used to identify patients who might benefit from specialist investigation, and current guidelines in the UK and US don’t distinguish between ethnic groups.

As most men have slow-growing prostate cancer, this may lead to a disproportionately higher number of Black men being diagnosed with prostate cancer, she said.

“One possible interpretation,” Ms. Down notes, “is that prostate cancer follows a similar trajectory in Black and White men. What is different, however, is that Black men have higher PSA levels.”

As to why the advanced-cancer incidence is similar in Black and White patients in the study, Daniel George, MD, director of genitourinary oncology at Duke Cancer Institute in Durham, North Carolina, says it’s important to understand that the Black men in this study “are not necessarily representative of the Black population at large.”

In this study, “they’re a little bit more healthcare inclined,” Dr. George notes. The study population is actively seeking the PSA test. Their socioeconomic profile might be closer to their White counterparts’, and that may make results more similar, he said.

“It’s possible that because this is a screening and not just men coming in for symptoms or cause, that we’re not seeing as much advanced disease,” he continued.

Amar Kishan, MD, chief of the genitourinary oncology service at University of California Los Angeles (UCLA) Health, says the genomic factors and environmental stressors that lead to elevated PSA counts don’t necessarily translate into aggressiveness of disease.

Why do Different Races have Different Prostate Cancer Risk?

Dr. George points out that the study also highlights that Asian men were significantly less likely to be diagnosed with prostate cancer within 1 year of the test.

The reasons for differences in prostate risk by race are complex, he notes. There are some clues that biologic factors may be at work. For instance, early puberty has a link to prostate cancer as it does to breast cancer, and height is also associated with a greater risk of prostate cancer, Dr. George said.

It’s not necessarily a racial association but there are some biological factors associated with prostate cancer later in life, he explained. “These may be enriched in certain populations, including northern Europeans and patients with African ancestries.”

The study also notes that Black men are more likely to die from prostate cancer than are White men, and Asian men are less likely than White or Black men to die from it.

Ms. Down said the difference in prostate cancer mortality between Black vs White men, in particular, may be related to a number of factors, and age, and lifetime risk of prostate cancer may play a major role, at least in the UK.

Should There Be Different ‘Normal’ PSA Levels for Different Races?

Dr. George says there is likely a need to change the system because a PSA level in one race may not signal the same risk it does in another. So medicine probably needs to standardize what a “normal” PSA is by race, he says, adding that he is a coauthor of an upcoming paper regarding that issue.

The lowest instances of prostate cancer were in Asian patients so this isn’t just a Black and White issue, Dr. George notes. “Being able to establish benchmarks by race and ethnicity is something that is probably needed in the field,” he says.

Dr. Kishan, on the other hand, says data from this study are not enough to support differentiating PSA levels based on race. He noted a limitation of the study is that it was not able to calculate the false-negative rate of PSA tests.

What are the Implications for Treating and Screening for Prostate Cancer

Dr. Kishan says there may be a role for increased intensity of screening, whether at an earlier age or with different intervals, but prostate cancer treatment should not differ by race.

“Our prior study, as well as others,” he says, “have shown that when you balance Black and White patients for every factor that might impact prognosis other than race — such as age, disease aggressiveness, etc. — Black men actually tend to have better  outcomes than White men. Thus, it would mean potentially overtreating (i.e., causing unnecessary side effects) to increase treatment intensity purely based on race with the available data.”

According to the paper, prostate cancer incidence in men with higher PSA levels increases with increasing age, even when using age-adjusted thresholds.

Dr. George says we know from this study and other studies as well that Black men are more likely to be diagnosed with prostate at a younger age. “Therefore, we probably need to be thinking about screening Black men starting at a younger age. These are the men who are most likely to benefit from an intervention — patients who have life expectancies of 20 years or more.”

What are the Downsides to Overdiagnosing Prostate Cancer in Men?

“It’s one of the biggest concerns that men have in proactively seeking healthcare,” Dr. George says. “They’re more likely to undergo treatment for this disease if they’re getting screened because (clinicians are) more likely to find it.”

Some of those men, he says, are going to undergo treatment for disease that won’t ultimately kill them, but may cause complications the men shouldn’t have had at all or otherwise may have had later.

“Overtreatment is a real concern. That’s why active surveillance is so important to minimize overtreatment of patients by finding out which cancers are low risk for progression and which are becoming more aggressive,” Dr. George says.

Authors of the study write that “the potential for overdiagnosis and the subsequent psychological and physical impact of diagnosis and treatment is an important consideration.”

All authors of the new paper received financial support from Cancer Research UK, the National Institute for Health and Care Research (NIHR), and the Higgins family for the submitted work.

Dr. George reports no relevant financial relationships.

Dr. Kishan reports consulting fees and speaking honoraria from Varian Medical Systems, Janssen, and Boston Scientific; research funding from PointBioPharma, Lantheus, and Janssen; and serving on advisory boards for Lantheus, Janssen and Boston Scientific.

More Black men with elevated prostate-specific antigen (PSA) counts are diagnosed with prostate cancer than their White counterparts, but incidence of advanced prostate cancer is similar for Black and White men within 1 year of the PSA test, a new study finds.

There was a substantial difference in prostate cancer diagnosis across ethnic groups: 25% of Black men with a raised PSA were diagnosed with prostate cancer within 1 year of being tested, compared with 20% of White men and 13% of Asian men, in the analysis of a large primary care cohort in the United Kingdom.

Incidence of advanced prostate cancer for Asian men with a raised PSA result was 4.5%, compared with 7.5% for White men and 7.0% for Black men.

Men included in the study were aged 40 and older and had no prior cancer diagnosis. Their ethnicity and PSA test result were logged in a national dataset between 2010 and 2017.

The study of more than 730,000 men, published in BMC Medicine, didn’t explore reasons for the differences, but experts offer their thoughts on what led to the findings and what these results imply.

Why the Higher Diagnosis Rates but Not More Advanced Disease in Black Men?

Lead author Liz Down, a graduate research assistant at the University of Exeter, Exeter, England, suggests the higher diagnosis rates but not more advanced disease in Black men may be linked to genetic variations.

Her team’s studies have shown that Black men in the United Kingdom and United States have higher levels of PSA. The PSA value is used to identify patients who might benefit from specialist investigation, and current guidelines in the UK and US don’t distinguish between ethnic groups.

As most men have slow-growing prostate cancer, this may lead to a disproportionately higher number of Black men being diagnosed with prostate cancer, she said.

“One possible interpretation,” Ms. Down notes, “is that prostate cancer follows a similar trajectory in Black and White men. What is different, however, is that Black men have higher PSA levels.”

As to why the advanced-cancer incidence is similar in Black and White patients in the study, Daniel George, MD, director of genitourinary oncology at Duke Cancer Institute in Durham, North Carolina, says it’s important to understand that the Black men in this study “are not necessarily representative of the Black population at large.”

In this study, “they’re a little bit more healthcare inclined,” Dr. George notes. The study population is actively seeking the PSA test. Their socioeconomic profile might be closer to their White counterparts’, and that may make results more similar, he said.

“It’s possible that because this is a screening and not just men coming in for symptoms or cause, that we’re not seeing as much advanced disease,” he continued.

Amar Kishan, MD, chief of the genitourinary oncology service at University of California Los Angeles (UCLA) Health, says the genomic factors and environmental stressors that lead to elevated PSA counts don’t necessarily translate into aggressiveness of disease.

Why do Different Races have Different Prostate Cancer Risk?

Dr. George points out that the study also highlights that Asian men were significantly less likely to be diagnosed with prostate cancer within 1 year of the test.

The reasons for differences in prostate risk by race are complex, he notes. There are some clues that biologic factors may be at work. For instance, early puberty has a link to prostate cancer as it does to breast cancer, and height is also associated with a greater risk of prostate cancer, Dr. George said.

It’s not necessarily a racial association but there are some biological factors associated with prostate cancer later in life, he explained. “These may be enriched in certain populations, including northern Europeans and patients with African ancestries.”

The study also notes that Black men are more likely to die from prostate cancer than are White men, and Asian men are less likely than White or Black men to die from it.

Ms. Down said the difference in prostate cancer mortality between Black vs White men, in particular, may be related to a number of factors, and age, and lifetime risk of prostate cancer may play a major role, at least in the UK.

Should There Be Different ‘Normal’ PSA Levels for Different Races?

Dr. George says there is likely a need to change the system because a PSA level in one race may not signal the same risk it does in another. So medicine probably needs to standardize what a “normal” PSA is by race, he says, adding that he is a coauthor of an upcoming paper regarding that issue.

The lowest instances of prostate cancer were in Asian patients so this isn’t just a Black and White issue, Dr. George notes. “Being able to establish benchmarks by race and ethnicity is something that is probably needed in the field,” he says.

Dr. Kishan, on the other hand, says data from this study are not enough to support differentiating PSA levels based on race. He noted a limitation of the study is that it was not able to calculate the false-negative rate of PSA tests.

What are the Implications for Treating and Screening for Prostate Cancer

Dr. Kishan says there may be a role for increased intensity of screening, whether at an earlier age or with different intervals, but prostate cancer treatment should not differ by race.

“Our prior study, as well as others,” he says, “have shown that when you balance Black and White patients for every factor that might impact prognosis other than race — such as age, disease aggressiveness, etc. — Black men actually tend to have better  outcomes than White men. Thus, it would mean potentially overtreating (i.e., causing unnecessary side effects) to increase treatment intensity purely based on race with the available data.”

According to the paper, prostate cancer incidence in men with higher PSA levels increases with increasing age, even when using age-adjusted thresholds.

Dr. George says we know from this study and other studies as well that Black men are more likely to be diagnosed with prostate at a younger age. “Therefore, we probably need to be thinking about screening Black men starting at a younger age. These are the men who are most likely to benefit from an intervention — patients who have life expectancies of 20 years or more.”

What are the Downsides to Overdiagnosing Prostate Cancer in Men?

“It’s one of the biggest concerns that men have in proactively seeking healthcare,” Dr. George says. “They’re more likely to undergo treatment for this disease if they’re getting screened because (clinicians are) more likely to find it.”

Some of those men, he says, are going to undergo treatment for disease that won’t ultimately kill them, but may cause complications the men shouldn’t have had at all or otherwise may have had later.

“Overtreatment is a real concern. That’s why active surveillance is so important to minimize overtreatment of patients by finding out which cancers are low risk for progression and which are becoming more aggressive,” Dr. George says.

Authors of the study write that “the potential for overdiagnosis and the subsequent psychological and physical impact of diagnosis and treatment is an important consideration.”

All authors of the new paper received financial support from Cancer Research UK, the National Institute for Health and Care Research (NIHR), and the Higgins family for the submitted work.

Dr. George reports no relevant financial relationships.

Dr. Kishan reports consulting fees and speaking honoraria from Varian Medical Systems, Janssen, and Boston Scientific; research funding from PointBioPharma, Lantheus, and Janssen; and serving on advisory boards for Lantheus, Janssen and Boston Scientific.

More Black men with elevated prostate-specific antigen (PSA) counts are diagnosed with prostate cancer than their White counterparts, but incidence of advanced prostate cancer is similar for Black and White men within 1 year of the PSA test, a new study finds.

There was a substantial difference in prostate cancer diagnosis across ethnic groups: 25% of Black men with a raised PSA were diagnosed with prostate cancer within 1 year of being tested, compared with 20% of White men and 13% of Asian men, in the analysis of a large primary care cohort in the United Kingdom.

Incidence of advanced prostate cancer for Asian men with a raised PSA result was 4.5%, compared with 7.5% for White men and 7.0% for Black men.

Men included in the study were aged 40 and older and had no prior cancer diagnosis. Their ethnicity and PSA test result were logged in a national dataset between 2010 and 2017.

The study of more than 730,000 men, published in BMC Medicine, didn’t explore reasons for the differences, but experts offer their thoughts on what led to the findings and what these results imply.

Why the Higher Diagnosis Rates but Not More Advanced Disease in Black Men?

Lead author Liz Down, a graduate research assistant at the University of Exeter, Exeter, England, suggests the higher diagnosis rates but not more advanced disease in Black men may be linked to genetic variations.

Her team’s studies have shown that Black men in the United Kingdom and United States have higher levels of PSA. The PSA value is used to identify patients who might benefit from specialist investigation, and current guidelines in the UK and US don’t distinguish between ethnic groups.

As most men have slow-growing prostate cancer, this may lead to a disproportionately higher number of Black men being diagnosed with prostate cancer, she said.

“One possible interpretation,” Ms. Down notes, “is that prostate cancer follows a similar trajectory in Black and White men. What is different, however, is that Black men have higher PSA levels.”

As to why the advanced-cancer incidence is similar in Black and White patients in the study, Daniel George, MD, director of genitourinary oncology at Duke Cancer Institute in Durham, North Carolina, says it’s important to understand that the Black men in this study “are not necessarily representative of the Black population at large.”

In this study, “they’re a little bit more healthcare inclined,” Dr. George notes. The study population is actively seeking the PSA test. Their socioeconomic profile might be closer to their White counterparts’, and that may make results more similar, he said.

“It’s possible that because this is a screening and not just men coming in for symptoms or cause, that we’re not seeing as much advanced disease,” he continued.

Amar Kishan, MD, chief of the genitourinary oncology service at University of California Los Angeles (UCLA) Health, says the genomic factors and environmental stressors that lead to elevated PSA counts don’t necessarily translate into aggressiveness of disease.

Why do Different Races have Different Prostate Cancer Risk?

Dr. George points out that the study also highlights that Asian men were significantly less likely to be diagnosed with prostate cancer within 1 year of the test.

The reasons for differences in prostate risk by race are complex, he notes. There are some clues that biologic factors may be at work. For instance, early puberty has a link to prostate cancer as it does to breast cancer, and height is also associated with a greater risk of prostate cancer, Dr. George said.

It’s not necessarily a racial association but there are some biological factors associated with prostate cancer later in life, he explained. “These may be enriched in certain populations, including northern Europeans and patients with African ancestries.”

The study also notes that Black men are more likely to die from prostate cancer than are White men, and Asian men are less likely than White or Black men to die from it.

Ms. Down said the difference in prostate cancer mortality between Black vs White men, in particular, may be related to a number of factors, and age, and lifetime risk of prostate cancer may play a major role, at least in the UK.

Should There Be Different ‘Normal’ PSA Levels for Different Races?

Dr. George says there is likely a need to change the system because a PSA level in one race may not signal the same risk it does in another. So medicine probably needs to standardize what a “normal” PSA is by race, he says, adding that he is a coauthor of an upcoming paper regarding that issue.

The lowest instances of prostate cancer were in Asian patients so this isn’t just a Black and White issue, Dr. George notes. “Being able to establish benchmarks by race and ethnicity is something that is probably needed in the field,” he says.

Dr. Kishan, on the other hand, says data from this study are not enough to support differentiating PSA levels based on race. He noted a limitation of the study is that it was not able to calculate the false-negative rate of PSA tests.

What are the Implications for Treating and Screening for Prostate Cancer

Dr. Kishan says there may be a role for increased intensity of screening, whether at an earlier age or with different intervals, but prostate cancer treatment should not differ by race.

“Our prior study, as well as others,” he says, “have shown that when you balance Black and White patients for every factor that might impact prognosis other than race — such as age, disease aggressiveness, etc. — Black men actually tend to have better  outcomes than White men. Thus, it would mean potentially overtreating (i.e., causing unnecessary side effects) to increase treatment intensity purely based on race with the available data.”

According to the paper, prostate cancer incidence in men with higher PSA levels increases with increasing age, even when using age-adjusted thresholds.

Dr. George says we know from this study and other studies as well that Black men are more likely to be diagnosed with prostate at a younger age. “Therefore, we probably need to be thinking about screening Black men starting at a younger age. These are the men who are most likely to benefit from an intervention — patients who have life expectancies of 20 years or more.”

What are the Downsides to Overdiagnosing Prostate Cancer in Men?

“It’s one of the biggest concerns that men have in proactively seeking healthcare,” Dr. George says. “They’re more likely to undergo treatment for this disease if they’re getting screened because (clinicians are) more likely to find it.”

Some of those men, he says, are going to undergo treatment for disease that won’t ultimately kill them, but may cause complications the men shouldn’t have had at all or otherwise may have had later.

“Overtreatment is a real concern. That’s why active surveillance is so important to minimize overtreatment of patients by finding out which cancers are low risk for progression and which are becoming more aggressive,” Dr. George says.

Authors of the study write that “the potential for overdiagnosis and the subsequent psychological and physical impact of diagnosis and treatment is an important consideration.”

All authors of the new paper received financial support from Cancer Research UK, the National Institute for Health and Care Research (NIHR), and the Higgins family for the submitted work.

Dr. George reports no relevant financial relationships.

Dr. Kishan reports consulting fees and speaking honoraria from Varian Medical Systems, Janssen, and Boston Scientific; research funding from PointBioPharma, Lantheus, and Janssen; and serving on advisory boards for Lantheus, Janssen and Boston Scientific.

A new drug-device combo aimed at detecting residual cancer in real time during lumpectomy is one step closer to gaining federal approval, but some physicians aren’t convinced the technology is safe — or effective enough — to start using on patients.

A majority of the US Food and Drug Administration’s Medical Imaging Drugs Advisory Committee (MIDAC) on March 5 voted in support of LUMISIGHT’s (pegulicianine) benefit-risk profile.

LUMISIGHT is an optical imaging agent used in combination with Lumicell Direct Visualization System (DVS), a fluorescence-guided imaging system. The technology, developed by Lumicell Inc., helps surgeons identify cancer that may remain in the breast after they’ve completed the main resection of tissue.

Following MIDAC’s positive vote, the FDA will move on to reviewing Lumicell’s new drug application for LUMISIGHT and its premarket approval application for Lumicell DVS.

“We are proud of the efforts and look forward to the next steps as we work with the FDA to finalize the approval process so that women with breast cancer can access the therapy,” Jorge Ferrer, PhD, Lumicell’s chief scientific officer, said in an interview.

However, Freya Schnabel, MD, professor of surgery and director of breast surgery at NYU Perlmutter Cancer Center, said there are some “real concerns” with the technology. She expressed surprise at MIDAC’s overall favorable vote.

In a recently published study, she noted that the use of pegulicianine fluorescence-guided surgery (pFGS) did not meet the prespecified threshold for sensitivity.

“It did meet thresholds for removal of residual tumor and specificity — but this is still basically a negative study, and a low sensitivity raises concerns regarding false negative readings,” she said in an interview. “I’m surprised [the committee] is supportive in light of this result. Also, the technique is logistically challenging, as patients need to be injected 2 to 6 hours before their surgeries, very challenging timing for patients having ambulatory procedures.”

The study, published in the April 2023 NEJM Evidence, analyzed 357 patients who received 1.0 mg/kg intravenous pegulicianine followed by lumpectomy. Tumor left behind after standard lumpectomy was removed in 27 of 357 patients through use of pFGS. Of the 27, 22 patients had cavity orientations deemed “negative” on standard margin evaluation, according to the study. A margin is described as negative or clean when there are no further cancer cells at the edge of the tissue, suggesting that all of the cancer has been removed. Second surgeries were avoided by pFGS in 9 of 62 patients with positive margins, the analysis found.

On per-margin analysis, pFGS specificity was 85.2%, and sensitivity was 49.3%. While the sensitivity endpoint missed the lower boundary of the 95% confidence interval, the LUM system exceeded the specificity endpoint of 60% with a point estimate of 86%, and an accuracy of 84% for imaging residual cancer in the lumpectomy cavity, coinvestigator E. Shelley Hwang, MD, MPH, said during the MIDAC meeting.

“The pivotal study was an adequate and well-controlled study demonstrating the effectiveness of the LUM system to detect residual cancer in the lumpectomy cavity, following the standard of care procedure,” she said. “These results also demonstrate clinical benefit that improves the current standard of care. This is the first and only imaging system that provides results in the lumpectomy cavity in real time, allowing surgeons to use this information at the time of the initial procedure.”

Is the Technology Safe?

Pegulicianine is an imaging agent that contains a fluorescent dye. The agent is given to patients as a 3-minute intravenous infusion 2 to 6 hours before surgery.

After removal of the main tumor specimen, the surgeon inserts a handheld probe into the breast cavity and in combination with the detection software, searches for residual cancer that may have been left behind, Dr. Ferrer explained during the MIDAC meeting.

If the software identifies areas suspicious for residual cancer, those areas display in red on an overhead screen. The surgeon then takes a targeted shave to resect the suspicious tissue. Once the tissue has been removed, the surgeon can rescan the cavity with the probe to ensure a more complete resection has been performed. Use of the LUM system typically takes surgeons less than 7 minutes to use, Dr. Ferrer said.

In the study, a total of 406 patients received the intravenous pegulicianine, but 14 patients were withdrawn before randomization. After a standard lumpectomy procedure, 357 patients were assigned to the pFGS group and 35 patients to the control group.

Of the 406 patients, pegulicianine administration was stopped for adverse events in 6 patients (1.5%). Two patients had grade 3 serious adverse events related to pegulicianine; one had hypersensitivity, and one had an anaphylactic reaction. The other four pegulicianine-related adverse events included allergic reaction, milder hypersensitivity, nausea, and pegulicianine extravasation.

Dr. Schnabel said these reactions are worrisome. While any effort to reduce the need for patients to have more than one surgery to complete a breast conserving approach would be a “real advance,” Dr. Schnabel said she would not feel comfortable using pFGS in her own practice if approved by the FDA as is.

“This is clearly a major issue in terms of incorporating this technique into practice,” she said. “I could go on, but in light of the above, I’m surprised that [the committee] is supportive. I would hope for some refinement of the technique to reduce the risks to patients and improve the results before I’d consider utilizing this approach.”

During the MIDAC meeting, Dr. Ferrer said the company takes the safety events seriously and has developed mitigation strategies to further reduce the risk of patient hypersensitivity. These strategies include: clear labeling that informs users of anaphylaxis risk, incorporating a new section into the device training program to address warnings and precautions, an enhanced pharmacovigilance program to closely track and report hypersensitivity events, and a postmarket study to access the incidence rate and risk of such events in a broader population.

Several MIDAC members raised questions about the adverse reactions observed and about the safety of the technology.

David B. Hackney, MD, a neuroradiologist at Beth Israel Deaconess Medical Center in Boston, questioned the recommendation that patients only be monitored for 15 minutes after the injection.

“Since you don’t have enough data to know how long after injection reactions could occur, why not keep them under monitoring until after the surgery is over?” he said.

Barbara Smith, MD, PhD, lead investigator of the study, explained that per the protocol, there would be frequent monitoring, with a nurse at bedside, and patients would be monitored after injection, on their way to the procedure, and afterward.

She suggested, during the meeting, that more intense monitoring early in the process would be beneficial as that is when investigators observed side effects believed to be attributed to LUMISIGHT.

MIDAC member Kimberly E. Applegate, MD, a retired radiology professor, asked about the learning curve for surgeons and how long it generally takes for physicians to become familiar with the system.

Coinvestigator Kelly Hunt, MD, explained that all surgeons who participated in the trial completed a training program.

“Certainly, there’s a learning curve anytime we introduce new technology in the operating room,” she said. “Surgeons said it usually takes about three procedures before they’re comfortable with the system, including the camera and the software.”

During a presentation period by FDA officials, Anil Rajpal, MD, MPH, FDA, Deputy Division Director for Safety, said it’s important that prescribing information for LUMISIGHT communicate the risk of anaphylaxis and other hypersensitivity reactions, the need to monitor patients, and the need for the appropriate available personnel, medications, and equipment.

“This would be done by warnings and precautions and a boxed warning,” he said. “Note, that [such warnings] would only communicate the risks, it would not further characterize the risk.”
 

Committee Expresses Support

During a subsequent vote among committee members, most expressed support for the technology and its benefits. Sixteen members voted in support, one abstained, and two voted against the benefit-risk profile.

Andrea Richardson, MD, PhD, professor of pathology at Johns Hopkins in Baltimore, said she voted yes because the incremental benefits of avoiding additional surgeries outweigh the small risk of anaphylaxis.

Henry Royal, MD, MIDAC chair and professor of radiology at Washington University School of Medicine in St. Louis, agreed.

“Even though the benefit of this is on average, quite small, the benefit to the woman who has positive margins that’s converted to negative margins because of use of [LUMISIGHT] is really quite great,” he said. “The risk from this procedure is certainly very manageable.”

Harold J. Burstein, MD, PhD, a professor of medicine at Harvard Medical School and oncologist at Dana-Farber Cancer Institute in Boston, voted against the benefit-risk profile. He said the technology merits more research and that he does not believe it was proven the technology reduces the risk of reoperation.

“I think it’s a great technology,” he said. “I would like to see a well-conducted, randomized, phase III study with the endpoint of reoperation,” he said. “That would really prove the usefulness and benefit of the intervention in my mind.”

Chengjie Xiong, PhD, professor of biostatistics at Washington University School of Medicine in St. Louis, chose to abstain from voting because he said there was not enough data.

The FDA will now complete its review of Lumicell’s new drug application for LUMISIGHT and review of its premarket approval application for Lumicell DVS. The FDA review team has 6-10 months to make a decision. As part of the process, the FDA will evaluate clinical data, travel to clinical study sites to conduct inspections, and assemble a final action package for a senior FDA official to make a final decision.

If deemed safe and effective, the FDA will then work with Lumicell on developing and refining prescribing information.

Dr. Ferrer said his team expects to receive FDA approval in the coming weeks and will continue to work collaboratively with the FDA to expedite approval where possible.

The purpose of the MIDAC is to review and evaluate data about the safety and effectiveness of marketed and investigational human drug products for use in diagnostic and therapeutic procedures using radioactive pharmaceuticals and make appropriate recommendations to the FDA Commissioner.

A new drug-device combo aimed at detecting residual cancer in real time during lumpectomy is one step closer to gaining federal approval, but some physicians aren’t convinced the technology is safe — or effective enough — to start using on patients.

A majority of the US Food and Drug Administration’s Medical Imaging Drugs Advisory Committee (MIDAC) on March 5 voted in support of LUMISIGHT’s (pegulicianine) benefit-risk profile.

LUMISIGHT is an optical imaging agent used in combination with Lumicell Direct Visualization System (DVS), a fluorescence-guided imaging system. The technology, developed by Lumicell Inc., helps surgeons identify cancer that may remain in the breast after they’ve completed the main resection of tissue.

Following MIDAC’s positive vote, the FDA will move on to reviewing Lumicell’s new drug application for LUMISIGHT and its premarket approval application for Lumicell DVS.

“We are proud of the efforts and look forward to the next steps as we work with the FDA to finalize the approval process so that women with breast cancer can access the therapy,” Jorge Ferrer, PhD, Lumicell’s chief scientific officer, said in an interview.

However, Freya Schnabel, MD, professor of surgery and director of breast surgery at NYU Perlmutter Cancer Center, said there are some “real concerns” with the technology. She expressed surprise at MIDAC’s overall favorable vote.

In a recently published study, she noted that the use of pegulicianine fluorescence-guided surgery (pFGS) did not meet the prespecified threshold for sensitivity.

“It did meet thresholds for removal of residual tumor and specificity — but this is still basically a negative study, and a low sensitivity raises concerns regarding false negative readings,” she said in an interview. “I’m surprised [the committee] is supportive in light of this result. Also, the technique is logistically challenging, as patients need to be injected 2 to 6 hours before their surgeries, very challenging timing for patients having ambulatory procedures.”

The study, published in the April 2023 NEJM Evidence, analyzed 357 patients who received 1.0 mg/kg intravenous pegulicianine followed by lumpectomy. Tumor left behind after standard lumpectomy was removed in 27 of 357 patients through use of pFGS. Of the 27, 22 patients had cavity orientations deemed “negative” on standard margin evaluation, according to the study. A margin is described as negative or clean when there are no further cancer cells at the edge of the tissue, suggesting that all of the cancer has been removed. Second surgeries were avoided by pFGS in 9 of 62 patients with positive margins, the analysis found.

On per-margin analysis, pFGS specificity was 85.2%, and sensitivity was 49.3%. While the sensitivity endpoint missed the lower boundary of the 95% confidence interval, the LUM system exceeded the specificity endpoint of 60% with a point estimate of 86%, and an accuracy of 84% for imaging residual cancer in the lumpectomy cavity, coinvestigator E. Shelley Hwang, MD, MPH, said during the MIDAC meeting.

“The pivotal study was an adequate and well-controlled study demonstrating the effectiveness of the LUM system to detect residual cancer in the lumpectomy cavity, following the standard of care procedure,” she said. “These results also demonstrate clinical benefit that improves the current standard of care. This is the first and only imaging system that provides results in the lumpectomy cavity in real time, allowing surgeons to use this information at the time of the initial procedure.”

Is the Technology Safe?

Pegulicianine is an imaging agent that contains a fluorescent dye. The agent is given to patients as a 3-minute intravenous infusion 2 to 6 hours before surgery.

After removal of the main tumor specimen, the surgeon inserts a handheld probe into the breast cavity and in combination with the detection software, searches for residual cancer that may have been left behind, Dr. Ferrer explained during the MIDAC meeting.

If the software identifies areas suspicious for residual cancer, those areas display in red on an overhead screen. The surgeon then takes a targeted shave to resect the suspicious tissue. Once the tissue has been removed, the surgeon can rescan the cavity with the probe to ensure a more complete resection has been performed. Use of the LUM system typically takes surgeons less than 7 minutes to use, Dr. Ferrer said.

In the study, a total of 406 patients received the intravenous pegulicianine, but 14 patients were withdrawn before randomization. After a standard lumpectomy procedure, 357 patients were assigned to the pFGS group and 35 patients to the control group.

Of the 406 patients, pegulicianine administration was stopped for adverse events in 6 patients (1.5%). Two patients had grade 3 serious adverse events related to pegulicianine; one had hypersensitivity, and one had an anaphylactic reaction. The other four pegulicianine-related adverse events included allergic reaction, milder hypersensitivity, nausea, and pegulicianine extravasation.

Dr. Schnabel said these reactions are worrisome. While any effort to reduce the need for patients to have more than one surgery to complete a breast conserving approach would be a “real advance,” Dr. Schnabel said she would not feel comfortable using pFGS in her own practice if approved by the FDA as is.

“This is clearly a major issue in terms of incorporating this technique into practice,” she said. “I could go on, but in light of the above, I’m surprised that [the committee] is supportive. I would hope for some refinement of the technique to reduce the risks to patients and improve the results before I’d consider utilizing this approach.”

During the MIDAC meeting, Dr. Ferrer said the company takes the safety events seriously and has developed mitigation strategies to further reduce the risk of patient hypersensitivity. These strategies include: clear labeling that informs users of anaphylaxis risk, incorporating a new section into the device training program to address warnings and precautions, an enhanced pharmacovigilance program to closely track and report hypersensitivity events, and a postmarket study to access the incidence rate and risk of such events in a broader population.

Several MIDAC members raised questions about the adverse reactions observed and about the safety of the technology.

David B. Hackney, MD, a neuroradiologist at Beth Israel Deaconess Medical Center in Boston, questioned the recommendation that patients only be monitored for 15 minutes after the injection.

“Since you don’t have enough data to know how long after injection reactions could occur, why not keep them under monitoring until after the surgery is over?” he said.

Barbara Smith, MD, PhD, lead investigator of the study, explained that per the protocol, there would be frequent monitoring, with a nurse at bedside, and patients would be monitored after injection, on their way to the procedure, and afterward.

She suggested, during the meeting, that more intense monitoring early in the process would be beneficial as that is when investigators observed side effects believed to be attributed to LUMISIGHT.

MIDAC member Kimberly E. Applegate, MD, a retired radiology professor, asked about the learning curve for surgeons and how long it generally takes for physicians to become familiar with the system.

Coinvestigator Kelly Hunt, MD, explained that all surgeons who participated in the trial completed a training program.

“Certainly, there’s a learning curve anytime we introduce new technology in the operating room,” she said. “Surgeons said it usually takes about three procedures before they’re comfortable with the system, including the camera and the software.”

During a presentation period by FDA officials, Anil Rajpal, MD, MPH, FDA, Deputy Division Director for Safety, said it’s important that prescribing information for LUMISIGHT communicate the risk of anaphylaxis and other hypersensitivity reactions, the need to monitor patients, and the need for the appropriate available personnel, medications, and equipment.

“This would be done by warnings and precautions and a boxed warning,” he said. “Note, that [such warnings] would only communicate the risks, it would not further characterize the risk.”
 

Committee Expresses Support

During a subsequent vote among committee members, most expressed support for the technology and its benefits. Sixteen members voted in support, one abstained, and two voted against the benefit-risk profile.

Andrea Richardson, MD, PhD, professor of pathology at Johns Hopkins in Baltimore, said she voted yes because the incremental benefits of avoiding additional surgeries outweigh the small risk of anaphylaxis.

Henry Royal, MD, MIDAC chair and professor of radiology at Washington University School of Medicine in St. Louis, agreed.

“Even though the benefit of this is on average, quite small, the benefit to the woman who has positive margins that’s converted to negative margins because of use of [LUMISIGHT] is really quite great,” he said. “The risk from this procedure is certainly very manageable.”

Harold J. Burstein, MD, PhD, a professor of medicine at Harvard Medical School and oncologist at Dana-Farber Cancer Institute in Boston, voted against the benefit-risk profile. He said the technology merits more research and that he does not believe it was proven the technology reduces the risk of reoperation.

“I think it’s a great technology,” he said. “I would like to see a well-conducted, randomized, phase III study with the endpoint of reoperation,” he said. “That would really prove the usefulness and benefit of the intervention in my mind.”

Chengjie Xiong, PhD, professor of biostatistics at Washington University School of Medicine in St. Louis, chose to abstain from voting because he said there was not enough data.

The FDA will now complete its review of Lumicell’s new drug application for LUMISIGHT and review of its premarket approval application for Lumicell DVS. The FDA review team has 6-10 months to make a decision. As part of the process, the FDA will evaluate clinical data, travel to clinical study sites to conduct inspections, and assemble a final action package for a senior FDA official to make a final decision.

If deemed safe and effective, the FDA will then work with Lumicell on developing and refining prescribing information.

Dr. Ferrer said his team expects to receive FDA approval in the coming weeks and will continue to work collaboratively with the FDA to expedite approval where possible.

The purpose of the MIDAC is to review and evaluate data about the safety and effectiveness of marketed and investigational human drug products for use in diagnostic and therapeutic procedures using radioactive pharmaceuticals and make appropriate recommendations to the FDA Commissioner.

A new drug-device combo aimed at detecting residual cancer in real time during lumpectomy is one step closer to gaining federal approval, but some physicians aren’t convinced the technology is safe — or effective enough — to start using on patients.

A majority of the US Food and Drug Administration’s Medical Imaging Drugs Advisory Committee (MIDAC) on March 5 voted in support of LUMISIGHT’s (pegulicianine) benefit-risk profile.

LUMISIGHT is an optical imaging agent used in combination with Lumicell Direct Visualization System (DVS), a fluorescence-guided imaging system. The technology, developed by Lumicell Inc., helps surgeons identify cancer that may remain in the breast after they’ve completed the main resection of tissue.

Following MIDAC’s positive vote, the FDA will move on to reviewing Lumicell’s new drug application for LUMISIGHT and its premarket approval application for Lumicell DVS.

“We are proud of the efforts and look forward to the next steps as we work with the FDA to finalize the approval process so that women with breast cancer can access the therapy,” Jorge Ferrer, PhD, Lumicell’s chief scientific officer, said in an interview.

However, Freya Schnabel, MD, professor of surgery and director of breast surgery at NYU Perlmutter Cancer Center, said there are some “real concerns” with the technology. She expressed surprise at MIDAC’s overall favorable vote.

In a recently published study, she noted that the use of pegulicianine fluorescence-guided surgery (pFGS) did not meet the prespecified threshold for sensitivity.

“It did meet thresholds for removal of residual tumor and specificity — but this is still basically a negative study, and a low sensitivity raises concerns regarding false negative readings,” she said in an interview. “I’m surprised [the committee] is supportive in light of this result. Also, the technique is logistically challenging, as patients need to be injected 2 to 6 hours before their surgeries, very challenging timing for patients having ambulatory procedures.”

The study, published in the April 2023 NEJM Evidence, analyzed 357 patients who received 1.0 mg/kg intravenous pegulicianine followed by lumpectomy. Tumor left behind after standard lumpectomy was removed in 27 of 357 patients through use of pFGS. Of the 27, 22 patients had cavity orientations deemed “negative” on standard margin evaluation, according to the study. A margin is described as negative or clean when there are no further cancer cells at the edge of the tissue, suggesting that all of the cancer has been removed. Second surgeries were avoided by pFGS in 9 of 62 patients with positive margins, the analysis found.

On per-margin analysis, pFGS specificity was 85.2%, and sensitivity was 49.3%. While the sensitivity endpoint missed the lower boundary of the 95% confidence interval, the LUM system exceeded the specificity endpoint of 60% with a point estimate of 86%, and an accuracy of 84% for imaging residual cancer in the lumpectomy cavity, coinvestigator E. Shelley Hwang, MD, MPH, said during the MIDAC meeting.

“The pivotal study was an adequate and well-controlled study demonstrating the effectiveness of the LUM system to detect residual cancer in the lumpectomy cavity, following the standard of care procedure,” she said. “These results also demonstrate clinical benefit that improves the current standard of care. This is the first and only imaging system that provides results in the lumpectomy cavity in real time, allowing surgeons to use this information at the time of the initial procedure.”

Is the Technology Safe?

Pegulicianine is an imaging agent that contains a fluorescent dye. The agent is given to patients as a 3-minute intravenous infusion 2 to 6 hours before surgery.

After removal of the main tumor specimen, the surgeon inserts a handheld probe into the breast cavity and in combination with the detection software, searches for residual cancer that may have been left behind, Dr. Ferrer explained during the MIDAC meeting.

If the software identifies areas suspicious for residual cancer, those areas display in red on an overhead screen. The surgeon then takes a targeted shave to resect the suspicious tissue. Once the tissue has been removed, the surgeon can rescan the cavity with the probe to ensure a more complete resection has been performed. Use of the LUM system typically takes surgeons less than 7 minutes to use, Dr. Ferrer said.

In the study, a total of 406 patients received the intravenous pegulicianine, but 14 patients were withdrawn before randomization. After a standard lumpectomy procedure, 357 patients were assigned to the pFGS group and 35 patients to the control group.

Of the 406 patients, pegulicianine administration was stopped for adverse events in 6 patients (1.5%). Two patients had grade 3 serious adverse events related to pegulicianine; one had hypersensitivity, and one had an anaphylactic reaction. The other four pegulicianine-related adverse events included allergic reaction, milder hypersensitivity, nausea, and pegulicianine extravasation.

Dr. Schnabel said these reactions are worrisome. While any effort to reduce the need for patients to have more than one surgery to complete a breast conserving approach would be a “real advance,” Dr. Schnabel said she would not feel comfortable using pFGS in her own practice if approved by the FDA as is.

“This is clearly a major issue in terms of incorporating this technique into practice,” she said. “I could go on, but in light of the above, I’m surprised that [the committee] is supportive. I would hope for some refinement of the technique to reduce the risks to patients and improve the results before I’d consider utilizing this approach.”

During the MIDAC meeting, Dr. Ferrer said the company takes the safety events seriously and has developed mitigation strategies to further reduce the risk of patient hypersensitivity. These strategies include: clear labeling that informs users of anaphylaxis risk, incorporating a new section into the device training program to address warnings and precautions, an enhanced pharmacovigilance program to closely track and report hypersensitivity events, and a postmarket study to access the incidence rate and risk of such events in a broader population.

Several MIDAC members raised questions about the adverse reactions observed and about the safety of the technology.

David B. Hackney, MD, a neuroradiologist at Beth Israel Deaconess Medical Center in Boston, questioned the recommendation that patients only be monitored for 15 minutes after the injection.

“Since you don’t have enough data to know how long after injection reactions could occur, why not keep them under monitoring until after the surgery is over?” he said.

Barbara Smith, MD, PhD, lead investigator of the study, explained that per the protocol, there would be frequent monitoring, with a nurse at bedside, and patients would be monitored after injection, on their way to the procedure, and afterward.

She suggested, during the meeting, that more intense monitoring early in the process would be beneficial as that is when investigators observed side effects believed to be attributed to LUMISIGHT.

MIDAC member Kimberly E. Applegate, MD, a retired radiology professor, asked about the learning curve for surgeons and how long it generally takes for physicians to become familiar with the system.

Coinvestigator Kelly Hunt, MD, explained that all surgeons who participated in the trial completed a training program.

“Certainly, there’s a learning curve anytime we introduce new technology in the operating room,” she said. “Surgeons said it usually takes about three procedures before they’re comfortable with the system, including the camera and the software.”

During a presentation period by FDA officials, Anil Rajpal, MD, MPH, FDA, Deputy Division Director for Safety, said it’s important that prescribing information for LUMISIGHT communicate the risk of anaphylaxis and other hypersensitivity reactions, the need to monitor patients, and the need for the appropriate available personnel, medications, and equipment.

“This would be done by warnings and precautions and a boxed warning,” he said. “Note, that [such warnings] would only communicate the risks, it would not further characterize the risk.”
 

Committee Expresses Support

During a subsequent vote among committee members, most expressed support for the technology and its benefits. Sixteen members voted in support, one abstained, and two voted against the benefit-risk profile.

Andrea Richardson, MD, PhD, professor of pathology at Johns Hopkins in Baltimore, said she voted yes because the incremental benefits of avoiding additional surgeries outweigh the small risk of anaphylaxis.

Henry Royal, MD, MIDAC chair and professor of radiology at Washington University School of Medicine in St. Louis, agreed.

“Even though the benefit of this is on average, quite small, the benefit to the woman who has positive margins that’s converted to negative margins because of use of [LUMISIGHT] is really quite great,” he said. “The risk from this procedure is certainly very manageable.”

Harold J. Burstein, MD, PhD, a professor of medicine at Harvard Medical School and oncologist at Dana-Farber Cancer Institute in Boston, voted against the benefit-risk profile. He said the technology merits more research and that he does not believe it was proven the technology reduces the risk of reoperation.

“I think it’s a great technology,” he said. “I would like to see a well-conducted, randomized, phase III study with the endpoint of reoperation,” he said. “That would really prove the usefulness and benefit of the intervention in my mind.”

Chengjie Xiong, PhD, professor of biostatistics at Washington University School of Medicine in St. Louis, chose to abstain from voting because he said there was not enough data.

The FDA will now complete its review of Lumicell’s new drug application for LUMISIGHT and review of its premarket approval application for Lumicell DVS. The FDA review team has 6-10 months to make a decision. As part of the process, the FDA will evaluate clinical data, travel to clinical study sites to conduct inspections, and assemble a final action package for a senior FDA official to make a final decision.

If deemed safe and effective, the FDA will then work with Lumicell on developing and refining prescribing information.

Dr. Ferrer said his team expects to receive FDA approval in the coming weeks and will continue to work collaboratively with the FDA to expedite approval where possible.

The purpose of the MIDAC is to review and evaluate data about the safety and effectiveness of marketed and investigational human drug products for use in diagnostic and therapeutic procedures using radioactive pharmaceuticals and make appropriate recommendations to the FDA Commissioner.

“Exercise is medicine” has become something of a mantra, with good reason. There’s no doubt that regular physical activity has a broad range of health benefits. Exercise can improve circulation, help control weight, reduce stress, and boost mood — take your pick.

Lower cancer risk is also on the list — with exercise promoted as a risk-cutting strategy in government guidelines and in recommendations from professional groups such as the American Cancer Society.

Despite confidently worded recommendations, the relationship between exercise and cancer risk is much less certain than the guidelines would suggest. The bulk of the data hangs on less rigorous, observational studies that have linked physical activity to lower risks for certain cancers, but plenty of questions remain.

What are the cancer types where exercise makes a difference? How significant is that impact? And what, exactly, defines a physical activity pattern powerful enough to move the needle on cancer risk?

Here’s an overview of the state of the evidence.

Exercise and Cancer Types: A Mixed Bag

When it comes to cancer prevention strategies, guidelines uniformly endorse less couch time and more movement. But a deeper look at the science reveals a complex and often poorly understood connection between exercise and cancer risk.

For certain cancer types, the benefits of exercise on cancer risk seem fairly well established.

The latest edition of the Physical Activity Guidelines for Americans, published in 2018, cites “strong evidence” that regular exercise might curb the risks for breast and colon cancers as well as bladder, endometrial, esophageal, kidney, and gastric cancers. These guidelines also point to “moderate”-strength evidence of a protective association with lung cancer.

The evidence of a protective effect, however, is strongest for breast and colon cancers, said Jennifer Ligibel, MD, senior physician in the Breast Oncology Center at Dana-Farber Cancer Institute, Boston, . “But,” she pointed out, “that may be because they’re some of the most common cancers, and it’s been easier to detect an association.”

Guidelines from the American Cancer Society, published in 2020, align with the 2018 recommendations. 

“We believe there’s strong evidence to suggest at least eight different types of cancer are associated with physical activity,” said Erika Rees-Punia, PhD, MPH, senior principal scientist, epidemiology and behavioral research at the American Cancer Society.

That view is not universal, however. Current recommendations from the World Cancer Research Fund and American Institute for Cancer Research, for example, are more circumspect, citing only three cancers with good evidence of a protective effect from exercise: Breast (postmenopausal), colon, and endometrial.

“We definitely can’t say exercise reduces the risk of all cancers,” said Lee Jones, PhD, head of the Exercise Oncology Program at Memorial Sloan Kettering Cancer Center in New York City. “The data suggest it’s just not that simple.”

And it’s challenging to put all the evidence together, Dr. Jones added.

The physical activity guidelines are based on published systematic reviews, meta-analyses, and pooled analyses of data from observational studies that examined the relationship between physical activity — aerobic exercise, specifically — and cancer incidence. That means the evidence comes with all the limitations observational studies entail, such as how they collect information on participants’ exercise habits — which, Dr. Jones noted, is typically done via “monster questionnaires” that gauge physical activity in broad strokes.

Pooling all those findings into a meta-analysis is tricky, Dr. Jones added, because individual studies vary in important ways — from follow-up periods to how they quantify exercise and track cancer incidence.

In a study published in February in Cancer Cell, Dr. Jones and his colleagues attempted to address some of those issues by leveraging data from the PLCO screening trial.

The PLCO was a prospective study of over 60,000 US adults that compared the effects of annual screening vs usual care on cancer mortality. At enrollment, participants completed questionnaires that included an assessment of “vigorous” exercise. Based on that, Dr. Jones and his colleagues classified 55% as “exercisers” — meaning they reported 2 or more hours of vigorous exercise per week. The remaining 45%, who were in the 0 to 1 hour per week range, were deemed non-exercisers.

Over a median of 18 years, nearly 16,000 first-time invasive cancers were diagnosed, and some interesting differences between exercisers and non-exercisers emerged. The active group had lower risks for three cancers: Head and neck, with a 26% lower risk (hazard ratio [HR], 0.74), lung (a 20% lower risk), and breast (an 11% lower risk).

What was striking, however, was the lack of connection between exercise and many cancers cited in the guidelines, including colon, gastric, bladder, endometrial, and renal cancers.

Perhaps even more surprising — exercisers had higher risks for prostate cancer (12%) and melanoma (20%). This finding, Dr. Jones said, is in line with a previous pooled analysis of data from 12 US and European prospective cohorts. In this study, the most physically active participants (90th percentile) had higher risks for melanoma and prostate cancer, compared with the least active group (10th percentile).

The melanoma findings do make sense, Dr. Jones said, given that highly active people may spend a lot of time in the sun. “My advice,” Dr. Jones said, “is, if you’re exercising outside, wear sunscreen.” The prostate cancer findings, however, are more puzzling and warrant further research, he noted.

But the bottom line is that the relationship between exercise and cancer types is mixed and far from nailed down.

How Big Is the Effect?

Even if exercise reduces the risk for only certain cancers, that’s still important, particularly when those links appear strongest for common cancer types, such as breast and colon.

But how much of a difference can exercise make?

Based on the evidence, it may only be a modest one. A 2019 systematic review by the Physical Activity Guidelines Advisory Committee provided a rough estimate: Across hundreds of epidemiological studies, people with the highest physical activity levels had a 10%-20% lower risk for the cancers cited in the 2018 exercise guidelines compared with people who were least active.

These figures, however, are probably an underestimate, said Anne McTiernan, MD, PhD, a member of the advisory committee and professor of epidemiology, at Fred Hutchinson Cancer Center, Seattle.

“This is what we usually see when a factor is not measured very well,” said Dr. McTiernan, explaining that the individual studies differed in their categories of “highest” and “lowest” physical activity, such that one study’s “highest” could be another’s mid-range.

“In other words, the effects of physical activity are likely larger” than the review found, Dr. McTiernan said.

The next logical question is whether a bigger exercise “dose” — more time or higher intensity — would have a greater impact on cancer risk. A 2019 study published in the Journal of Clinical Oncology tried to clarify that by pooling data on over 750,000 participants from nine prospective cohorts.

Overall, people meeting government recommendations for exercise — equivalent to about 2.5-5 hours of weekly moderate activity, such as a brisk walk, or about 1.25-2.5 hours of more vigorous activities, like running — had lower risks for seven of 15 cancer types studied compared with less active people.

For cancers with positive findings, being on the higher end of the recommended 2.5- to 5-hour weekly range was better. Risk reductions for breast cancer, for instance, were 6% at 2.5 hours of physical activity per week and 10% at 5 hours per week. Similar trends emerged for other cancer types, including colon (8%-14%), endometrial (10%-18%), liver cancer (18%-27%), and non-Hodgkin lymphoma in women (11%-18%).

But there may be an exercise sweet spot that maximizes the cancer risk benefit.

Among people who surpassed the recommendations — exercising for more time or more intensely — the risk reduction benefit did not necessarily improve in a linear fashion. For certain cancer types, such as colon and endometrial, the benefits of more vigorous exercise “eroded at higher levels of activity,” the authors said.

The issue here is that most studies have not dug deeply into aerobic exercise habits. Often, studies present participants with a list of activities — walking, biking, and running — and ask them to estimate how often and for what duration they do each.

Plus, “we’ve usually lumped moderate and vigorous activities together,” Dr. Rees-Punia said, which means there’s a lack of “granular data” to say whether certain intensities or frequencies of exercise are optimal and for whom.

Why Exercise May Lower Cancer Risk

Exercise habits do not, of course, exist in a vacuum. Highly active people, Dr. Ligibel said, tend to be of higher socioeconomic status, leaner, and have generally healthier lifestyles than sedentary people.

Body weight is a big confounder as well. However, Dr. Rees-Punia noted, it’s also probably a reason that exercise is linked to lower cancer risks, particularly by preventing weight gain. Still, studies have found that the association between exercise and many cancers remains significant after adjusting for body mass index.

The why remains unclear, though some studies offer clues.

“There’s been some really interesting mechanistic research, suggesting that exercise may help inhibit tumor growth or upregulate the immune system,” Dr. Ligibel said.

That includes not only lab research but small intervention studies. While these studies have largely involved people who already have cancer, some have also focused on healthy individuals.

A 2019 study from Dr. Ligibel and her colleagues, which randomly assigned 49 women newly diagnosed with breast cancer to start either an exercise program or mind-body practices ahead of surgery, found exercisers, who had been active for about a month at the time of surgery, showed signs of immune system upregulation in their tumors, while the control group did not.

Among healthy postmenopausal women, a meta-analysis of six clinical trials from Dr. McTiernan and her colleagues found that exercise plus calorie reduction can reduce levels of breast cancer-related endogenous hormones, more so than calorie-cutting alone. And a 2023 study found that high-intensity exercise boosted the ranks of certain immune cells and reduced inflammation in the colon among people at high risk for colon and endometrial cancers due to Lynch syndrome.

Defining an Exercise ‘Prescription’

Despite the gaps and uncertainties in the research, government guidelines as well as those from the American Cancer Society and other medical groups are in lockstep in their exercise recommendations: Adults should strive for 150-300 minutes of moderate-intensity aerobic exercise (like brisk walking), 75-150 minutes of vigorous activity (like running), or some combination each week.

The guidelines also encourage strength training twice a week — advice that’s based on research tying those activity levels to lower risks for heart disease, diabetes, and other chronic conditions.

But there’s no “best” exercise prescription for lowering cancer risk specifically. Most epidemiological studies have examined only aerobic activity, Dr. Rees-Punia said, and there’s very little known about whether strength conditioning or other moderate heart rate-elevating activities, such as daily household chores, may reduce the risk for cancer.

Given the lack of nuance in the literature, it’s hard to say what intensities, types, or amounts of exercise are best for each individual.

Going forward, device-based measurements of physical activity could “help us sort out the effects of different intensities of exercise and possibly types,” Dr. Rees-Punia said.

But overall, Dr. McTiernan said, the data do show that the risks for several cancers are lower at the widely recommended activity levels.

“The bottom-line advice is still to exercise at least 150 minutes per week at a moderate-intensity level or greater,” Dr. McTiernan said.

Or put another way, moving beats being sedentary. It’s probably wise for everyone to sit less, noted Dr. Rees-Punia, for overall health and based on evidence tying sedentary time to the risks for certain cancers, including colon, endometrial, and lung.

There’s a practical element to consider in all of this: What physical activities will people actually do on the regular? In the big epidemiological studies, Dr. McTiernan noted, middle-aged and older adults most often report walking, suggesting that’s the preferred, or most accessible activity, for many.

“You can only benefit from the physical activity you’ll actually do,” Dr. Rees-Punia said.

Dr. Ligibel echoed that sentiment, saying she encourages patients to think about physical activity as a process: “You need to find things you like to do and work them into your daily life, in a sustainable way.

“People often talk about exercise being medicine,” Dr. Ligibel said. “But I think you could take that too far. If we get too prescriptive about it, that could take the joy away.”

A version of this article appeared on Medscape.com.

“Exercise is medicine” has become something of a mantra, with good reason. There’s no doubt that regular physical activity has a broad range of health benefits. Exercise can improve circulation, help control weight, reduce stress, and boost mood — take your pick.

Lower cancer risk is also on the list — with exercise promoted as a risk-cutting strategy in government guidelines and in recommendations from professional groups such as the American Cancer Society.

Despite confidently worded recommendations, the relationship between exercise and cancer risk is much less certain than the guidelines would suggest. The bulk of the data hangs on less rigorous, observational studies that have linked physical activity to lower risks for certain cancers, but plenty of questions remain.

What are the cancer types where exercise makes a difference? How significant is that impact? And what, exactly, defines a physical activity pattern powerful enough to move the needle on cancer risk?

Here’s an overview of the state of the evidence.

Exercise and Cancer Types: A Mixed Bag

When it comes to cancer prevention strategies, guidelines uniformly endorse less couch time and more movement. But a deeper look at the science reveals a complex and often poorly understood connection between exercise and cancer risk.

For certain cancer types, the benefits of exercise on cancer risk seem fairly well established.

The latest edition of the Physical Activity Guidelines for Americans, published in 2018, cites “strong evidence” that regular exercise might curb the risks for breast and colon cancers as well as bladder, endometrial, esophageal, kidney, and gastric cancers. These guidelines also point to “moderate”-strength evidence of a protective association with lung cancer.

The evidence of a protective effect, however, is strongest for breast and colon cancers, said Jennifer Ligibel, MD, senior physician in the Breast Oncology Center at Dana-Farber Cancer Institute, Boston, . “But,” she pointed out, “that may be because they’re some of the most common cancers, and it’s been easier to detect an association.”

Guidelines from the American Cancer Society, published in 2020, align with the 2018 recommendations. 

“We believe there’s strong evidence to suggest at least eight different types of cancer are associated with physical activity,” said Erika Rees-Punia, PhD, MPH, senior principal scientist, epidemiology and behavioral research at the American Cancer Society.

That view is not universal, however. Current recommendations from the World Cancer Research Fund and American Institute for Cancer Research, for example, are more circumspect, citing only three cancers with good evidence of a protective effect from exercise: Breast (postmenopausal), colon, and endometrial.

“We definitely can’t say exercise reduces the risk of all cancers,” said Lee Jones, PhD, head of the Exercise Oncology Program at Memorial Sloan Kettering Cancer Center in New York City. “The data suggest it’s just not that simple.”

And it’s challenging to put all the evidence together, Dr. Jones added.

The physical activity guidelines are based on published systematic reviews, meta-analyses, and pooled analyses of data from observational studies that examined the relationship between physical activity — aerobic exercise, specifically — and cancer incidence. That means the evidence comes with all the limitations observational studies entail, such as how they collect information on participants’ exercise habits — which, Dr. Jones noted, is typically done via “monster questionnaires” that gauge physical activity in broad strokes.

Pooling all those findings into a meta-analysis is tricky, Dr. Jones added, because individual studies vary in important ways — from follow-up periods to how they quantify exercise and track cancer incidence.

In a study published in February in Cancer Cell, Dr. Jones and his colleagues attempted to address some of those issues by leveraging data from the PLCO screening trial.

The PLCO was a prospective study of over 60,000 US adults that compared the effects of annual screening vs usual care on cancer mortality. At enrollment, participants completed questionnaires that included an assessment of “vigorous” exercise. Based on that, Dr. Jones and his colleagues classified 55% as “exercisers” — meaning they reported 2 or more hours of vigorous exercise per week. The remaining 45%, who were in the 0 to 1 hour per week range, were deemed non-exercisers.

Over a median of 18 years, nearly 16,000 first-time invasive cancers were diagnosed, and some interesting differences between exercisers and non-exercisers emerged. The active group had lower risks for three cancers: Head and neck, with a 26% lower risk (hazard ratio [HR], 0.74), lung (a 20% lower risk), and breast (an 11% lower risk).

What was striking, however, was the lack of connection between exercise and many cancers cited in the guidelines, including colon, gastric, bladder, endometrial, and renal cancers.

Perhaps even more surprising — exercisers had higher risks for prostate cancer (12%) and melanoma (20%). This finding, Dr. Jones said, is in line with a previous pooled analysis of data from 12 US and European prospective cohorts. In this study, the most physically active participants (90th percentile) had higher risks for melanoma and prostate cancer, compared with the least active group (10th percentile).

The melanoma findings do make sense, Dr. Jones said, given that highly active people may spend a lot of time in the sun. “My advice,” Dr. Jones said, “is, if you’re exercising outside, wear sunscreen.” The prostate cancer findings, however, are more puzzling and warrant further research, he noted.

But the bottom line is that the relationship between exercise and cancer types is mixed and far from nailed down.

How Big Is the Effect?

Even if exercise reduces the risk for only certain cancers, that’s still important, particularly when those links appear strongest for common cancer types, such as breast and colon.

But how much of a difference can exercise make?

Based on the evidence, it may only be a modest one. A 2019 systematic review by the Physical Activity Guidelines Advisory Committee provided a rough estimate: Across hundreds of epidemiological studies, people with the highest physical activity levels had a 10%-20% lower risk for the cancers cited in the 2018 exercise guidelines compared with people who were least active.

These figures, however, are probably an underestimate, said Anne McTiernan, MD, PhD, a member of the advisory committee and professor of epidemiology, at Fred Hutchinson Cancer Center, Seattle.

“This is what we usually see when a factor is not measured very well,” said Dr. McTiernan, explaining that the individual studies differed in their categories of “highest” and “lowest” physical activity, such that one study’s “highest” could be another’s mid-range.

“In other words, the effects of physical activity are likely larger” than the review found, Dr. McTiernan said.

The next logical question is whether a bigger exercise “dose” — more time or higher intensity — would have a greater impact on cancer risk. A 2019 study published in the Journal of Clinical Oncology tried to clarify that by pooling data on over 750,000 participants from nine prospective cohorts.

Overall, people meeting government recommendations for exercise — equivalent to about 2.5-5 hours of weekly moderate activity, such as a brisk walk, or about 1.25-2.5 hours of more vigorous activities, like running — had lower risks for seven of 15 cancer types studied compared with less active people.

For cancers with positive findings, being on the higher end of the recommended 2.5- to 5-hour weekly range was better. Risk reductions for breast cancer, for instance, were 6% at 2.5 hours of physical activity per week and 10% at 5 hours per week. Similar trends emerged for other cancer types, including colon (8%-14%), endometrial (10%-18%), liver cancer (18%-27%), and non-Hodgkin lymphoma in women (11%-18%).

But there may be an exercise sweet spot that maximizes the cancer risk benefit.

Among people who surpassed the recommendations — exercising for more time or more intensely — the risk reduction benefit did not necessarily improve in a linear fashion. For certain cancer types, such as colon and endometrial, the benefits of more vigorous exercise “eroded at higher levels of activity,” the authors said.

The issue here is that most studies have not dug deeply into aerobic exercise habits. Often, studies present participants with a list of activities — walking, biking, and running — and ask them to estimate how often and for what duration they do each.

Plus, “we’ve usually lumped moderate and vigorous activities together,” Dr. Rees-Punia said, which means there’s a lack of “granular data” to say whether certain intensities or frequencies of exercise are optimal and for whom.

Why Exercise May Lower Cancer Risk

Exercise habits do not, of course, exist in a vacuum. Highly active people, Dr. Ligibel said, tend to be of higher socioeconomic status, leaner, and have generally healthier lifestyles than sedentary people.

Body weight is a big confounder as well. However, Dr. Rees-Punia noted, it’s also probably a reason that exercise is linked to lower cancer risks, particularly by preventing weight gain. Still, studies have found that the association between exercise and many cancers remains significant after adjusting for body mass index.

The why remains unclear, though some studies offer clues.

“There’s been some really interesting mechanistic research, suggesting that exercise may help inhibit tumor growth or upregulate the immune system,” Dr. Ligibel said.

That includes not only lab research but small intervention studies. While these studies have largely involved people who already have cancer, some have also focused on healthy individuals.

A 2019 study from Dr. Ligibel and her colleagues, which randomly assigned 49 women newly diagnosed with breast cancer to start either an exercise program or mind-body practices ahead of surgery, found exercisers, who had been active for about a month at the time of surgery, showed signs of immune system upregulation in their tumors, while the control group did not.

Among healthy postmenopausal women, a meta-analysis of six clinical trials from Dr. McTiernan and her colleagues found that exercise plus calorie reduction can reduce levels of breast cancer-related endogenous hormones, more so than calorie-cutting alone. And a 2023 study found that high-intensity exercise boosted the ranks of certain immune cells and reduced inflammation in the colon among people at high risk for colon and endometrial cancers due to Lynch syndrome.

Defining an Exercise ‘Prescription’

Despite the gaps and uncertainties in the research, government guidelines as well as those from the American Cancer Society and other medical groups are in lockstep in their exercise recommendations: Adults should strive for 150-300 minutes of moderate-intensity aerobic exercise (like brisk walking), 75-150 minutes of vigorous activity (like running), or some combination each week.

The guidelines also encourage strength training twice a week — advice that’s based on research tying those activity levels to lower risks for heart disease, diabetes, and other chronic conditions.

But there’s no “best” exercise prescription for lowering cancer risk specifically. Most epidemiological studies have examined only aerobic activity, Dr. Rees-Punia said, and there’s very little known about whether strength conditioning or other moderate heart rate-elevating activities, such as daily household chores, may reduce the risk for cancer.

Given the lack of nuance in the literature, it’s hard to say what intensities, types, or amounts of exercise are best for each individual.

Going forward, device-based measurements of physical activity could “help us sort out the effects of different intensities of exercise and possibly types,” Dr. Rees-Punia said.

But overall, Dr. McTiernan said, the data do show that the risks for several cancers are lower at the widely recommended activity levels.

“The bottom-line advice is still to exercise at least 150 minutes per week at a moderate-intensity level or greater,” Dr. McTiernan said.

Or put another way, moving beats being sedentary. It’s probably wise for everyone to sit less, noted Dr. Rees-Punia, for overall health and based on evidence tying sedentary time to the risks for certain cancers, including colon, endometrial, and lung.

There’s a practical element to consider in all of this: What physical activities will people actually do on the regular? In the big epidemiological studies, Dr. McTiernan noted, middle-aged and older adults most often report walking, suggesting that’s the preferred, or most accessible activity, for many.

“You can only benefit from the physical activity you’ll actually do,” Dr. Rees-Punia said.

Dr. Ligibel echoed that sentiment, saying she encourages patients to think about physical activity as a process: “You need to find things you like to do and work them into your daily life, in a sustainable way.

“People often talk about exercise being medicine,” Dr. Ligibel said. “But I think you could take that too far. If we get too prescriptive about it, that could take the joy away.”

A version of this article appeared on Medscape.com.

“Exercise is medicine” has become something of a mantra, with good reason. There’s no doubt that regular physical activity has a broad range of health benefits. Exercise can improve circulation, help control weight, reduce stress, and boost mood — take your pick.

Lower cancer risk is also on the list — with exercise promoted as a risk-cutting strategy in government guidelines and in recommendations from professional groups such as the American Cancer Society.

Despite confidently worded recommendations, the relationship between exercise and cancer risk is much less certain than the guidelines would suggest. The bulk of the data hangs on less rigorous, observational studies that have linked physical activity to lower risks for certain cancers, but plenty of questions remain.

What are the cancer types where exercise makes a difference? How significant is that impact? And what, exactly, defines a physical activity pattern powerful enough to move the needle on cancer risk?

Here’s an overview of the state of the evidence.

Exercise and Cancer Types: A Mixed Bag

When it comes to cancer prevention strategies, guidelines uniformly endorse less couch time and more movement. But a deeper look at the science reveals a complex and often poorly understood connection between exercise and cancer risk.

For certain cancer types, the benefits of exercise on cancer risk seem fairly well established.

The latest edition of the Physical Activity Guidelines for Americans, published in 2018, cites “strong evidence” that regular exercise might curb the risks for breast and colon cancers as well as bladder, endometrial, esophageal, kidney, and gastric cancers. These guidelines also point to “moderate”-strength evidence of a protective association with lung cancer.

The evidence of a protective effect, however, is strongest for breast and colon cancers, said Jennifer Ligibel, MD, senior physician in the Breast Oncology Center at Dana-Farber Cancer Institute, Boston, . “But,” she pointed out, “that may be because they’re some of the most common cancers, and it’s been easier to detect an association.”

Guidelines from the American Cancer Society, published in 2020, align with the 2018 recommendations. 

“We believe there’s strong evidence to suggest at least eight different types of cancer are associated with physical activity,” said Erika Rees-Punia, PhD, MPH, senior principal scientist, epidemiology and behavioral research at the American Cancer Society.

That view is not universal, however. Current recommendations from the World Cancer Research Fund and American Institute for Cancer Research, for example, are more circumspect, citing only three cancers with good evidence of a protective effect from exercise: Breast (postmenopausal), colon, and endometrial.

“We definitely can’t say exercise reduces the risk of all cancers,” said Lee Jones, PhD, head of the Exercise Oncology Program at Memorial Sloan Kettering Cancer Center in New York City. “The data suggest it’s just not that simple.”

And it’s challenging to put all the evidence together, Dr. Jones added.

The physical activity guidelines are based on published systematic reviews, meta-analyses, and pooled analyses of data from observational studies that examined the relationship between physical activity — aerobic exercise, specifically — and cancer incidence. That means the evidence comes with all the limitations observational studies entail, such as how they collect information on participants’ exercise habits — which, Dr. Jones noted, is typically done via “monster questionnaires” that gauge physical activity in broad strokes.

Pooling all those findings into a meta-analysis is tricky, Dr. Jones added, because individual studies vary in important ways — from follow-up periods to how they quantify exercise and track cancer incidence.

In a study published in February in Cancer Cell, Dr. Jones and his colleagues attempted to address some of those issues by leveraging data from the PLCO screening trial.

The PLCO was a prospective study of over 60,000 US adults that compared the effects of annual screening vs usual care on cancer mortality. At enrollment, participants completed questionnaires that included an assessment of “vigorous” exercise. Based on that, Dr. Jones and his colleagues classified 55% as “exercisers” — meaning they reported 2 or more hours of vigorous exercise per week. The remaining 45%, who were in the 0 to 1 hour per week range, were deemed non-exercisers.

Over a median of 18 years, nearly 16,000 first-time invasive cancers were diagnosed, and some interesting differences between exercisers and non-exercisers emerged. The active group had lower risks for three cancers: Head and neck, with a 26% lower risk (hazard ratio [HR], 0.74), lung (a 20% lower risk), and breast (an 11% lower risk).

What was striking, however, was the lack of connection between exercise and many cancers cited in the guidelines, including colon, gastric, bladder, endometrial, and renal cancers.

Perhaps even more surprising — exercisers had higher risks for prostate cancer (12%) and melanoma (20%). This finding, Dr. Jones said, is in line with a previous pooled analysis of data from 12 US and European prospective cohorts. In this study, the most physically active participants (90th percentile) had higher risks for melanoma and prostate cancer, compared with the least active group (10th percentile).

The melanoma findings do make sense, Dr. Jones said, given that highly active people may spend a lot of time in the sun. “My advice,” Dr. Jones said, “is, if you’re exercising outside, wear sunscreen.” The prostate cancer findings, however, are more puzzling and warrant further research, he noted.

But the bottom line is that the relationship between exercise and cancer types is mixed and far from nailed down.

How Big Is the Effect?

Even if exercise reduces the risk for only certain cancers, that’s still important, particularly when those links appear strongest for common cancer types, such as breast and colon.

But how much of a difference can exercise make?

Based on the evidence, it may only be a modest one. A 2019 systematic review by the Physical Activity Guidelines Advisory Committee provided a rough estimate: Across hundreds of epidemiological studies, people with the highest physical activity levels had a 10%-20% lower risk for the cancers cited in the 2018 exercise guidelines compared with people who were least active.

These figures, however, are probably an underestimate, said Anne McTiernan, MD, PhD, a member of the advisory committee and professor of epidemiology, at Fred Hutchinson Cancer Center, Seattle.

“This is what we usually see when a factor is not measured very well,” said Dr. McTiernan, explaining that the individual studies differed in their categories of “highest” and “lowest” physical activity, such that one study’s “highest” could be another’s mid-range.

“In other words, the effects of physical activity are likely larger” than the review found, Dr. McTiernan said.

The next logical question is whether a bigger exercise “dose” — more time or higher intensity — would have a greater impact on cancer risk. A 2019 study published in the Journal of Clinical Oncology tried to clarify that by pooling data on over 750,000 participants from nine prospective cohorts.

Overall, people meeting government recommendations for exercise — equivalent to about 2.5-5 hours of weekly moderate activity, such as a brisk walk, or about 1.25-2.5 hours of more vigorous activities, like running — had lower risks for seven of 15 cancer types studied compared with less active people.

For cancers with positive findings, being on the higher end of the recommended 2.5- to 5-hour weekly range was better. Risk reductions for breast cancer, for instance, were 6% at 2.5 hours of physical activity per week and 10% at 5 hours per week. Similar trends emerged for other cancer types, including colon (8%-14%), endometrial (10%-18%), liver cancer (18%-27%), and non-Hodgkin lymphoma in women (11%-18%).

But there may be an exercise sweet spot that maximizes the cancer risk benefit.

Among people who surpassed the recommendations — exercising for more time or more intensely — the risk reduction benefit did not necessarily improve in a linear fashion. For certain cancer types, such as colon and endometrial, the benefits of more vigorous exercise “eroded at higher levels of activity,” the authors said.

The issue here is that most studies have not dug deeply into aerobic exercise habits. Often, studies present participants with a list of activities — walking, biking, and running — and ask them to estimate how often and for what duration they do each.

Plus, “we’ve usually lumped moderate and vigorous activities together,” Dr. Rees-Punia said, which means there’s a lack of “granular data” to say whether certain intensities or frequencies of exercise are optimal and for whom.

Why Exercise May Lower Cancer Risk

Exercise habits do not, of course, exist in a vacuum. Highly active people, Dr. Ligibel said, tend to be of higher socioeconomic status, leaner, and have generally healthier lifestyles than sedentary people.

Body weight is a big confounder as well. However, Dr. Rees-Punia noted, it’s also probably a reason that exercise is linked to lower cancer risks, particularly by preventing weight gain. Still, studies have found that the association between exercise and many cancers remains significant after adjusting for body mass index.

The why remains unclear, though some studies offer clues.

“There’s been some really interesting mechanistic research, suggesting that exercise may help inhibit tumor growth or upregulate the immune system,” Dr. Ligibel said.

That includes not only lab research but small intervention studies. While these studies have largely involved people who already have cancer, some have also focused on healthy individuals.

A 2019 study from Dr. Ligibel and her colleagues, which randomly assigned 49 women newly diagnosed with breast cancer to start either an exercise program or mind-body practices ahead of surgery, found exercisers, who had been active for about a month at the time of surgery, showed signs of immune system upregulation in their tumors, while the control group did not.

Among healthy postmenopausal women, a meta-analysis of six clinical trials from Dr. McTiernan and her colleagues found that exercise plus calorie reduction can reduce levels of breast cancer-related endogenous hormones, more so than calorie-cutting alone. And a 2023 study found that high-intensity exercise boosted the ranks of certain immune cells and reduced inflammation in the colon among people at high risk for colon and endometrial cancers due to Lynch syndrome.

Defining an Exercise ‘Prescription’

Despite the gaps and uncertainties in the research, government guidelines as well as those from the American Cancer Society and other medical groups are in lockstep in their exercise recommendations: Adults should strive for 150-300 minutes of moderate-intensity aerobic exercise (like brisk walking), 75-150 minutes of vigorous activity (like running), or some combination each week.

The guidelines also encourage strength training twice a week — advice that’s based on research tying those activity levels to lower risks for heart disease, diabetes, and other chronic conditions.

But there’s no “best” exercise prescription for lowering cancer risk specifically. Most epidemiological studies have examined only aerobic activity, Dr. Rees-Punia said, and there’s very little known about whether strength conditioning or other moderate heart rate-elevating activities, such as daily household chores, may reduce the risk for cancer.

Given the lack of nuance in the literature, it’s hard to say what intensities, types, or amounts of exercise are best for each individual.

Going forward, device-based measurements of physical activity could “help us sort out the effects of different intensities of exercise and possibly types,” Dr. Rees-Punia said.

But overall, Dr. McTiernan said, the data do show that the risks for several cancers are lower at the widely recommended activity levels.

“The bottom-line advice is still to exercise at least 150 minutes per week at a moderate-intensity level or greater,” Dr. McTiernan said.

Or put another way, moving beats being sedentary. It’s probably wise for everyone to sit less, noted Dr. Rees-Punia, for overall health and based on evidence tying sedentary time to the risks for certain cancers, including colon, endometrial, and lung.

There’s a practical element to consider in all of this: What physical activities will people actually do on the regular? In the big epidemiological studies, Dr. McTiernan noted, middle-aged and older adults most often report walking, suggesting that’s the preferred, or most accessible activity, for many.

“You can only benefit from the physical activity you’ll actually do,” Dr. Rees-Punia said.

Dr. Ligibel echoed that sentiment, saying she encourages patients to think about physical activity as a process: “You need to find things you like to do and work them into your daily life, in a sustainable way.

“People often talk about exercise being medicine,” Dr. Ligibel said. “But I think you could take that too far. If we get too prescriptive about it, that could take the joy away.”

A version of this article appeared on Medscape.com.

The US Food and Drug Administration has approved nivolumab (Opdivo, Bristol-Myers Squibb) in combination with cisplatin and gemcitabine for first-line treatment of adults with unresectable or metastatic urothelial carcinoma.

Approval was based on the CHECKMATE-901 trial in 608 patients randomized equally to either cisplatin and gemcitabine for ≤ six cycles or nivolumab plus cisplatin and gemcitabine for ≤ six cycles, followed by nivolumab alone for ≤ 2 years. 

Median overall survival was 21.7 months with nivolumab add-on vs 18.9 months with cisplatin/gemcitabine alone (hazard ratio [HR], 0.78; P = .0171). The nivolumab group had a slightly higher median progression-free survival of 7.9 months vs 7.6 months in the cisplatin and gemcitabine group (HR, 0.72; P = .0012).

The most common adverse events, occurring in ≥ 15% of nivolumab patients, were nausea, fatigue, musculoskeletal pain, constipation, decreased appetite, rash, vomiting, peripheral neuropathy, urinary tract infection, diarrhea, edema, hypothyroidism, and pruritus.

Among numerous other oncology indications, nivolumab was previously approved for adjuvant treatment following urothelial carcinoma resection and for locally advanced or metastatic urothelial carcinoma that progresses during or following platinum-containing chemotherapy.
 

A version of this article appeared on Medscape.com .

The US Food and Drug Administration has approved nivolumab (Opdivo, Bristol-Myers Squibb) in combination with cisplatin and gemcitabine for first-line treatment of adults with unresectable or metastatic urothelial carcinoma.

Approval was based on the CHECKMATE-901 trial in 608 patients randomized equally to either cisplatin and gemcitabine for ≤ six cycles or nivolumab plus cisplatin and gemcitabine for ≤ six cycles, followed by nivolumab alone for ≤ 2 years. 

Median overall survival was 21.7 months with nivolumab add-on vs 18.9 months with cisplatin/gemcitabine alone (hazard ratio [HR], 0.78; P = .0171). The nivolumab group had a slightly higher median progression-free survival of 7.9 months vs 7.6 months in the cisplatin and gemcitabine group (HR, 0.72; P = .0012).

The most common adverse events, occurring in ≥ 15% of nivolumab patients, were nausea, fatigue, musculoskeletal pain, constipation, decreased appetite, rash, vomiting, peripheral neuropathy, urinary tract infection, diarrhea, edema, hypothyroidism, and pruritus.

Among numerous other oncology indications, nivolumab was previously approved for adjuvant treatment following urothelial carcinoma resection and for locally advanced or metastatic urothelial carcinoma that progresses during or following platinum-containing chemotherapy.
 

A version of this article appeared on Medscape.com .

The US Food and Drug Administration has approved nivolumab (Opdivo, Bristol-Myers Squibb) in combination with cisplatin and gemcitabine for first-line treatment of adults with unresectable or metastatic urothelial carcinoma.

Approval was based on the CHECKMATE-901 trial in 608 patients randomized equally to either cisplatin and gemcitabine for ≤ six cycles or nivolumab plus cisplatin and gemcitabine for ≤ six cycles, followed by nivolumab alone for ≤ 2 years. 

Median overall survival was 21.7 months with nivolumab add-on vs 18.9 months with cisplatin/gemcitabine alone (hazard ratio [HR], 0.78; P = .0171). The nivolumab group had a slightly higher median progression-free survival of 7.9 months vs 7.6 months in the cisplatin and gemcitabine group (HR, 0.72; P = .0012).

The most common adverse events, occurring in ≥ 15% of nivolumab patients, were nausea, fatigue, musculoskeletal pain, constipation, decreased appetite, rash, vomiting, peripheral neuropathy, urinary tract infection, diarrhea, edema, hypothyroidism, and pruritus.

Among numerous other oncology indications, nivolumab was previously approved for adjuvant treatment following urothelial carcinoma resection and for locally advanced or metastatic urothelial carcinoma that progresses during or following platinum-containing chemotherapy.
 

A version of this article appeared on Medscape.com .

Clinicians are navigating how to begin treating their patients with lifileucel (Amtagvi, Iovance Biotherapeutics Inc.), a new treatment for melanoma with a hefty price tag.

The US Food and Drug Administration (FDA) recently approved the tumor-infiltrating lymphocyte cell therapy (TIL) for use in certain adults with unresectable or metastatic melanoma. This marks the first time the FDA has allowed a cellular therapy to be marketed for a solid tumor cancer.

Lifileucel is made from a patient’s surgically removed tumor. Tissue from that tumor is then sent to a manufacturing center. Turnaround time to when the drug is ready to be sent back to the cancer center for use is approximately 34 days, according to the drug’s manufacturer, Iovance.
 

Insurance Adjustments

The cost of the one-time lifileucel treatment is $515,000, according to the manufacturer.

Two investigators in the clinical trials of lifileucel, Allison Betof Warner, MD, of Stanford University, Stanford, California, and Igor Puzanov, MD, of Roswell Park Comprehensive Cancer Center, Buffalo, New York, shared their expectations regarding factors that would contribute to how much a patient paid for the drug.

Given the drug’s recent approval, the logistical details are still being worked out between cancer centers and insurers regarding how much patients will pay out of pocket for lifileucel, said Dr. Betof Warner, who is assistant professor in the Department of Medicine, Division of Medical Oncology at Stanford University.

The associated costs, including the surgery that is needed to procure the TIL cells for expansion into the final drug product, will be different for each patient, she told this publication.

Patients’ costs for lifileucel will vary based on their insurance, explained Dr. Puzanov, chief of melanoma and professor of oncology at Roswell Park Comprehensive Cancer Center.

At Roswell Park, “we will work with our regionally-based payers on a case-by-case basis to seek approval for those patients we believe can most benefit from lifileucel,” he said in an interview. Preauthorization will be required, as is standard for many cancer treatments, he added.

Once payer approval is in place, Dr. Puzanov said, he did not anticipate significant delays in access for patients.

Certified centers such as the multidisciplinary team at Roswell Park are ready to treat patients now. Other centers are similarly prepared, especially those involved in the clinical trials of lifileucel, he said.

 

Logistics and Infrastructure

A position article and guidelines on the management of and best practices for TIL was published in the Journal for ImmunoTherapy of Cancer on February 29. The paper, of which both Dr. Betof Warner and Dr. Puzanov served as authors, noted that one of the barriers to the use of TIL cell therapy in clinical practice is the need for state-of-the art infrastructure at centers that want to offer the treatment. Scheduling, patient referrals, and surgery, as well as the production and infusion of TIL, must be organized and streamlined for successful treatment, the authors wrote.

The two supply chains involved in TIL — the transportation of the tumor tissue from the treatment center to the manufacturer and transport of the TIL infusion product back to the treatment center — must be timely and precise, they emphasized.
 

Docs Hope TIL Improves in Several Ways

Although the TIL technology is a breakthrough, “we hope to see even better efficacy and lower toxicity as further research looks at ways to improve on the current TIL standard,” Dr. Puzanov said.

More research and dose adjustments may impact patient costs and side effects, he noted. “I am looking to see TILs used in the front line, with or without checkpoint inhibitors.”

Research is needed to explore how to lower the chemotherapy doses and possibly the associated toxicity, he added. Finally, researchers must consider whether high-dose IL-2 therapy — given as part of the TIL cell therapy — could be replaced with other cytokines, or whether the number of doses could be lowered. Another avenue of exploration is engineering genes for cytokines into TILs, he said.

“The key is to think about TIL therapy before you need it — ideally, when the patient is still doing well on their frontline checkpoint inhibition immunotherapy,” Dr. Puzanov said in an interview. That is the time for evaluation, and specialty centers can provide an expert assessment, he said.

“We are constantly working to improve TIL therapy,” Dr. Betof Warner told this publication. More research is needed optimize the regimen to reduce side effects, which would not only make treatment easier for currently eligible patients, but might allow treatment for patients not currently eligible.

“For example, we are looking for ways to reduce the dose of preparative chemotherapy, which prepares the body for the cells to maximize their longevity and efficacy, and to reduce or eliminate the need to give IL-2 after the cell administration,” continued Dr. Betof Warner, who is also Director of Melanoma Medical Oncology, Director of Solid Tumor Cellular Therapy, and Codirector of the Pigmented Lesion and Melanoma Program at Stanford University. “We are also actively studying next-generation TIL therapies to try to increase the efficacy.”

“Lifileucel has about a 30% success rate for melanoma that has progressed after standard therapy; we are working hard to do better than that,” she noted.  

In a press release, Iovance summarized the results of the trial that supported the FDA’s accelerated approval of lifileucel. In an open-label single-arm study, including multiple sites worldwide, 73 adults with unresectable or metastatic melanoma who had received at least one previous systemic therapy underwent a lymphodepleting regimen followed by treatments with fludarabine and aldesleukin. Patients then received lifileucel at a median dose of 21.1 x 109 viable cells; the recommended dose ranges from 7.5 x 109 to 72 x 109 cells.

The primary efficacy outcome was objective response rate (ORR). The ORR in the study was 31.5%, and the median time to initial lifileucel response was 1.5 months.

The clinical trials of lifileucel for which Dr. Betof Warner and Dr. Puzanov served as investigators were sponsored by Iovance.

Clinicians are navigating how to begin treating their patients with lifileucel (Amtagvi, Iovance Biotherapeutics Inc.), a new treatment for melanoma with a hefty price tag.

The US Food and Drug Administration (FDA) recently approved the tumor-infiltrating lymphocyte cell therapy (TIL) for use in certain adults with unresectable or metastatic melanoma. This marks the first time the FDA has allowed a cellular therapy to be marketed for a solid tumor cancer.

Lifileucel is made from a patient’s surgically removed tumor. Tissue from that tumor is then sent to a manufacturing center. Turnaround time to when the drug is ready to be sent back to the cancer center for use is approximately 34 days, according to the drug’s manufacturer, Iovance.
 

Insurance Adjustments

The cost of the one-time lifileucel treatment is $515,000, according to the manufacturer.

Two investigators in the clinical trials of lifileucel, Allison Betof Warner, MD, of Stanford University, Stanford, California, and Igor Puzanov, MD, of Roswell Park Comprehensive Cancer Center, Buffalo, New York, shared their expectations regarding factors that would contribute to how much a patient paid for the drug.

Given the drug’s recent approval, the logistical details are still being worked out between cancer centers and insurers regarding how much patients will pay out of pocket for lifileucel, said Dr. Betof Warner, who is assistant professor in the Department of Medicine, Division of Medical Oncology at Stanford University.

The associated costs, including the surgery that is needed to procure the TIL cells for expansion into the final drug product, will be different for each patient, she told this publication.

Patients’ costs for lifileucel will vary based on their insurance, explained Dr. Puzanov, chief of melanoma and professor of oncology at Roswell Park Comprehensive Cancer Center.

At Roswell Park, “we will work with our regionally-based payers on a case-by-case basis to seek approval for those patients we believe can most benefit from lifileucel,” he said in an interview. Preauthorization will be required, as is standard for many cancer treatments, he added.

Once payer approval is in place, Dr. Puzanov said, he did not anticipate significant delays in access for patients.

Certified centers such as the multidisciplinary team at Roswell Park are ready to treat patients now. Other centers are similarly prepared, especially those involved in the clinical trials of lifileucel, he said.

 

Logistics and Infrastructure

A position article and guidelines on the management of and best practices for TIL was published in the Journal for ImmunoTherapy of Cancer on February 29. The paper, of which both Dr. Betof Warner and Dr. Puzanov served as authors, noted that one of the barriers to the use of TIL cell therapy in clinical practice is the need for state-of-the art infrastructure at centers that want to offer the treatment. Scheduling, patient referrals, and surgery, as well as the production and infusion of TIL, must be organized and streamlined for successful treatment, the authors wrote.

The two supply chains involved in TIL — the transportation of the tumor tissue from the treatment center to the manufacturer and transport of the TIL infusion product back to the treatment center — must be timely and precise, they emphasized.
 

Docs Hope TIL Improves in Several Ways

Although the TIL technology is a breakthrough, “we hope to see even better efficacy and lower toxicity as further research looks at ways to improve on the current TIL standard,” Dr. Puzanov said.

More research and dose adjustments may impact patient costs and side effects, he noted. “I am looking to see TILs used in the front line, with or without checkpoint inhibitors.”

Research is needed to explore how to lower the chemotherapy doses and possibly the associated toxicity, he added. Finally, researchers must consider whether high-dose IL-2 therapy — given as part of the TIL cell therapy — could be replaced with other cytokines, or whether the number of doses could be lowered. Another avenue of exploration is engineering genes for cytokines into TILs, he said.

“The key is to think about TIL therapy before you need it — ideally, when the patient is still doing well on their frontline checkpoint inhibition immunotherapy,” Dr. Puzanov said in an interview. That is the time for evaluation, and specialty centers can provide an expert assessment, he said.

“We are constantly working to improve TIL therapy,” Dr. Betof Warner told this publication. More research is needed optimize the regimen to reduce side effects, which would not only make treatment easier for currently eligible patients, but might allow treatment for patients not currently eligible.

“For example, we are looking for ways to reduce the dose of preparative chemotherapy, which prepares the body for the cells to maximize their longevity and efficacy, and to reduce or eliminate the need to give IL-2 after the cell administration,” continued Dr. Betof Warner, who is also Director of Melanoma Medical Oncology, Director of Solid Tumor Cellular Therapy, and Codirector of the Pigmented Lesion and Melanoma Program at Stanford University. “We are also actively studying next-generation TIL therapies to try to increase the efficacy.”

“Lifileucel has about a 30% success rate for melanoma that has progressed after standard therapy; we are working hard to do better than that,” she noted.  

In a press release, Iovance summarized the results of the trial that supported the FDA’s accelerated approval of lifileucel. In an open-label single-arm study, including multiple sites worldwide, 73 adults with unresectable or metastatic melanoma who had received at least one previous systemic therapy underwent a lymphodepleting regimen followed by treatments with fludarabine and aldesleukin. Patients then received lifileucel at a median dose of 21.1 x 109 viable cells; the recommended dose ranges from 7.5 x 109 to 72 x 109 cells.

The primary efficacy outcome was objective response rate (ORR). The ORR in the study was 31.5%, and the median time to initial lifileucel response was 1.5 months.

The clinical trials of lifileucel for which Dr. Betof Warner and Dr. Puzanov served as investigators were sponsored by Iovance.

Clinicians are navigating how to begin treating their patients with lifileucel (Amtagvi, Iovance Biotherapeutics Inc.), a new treatment for melanoma with a hefty price tag.

The US Food and Drug Administration (FDA) recently approved the tumor-infiltrating lymphocyte cell therapy (TIL) for use in certain adults with unresectable or metastatic melanoma. This marks the first time the FDA has allowed a cellular therapy to be marketed for a solid tumor cancer.

Lifileucel is made from a patient’s surgically removed tumor. Tissue from that tumor is then sent to a manufacturing center. Turnaround time to when the drug is ready to be sent back to the cancer center for use is approximately 34 days, according to the drug’s manufacturer, Iovance.
 

Insurance Adjustments

The cost of the one-time lifileucel treatment is $515,000, according to the manufacturer.

Two investigators in the clinical trials of lifileucel, Allison Betof Warner, MD, of Stanford University, Stanford, California, and Igor Puzanov, MD, of Roswell Park Comprehensive Cancer Center, Buffalo, New York, shared their expectations regarding factors that would contribute to how much a patient paid for the drug.

Given the drug’s recent approval, the logistical details are still being worked out between cancer centers and insurers regarding how much patients will pay out of pocket for lifileucel, said Dr. Betof Warner, who is assistant professor in the Department of Medicine, Division of Medical Oncology at Stanford University.

The associated costs, including the surgery that is needed to procure the TIL cells for expansion into the final drug product, will be different for each patient, she told this publication.

Patients’ costs for lifileucel will vary based on their insurance, explained Dr. Puzanov, chief of melanoma and professor of oncology at Roswell Park Comprehensive Cancer Center.

At Roswell Park, “we will work with our regionally-based payers on a case-by-case basis to seek approval for those patients we believe can most benefit from lifileucel,” he said in an interview. Preauthorization will be required, as is standard for many cancer treatments, he added.

Once payer approval is in place, Dr. Puzanov said, he did not anticipate significant delays in access for patients.

Certified centers such as the multidisciplinary team at Roswell Park are ready to treat patients now. Other centers are similarly prepared, especially those involved in the clinical trials of lifileucel, he said.

 

Logistics and Infrastructure

A position article and guidelines on the management of and best practices for TIL was published in the Journal for ImmunoTherapy of Cancer on February 29. The paper, of which both Dr. Betof Warner and Dr. Puzanov served as authors, noted that one of the barriers to the use of TIL cell therapy in clinical practice is the need for state-of-the art infrastructure at centers that want to offer the treatment. Scheduling, patient referrals, and surgery, as well as the production and infusion of TIL, must be organized and streamlined for successful treatment, the authors wrote.

The two supply chains involved in TIL — the transportation of the tumor tissue from the treatment center to the manufacturer and transport of the TIL infusion product back to the treatment center — must be timely and precise, they emphasized.
 

Docs Hope TIL Improves in Several Ways

Although the TIL technology is a breakthrough, “we hope to see even better efficacy and lower toxicity as further research looks at ways to improve on the current TIL standard,” Dr. Puzanov said.

More research and dose adjustments may impact patient costs and side effects, he noted. “I am looking to see TILs used in the front line, with or without checkpoint inhibitors.”

Research is needed to explore how to lower the chemotherapy doses and possibly the associated toxicity, he added. Finally, researchers must consider whether high-dose IL-2 therapy — given as part of the TIL cell therapy — could be replaced with other cytokines, or whether the number of doses could be lowered. Another avenue of exploration is engineering genes for cytokines into TILs, he said.

“The key is to think about TIL therapy before you need it — ideally, when the patient is still doing well on their frontline checkpoint inhibition immunotherapy,” Dr. Puzanov said in an interview. That is the time for evaluation, and specialty centers can provide an expert assessment, he said.

“We are constantly working to improve TIL therapy,” Dr. Betof Warner told this publication. More research is needed optimize the regimen to reduce side effects, which would not only make treatment easier for currently eligible patients, but might allow treatment for patients not currently eligible.

“For example, we are looking for ways to reduce the dose of preparative chemotherapy, which prepares the body for the cells to maximize their longevity and efficacy, and to reduce or eliminate the need to give IL-2 after the cell administration,” continued Dr. Betof Warner, who is also Director of Melanoma Medical Oncology, Director of Solid Tumor Cellular Therapy, and Codirector of the Pigmented Lesion and Melanoma Program at Stanford University. “We are also actively studying next-generation TIL therapies to try to increase the efficacy.”

“Lifileucel has about a 30% success rate for melanoma that has progressed after standard therapy; we are working hard to do better than that,” she noted.  

In a press release, Iovance summarized the results of the trial that supported the FDA’s accelerated approval of lifileucel. In an open-label single-arm study, including multiple sites worldwide, 73 adults with unresectable or metastatic melanoma who had received at least one previous systemic therapy underwent a lymphodepleting regimen followed by treatments with fludarabine and aldesleukin. Patients then received lifileucel at a median dose of 21.1 x 109 viable cells; the recommended dose ranges from 7.5 x 109 to 72 x 109 cells.

The primary efficacy outcome was objective response rate (ORR). The ORR in the study was 31.5%, and the median time to initial lifileucel response was 1.5 months.

The clinical trials of lifileucel for which Dr. Betof Warner and Dr. Puzanov served as investigators were sponsored by Iovance.

TOPLINE:

Resecting the primary colon tumor before chemotherapy does not improve overall survival compared with chemotherapy alone in patients with metastatic colon cancer not amenable to curative therapy, new data showed.

METHODOLOGY:

• Chemotherapy is the primary treatment in patients with stage IV  (CRC) and unresectable metastases. It’s unclear whether primary tumor resection before chemotherapy prolongs survival.
• Among 393 patients with stage IV colon cancer and unresectable metastases enrolled in the  and  trials, 187 were randomly allocated to undergo primary tumor resection and 206 to upfront chemotherapy.
• The chemotherapy regimen was left up to the treating physician. Overall survival was the primary endpoint. Median follow-up time was 36.7 months.

TAKEAWAY:

• Median overall survival was 16.7 months with primary tumor resection and 18.6 months with upfront chemotherapy (P = .191).
• Comparable overall survival between the study groups was further confirmed on multivariate analysis (hazard ratio, 0.944; P = .65) and across all subgroups.
• Serious adverse events were more common with upfront chemo than surgery (18% vs 10%; P = .027), due mainly to a significantly higher incidence of GI-related events (11% vs 5%; P = .031).
• Overall, 24% of the primary tumor resection group did not receive any chemotherapy.

IN PRACTICE:

“The results of our study provide compelling data that upfront primary tumor resection in treatment-naive stage IV CRC not amenable for curative treatment does not prolong [overall survival]. A relatively low incidence of serious adverse events in patients with an intact primary tumor together with a considerable number of patients who did not receive any chemotherapy in the primary tumor resection group provides further arguments against resection of the primary tumor in this group of patients,” the authors of the combined analysis concluded.

SOURCE:

The study, with first author Nuh N. Rahbari, MD, University of Ulm, Ulm, Germany, was published online in the Journal of Clinical Oncology.

LIMITATIONS:

Neither study completed their planned patient accrual. Although both trials are nearly identical, differences in the individual study cohorts and trial implementation could have introduced bias. Tumor molecular profiling was not performed.

DISCLOSURES:

The study had no commercial funding. Disclosures for authors are available with the original article.

A version of this article appeared on Medscape.com.

TOPLINE:

Resecting the primary colon tumor before chemotherapy does not improve overall survival compared with chemotherapy alone in patients with metastatic colon cancer not amenable to curative therapy, new data showed.

METHODOLOGY:

• Chemotherapy is the primary treatment in patients with stage IV  (CRC) and unresectable metastases. It’s unclear whether primary tumor resection before chemotherapy prolongs survival.
• Among 393 patients with stage IV colon cancer and unresectable metastases enrolled in the  and  trials, 187 were randomly allocated to undergo primary tumor resection and 206 to upfront chemotherapy.
• The chemotherapy regimen was left up to the treating physician. Overall survival was the primary endpoint. Median follow-up time was 36.7 months.

TAKEAWAY:

• Median overall survival was 16.7 months with primary tumor resection and 18.6 months with upfront chemotherapy (P = .191).
• Comparable overall survival between the study groups was further confirmed on multivariate analysis (hazard ratio, 0.944; P = .65) and across all subgroups.
• Serious adverse events were more common with upfront chemo than surgery (18% vs 10%; P = .027), due mainly to a significantly higher incidence of GI-related events (11% vs 5%; P = .031).
• Overall, 24% of the primary tumor resection group did not receive any chemotherapy.

IN PRACTICE:

“The results of our study provide compelling data that upfront primary tumor resection in treatment-naive stage IV CRC not amenable for curative treatment does not prolong [overall survival]. A relatively low incidence of serious adverse events in patients with an intact primary tumor together with a considerable number of patients who did not receive any chemotherapy in the primary tumor resection group provides further arguments against resection of the primary tumor in this group of patients,” the authors of the combined analysis concluded.

SOURCE:

The study, with first author Nuh N. Rahbari, MD, University of Ulm, Ulm, Germany, was published online in the Journal of Clinical Oncology.

LIMITATIONS:

Neither study completed their planned patient accrual. Although both trials are nearly identical, differences in the individual study cohorts and trial implementation could have introduced bias. Tumor molecular profiling was not performed.

DISCLOSURES:

The study had no commercial funding. Disclosures for authors are available with the original article.

A version of this article appeared on Medscape.com.

TOPLINE:

Resecting the primary colon tumor before chemotherapy does not improve overall survival compared with chemotherapy alone in patients with metastatic colon cancer not amenable to curative therapy, new data showed.

METHODOLOGY:

• Chemotherapy is the primary treatment in patients with stage IV  (CRC) and unresectable metastases. It’s unclear whether primary tumor resection before chemotherapy prolongs survival.
• Among 393 patients with stage IV colon cancer and unresectable metastases enrolled in the  and  trials, 187 were randomly allocated to undergo primary tumor resection and 206 to upfront chemotherapy.
• The chemotherapy regimen was left up to the treating physician. Overall survival was the primary endpoint. Median follow-up time was 36.7 months.

TAKEAWAY:

• Median overall survival was 16.7 months with primary tumor resection and 18.6 months with upfront chemotherapy (P = .191).
• Comparable overall survival between the study groups was further confirmed on multivariate analysis (hazard ratio, 0.944; P = .65) and across all subgroups.
• Serious adverse events were more common with upfront chemo than surgery (18% vs 10%; P = .027), due mainly to a significantly higher incidence of GI-related events (11% vs 5%; P = .031).
• Overall, 24% of the primary tumor resection group did not receive any chemotherapy.

IN PRACTICE:

“The results of our study provide compelling data that upfront primary tumor resection in treatment-naive stage IV CRC not amenable for curative treatment does not prolong [overall survival]. A relatively low incidence of serious adverse events in patients with an intact primary tumor together with a considerable number of patients who did not receive any chemotherapy in the primary tumor resection group provides further arguments against resection of the primary tumor in this group of patients,” the authors of the combined analysis concluded.

SOURCE:

The study, with first author Nuh N. Rahbari, MD, University of Ulm, Ulm, Germany, was published online in the Journal of Clinical Oncology.

LIMITATIONS:

Neither study completed their planned patient accrual. Although both trials are nearly identical, differences in the individual study cohorts and trial implementation could have introduced bias. Tumor molecular profiling was not performed.

DISCLOSURES:

The study had no commercial funding. Disclosures for authors are available with the original article.

A version of this article appeared on Medscape.com.

Breast cancer-specific mortality risk in men with hormone receptor–positive breast cancer persists for at least 20 years, but patterns of breast cancer–specific mortality (BCSM) are distinct from those in women, a new study finds.

Previous studies in women with hormone receptor–positive (HR+) breast cancer have shown a risk of distant recurrence and death for at least 20 years after diagnosis, but data for men are limited, wrote Julieta Leone, MD, of the Dana Farber Cancer Institute, Boston, and colleagues.
 

What is Known About Hormone Receptor–Positive Breast Cancer Mortality in Men vs. Women?

Invasive breast cancer in men is rare and consequently understudied, the researchers wrote. Previous studies of BCSM in men with more than 5 years’ follow-up consist mainly of case series at single institutions, the researchers wrote in JAMA Oncology (2024 Feb 29. doi: 10.1001/jamaoncol.2023.7194).

“We believed it would be important to study this issue to help inform the management of men with breast cancer,” corresponding author, José P. Leone, MD, said in an interview.

In 2021, Dr. J.P. Leone and colleagues published a study in Breast Cancer Research and Treatment that examined the 20-year risk of BCSM in women that included more than 36,000 individuals who had survived for 5 years, with a median of 14 years’ follow-up.

In that study of women, the BCSM risk at 20 years was significantly higher for those with HR-negative tumors, but the risk was still elevated for both types. Patients with stage IIIC HR-positive disease had four times the risk of BCSM over 20 years and those with stage IIIC HR-negative disease had seven times the risk of BCSM over 20 years compared with the risk of death not related to breast cancer, the researchers wrote.

Another study of nearly 2,400 men with breast cancer (mainly HR+) by Dr. J.P. Leone and colleagues showed that cancer stage, tumor subtype, and race were associated with overall survival and breast cancer-specific survival.
 

What Does the New Study Add?

The current study included 2,836 men diagnosed with stage I to stage III HR+ breast cancer between 1990 and 2008, using data from the Surveillance, Epidemiology, and End Results (SEER) database.

“We found that in men with breast cancer, the risk of breast cancer mortality persists for at least 20 years and that [the risk] depends on traditional clinicopathologic factors, such as age, tumor size, nodal status and tumor grade,” Dr. J.P. Leone said in an interview.

“The prolonged risk [of breast-cancer specific mortality] over 20 years that we observed in our study is similar to that previously reported in women; however, the kinetics of the risk over the 20-year period appears different in men,” he emphasized.

The men in the study, especially those with a higher stage of disease, appeared to have a bimodal distribution of the BRCA mortality risk, he said.

Two peaks were identified, he explained; an early peak in mortality risk at approximately 4 years from diagnosis and another at approximately 11 years after diagnosis.

Although women with breast cancer had a prolonged risk of breast cancer mortality, “the kinetics of the risk does not include 2 peaks, even in women with higher stage of disease.” In women with higher stage breast cancer, the peak mortality risk occurs approximately 5 years after diagnosis, he said.

The reasons for the later peak in men remain unclear, the researchers wrote in the study, but possible explanations include nonadherence to endocrine therapy, differences in tumor biologic factors, and differences in the tumor microenvironment between men and women, they noted, in the discussion section.
 

What Drives the Risk?

Key factors for breast cancer-specific mortality were age, tumor stage, and tumor grade.

The cumulative 20-year risk of BCSM in the current study was 12.4%, 26.2%, and 46.0% for stage I, II, and III, respectively. The adjusted BCSM risk was increased in patients younger than 50 years, those with grade II or III/IV tumors, and those with stage II or III disease.
 

What Are the Limitations?

The current study by Leone and colleagues was limited by the relatively small subgroup sample of men with stage III and N3 disease, lack of data on the use of systemic therapies, and lack of data on human epidermal growth factor receptor 2 gene (ERBB2), the researchers wrote. However, the long-term follow-up strengthened the results, and the study is the first known to assess 20-year BCSM risk in men with nonmetastatic HR+ breast cancer.

What Do Oncologists Need to Know About the Study?

The study findings indicate that the risk of breast cancer mortality persists for 20 years in men with hormone receptor–positive breast cancer, Dr. J.P. Leone said in an interview. As in women, the risk depends on traditional clinicopathologic factors, he noted.

“However, the kinetics of that risk appears to be different between men and women. In order to reduce the breast cancer mortality risk in men with hormone receptor–positive breast cancer, it will be important for men to consider the benefits of the treatment options that may be indicated for their specific situation,” he said.

“I think early detection is also very important,” he emphasized. To that end, increased awareness of the possibility for breast cancer in men, as well as prompt intervention when breast cancer is suspected, will help to improve early detection when the risk of breast cancer mortality is lower, he added.
 

What Are the Next Steps for Research?

“I think our study underscores the need for additional research to improve our adjuvant therapy options in both men and women with hormone receptor-positive breast cancer, to reduce the risk of long-term mortality,” he said.

The study received no outside funding. Lead author Julieta Leone had no financial conflicts to disclose. Dr. José P. Leone disclosed receiving institutional grants from Kazia Therapeutics and Seagen unrelated to the current study.

Breast cancer-specific mortality risk in men with hormone receptor–positive breast cancer persists for at least 20 years, but patterns of breast cancer–specific mortality (BCSM) are distinct from those in women, a new study finds.

Previous studies in women with hormone receptor–positive (HR+) breast cancer have shown a risk of distant recurrence and death for at least 20 years after diagnosis, but data for men are limited, wrote Julieta Leone, MD, of the Dana Farber Cancer Institute, Boston, and colleagues.
 

What is Known About Hormone Receptor–Positive Breast Cancer Mortality in Men vs. Women?

Invasive breast cancer in men is rare and consequently understudied, the researchers wrote. Previous studies of BCSM in men with more than 5 years’ follow-up consist mainly of case series at single institutions, the researchers wrote in JAMA Oncology (2024 Feb 29. doi: 10.1001/jamaoncol.2023.7194).

“We believed it would be important to study this issue to help inform the management of men with breast cancer,” corresponding author, José P. Leone, MD, said in an interview.

In 2021, Dr. J.P. Leone and colleagues published a study in Breast Cancer Research and Treatment that examined the 20-year risk of BCSM in women that included more than 36,000 individuals who had survived for 5 years, with a median of 14 years’ follow-up.

In that study of women, the BCSM risk at 20 years was significantly higher for those with HR-negative tumors, but the risk was still elevated for both types. Patients with stage IIIC HR-positive disease had four times the risk of BCSM over 20 years and those with stage IIIC HR-negative disease had seven times the risk of BCSM over 20 years compared with the risk of death not related to breast cancer, the researchers wrote.

Another study of nearly 2,400 men with breast cancer (mainly HR+) by Dr. J.P. Leone and colleagues showed that cancer stage, tumor subtype, and race were associated with overall survival and breast cancer-specific survival.
 

What Does the New Study Add?

The current study included 2,836 men diagnosed with stage I to stage III HR+ breast cancer between 1990 and 2008, using data from the Surveillance, Epidemiology, and End Results (SEER) database.

“We found that in men with breast cancer, the risk of breast cancer mortality persists for at least 20 years and that [the risk] depends on traditional clinicopathologic factors, such as age, tumor size, nodal status and tumor grade,” Dr. J.P. Leone said in an interview.

“The prolonged risk [of breast-cancer specific mortality] over 20 years that we observed in our study is similar to that previously reported in women; however, the kinetics of the risk over the 20-year period appears different in men,” he emphasized.

The men in the study, especially those with a higher stage of disease, appeared to have a bimodal distribution of the BRCA mortality risk, he said.

Two peaks were identified, he explained; an early peak in mortality risk at approximately 4 years from diagnosis and another at approximately 11 years after diagnosis.

Although women with breast cancer had a prolonged risk of breast cancer mortality, “the kinetics of the risk does not include 2 peaks, even in women with higher stage of disease.” In women with higher stage breast cancer, the peak mortality risk occurs approximately 5 years after diagnosis, he said.

The reasons for the later peak in men remain unclear, the researchers wrote in the study, but possible explanations include nonadherence to endocrine therapy, differences in tumor biologic factors, and differences in the tumor microenvironment between men and women, they noted, in the discussion section.
 

What Drives the Risk?

Key factors for breast cancer-specific mortality were age, tumor stage, and tumor grade.

The cumulative 20-year risk of BCSM in the current study was 12.4%, 26.2%, and 46.0% for stage I, II, and III, respectively. The adjusted BCSM risk was increased in patients younger than 50 years, those with grade II or III/IV tumors, and those with stage II or III disease.
 

What Are the Limitations?

The current study by Leone and colleagues was limited by the relatively small subgroup sample of men with stage III and N3 disease, lack of data on the use of systemic therapies, and lack of data on human epidermal growth factor receptor 2 gene (ERBB2), the researchers wrote. However, the long-term follow-up strengthened the results, and the study is the first known to assess 20-year BCSM risk in men with nonmetastatic HR+ breast cancer.

What Do Oncologists Need to Know About the Study?

The study findings indicate that the risk of breast cancer mortality persists for 20 years in men with hormone receptor–positive breast cancer, Dr. J.P. Leone said in an interview. As in women, the risk depends on traditional clinicopathologic factors, he noted.

“However, the kinetics of that risk appears to be different between men and women. In order to reduce the breast cancer mortality risk in men with hormone receptor–positive breast cancer, it will be important for men to consider the benefits of the treatment options that may be indicated for their specific situation,” he said.

“I think early detection is also very important,” he emphasized. To that end, increased awareness of the possibility for breast cancer in men, as well as prompt intervention when breast cancer is suspected, will help to improve early detection when the risk of breast cancer mortality is lower, he added.
 

What Are the Next Steps for Research?

“I think our study underscores the need for additional research to improve our adjuvant therapy options in both men and women with hormone receptor-positive breast cancer, to reduce the risk of long-term mortality,” he said.

The study received no outside funding. Lead author Julieta Leone had no financial conflicts to disclose. Dr. José P. Leone disclosed receiving institutional grants from Kazia Therapeutics and Seagen unrelated to the current study.

Breast cancer-specific mortality risk in men with hormone receptor–positive breast cancer persists for at least 20 years, but patterns of breast cancer–specific mortality (BCSM) are distinct from those in women, a new study finds.

Previous studies in women with hormone receptor–positive (HR+) breast cancer have shown a risk of distant recurrence and death for at least 20 years after diagnosis, but data for men are limited, wrote Julieta Leone, MD, of the Dana Farber Cancer Institute, Boston, and colleagues.
 

What is Known About Hormone Receptor–Positive Breast Cancer Mortality in Men vs. Women?

Invasive breast cancer in men is rare and consequently understudied, the researchers wrote. Previous studies of BCSM in men with more than 5 years’ follow-up consist mainly of case series at single institutions, the researchers wrote in JAMA Oncology (2024 Feb 29. doi: 10.1001/jamaoncol.2023.7194).

“We believed it would be important to study this issue to help inform the management of men with breast cancer,” corresponding author, José P. Leone, MD, said in an interview.

In 2021, Dr. J.P. Leone and colleagues published a study in Breast Cancer Research and Treatment that examined the 20-year risk of BCSM in women that included more than 36,000 individuals who had survived for 5 years, with a median of 14 years’ follow-up.

In that study of women, the BCSM risk at 20 years was significantly higher for those with HR-negative tumors, but the risk was still elevated for both types. Patients with stage IIIC HR-positive disease had four times the risk of BCSM over 20 years and those with stage IIIC HR-negative disease had seven times the risk of BCSM over 20 years compared with the risk of death not related to breast cancer, the researchers wrote.

Another study of nearly 2,400 men with breast cancer (mainly HR+) by Dr. J.P. Leone and colleagues showed that cancer stage, tumor subtype, and race were associated with overall survival and breast cancer-specific survival.
 

What Does the New Study Add?

The current study included 2,836 men diagnosed with stage I to stage III HR+ breast cancer between 1990 and 2008, using data from the Surveillance, Epidemiology, and End Results (SEER) database.

“We found that in men with breast cancer, the risk of breast cancer mortality persists for at least 20 years and that [the risk] depends on traditional clinicopathologic factors, such as age, tumor size, nodal status and tumor grade,” Dr. J.P. Leone said in an interview.

“The prolonged risk [of breast-cancer specific mortality] over 20 years that we observed in our study is similar to that previously reported in women; however, the kinetics of the risk over the 20-year period appears different in men,” he emphasized.

The men in the study, especially those with a higher stage of disease, appeared to have a bimodal distribution of the BRCA mortality risk, he said.

Two peaks were identified, he explained; an early peak in mortality risk at approximately 4 years from diagnosis and another at approximately 11 years after diagnosis.

Although women with breast cancer had a prolonged risk of breast cancer mortality, “the kinetics of the risk does not include 2 peaks, even in women with higher stage of disease.” In women with higher stage breast cancer, the peak mortality risk occurs approximately 5 years after diagnosis, he said.

The reasons for the later peak in men remain unclear, the researchers wrote in the study, but possible explanations include nonadherence to endocrine therapy, differences in tumor biologic factors, and differences in the tumor microenvironment between men and women, they noted, in the discussion section.
 

What Drives the Risk?

Key factors for breast cancer-specific mortality were age, tumor stage, and tumor grade.

The cumulative 20-year risk of BCSM in the current study was 12.4%, 26.2%, and 46.0% for stage I, II, and III, respectively. The adjusted BCSM risk was increased in patients younger than 50 years, those with grade II or III/IV tumors, and those with stage II or III disease.
 

What Are the Limitations?

The current study by Leone and colleagues was limited by the relatively small subgroup sample of men with stage III and N3 disease, lack of data on the use of systemic therapies, and lack of data on human epidermal growth factor receptor 2 gene (ERBB2), the researchers wrote. However, the long-term follow-up strengthened the results, and the study is the first known to assess 20-year BCSM risk in men with nonmetastatic HR+ breast cancer.

What Do Oncologists Need to Know About the Study?

The study findings indicate that the risk of breast cancer mortality persists for 20 years in men with hormone receptor–positive breast cancer, Dr. J.P. Leone said in an interview. As in women, the risk depends on traditional clinicopathologic factors, he noted.

“However, the kinetics of that risk appears to be different between men and women. In order to reduce the breast cancer mortality risk in men with hormone receptor–positive breast cancer, it will be important for men to consider the benefits of the treatment options that may be indicated for their specific situation,” he said.

“I think early detection is also very important,” he emphasized. To that end, increased awareness of the possibility for breast cancer in men, as well as prompt intervention when breast cancer is suspected, will help to improve early detection when the risk of breast cancer mortality is lower, he added.
 

What Are the Next Steps for Research?

“I think our study underscores the need for additional research to improve our adjuvant therapy options in both men and women with hormone receptor-positive breast cancer, to reduce the risk of long-term mortality,” he said.

The study received no outside funding. Lead author Julieta Leone had no financial conflicts to disclose. Dr. José P. Leone disclosed receiving institutional grants from Kazia Therapeutics and Seagen unrelated to the current study.

TOPLINE:

Treatment modifications, such as dose reductions, schedule changes, or use of less toxic regimens, can improve how well older patients with advanced cancer and aging-related conditions tolerate chemotherapy regimens.

METHODOLOGY:

• Older patients are underrepresented in clinical trials, which means the reported risks associated with standard-of-care regimens typically reflect outcomes in younger, healthier patients. This underrepresentation in clinical trials has also led to uncertainties about the safety of standard chemotherapy regimens in older patients who often have other health conditions to manage, alongside cancer.
• In this secondary analysis, researchers evaluated the association between primary treatment modifications to standard-of-care chemotherapy regimens and treatment tolerability.
• The trial included 609 patients aged ≥ 70 years who had advanced cancer alongside at least one age-related condition, such as impaired cognition, and planned to start a new palliative chemotherapy regimen in the community oncology setting. The most common cancer types were gastrointestinal cancer (37.4%) and lung cancer (28.6%).
• The primary outcome was grade 3-5 adverse events within 3 months of chemotherapy initiation.
• Secondary outcomes included patient-reported functional decline and combined adverse outcomes, which incorporated clinician-rated toxic effects, patient-reported functional decline, and 6-month overall survival.

TAKEAWAY: 

• Overall, 281 patients (46.1%) received a primary treatment modification, most often a dose reduction (71.9%) or a scheduling change (11.7%).
• Patients who received primary treatment modifications had a 15% lower risk for grades 3-5 adverse effects (relative risk [RR], 0.85) and a 20% lower risk for patient-reported functional decline (RR, 0.80) than those who received standard treatment.
• Patients receiving treatment modifications had 32% lower risk for a worse combined adverse outcome (odds ratio, 0.68).
• Cancer type may matter as well. When looking at outcomes by cancer type, patients with gastrointestinal cancers who received a primary treatment modification had a lower risk for toxic effects (RR, 0.82), whereas patients with lung cancer did not (RR, 1.03; 95% CI, 0.88-1.20).

IN PRACTICE:

These findings “can help oncologists to choose the optimal drug regimen, select a safe and effective initial dose, and undertake appropriate monitoring strategies to manage the clinical care of older people with advanced cancer,” the authors said. 

SOURCE:

This study, led by Mostafa R. Mohamed from University of Rochester, New York, was published February 15 in JAMA Network Open.

LIMITATIONS: 

Residual confounding may be present. Extremely healthy older patients may have been excluded due to study criteria, limiting generalizability. There may be variation in toxicities due to inclusion of patients with multiple heterogeneous cancer.

DISCLOSURES:

This work was supported by the National Cancer Institute and the University of Rochester, New York. The authors disclosed financial relationships outside this work.

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

TOPLINE:

Treatment modifications, such as dose reductions, schedule changes, or use of less toxic regimens, can improve how well older patients with advanced cancer and aging-related conditions tolerate chemotherapy regimens.

METHODOLOGY:

• Older patients are underrepresented in clinical trials, which means the reported risks associated with standard-of-care regimens typically reflect outcomes in younger, healthier patients. This underrepresentation in clinical trials has also led to uncertainties about the safety of standard chemotherapy regimens in older patients who often have other health conditions to manage, alongside cancer.
• In this secondary analysis, researchers evaluated the association between primary treatment modifications to standard-of-care chemotherapy regimens and treatment tolerability.
• The trial included 609 patients aged ≥ 70 years who had advanced cancer alongside at least one age-related condition, such as impaired cognition, and planned to start a new palliative chemotherapy regimen in the community oncology setting. The most common cancer types were gastrointestinal cancer (37.4%) and lung cancer (28.6%).
• The primary outcome was grade 3-5 adverse events within 3 months of chemotherapy initiation.
• Secondary outcomes included patient-reported functional decline and combined adverse outcomes, which incorporated clinician-rated toxic effects, patient-reported functional decline, and 6-month overall survival.

TAKEAWAY: 

• Overall, 281 patients (46.1%) received a primary treatment modification, most often a dose reduction (71.9%) or a scheduling change (11.7%).
• Patients who received primary treatment modifications had a 15% lower risk for grades 3-5 adverse effects (relative risk [RR], 0.85) and a 20% lower risk for patient-reported functional decline (RR, 0.80) than those who received standard treatment.
• Patients receiving treatment modifications had 32% lower risk for a worse combined adverse outcome (odds ratio, 0.68).
• Cancer type may matter as well. When looking at outcomes by cancer type, patients with gastrointestinal cancers who received a primary treatment modification had a lower risk for toxic effects (RR, 0.82), whereas patients with lung cancer did not (RR, 1.03; 95% CI, 0.88-1.20).

IN PRACTICE:

These findings “can help oncologists to choose the optimal drug regimen, select a safe and effective initial dose, and undertake appropriate monitoring strategies to manage the clinical care of older people with advanced cancer,” the authors said. 

SOURCE:

This study, led by Mostafa R. Mohamed from University of Rochester, New York, was published February 15 in JAMA Network Open.

LIMITATIONS: 

Residual confounding may be present. Extremely healthy older patients may have been excluded due to study criteria, limiting generalizability. There may be variation in toxicities due to inclusion of patients with multiple heterogeneous cancer.

DISCLOSURES:

This work was supported by the National Cancer Institute and the University of Rochester, New York. The authors disclosed financial relationships outside this work.

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

TOPLINE:

Treatment modifications, such as dose reductions, schedule changes, or use of less toxic regimens, can improve how well older patients with advanced cancer and aging-related conditions tolerate chemotherapy regimens.

METHODOLOGY:

• Older patients are underrepresented in clinical trials, which means the reported risks associated with standard-of-care regimens typically reflect outcomes in younger, healthier patients. This underrepresentation in clinical trials has also led to uncertainties about the safety of standard chemotherapy regimens in older patients who often have other health conditions to manage, alongside cancer.
• In this secondary analysis, researchers evaluated the association between primary treatment modifications to standard-of-care chemotherapy regimens and treatment tolerability.
• The trial included 609 patients aged ≥ 70 years who had advanced cancer alongside at least one age-related condition, such as impaired cognition, and planned to start a new palliative chemotherapy regimen in the community oncology setting. The most common cancer types were gastrointestinal cancer (37.4%) and lung cancer (28.6%).
• The primary outcome was grade 3-5 adverse events within 3 months of chemotherapy initiation.
• Secondary outcomes included patient-reported functional decline and combined adverse outcomes, which incorporated clinician-rated toxic effects, patient-reported functional decline, and 6-month overall survival.

TAKEAWAY: 

• Overall, 281 patients (46.1%) received a primary treatment modification, most often a dose reduction (71.9%) or a scheduling change (11.7%).
• Patients who received primary treatment modifications had a 15% lower risk for grades 3-5 adverse effects (relative risk [RR], 0.85) and a 20% lower risk for patient-reported functional decline (RR, 0.80) than those who received standard treatment.
• Patients receiving treatment modifications had 32% lower risk for a worse combined adverse outcome (odds ratio, 0.68).
• Cancer type may matter as well. When looking at outcomes by cancer type, patients with gastrointestinal cancers who received a primary treatment modification had a lower risk for toxic effects (RR, 0.82), whereas patients with lung cancer did not (RR, 1.03; 95% CI, 0.88-1.20).

IN PRACTICE:

These findings “can help oncologists to choose the optimal drug regimen, select a safe and effective initial dose, and undertake appropriate monitoring strategies to manage the clinical care of older people with advanced cancer,” the authors said. 

SOURCE:

This study, led by Mostafa R. Mohamed from University of Rochester, New York, was published February 15 in JAMA Network Open.

LIMITATIONS: 

Residual confounding may be present. Extremely healthy older patients may have been excluded due to study criteria, limiting generalizability. There may be variation in toxicities due to inclusion of patients with multiple heterogeneous cancer.

DISCLOSURES:

This work was supported by the National Cancer Institute and the University of Rochester, New York. The authors disclosed financial relationships outside this work.

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

The US Food and Drug Administration (FDA) has granted new approvals for the use of amivantamab-vmjw (Rybrevant, Janssen Biotech Inc.) in certain patients with locally advanced or metastatic non-small cell lung cancer (NSCLC). 

Specifically, the FDA approved the first-line use of the agent in combination with carboplatin and pemetrexed in patients with locally advanced or metastatic NSCLC with epidermal growth factor receptor (EGFR) exon 20 insertion mutations, as detected by an FDA-approved test. 

The FDA also granted traditional approval for use in these patients after their cancer has progressed on or following platinum-based chemotherapy. The original accelerated approval for this indication occurred in 2021. At that time, the FDA also approved Guardant360^® CDx (Guardant Health, Inc.) as a companion diagnostic test for amivantamab-vmjw. 

The first-line approval, which followed priority review, was based on the randomized, open-label PAPILLON trial, which revealed a statistically significant improvement in progression-free survival (PFS) among the 153 patients who received amivantamab-vmjw plus carboplatin and pemetrexed vs the 155 who received the chemotherapy combination alone. Median PFS was 11.4 months in the amivantamab-vmjw arm vs 6.7 months in the control arm (hazard ratio, 0.40).

Data for overall survival, a key secondary endpoint of the study, were immature at the time of the latest analysis, but “no trend toward a detriment was observed,” according to an FDA approval announcement.

Common adverse reactions, occurring in at least 20% of patients in the study, were rash, nail toxicity, stomatitis, infusion-related reaction, fatigue, edema, constipation, decreased appetite, nausea, diarrhea, and vomiting. Weight-based dosing guidance can be found in the full prescribing information.
 

A version of this article appeared on Medscape.com.

The US Food and Drug Administration (FDA) has granted new approvals for the use of amivantamab-vmjw (Rybrevant, Janssen Biotech Inc.) in certain patients with locally advanced or metastatic non-small cell lung cancer (NSCLC). 

Specifically, the FDA approved the first-line use of the agent in combination with carboplatin and pemetrexed in patients with locally advanced or metastatic NSCLC with epidermal growth factor receptor (EGFR) exon 20 insertion mutations, as detected by an FDA-approved test. 

The FDA also granted traditional approval for use in these patients after their cancer has progressed on or following platinum-based chemotherapy. The original accelerated approval for this indication occurred in 2021. At that time, the FDA also approved Guardant360^® CDx (Guardant Health, Inc.) as a companion diagnostic test for amivantamab-vmjw. 

The first-line approval, which followed priority review, was based on the randomized, open-label PAPILLON trial, which revealed a statistically significant improvement in progression-free survival (PFS) among the 153 patients who received amivantamab-vmjw plus carboplatin and pemetrexed vs the 155 who received the chemotherapy combination alone. Median PFS was 11.4 months in the amivantamab-vmjw arm vs 6.7 months in the control arm (hazard ratio, 0.40).

Data for overall survival, a key secondary endpoint of the study, were immature at the time of the latest analysis, but “no trend toward a detriment was observed,” according to an FDA approval announcement.

Common adverse reactions, occurring in at least 20% of patients in the study, were rash, nail toxicity, stomatitis, infusion-related reaction, fatigue, edema, constipation, decreased appetite, nausea, diarrhea, and vomiting. Weight-based dosing guidance can be found in the full prescribing information.
 

A version of this article appeared on Medscape.com.

The US Food and Drug Administration (FDA) has granted new approvals for the use of amivantamab-vmjw (Rybrevant, Janssen Biotech Inc.) in certain patients with locally advanced or metastatic non-small cell lung cancer (NSCLC). 

Specifically, the FDA approved the first-line use of the agent in combination with carboplatin and pemetrexed in patients with locally advanced or metastatic NSCLC with epidermal growth factor receptor (EGFR) exon 20 insertion mutations, as detected by an FDA-approved test. 

The FDA also granted traditional approval for use in these patients after their cancer has progressed on or following platinum-based chemotherapy. The original accelerated approval for this indication occurred in 2021. At that time, the FDA also approved Guardant360^® CDx (Guardant Health, Inc.) as a companion diagnostic test for amivantamab-vmjw. 

The first-line approval, which followed priority review, was based on the randomized, open-label PAPILLON trial, which revealed a statistically significant improvement in progression-free survival (PFS) among the 153 patients who received amivantamab-vmjw plus carboplatin and pemetrexed vs the 155 who received the chemotherapy combination alone. Median PFS was 11.4 months in the amivantamab-vmjw arm vs 6.7 months in the control arm (hazard ratio, 0.40).

Data for overall survival, a key secondary endpoint of the study, were immature at the time of the latest analysis, but “no trend toward a detriment was observed,” according to an FDA approval announcement.

Common adverse reactions, occurring in at least 20% of patients in the study, were rash, nail toxicity, stomatitis, infusion-related reaction, fatigue, edema, constipation, decreased appetite, nausea, diarrhea, and vomiting. Weight-based dosing guidance can be found in the full prescribing information.
 

A version of this article appeared on Medscape.com.

A prognostic tool may facilitate the early identification of older adults in the community who would benefit from palliative care in their final years, new research from Canada suggested.

The analysis of data from close to a quarter million community-dwelling older adults in Ontario with at least one interRAI (Resident Assessment Instrument) home care assessment showed that only half of those with an estimated survival of fewer than 3 months received at least one palliative home care visit before death.

“One of the challenges and a barrier to accessing palliative home care is the difficulty of predicting survival,” Amy Hsu, PhD, an investigator at the Bruyère Research Institute in Ottawa, Ontario, Canada, told this news organization. “Clinicians are good at prognosticating when a patient might be entering their last 3-6 weeks of life, but they have a harder time predicting if someone will survive 6 months or longer.”

The team developed the Risk Evaluation for Support: Predictions for Elder-life in their Communities Tool (RESPECT) to see whether access to predicted survival data could inform conversations about a patient’s status and palliative care needs.

The study was published online in the Canadian Medical Association Journal.
 

Setting Care Goals

Researchers analyzed population health administrative data from Ontario involving home care clients who received at least one interRAI Home Care assessment between April 2018 and September 2019. The cohort included 247,377 adults (62% women) with a mean age of 80.1 years at the time of assessment. Comorbidities, including congestive heart failure, coronary artery disease, cancer, and chronic obstructive pulmonary disease, as well as symptoms of health instability, were more prevalent among those at higher risk of dying.

The team used an updated, validated version of RESPECT to predict survival.

Only 2.6% of home care clients had received a clinician diagnosis of an end-stage disease, which was more prevalent among those at highest mortality risk (77.9%). Most clients (74.5%) required extensive assistance in performing instrumental activities of daily living (ADLs, score ≤ 4), and half (50.3%) were less able to perform ADLs in the last 3 months of life.

Within the cohort, 75% of patients with a predicted median survival of fewer than 3 months, 55.4% of those with a predicted median survival between 3 and 6 months, and 40.7% of those with a predicted median survival between 6 and 12 months died within 6 months of the home care assessment.

Among decedents, 50.6% of those with a RESPECT-estimated median survival of fewer than 3 months received at least one nonphysician palliative home care visit before death. Less than a third (27.8%) received at least one palliative home care visit from a physician.

The proportion of those who received at least one nonphysician visit fell to 38.7% among those with a median survival of between 3 and 6 months and to 29.5% among those with a median survival of between 6 and 12 months.

Patients who received at least one palliative home care visit (from either physicians or nonphysician home care providers) within 6 months of an assessment had clinical characteristics similar to those who did not receive a visit. However, those who did not receive palliative home care were more likely to not have been identified by a clinician as being in their past 6 months of life.

“These results reinforce the role of clinicians in identifying older adults who may be in their last 6 months of life as an important component for the receipt of palliative home care and highlight the value of RESPECT in supplementing clinicians’ assessments of prognosis,” the authors wrote.

“Our goal is to use data and tools like RESPECT to help individuals living with a life-limiting illness have conversations about what their end-of-life care goals and wishes may be and discuss whether a referral to palliative care is appropriate or needed,” Dr. Hsu added. “Data about life expectancy could be helpful for framing these conversations.”

The researchers are working with partners in home, community care, and long-term care to implement RESPECT in their settings.
 

‘Valuable Tool’

Guohua Li, MD, DrPH, professor of epidemiology and anesthesiology at Columbia University Mailman School of Public Health and Vagelos College of Physicians and Surgeons in New York City, commented on the findings for this news organization. He noted that the study is “rigorously designed and meticulously analyzed. The findings are of high validity and population health significance.”

The findings are comparable with what is seen in the United States and Canada, he said, where about 50% of terminally ill patients die at home or in hospice. However, palliative care outside of North America “varies greatly, and in many developing countries, [it] is still in its infancy.”

As a mortality risk prediction algorithm, “RESPECT seems to perform reasonably well,” he said. “If incorporated into the electronic health record, it could be a valuable tool for clinicians to identify patients with less than 6 months of life expectancy and deliver palliative care to these patients. RESPECT appears to be particularly beneficial for home care patients without a clinically diagnosed terminal disease.”

That said, he added, “RESPECT should be viewed as a clinical decision support tool. It is no substitute for clinicians or clinical judgment. Based on the data presented in the paper, the algorithm tends to overestimate the short-term mortality risk for home care patients, therefore resulting in many false alarms.”

The study was supported by the Canadian Institutes of Health Research and the Associated Medical Services. Dr. Hsu is an executive lead on the steering committee of the Ontario Centres for Learning, Research, and Innovation in Long-Term Care. Funding for the centers comes from the Ontario Ministry of Health and Ministry of Long-Term Care and is partially administered by the Bruyère Research Institute. Dr. Li reported no relevant financial interests.

A version of this article appeared on Medscape.com.

A prognostic tool may facilitate the early identification of older adults in the community who would benefit from palliative care in their final years, new research from Canada suggested.

The analysis of data from close to a quarter million community-dwelling older adults in Ontario with at least one interRAI (Resident Assessment Instrument) home care assessment showed that only half of those with an estimated survival of fewer than 3 months received at least one palliative home care visit before death.

“One of the challenges and a barrier to accessing palliative home care is the difficulty of predicting survival,” Amy Hsu, PhD, an investigator at the Bruyère Research Institute in Ottawa, Ontario, Canada, told this news organization. “Clinicians are good at prognosticating when a patient might be entering their last 3-6 weeks of life, but they have a harder time predicting if someone will survive 6 months or longer.”

The team developed the Risk Evaluation for Support: Predictions for Elder-life in their Communities Tool (RESPECT) to see whether access to predicted survival data could inform conversations about a patient’s status and palliative care needs.

The study was published online in the Canadian Medical Association Journal.
 

Setting Care Goals

Researchers analyzed population health administrative data from Ontario involving home care clients who received at least one interRAI Home Care assessment between April 2018 and September 2019. The cohort included 247,377 adults (62% women) with a mean age of 80.1 years at the time of assessment. Comorbidities, including congestive heart failure, coronary artery disease, cancer, and chronic obstructive pulmonary disease, as well as symptoms of health instability, were more prevalent among those at higher risk of dying.

The team used an updated, validated version of RESPECT to predict survival.

Only 2.6% of home care clients had received a clinician diagnosis of an end-stage disease, which was more prevalent among those at highest mortality risk (77.9%). Most clients (74.5%) required extensive assistance in performing instrumental activities of daily living (ADLs, score ≤ 4), and half (50.3%) were less able to perform ADLs in the last 3 months of life.

Within the cohort, 75% of patients with a predicted median survival of fewer than 3 months, 55.4% of those with a predicted median survival between 3 and 6 months, and 40.7% of those with a predicted median survival between 6 and 12 months died within 6 months of the home care assessment.

Among decedents, 50.6% of those with a RESPECT-estimated median survival of fewer than 3 months received at least one nonphysician palliative home care visit before death. Less than a third (27.8%) received at least one palliative home care visit from a physician.

The proportion of those who received at least one nonphysician visit fell to 38.7% among those with a median survival of between 3 and 6 months and to 29.5% among those with a median survival of between 6 and 12 months.

Patients who received at least one palliative home care visit (from either physicians or nonphysician home care providers) within 6 months of an assessment had clinical characteristics similar to those who did not receive a visit. However, those who did not receive palliative home care were more likely to not have been identified by a clinician as being in their past 6 months of life.

“These results reinforce the role of clinicians in identifying older adults who may be in their last 6 months of life as an important component for the receipt of palliative home care and highlight the value of RESPECT in supplementing clinicians’ assessments of prognosis,” the authors wrote.

“Our goal is to use data and tools like RESPECT to help individuals living with a life-limiting illness have conversations about what their end-of-life care goals and wishes may be and discuss whether a referral to palliative care is appropriate or needed,” Dr. Hsu added. “Data about life expectancy could be helpful for framing these conversations.”

The researchers are working with partners in home, community care, and long-term care to implement RESPECT in their settings.
 

‘Valuable Tool’

Guohua Li, MD, DrPH, professor of epidemiology and anesthesiology at Columbia University Mailman School of Public Health and Vagelos College of Physicians and Surgeons in New York City, commented on the findings for this news organization. He noted that the study is “rigorously designed and meticulously analyzed. The findings are of high validity and population health significance.”

The findings are comparable with what is seen in the United States and Canada, he said, where about 50% of terminally ill patients die at home or in hospice. However, palliative care outside of North America “varies greatly, and in many developing countries, [it] is still in its infancy.”

As a mortality risk prediction algorithm, “RESPECT seems to perform reasonably well,” he said. “If incorporated into the electronic health record, it could be a valuable tool for clinicians to identify patients with less than 6 months of life expectancy and deliver palliative care to these patients. RESPECT appears to be particularly beneficial for home care patients without a clinically diagnosed terminal disease.”

That said, he added, “RESPECT should be viewed as a clinical decision support tool. It is no substitute for clinicians or clinical judgment. Based on the data presented in the paper, the algorithm tends to overestimate the short-term mortality risk for home care patients, therefore resulting in many false alarms.”

The study was supported by the Canadian Institutes of Health Research and the Associated Medical Services. Dr. Hsu is an executive lead on the steering committee of the Ontario Centres for Learning, Research, and Innovation in Long-Term Care. Funding for the centers comes from the Ontario Ministry of Health and Ministry of Long-Term Care and is partially administered by the Bruyère Research Institute. Dr. Li reported no relevant financial interests.

A version of this article appeared on Medscape.com.

A prognostic tool may facilitate the early identification of older adults in the community who would benefit from palliative care in their final years, new research from Canada suggested.

The analysis of data from close to a quarter million community-dwelling older adults in Ontario with at least one interRAI (Resident Assessment Instrument) home care assessment showed that only half of those with an estimated survival of fewer than 3 months received at least one palliative home care visit before death.

“One of the challenges and a barrier to accessing palliative home care is the difficulty of predicting survival,” Amy Hsu, PhD, an investigator at the Bruyère Research Institute in Ottawa, Ontario, Canada, told this news organization. “Clinicians are good at prognosticating when a patient might be entering their last 3-6 weeks of life, but they have a harder time predicting if someone will survive 6 months or longer.”

The team developed the Risk Evaluation for Support: Predictions for Elder-life in their Communities Tool (RESPECT) to see whether access to predicted survival data could inform conversations about a patient’s status and palliative care needs.

The study was published online in the Canadian Medical Association Journal.
 

Setting Care Goals

Researchers analyzed population health administrative data from Ontario involving home care clients who received at least one interRAI Home Care assessment between April 2018 and September 2019. The cohort included 247,377 adults (62% women) with a mean age of 80.1 years at the time of assessment. Comorbidities, including congestive heart failure, coronary artery disease, cancer, and chronic obstructive pulmonary disease, as well as symptoms of health instability, were more prevalent among those at higher risk of dying.

The team used an updated, validated version of RESPECT to predict survival.

Only 2.6% of home care clients had received a clinician diagnosis of an end-stage disease, which was more prevalent among those at highest mortality risk (77.9%). Most clients (74.5%) required extensive assistance in performing instrumental activities of daily living (ADLs, score ≤ 4), and half (50.3%) were less able to perform ADLs in the last 3 months of life.

Within the cohort, 75% of patients with a predicted median survival of fewer than 3 months, 55.4% of those with a predicted median survival between 3 and 6 months, and 40.7% of those with a predicted median survival between 6 and 12 months died within 6 months of the home care assessment.

Among decedents, 50.6% of those with a RESPECT-estimated median survival of fewer than 3 months received at least one nonphysician palliative home care visit before death. Less than a third (27.8%) received at least one palliative home care visit from a physician.

The proportion of those who received at least one nonphysician visit fell to 38.7% among those with a median survival of between 3 and 6 months and to 29.5% among those with a median survival of between 6 and 12 months.

Patients who received at least one palliative home care visit (from either physicians or nonphysician home care providers) within 6 months of an assessment had clinical characteristics similar to those who did not receive a visit. However, those who did not receive palliative home care were more likely to not have been identified by a clinician as being in their past 6 months of life.

“These results reinforce the role of clinicians in identifying older adults who may be in their last 6 months of life as an important component for the receipt of palliative home care and highlight the value of RESPECT in supplementing clinicians’ assessments of prognosis,” the authors wrote.

“Our goal is to use data and tools like RESPECT to help individuals living with a life-limiting illness have conversations about what their end-of-life care goals and wishes may be and discuss whether a referral to palliative care is appropriate or needed,” Dr. Hsu added. “Data about life expectancy could be helpful for framing these conversations.”

The researchers are working with partners in home, community care, and long-term care to implement RESPECT in their settings.
 

‘Valuable Tool’

Guohua Li, MD, DrPH, professor of epidemiology and anesthesiology at Columbia University Mailman School of Public Health and Vagelos College of Physicians and Surgeons in New York City, commented on the findings for this news organization. He noted that the study is “rigorously designed and meticulously analyzed. The findings are of high validity and population health significance.”

The findings are comparable with what is seen in the United States and Canada, he said, where about 50% of terminally ill patients die at home or in hospice. However, palliative care outside of North America “varies greatly, and in many developing countries, [it] is still in its infancy.”

As a mortality risk prediction algorithm, “RESPECT seems to perform reasonably well,” he said. “If incorporated into the electronic health record, it could be a valuable tool for clinicians to identify patients with less than 6 months of life expectancy and deliver palliative care to these patients. RESPECT appears to be particularly beneficial for home care patients without a clinically diagnosed terminal disease.”

That said, he added, “RESPECT should be viewed as a clinical decision support tool. It is no substitute for clinicians or clinical judgment. Based on the data presented in the paper, the algorithm tends to overestimate the short-term mortality risk for home care patients, therefore resulting in many false alarms.”

The study was supported by the Canadian Institutes of Health Research and the Associated Medical Services. Dr. Hsu is an executive lead on the steering committee of the Ontario Centres for Learning, Research, and Innovation in Long-Term Care. Funding for the centers comes from the Ontario Ministry of Health and Ministry of Long-Term Care and is partially administered by the Bruyère Research Institute. Dr. Li reported no relevant financial interests.

A version of this article appeared on Medscape.com.