Gynecologic Cancer

Food emulsifiers are among the most widespread food additives. A large cohort study highlighted an association between the consumption of certain emulsifiers and an increased risk for certain cancers, particularly breast and prostate cancer.

Ultraprocessed foods constitute a significant part of our diet, representing approximately 30% of energy intake in France.

Large epidemiologic studies have already linked diets rich in ultraprocessed products to an increased risk for cardiovascular diseases, diabetes, obesity, and mortality. Possible explanations for this association include the presence of additives, particularly emulsifiers. These additives are intended to improve the texture and shelf life of foods.

Recent experimental studies have shown that emulsifiers alter the gut microbiota and may lead to low-grade inflammation. Dysbiosis and chronic inflammation not only increase the risk for inflammatory bowel diseases but are also implicated in the etiology of several other chronic pathologies and certain extraintestinal cancers.

The NutriNet-Santé study provided extensive information on the dietary habits of > 100,000 French participants. A new analysis was conducted, examining the possible link between the presence of emulsifiers in the diet and cancer occurrence. Data from 92,000 participants (78.8% women) were utilized. They covered an average follow-up of 6.7 years, during which 2604 cancer cases were diagnosed, including 750 breast cancers, 322 prostate cancers, and 207 colorectal cancers.

In this cohort, the risk for cancer increased with a higher presence in the diet of products containing certain emulsifiers widely used in industrial food in Europe: Carrageenans (E407), mono- and diglycerides of fatty acids (E471), pectins (E440), and sodium carbonate (E500).

Notably, the highest consumption of mono- and diglycerides of fatty acids (E471) was associated with a 15% increase in the risk for all types of cancer, a 24% increase in breast cancer risk, and a 46% increase in prostate cancer risk. The highest consumption of carrageenans (E407) was associated with a 28% increase in breast cancer risk.

In an analysis by menopausal status, the risk for breast cancer before menopause was associated with high consumption of diphosphates (E450; 45% increase), pectins (E440; 55% increase), and sodium bicarbonate (E500; 48% increase). No link was found between emulsifier consumption and colorectal cancer risk. While some associations were observed for other emulsifiers, they did not persist in sensitivity analyses.

The European Food Safety Agency recently evaluated the risks of emulsifiers, however, and found no safety issues or need to limit daily consumption of several of them, notably E471.

It is certain that cancer is multifactorial, and a single factor (here, exposure to emulsifiers) will not significantly increase the risk. However, while not essential to human health, emulsifiers are widely prevalent in the global market. Therefore, if causality is established, the increased risk could translate into a significant number of preventable cancers at the population level. Confirmation of this causal link will need to be obtained through experimental and epidemiological studies.

This story was translated from JIM, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Food emulsifiers are among the most widespread food additives. A large cohort study highlighted an association between the consumption of certain emulsifiers and an increased risk for certain cancers, particularly breast and prostate cancer.

Ultraprocessed foods constitute a significant part of our diet, representing approximately 30% of energy intake in France.

Large epidemiologic studies have already linked diets rich in ultraprocessed products to an increased risk for cardiovascular diseases, diabetes, obesity, and mortality. Possible explanations for this association include the presence of additives, particularly emulsifiers. These additives are intended to improve the texture and shelf life of foods.

Recent experimental studies have shown that emulsifiers alter the gut microbiota and may lead to low-grade inflammation. Dysbiosis and chronic inflammation not only increase the risk for inflammatory bowel diseases but are also implicated in the etiology of several other chronic pathologies and certain extraintestinal cancers.

The NutriNet-Santé study provided extensive information on the dietary habits of > 100,000 French participants. A new analysis was conducted, examining the possible link between the presence of emulsifiers in the diet and cancer occurrence. Data from 92,000 participants (78.8% women) were utilized. They covered an average follow-up of 6.7 years, during which 2604 cancer cases were diagnosed, including 750 breast cancers, 322 prostate cancers, and 207 colorectal cancers.

In this cohort, the risk for cancer increased with a higher presence in the diet of products containing certain emulsifiers widely used in industrial food in Europe: Carrageenans (E407), mono- and diglycerides of fatty acids (E471), pectins (E440), and sodium carbonate (E500).

Notably, the highest consumption of mono- and diglycerides of fatty acids (E471) was associated with a 15% increase in the risk for all types of cancer, a 24% increase in breast cancer risk, and a 46% increase in prostate cancer risk. The highest consumption of carrageenans (E407) was associated with a 28% increase in breast cancer risk.

In an analysis by menopausal status, the risk for breast cancer before menopause was associated with high consumption of diphosphates (E450; 45% increase), pectins (E440; 55% increase), and sodium bicarbonate (E500; 48% increase). No link was found between emulsifier consumption and colorectal cancer risk. While some associations were observed for other emulsifiers, they did not persist in sensitivity analyses.

The European Food Safety Agency recently evaluated the risks of emulsifiers, however, and found no safety issues or need to limit daily consumption of several of them, notably E471.

It is certain that cancer is multifactorial, and a single factor (here, exposure to emulsifiers) will not significantly increase the risk. However, while not essential to human health, emulsifiers are widely prevalent in the global market. Therefore, if causality is established, the increased risk could translate into a significant number of preventable cancers at the population level. Confirmation of this causal link will need to be obtained through experimental and epidemiological studies.

This story was translated from JIM, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Food emulsifiers are among the most widespread food additives. A large cohort study highlighted an association between the consumption of certain emulsifiers and an increased risk for certain cancers, particularly breast and prostate cancer.

Ultraprocessed foods constitute a significant part of our diet, representing approximately 30% of energy intake in France.

Large epidemiologic studies have already linked diets rich in ultraprocessed products to an increased risk for cardiovascular diseases, diabetes, obesity, and mortality. Possible explanations for this association include the presence of additives, particularly emulsifiers. These additives are intended to improve the texture and shelf life of foods.

Recent experimental studies have shown that emulsifiers alter the gut microbiota and may lead to low-grade inflammation. Dysbiosis and chronic inflammation not only increase the risk for inflammatory bowel diseases but are also implicated in the etiology of several other chronic pathologies and certain extraintestinal cancers.

The NutriNet-Santé study provided extensive information on the dietary habits of > 100,000 French participants. A new analysis was conducted, examining the possible link between the presence of emulsifiers in the diet and cancer occurrence. Data from 92,000 participants (78.8% women) were utilized. They covered an average follow-up of 6.7 years, during which 2604 cancer cases were diagnosed, including 750 breast cancers, 322 prostate cancers, and 207 colorectal cancers.

In this cohort, the risk for cancer increased with a higher presence in the diet of products containing certain emulsifiers widely used in industrial food in Europe: Carrageenans (E407), mono- and diglycerides of fatty acids (E471), pectins (E440), and sodium carbonate (E500).

Notably, the highest consumption of mono- and diglycerides of fatty acids (E471) was associated with a 15% increase in the risk for all types of cancer, a 24% increase in breast cancer risk, and a 46% increase in prostate cancer risk. The highest consumption of carrageenans (E407) was associated with a 28% increase in breast cancer risk.

In an analysis by menopausal status, the risk for breast cancer before menopause was associated with high consumption of diphosphates (E450; 45% increase), pectins (E440; 55% increase), and sodium bicarbonate (E500; 48% increase). No link was found between emulsifier consumption and colorectal cancer risk. While some associations were observed for other emulsifiers, they did not persist in sensitivity analyses.

The European Food Safety Agency recently evaluated the risks of emulsifiers, however, and found no safety issues or need to limit daily consumption of several of them, notably E471.

It is certain that cancer is multifactorial, and a single factor (here, exposure to emulsifiers) will not significantly increase the risk. However, while not essential to human health, emulsifiers are widely prevalent in the global market. Therefore, if causality is established, the increased risk could translate into a significant number of preventable cancers at the population level. Confirmation of this causal link will need to be obtained through experimental and epidemiological studies.

This story was translated from JIM, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

This transcript has been edited for clarity.

I’m delighted to talk about a very interesting topic in this commentary. This is an area that we generally don’t discuss, but it’s one that’s obviously very topical, which includes the question of social media.

The paper I’m referring to is entitled, “More Than a Song and Dance”: Exploration of Patient Perspectives and Educational Quality of Gynecologic Cancer Content on TikTok. The paper was published in Gynecologic Oncology in 2023.

The investigators, very interestingly, looked at the most common hashtags for the five most common gynecologic cancers on TikTok. They had a total of 466.7 million views. They looked at 430 of the 500 top posts that were eligible, looked at 11 central themes, did an objective analysis of educational content based on published strategy for looking at this.

What they found, unfortunately but not surprisingly, overall was that the educational quality and reliability were quite poor. They also noticed considerable differences in disparities based on racial background and really emphasized in their analysis not only how common it is for individuals to look at this content on TikTok but also concerns about what it is that the public, patients, and their families are actually seeing.

This, of course, specifically relates to gynecologic cancers, but almost certainly relates to other cancers as well. Clearly, this is a topic that needs to be discussed widely. It’s very complex and very controversial, but when you think about the information that might be provided to our patients and their families going to social media, it’s important that we understand what they’re seeing, what they’re hearing, what they’re viewing, and the impact this might have on their care and outcomes.

I encourage you to read this very interesting paper if you have an interest in this topic. Again, it was recently published in Gynecologic Oncology. I thank you for your attention.

Dr. Markman is professor, Department of Medical Oncology and Therapeutics Research, City of Hope, Duarte, California; president of Medicine & Science, City of Hope Atlanta, Chicago, and Phoenix. He disclosed ties with GlaxoSmithKline and AstraZeneca.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity.

I’m delighted to talk about a very interesting topic in this commentary. This is an area that we generally don’t discuss, but it’s one that’s obviously very topical, which includes the question of social media.

The paper I’m referring to is entitled, “More Than a Song and Dance”: Exploration of Patient Perspectives and Educational Quality of Gynecologic Cancer Content on TikTok. The paper was published in Gynecologic Oncology in 2023.

The investigators, very interestingly, looked at the most common hashtags for the five most common gynecologic cancers on TikTok. They had a total of 466.7 million views. They looked at 430 of the 500 top posts that were eligible, looked at 11 central themes, did an objective analysis of educational content based on published strategy for looking at this.

What they found, unfortunately but not surprisingly, overall was that the educational quality and reliability were quite poor. They also noticed considerable differences in disparities based on racial background and really emphasized in their analysis not only how common it is for individuals to look at this content on TikTok but also concerns about what it is that the public, patients, and their families are actually seeing.

This, of course, specifically relates to gynecologic cancers, but almost certainly relates to other cancers as well. Clearly, this is a topic that needs to be discussed widely. It’s very complex and very controversial, but when you think about the information that might be provided to our patients and their families going to social media, it’s important that we understand what they’re seeing, what they’re hearing, what they’re viewing, and the impact this might have on their care and outcomes.

I encourage you to read this very interesting paper if you have an interest in this topic. Again, it was recently published in Gynecologic Oncology. I thank you for your attention.

Dr. Markman is professor, Department of Medical Oncology and Therapeutics Research, City of Hope, Duarte, California; president of Medicine & Science, City of Hope Atlanta, Chicago, and Phoenix. He disclosed ties with GlaxoSmithKline and AstraZeneca.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity.

I’m delighted to talk about a very interesting topic in this commentary. This is an area that we generally don’t discuss, but it’s one that’s obviously very topical, which includes the question of social media.

The paper I’m referring to is entitled, “More Than a Song and Dance”: Exploration of Patient Perspectives and Educational Quality of Gynecologic Cancer Content on TikTok. The paper was published in Gynecologic Oncology in 2023.

The investigators, very interestingly, looked at the most common hashtags for the five most common gynecologic cancers on TikTok. They had a total of 466.7 million views. They looked at 430 of the 500 top posts that were eligible, looked at 11 central themes, did an objective analysis of educational content based on published strategy for looking at this.

What they found, unfortunately but not surprisingly, overall was that the educational quality and reliability were quite poor. They also noticed considerable differences in disparities based on racial background and really emphasized in their analysis not only how common it is for individuals to look at this content on TikTok but also concerns about what it is that the public, patients, and their families are actually seeing.

This, of course, specifically relates to gynecologic cancers, but almost certainly relates to other cancers as well. Clearly, this is a topic that needs to be discussed widely. It’s very complex and very controversial, but when you think about the information that might be provided to our patients and their families going to social media, it’s important that we understand what they’re seeing, what they’re hearing, what they’re viewing, and the impact this might have on their care and outcomes.

I encourage you to read this very interesting paper if you have an interest in this topic. Again, it was recently published in Gynecologic Oncology. I thank you for your attention.

Dr. Markman is professor, Department of Medical Oncology and Therapeutics Research, City of Hope, Duarte, California; president of Medicine & Science, City of Hope Atlanta, Chicago, and Phoenix. He disclosed ties with GlaxoSmithKline and AstraZeneca.

A version of this article appeared on Medscape.com.

A group of 16 Democratic legislators on the House Committee on Oversight and Reform has demanded in a letter that the drugmaker Pfizer present details on how the company is responding to shortages of the generic chemotherapy drugs carboplatin, cisplatin, and methotrexate.

In a statement about their February 21 action, the legislators, led by Rep. Jamie Raskin (D-Md.), the committee’s ranking minority member, described their work as a follow up to an earlier investigation into price hikes of generic drugs. While the committee members queried Pfizer over the three oncology medications only, they also sent letters to drugmakers Teva and Sandoz with respect to shortages in other drug classes.

A representative for Pfizer confirmed to MDedge Oncology that the company had received the representatives’ letter but said “we have no further details to provide at this time.”

What is the basis for concern?

All three generic chemotherapy drugs are mainstay treatments used across a broad array of cancers. Though shortages have been reported for several years, they became especially acute after December 2022, when an inspection by the US Food and Drug Administration (FDA) led to regulatory action against an Indian manufacturer, Intas, that produced up to half of the platinum-based therapies supplied globally. The National Comprehensive Cancer Care Network reported in October 2023 that more than 90% of its member centers were struggling to maintain adequate supplies of carboplatin, and 70% had trouble obtaining cisplatin, while the American Society of Clinical Oncology published clinical guidance on alternative treatment strategies.

What has the government done in response to the recent shortages?

The White House and the FDA announced in September that they were working with several manufacturers to help increase supplies of the platinum-based chemotherapies and of methotrexate, and taking measures that included relaxing rules on imports. Recent guidance under a pandemic-era federal law, the 2020 CARES Act, strengthened manufacturer reporting requirements related to drug shortages, and other measures have been proposed. While federal regulators have many tools with which to address drug shortages, they cannot legally oblige a manufacturer to increase production of a drug.

What can the lawmakers expect to achieve with their letter?

By pressuring Pfizer publicly, the lawmakers may be able to nudge the company to take measures to assure more consistent supplies of the three drugs. The lawmakers also said they hoped to glean from Pfizer more insight into the root causes of the shortages and potential remedies. They noted that, in a May 2023 letter by Pfizer to customers, the company had warned of depleted and limited supplies of the three drugs and said it was “working diligently” to increase output. However, the lawmakers wrote, “the root cause is not yet resolved and carboplatin, cisplatin, and methotrexate continue to experience residual delays.”

Why did the committee target Pfizer specifically?

Pfizer and its subsidiaries are among the major manufacturers of the three generic chemotherapy agents mentioned in the letter. The legislators noted that “pharmaceutical companies may not be motivated to produce generic drugs like carboplatin, cisplatin, and methotrexate, because they are not as lucrative as producing patented brand name drugs,” and that “as a principal supplier of carboplatin, cisplatin, and methotrexate, it is critical that Pfizer continues to increase production of these life-sustaining cancer medications, even amidst potential lower profitability.”

The committee members also made reference to news reports of price-gouging with these medications, as smaller hospitals or oncology centers are forced to turn to unscrupulous third-party suppliers.

What is being demanded of Pfizer?

Pfizer was given until March 6 to respond, in writing and in a briefing with committee staff, to a six questions. These queries concern what specific steps the company has taken to increase supplies of the three generic oncology drugs, what Pfizer is doing to help avert price-gouging, whether further oncology drug shortages are anticipated, and how the company is working with the FDA on the matter.

A group of 16 Democratic legislators on the House Committee on Oversight and Reform has demanded in a letter that the drugmaker Pfizer present details on how the company is responding to shortages of the generic chemotherapy drugs carboplatin, cisplatin, and methotrexate.

In a statement about their February 21 action, the legislators, led by Rep. Jamie Raskin (D-Md.), the committee’s ranking minority member, described their work as a follow up to an earlier investigation into price hikes of generic drugs. While the committee members queried Pfizer over the three oncology medications only, they also sent letters to drugmakers Teva and Sandoz with respect to shortages in other drug classes.

A representative for Pfizer confirmed to MDedge Oncology that the company had received the representatives’ letter but said “we have no further details to provide at this time.”

What is the basis for concern?

All three generic chemotherapy drugs are mainstay treatments used across a broad array of cancers. Though shortages have been reported for several years, they became especially acute after December 2022, when an inspection by the US Food and Drug Administration (FDA) led to regulatory action against an Indian manufacturer, Intas, that produced up to half of the platinum-based therapies supplied globally. The National Comprehensive Cancer Care Network reported in October 2023 that more than 90% of its member centers were struggling to maintain adequate supplies of carboplatin, and 70% had trouble obtaining cisplatin, while the American Society of Clinical Oncology published clinical guidance on alternative treatment strategies.

What has the government done in response to the recent shortages?

The White House and the FDA announced in September that they were working with several manufacturers to help increase supplies of the platinum-based chemotherapies and of methotrexate, and taking measures that included relaxing rules on imports. Recent guidance under a pandemic-era federal law, the 2020 CARES Act, strengthened manufacturer reporting requirements related to drug shortages, and other measures have been proposed. While federal regulators have many tools with which to address drug shortages, they cannot legally oblige a manufacturer to increase production of a drug.

What can the lawmakers expect to achieve with their letter?

By pressuring Pfizer publicly, the lawmakers may be able to nudge the company to take measures to assure more consistent supplies of the three drugs. The lawmakers also said they hoped to glean from Pfizer more insight into the root causes of the shortages and potential remedies. They noted that, in a May 2023 letter by Pfizer to customers, the company had warned of depleted and limited supplies of the three drugs and said it was “working diligently” to increase output. However, the lawmakers wrote, “the root cause is not yet resolved and carboplatin, cisplatin, and methotrexate continue to experience residual delays.”

Why did the committee target Pfizer specifically?

Pfizer and its subsidiaries are among the major manufacturers of the three generic chemotherapy agents mentioned in the letter. The legislators noted that “pharmaceutical companies may not be motivated to produce generic drugs like carboplatin, cisplatin, and methotrexate, because they are not as lucrative as producing patented brand name drugs,” and that “as a principal supplier of carboplatin, cisplatin, and methotrexate, it is critical that Pfizer continues to increase production of these life-sustaining cancer medications, even amidst potential lower profitability.”

The committee members also made reference to news reports of price-gouging with these medications, as smaller hospitals or oncology centers are forced to turn to unscrupulous third-party suppliers.

What is being demanded of Pfizer?

Pfizer was given until March 6 to respond, in writing and in a briefing with committee staff, to a six questions. These queries concern what specific steps the company has taken to increase supplies of the three generic oncology drugs, what Pfizer is doing to help avert price-gouging, whether further oncology drug shortages are anticipated, and how the company is working with the FDA on the matter.

A group of 16 Democratic legislators on the House Committee on Oversight and Reform has demanded in a letter that the drugmaker Pfizer present details on how the company is responding to shortages of the generic chemotherapy drugs carboplatin, cisplatin, and methotrexate.

In a statement about their February 21 action, the legislators, led by Rep. Jamie Raskin (D-Md.), the committee’s ranking minority member, described their work as a follow up to an earlier investigation into price hikes of generic drugs. While the committee members queried Pfizer over the three oncology medications only, they also sent letters to drugmakers Teva and Sandoz with respect to shortages in other drug classes.

A representative for Pfizer confirmed to MDedge Oncology that the company had received the representatives’ letter but said “we have no further details to provide at this time.”

What is the basis for concern?

All three generic chemotherapy drugs are mainstay treatments used across a broad array of cancers. Though shortages have been reported for several years, they became especially acute after December 2022, when an inspection by the US Food and Drug Administration (FDA) led to regulatory action against an Indian manufacturer, Intas, that produced up to half of the platinum-based therapies supplied globally. The National Comprehensive Cancer Care Network reported in October 2023 that more than 90% of its member centers were struggling to maintain adequate supplies of carboplatin, and 70% had trouble obtaining cisplatin, while the American Society of Clinical Oncology published clinical guidance on alternative treatment strategies.

What has the government done in response to the recent shortages?

The White House and the FDA announced in September that they were working with several manufacturers to help increase supplies of the platinum-based chemotherapies and of methotrexate, and taking measures that included relaxing rules on imports. Recent guidance under a pandemic-era federal law, the 2020 CARES Act, strengthened manufacturer reporting requirements related to drug shortages, and other measures have been proposed. While federal regulators have many tools with which to address drug shortages, they cannot legally oblige a manufacturer to increase production of a drug.

What can the lawmakers expect to achieve with their letter?

By pressuring Pfizer publicly, the lawmakers may be able to nudge the company to take measures to assure more consistent supplies of the three drugs. The lawmakers also said they hoped to glean from Pfizer more insight into the root causes of the shortages and potential remedies. They noted that, in a May 2023 letter by Pfizer to customers, the company had warned of depleted and limited supplies of the three drugs and said it was “working diligently” to increase output. However, the lawmakers wrote, “the root cause is not yet resolved and carboplatin, cisplatin, and methotrexate continue to experience residual delays.”

Why did the committee target Pfizer specifically?

Pfizer and its subsidiaries are among the major manufacturers of the three generic chemotherapy agents mentioned in the letter. The legislators noted that “pharmaceutical companies may not be motivated to produce generic drugs like carboplatin, cisplatin, and methotrexate, because they are not as lucrative as producing patented brand name drugs,” and that “as a principal supplier of carboplatin, cisplatin, and methotrexate, it is critical that Pfizer continues to increase production of these life-sustaining cancer medications, even amidst potential lower profitability.”

The committee members also made reference to news reports of price-gouging with these medications, as smaller hospitals or oncology centers are forced to turn to unscrupulous third-party suppliers.

What is being demanded of Pfizer?

Pfizer was given until March 6 to respond, in writing and in a briefing with committee staff, to a six questions. These queries concern what specific steps the company has taken to increase supplies of the three generic oncology drugs, what Pfizer is doing to help avert price-gouging, whether further oncology drug shortages are anticipated, and how the company is working with the FDA on the matter.

This article was originally published on February 10 in Eric Topol’s substack “Ground Truths.”

It’s astounding how devious cancer cells and tumor tissue can be. This week in Science we learned how certain lung cancer cells can function like “Catch Me If You Can” — changing their driver mutation and cell identity to escape targeted therapy. This histologic transformation, as seen in an experimental model, is just one of so many cancer tricks that we are learning about.

Recently, as shown by single-cell sequencing, cancer cells can steal the mitochondria from T cells, a double whammy that turbocharges cancer cells with the hijacked fuel supply and, at the same time, dismantles the immune response.

Last week, we saw how tumor cells can release a virus-like protein that unleashes a vicious autoimmune response.

And then there’s the finding that cancer cell spread predominantly is occurring while we sleep.

As I previously reviewed, the ability for cancer cells to hijack neurons and neural circuits is now well established, no less their ability to reprogram neurons to become adrenergic and stimulate tumor progression, and interfere with the immune response. Stay tuned on that for a new Ground Truths podcast with Prof Michelle Monje, a leader in cancer neuroscience, which will post soon.

Add advancing age’s immunosenescence as yet another challenge to the long and growing list of formidable ways that cancer cells, and the tumor microenvironment, evade our immune response.

An Ever-Expanding Armamentarium

All of this is telling us how we need to ramp up our game if we are going to be able to use our immune system to quash a cancer. Fortunately, we have abundant and ever-growing capabilities for doing just that.

Immune Checkpoint Inhibitors

The field of immunotherapies took off with the immune checkpoint inhibitors, first approved by the FDA in 2011, that take the brakes off of T cells, with the programmed death-1 (PD-1), PD-ligand1, and anti-CTLA-4 monoclonal antibodies.

But we’re clearly learning they are not enough to prevail over cancer with common recurrences, only short term success in most patients, with some notable exceptions. Adding other immune response strategies, such as a vaccine, or antibody-drug conjugates, or engineered T cells, are showing improved chances for success.

Therapeutic Cancer Vaccines

There are many therapeutic cancer vaccines in the works, as reviewed in depth here.

Here’s a list of ongoing clinical trials of cancer vaccines. You’ll note most of these are on top of a checkpoint inhibitor and use personalized neoantigens (cancer cell surface proteins) derived from sequencing (whole-exome or whole genome, RNA-sequencing and HLA-profiling) the patient’s tumor.

An example of positive findings is with the combination of an mRNA-nanoparticle vaccine with up to 34 personalized neoantigens and pembrolizumab (Keytruda) vs pembrolizumab alone in advanced melanoma after resection, with improved outcomes at 3-year follow-up, cutting death or relapse rate in half.

Antibody-Drug Conjugates (ADC)

There is considerable excitement about antibody-drug conjugates (ADC) whereby a linker is used to attach a chemotherapy agent to the checkpoint inhibitor antibody, specifically targeting the cancer cell and facilitating entry of the chemotherapy into the cell. Akin to these are bispecific antibodies (BiTEs, binding to a tumor antigen and T cell receptor simultaneously), both of these conjugates acting as “biologic” or “guided” missiles.

A very good example of the potency of an ADC was seen in a “HER2-low” breast cancer randomized trial. The absence or very low expression or amplification of the HER2 receptor is common in breast cancer and successful treatment has been elusive. A randomized trial of an ADC (trastuzumab deruxtecan) compared to physician’s choice therapy demonstrated a marked success for progression-free survival in HER2-low patients, which was characterized as “unheard-of success” by media coverage.

This strategy is being used to target some of the most difficult cancer driver mutations such as TP53 and KRAS.

Oncolytic Viruses

Modifying viruses to infect the tumor and make it more visible to the immune system, potentiating anti-tumor responses, known as oncolytic viruses, have been proposed as a way to rev up the immune response for a long time but without positive Phase 3 clinical trials.

After decades of failure, a recent trial in refractory bladder cancer showed marked success, along with others, summarized here, now providing very encouraging results. It looks like oncolytic viruses are on a comeback path.

Engineering T Cells (Chimeric Antigen Receptor [CAR-T])

As I recently reviewed, there are over 500 ongoing clinical trials to build on the success of the first CAR-T approval for leukemia 7 years ago. I won’t go through that all again here, but to reiterate most of the success to date has been in “liquid” blood (leukemia and lymphoma) cancer tumors. This week in Nature is the discovery of a T cell cancer mutation, a gene fusion CARD11-PIK3R3, from a T cell lymphoma that can potentially be used to augment CAR-T efficacy. It has pronounced and prolonged effects in the experimental model. Instead of 1 million cells needed for treatment, even 20,000 were enough to melt the tumor. This is a noteworthy discovery since CAR-T work to date has largely not exploited such naturally occurring mutations, while instead concentrating on those seen in the patient’s set of key tumor mutations.

As currently conceived, CAR-T, and what is being referred to more broadly as adoptive cell therapies, involves removing T cells from the patient’s body and engineering their activation, then reintroducing them back to the patient. This is laborious, technically difficult, and very expensive. Recently, the idea of achieving all of this via an injection of virus that specifically infects T cells and inserts the genes needed, was advanced by two biotech companies with preclinical results, one in non-human primates.

Gearing up to meet the challenge of solid tumor CAR-T intervention, there’s more work using CRISPR genome editing of T cell receptors. A.I. is increasingly being exploited to process the data from sequencing and identify optimal neoantigens.

Instead of just CAR-T, we’re seeing the emergence of CAR-macrophage and CAR-natural killer (NK) cells strategies, and rapidly expanding potential combinations of all the strategies I’ve mentioned. No less, there’s been maturation of on-off suicide switches programmed in, to limit cytokine release and promote safety of these interventions. Overall, major side effects of immunotherapies are not only cytokine release syndromes, but also include interstitial pneumonitis and neurotoxicity.

Summary

Given the multitude of ways cancer cells and tumor tissue can evade our immune response, durably successful treatment remains a daunting challenge. But the ingenuity of so many different approaches to unleash our immune response, and their combinations, provides considerable hope that we’ll increasingly meet the challenge in the years ahead. We have clearly learned that combining different immunotherapy strategies will be essential for many patients with the most resilient solid tumors.

Of concern, as noted by a recent editorial in The Lancet, entitled “Cancer Research Equity: Innovations For The Many, Not The Few,” is that these individualized, sophisticated strategies are not scalable; they will have limited reach and benefit. The movement towards “off the shelf” CAR-T and inexpensive, orally active checkpoint inhibitors may help mitigate this issue.

Notwithstanding this important concern, we’re seeing an array of diverse and potent immunotherapy strategies that are providing highly encouraging results, engendering more excitement than we’ve seen in this space for some time. These should propel substantial improvements in outcomes for patients in the years ahead. It can’t happen soon enough.

Thanks for reading this edition of Ground Truths. If you found it informative, please share it with your colleagues.

Dr. Topol has disclosed the following relevant financial relationships: Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for Dexcom; Illumina; Molecular Stethoscope; Quest Diagnostics; Blue Cross Blue Shield Association. Received research grant from National Institutes of Health.

A version of this article appeared on Medscape.com.

This article was originally published on February 10 in Eric Topol’s substack “Ground Truths.”

It’s astounding how devious cancer cells and tumor tissue can be. This week in Science we learned how certain lung cancer cells can function like “Catch Me If You Can” — changing their driver mutation and cell identity to escape targeted therapy. This histologic transformation, as seen in an experimental model, is just one of so many cancer tricks that we are learning about.

Recently, as shown by single-cell sequencing, cancer cells can steal the mitochondria from T cells, a double whammy that turbocharges cancer cells with the hijacked fuel supply and, at the same time, dismantles the immune response.

Last week, we saw how tumor cells can release a virus-like protein that unleashes a vicious autoimmune response.

And then there’s the finding that cancer cell spread predominantly is occurring while we sleep.

As I previously reviewed, the ability for cancer cells to hijack neurons and neural circuits is now well established, no less their ability to reprogram neurons to become adrenergic and stimulate tumor progression, and interfere with the immune response. Stay tuned on that for a new Ground Truths podcast with Prof Michelle Monje, a leader in cancer neuroscience, which will post soon.

Add advancing age’s immunosenescence as yet another challenge to the long and growing list of formidable ways that cancer cells, and the tumor microenvironment, evade our immune response.

An Ever-Expanding Armamentarium

All of this is telling us how we need to ramp up our game if we are going to be able to use our immune system to quash a cancer. Fortunately, we have abundant and ever-growing capabilities for doing just that.

Immune Checkpoint Inhibitors

The field of immunotherapies took off with the immune checkpoint inhibitors, first approved by the FDA in 2011, that take the brakes off of T cells, with the programmed death-1 (PD-1), PD-ligand1, and anti-CTLA-4 monoclonal antibodies.

But we’re clearly learning they are not enough to prevail over cancer with common recurrences, only short term success in most patients, with some notable exceptions. Adding other immune response strategies, such as a vaccine, or antibody-drug conjugates, or engineered T cells, are showing improved chances for success.

Therapeutic Cancer Vaccines

There are many therapeutic cancer vaccines in the works, as reviewed in depth here.

Here’s a list of ongoing clinical trials of cancer vaccines. You’ll note most of these are on top of a checkpoint inhibitor and use personalized neoantigens (cancer cell surface proteins) derived from sequencing (whole-exome or whole genome, RNA-sequencing and HLA-profiling) the patient’s tumor.

An example of positive findings is with the combination of an mRNA-nanoparticle vaccine with up to 34 personalized neoantigens and pembrolizumab (Keytruda) vs pembrolizumab alone in advanced melanoma after resection, with improved outcomes at 3-year follow-up, cutting death or relapse rate in half.

Antibody-Drug Conjugates (ADC)

There is considerable excitement about antibody-drug conjugates (ADC) whereby a linker is used to attach a chemotherapy agent to the checkpoint inhibitor antibody, specifically targeting the cancer cell and facilitating entry of the chemotherapy into the cell. Akin to these are bispecific antibodies (BiTEs, binding to a tumor antigen and T cell receptor simultaneously), both of these conjugates acting as “biologic” or “guided” missiles.

A very good example of the potency of an ADC was seen in a “HER2-low” breast cancer randomized trial. The absence or very low expression or amplification of the HER2 receptor is common in breast cancer and successful treatment has been elusive. A randomized trial of an ADC (trastuzumab deruxtecan) compared to physician’s choice therapy demonstrated a marked success for progression-free survival in HER2-low patients, which was characterized as “unheard-of success” by media coverage.

This strategy is being used to target some of the most difficult cancer driver mutations such as TP53 and KRAS.

Oncolytic Viruses

Modifying viruses to infect the tumor and make it more visible to the immune system, potentiating anti-tumor responses, known as oncolytic viruses, have been proposed as a way to rev up the immune response for a long time but without positive Phase 3 clinical trials.

After decades of failure, a recent trial in refractory bladder cancer showed marked success, along with others, summarized here, now providing very encouraging results. It looks like oncolytic viruses are on a comeback path.

Engineering T Cells (Chimeric Antigen Receptor [CAR-T])

As I recently reviewed, there are over 500 ongoing clinical trials to build on the success of the first CAR-T approval for leukemia 7 years ago. I won’t go through that all again here, but to reiterate most of the success to date has been in “liquid” blood (leukemia and lymphoma) cancer tumors. This week in Nature is the discovery of a T cell cancer mutation, a gene fusion CARD11-PIK3R3, from a T cell lymphoma that can potentially be used to augment CAR-T efficacy. It has pronounced and prolonged effects in the experimental model. Instead of 1 million cells needed for treatment, even 20,000 were enough to melt the tumor. This is a noteworthy discovery since CAR-T work to date has largely not exploited such naturally occurring mutations, while instead concentrating on those seen in the patient’s set of key tumor mutations.

As currently conceived, CAR-T, and what is being referred to more broadly as adoptive cell therapies, involves removing T cells from the patient’s body and engineering their activation, then reintroducing them back to the patient. This is laborious, technically difficult, and very expensive. Recently, the idea of achieving all of this via an injection of virus that specifically infects T cells and inserts the genes needed, was advanced by two biotech companies with preclinical results, one in non-human primates.

Gearing up to meet the challenge of solid tumor CAR-T intervention, there’s more work using CRISPR genome editing of T cell receptors. A.I. is increasingly being exploited to process the data from sequencing and identify optimal neoantigens.

Instead of just CAR-T, we’re seeing the emergence of CAR-macrophage and CAR-natural killer (NK) cells strategies, and rapidly expanding potential combinations of all the strategies I’ve mentioned. No less, there’s been maturation of on-off suicide switches programmed in, to limit cytokine release and promote safety of these interventions. Overall, major side effects of immunotherapies are not only cytokine release syndromes, but also include interstitial pneumonitis and neurotoxicity.

Summary

Given the multitude of ways cancer cells and tumor tissue can evade our immune response, durably successful treatment remains a daunting challenge. But the ingenuity of so many different approaches to unleash our immune response, and their combinations, provides considerable hope that we’ll increasingly meet the challenge in the years ahead. We have clearly learned that combining different immunotherapy strategies will be essential for many patients with the most resilient solid tumors.

Of concern, as noted by a recent editorial in The Lancet, entitled “Cancer Research Equity: Innovations For The Many, Not The Few,” is that these individualized, sophisticated strategies are not scalable; they will have limited reach and benefit. The movement towards “off the shelf” CAR-T and inexpensive, orally active checkpoint inhibitors may help mitigate this issue.

Notwithstanding this important concern, we’re seeing an array of diverse and potent immunotherapy strategies that are providing highly encouraging results, engendering more excitement than we’ve seen in this space for some time. These should propel substantial improvements in outcomes for patients in the years ahead. It can’t happen soon enough.

Thanks for reading this edition of Ground Truths. If you found it informative, please share it with your colleagues.

Dr. Topol has disclosed the following relevant financial relationships: Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for Dexcom; Illumina; Molecular Stethoscope; Quest Diagnostics; Blue Cross Blue Shield Association. Received research grant from National Institutes of Health.

A version of this article appeared on Medscape.com.

This article was originally published on February 10 in Eric Topol’s substack “Ground Truths.”

It’s astounding how devious cancer cells and tumor tissue can be. This week in Science we learned how certain lung cancer cells can function like “Catch Me If You Can” — changing their driver mutation and cell identity to escape targeted therapy. This histologic transformation, as seen in an experimental model, is just one of so many cancer tricks that we are learning about.

Recently, as shown by single-cell sequencing, cancer cells can steal the mitochondria from T cells, a double whammy that turbocharges cancer cells with the hijacked fuel supply and, at the same time, dismantles the immune response.

Last week, we saw how tumor cells can release a virus-like protein that unleashes a vicious autoimmune response.

And then there’s the finding that cancer cell spread predominantly is occurring while we sleep.

As I previously reviewed, the ability for cancer cells to hijack neurons and neural circuits is now well established, no less their ability to reprogram neurons to become adrenergic and stimulate tumor progression, and interfere with the immune response. Stay tuned on that for a new Ground Truths podcast with Prof Michelle Monje, a leader in cancer neuroscience, which will post soon.

Add advancing age’s immunosenescence as yet another challenge to the long and growing list of formidable ways that cancer cells, and the tumor microenvironment, evade our immune response.

An Ever-Expanding Armamentarium

All of this is telling us how we need to ramp up our game if we are going to be able to use our immune system to quash a cancer. Fortunately, we have abundant and ever-growing capabilities for doing just that.

Immune Checkpoint Inhibitors

The field of immunotherapies took off with the immune checkpoint inhibitors, first approved by the FDA in 2011, that take the brakes off of T cells, with the programmed death-1 (PD-1), PD-ligand1, and anti-CTLA-4 monoclonal antibodies.

But we’re clearly learning they are not enough to prevail over cancer with common recurrences, only short term success in most patients, with some notable exceptions. Adding other immune response strategies, such as a vaccine, or antibody-drug conjugates, or engineered T cells, are showing improved chances for success.

Therapeutic Cancer Vaccines

There are many therapeutic cancer vaccines in the works, as reviewed in depth here.

Here’s a list of ongoing clinical trials of cancer vaccines. You’ll note most of these are on top of a checkpoint inhibitor and use personalized neoantigens (cancer cell surface proteins) derived from sequencing (whole-exome or whole genome, RNA-sequencing and HLA-profiling) the patient’s tumor.

An example of positive findings is with the combination of an mRNA-nanoparticle vaccine with up to 34 personalized neoantigens and pembrolizumab (Keytruda) vs pembrolizumab alone in advanced melanoma after resection, with improved outcomes at 3-year follow-up, cutting death or relapse rate in half.

Antibody-Drug Conjugates (ADC)

There is considerable excitement about antibody-drug conjugates (ADC) whereby a linker is used to attach a chemotherapy agent to the checkpoint inhibitor antibody, specifically targeting the cancer cell and facilitating entry of the chemotherapy into the cell. Akin to these are bispecific antibodies (BiTEs, binding to a tumor antigen and T cell receptor simultaneously), both of these conjugates acting as “biologic” or “guided” missiles.

A very good example of the potency of an ADC was seen in a “HER2-low” breast cancer randomized trial. The absence or very low expression or amplification of the HER2 receptor is common in breast cancer and successful treatment has been elusive. A randomized trial of an ADC (trastuzumab deruxtecan) compared to physician’s choice therapy demonstrated a marked success for progression-free survival in HER2-low patients, which was characterized as “unheard-of success” by media coverage.

This strategy is being used to target some of the most difficult cancer driver mutations such as TP53 and KRAS.

Oncolytic Viruses

Modifying viruses to infect the tumor and make it more visible to the immune system, potentiating anti-tumor responses, known as oncolytic viruses, have been proposed as a way to rev up the immune response for a long time but without positive Phase 3 clinical trials.

After decades of failure, a recent trial in refractory bladder cancer showed marked success, along with others, summarized here, now providing very encouraging results. It looks like oncolytic viruses are on a comeback path.

Engineering T Cells (Chimeric Antigen Receptor [CAR-T])

As I recently reviewed, there are over 500 ongoing clinical trials to build on the success of the first CAR-T approval for leukemia 7 years ago. I won’t go through that all again here, but to reiterate most of the success to date has been in “liquid” blood (leukemia and lymphoma) cancer tumors. This week in Nature is the discovery of a T cell cancer mutation, a gene fusion CARD11-PIK3R3, from a T cell lymphoma that can potentially be used to augment CAR-T efficacy. It has pronounced and prolonged effects in the experimental model. Instead of 1 million cells needed for treatment, even 20,000 were enough to melt the tumor. This is a noteworthy discovery since CAR-T work to date has largely not exploited such naturally occurring mutations, while instead concentrating on those seen in the patient’s set of key tumor mutations.

As currently conceived, CAR-T, and what is being referred to more broadly as adoptive cell therapies, involves removing T cells from the patient’s body and engineering their activation, then reintroducing them back to the patient. This is laborious, technically difficult, and very expensive. Recently, the idea of achieving all of this via an injection of virus that specifically infects T cells and inserts the genes needed, was advanced by two biotech companies with preclinical results, one in non-human primates.

Gearing up to meet the challenge of solid tumor CAR-T intervention, there’s more work using CRISPR genome editing of T cell receptors. A.I. is increasingly being exploited to process the data from sequencing and identify optimal neoantigens.

Instead of just CAR-T, we’re seeing the emergence of CAR-macrophage and CAR-natural killer (NK) cells strategies, and rapidly expanding potential combinations of all the strategies I’ve mentioned. No less, there’s been maturation of on-off suicide switches programmed in, to limit cytokine release and promote safety of these interventions. Overall, major side effects of immunotherapies are not only cytokine release syndromes, but also include interstitial pneumonitis and neurotoxicity.

Summary

Given the multitude of ways cancer cells and tumor tissue can evade our immune response, durably successful treatment remains a daunting challenge. But the ingenuity of so many different approaches to unleash our immune response, and their combinations, provides considerable hope that we’ll increasingly meet the challenge in the years ahead. We have clearly learned that combining different immunotherapy strategies will be essential for many patients with the most resilient solid tumors.

Of concern, as noted by a recent editorial in The Lancet, entitled “Cancer Research Equity: Innovations For The Many, Not The Few,” is that these individualized, sophisticated strategies are not scalable; they will have limited reach and benefit. The movement towards “off the shelf” CAR-T and inexpensive, orally active checkpoint inhibitors may help mitigate this issue.

Notwithstanding this important concern, we’re seeing an array of diverse and potent immunotherapy strategies that are providing highly encouraging results, engendering more excitement than we’ve seen in this space for some time. These should propel substantial improvements in outcomes for patients in the years ahead. It can’t happen soon enough.

Thanks for reading this edition of Ground Truths. If you found it informative, please share it with your colleagues.

Dr. Topol has disclosed the following relevant financial relationships: Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for Dexcom; Illumina; Molecular Stethoscope; Quest Diagnostics; Blue Cross Blue Shield Association. Received research grant from National Institutes of Health.

A version of this article appeared on Medscape.com.

Several new clinical trials in gynecologic cancers have started enrolling recently. Perhaps one of your patients is eligible to take part?

Persistent or recurrent endometrial cancer or any advanced solid gynecologic tumor with appropriate ATR mutations. Patients with one of these diagnoses may be eligible to join a phase 2, randomized, open-label study of an experimental drug called ART0380. ART0380 inhibits the ability of cancer cells to repair DNA damage by targeting a DNA repair kinase called ATR (ataxia telangiectasia–mutated and Rad3-related) protein, which is faulty in some tumors. The hope is that ART0380 will overwhelm the inadequate DNA repair processes of these cancer cells while sparing the more robust DNA repair in healthy cells. 

All participants in the trial will take daily oral ART0380 until disease progression, withdrawal of consent, or unacceptable toxicity, whichever happens first. Some individuals will receive the treatment for 3 weeks out of every 4. Sites in California, Illinois, Massachusetts, New York, Oklahoma, Pennsylvania, Rhode Island, and France started recruiting 60 participants with endometrial cancer or any solid tumor in September 2023. The primary outcome is objective response rate. Overall survival is a secondary measure and quality of life (QOL) is not assessed. More details at ClinicalTrials.gov

Maurie Markman, MD, president of medicine and science at City of Hope, Atlanta, who is not involved in this trial, explained that because “ a meaningful proportion of this population may have a defect in this DNA repair mechanism,” this hypothesis seems “worthy of clinical exploration.” 

Cancer of the endometrium, cervix, vagina, or vulva. Women with one of these types of cancer who can read and understand English or Spanish can join a randomized, open-label phase 2 trial to determine whether Reiki therapy can reduce pain and distress associated with brachytherapy. 

Reiki is a complementary therapy that involves a Reiki practitioner holding their hands lightly on or above the patient’s body for several minutes. Some hospitals in the US and the UK offer Reiki as a relaxation aid, although high-quality science is lacking.

In this study, one group of participants will each undergo Reiki in a quiet clinic room during the lengthy waiting period between placement of the vaginal cylinder and infusion of the radiation source, which is a time of anxiety and discomfort for many women. A second group of women will simply lie and wait in a clinic room, if desired accompanied by a friend or family member. 

The Huntsman Cancer Institute, Salt Lake City, Utah, started recruiting its 68 participants in October 2023. The primary outcome is self-reported anxiety. The secondary outcomes are other validated measures of anxiety, pain, and depression. Overall survival and broader measures of QOL will not be assessed. More details at ClinicalTrials.gov

Dr. Markman said that the benefits of Reiki may be “nothing more than a placebo effect.” But he highlighted the novelty of conducting a randomized trial to scientifically test Reiki’s “widely applied (without any real evidence) ‘integrative medicine’ approach to symptom management.”

Unresectable or metastatic endometrial cancer with deficient mismatch repair /high microsatellite instability. People in this clinical situation whose disease has progressed after one or two lines of prior chemotherapy, including platinum-based treatment, may be interested in an open-label nonrandomized, phase 2 investigation of bispecific antibody acasunlimab in combination with pembrolizumab (Keytruda). 

Acasunlimab stimulates T-cell antitumor activity as well as blocking programmed death ligand 1 (PD-L1) and is being tested in several types of solid-tumor cancer. For up to 2 years, all participants will receive intravenous (IV) infusions of the drug combination. Study sites in Florida and Europe opened in January 2024, ready for 80 participants. The primary outcome is objective response rate. Overall survival will not be assessed. More details at ClinicalTrials.gov

“In the absence of a randomized population to compare treatment outcomes, the results of this trial will likely provide limited data upon which to determine the clinical benefits of this novel drug combination strategy,” said Dr. Markman. However, he added, “the results will be helpful in assessing the potential toxicity of this approach.”

Recurrent or metastatic endometrial cancer with proficient mismatch repair. Women with this diagnosis who have progressed after one prior platinum chemotherapy regimen in any setting may wish to consider a randomized, triple-blind, phase 2 trial of pembrolizumab plus favezelimab. Favezelimab, which blocks the lymphocyte activation gene 3 (LAG3), appears to boost the antitumor activity of programmed cell death protein 1 (PD-1) inhibition in other cancers such as classic Hodgkin lymphoma. 

In the trial, participants will be assigned to one of four groups. One group will receive 17 doses of the combination treatment IV every 3 weeks — three doses in the neoadjuvant period and 14 as adjuvant therapy. A second group of individuals will receive IV pembrolizumab monotherapy on the same schedule. A third will be given up to 35 doses of the combo therapy every 3 weeks plus a daily capsule of lenvatinib (Lenvima). The fourth group will receive 35 doses of pembrolizumab plus daily lenvatinib. 

Sites in North Carolina, New Jersey, Pennsylvania, and four countries other than the US started recruiting 60 participants with a solid tumor in September 2023. Pathologic complete response and objective response rate are the primary endpoints. Overall survival over approximately 3.5 years is a secondary endpoint, and QOL will not be measured. More details at ClinicalTrials.gov

Unresectable advanced or metastatic HER2-positive endometrial or ovarian cancer. Adults with one of these diagnoses in whom failed platinum-based therapy has failed may enroll in an open-label, phase 2 study to see whether their disease will respond to the antibody-drug conjugate disitamab vedotin. Everyone in the trial will receive IV disitamab vedotin every 2 weeks for up to approximately 5 years. 

Study sites in California, Connecticut, Michigan, Minnesota, Montana, New York, Ohio, Texas, and Canada began welcoming their 190 participants with one of a range of solid cancers in November 2023. The primary outcome is objective response rate. Overall survival is a secondary measure and QOL will not be tracked. More details at ClinicalTrials.gov

High-risk locally advanced cervical cancer. Girls and women older than 14 years with this cancer that has not progressed after platinum-based chemoradiation are sought for a randomized, quadruple-blind, phase 3 trial to determine whether the investigational immunotherapy volrustomig can slow disease progression. Volrustomig targets PD-1 and cytotoxic T lymphocyte protein 4 (CTLA4) and is being tested in a wide range of solid cancers. 

For approximately 3 years or until disease progression or death, whichever happens first, half of participants will receive IV infusions of volrustomig while the others will receive saline. Asian research sites started seeking the study’s 1000 participants in September 2023, while centers in 12 US states and eight other countries are gearing up for patient enrollment. Progression-free survival in participants with PD-L1 expression is the primary endpoint; overall survival and QOL are secondary endpoints. More details at ClinicalTrials.gov

All trial information is from the National Institutes of Health US National Library of Medicine (online at ClinicalTrials.gov). Dr. Markman declared he is not involved with these trials.

A version of this article appeared on Medscape.com .

Several new clinical trials in gynecologic cancers have started enrolling recently. Perhaps one of your patients is eligible to take part?

Persistent or recurrent endometrial cancer or any advanced solid gynecologic tumor with appropriate ATR mutations. Patients with one of these diagnoses may be eligible to join a phase 2, randomized, open-label study of an experimental drug called ART0380. ART0380 inhibits the ability of cancer cells to repair DNA damage by targeting a DNA repair kinase called ATR (ataxia telangiectasia–mutated and Rad3-related) protein, which is faulty in some tumors. The hope is that ART0380 will overwhelm the inadequate DNA repair processes of these cancer cells while sparing the more robust DNA repair in healthy cells. 

All participants in the trial will take daily oral ART0380 until disease progression, withdrawal of consent, or unacceptable toxicity, whichever happens first. Some individuals will receive the treatment for 3 weeks out of every 4. Sites in California, Illinois, Massachusetts, New York, Oklahoma, Pennsylvania, Rhode Island, and France started recruiting 60 participants with endometrial cancer or any solid tumor in September 2023. The primary outcome is objective response rate. Overall survival is a secondary measure and quality of life (QOL) is not assessed. More details at ClinicalTrials.gov

Maurie Markman, MD, president of medicine and science at City of Hope, Atlanta, who is not involved in this trial, explained that because “ a meaningful proportion of this population may have a defect in this DNA repair mechanism,” this hypothesis seems “worthy of clinical exploration.” 

Cancer of the endometrium, cervix, vagina, or vulva. Women with one of these types of cancer who can read and understand English or Spanish can join a randomized, open-label phase 2 trial to determine whether Reiki therapy can reduce pain and distress associated with brachytherapy. 

Reiki is a complementary therapy that involves a Reiki practitioner holding their hands lightly on or above the patient’s body for several minutes. Some hospitals in the US and the UK offer Reiki as a relaxation aid, although high-quality science is lacking.

In this study, one group of participants will each undergo Reiki in a quiet clinic room during the lengthy waiting period between placement of the vaginal cylinder and infusion of the radiation source, which is a time of anxiety and discomfort for many women. A second group of women will simply lie and wait in a clinic room, if desired accompanied by a friend or family member. 

The Huntsman Cancer Institute, Salt Lake City, Utah, started recruiting its 68 participants in October 2023. The primary outcome is self-reported anxiety. The secondary outcomes are other validated measures of anxiety, pain, and depression. Overall survival and broader measures of QOL will not be assessed. More details at ClinicalTrials.gov

Dr. Markman said that the benefits of Reiki may be “nothing more than a placebo effect.” But he highlighted the novelty of conducting a randomized trial to scientifically test Reiki’s “widely applied (without any real evidence) ‘integrative medicine’ approach to symptom management.”

Unresectable or metastatic endometrial cancer with deficient mismatch repair /high microsatellite instability. People in this clinical situation whose disease has progressed after one or two lines of prior chemotherapy, including platinum-based treatment, may be interested in an open-label nonrandomized, phase 2 investigation of bispecific antibody acasunlimab in combination with pembrolizumab (Keytruda). 

Acasunlimab stimulates T-cell antitumor activity as well as blocking programmed death ligand 1 (PD-L1) and is being tested in several types of solid-tumor cancer. For up to 2 years, all participants will receive intravenous (IV) infusions of the drug combination. Study sites in Florida and Europe opened in January 2024, ready for 80 participants. The primary outcome is objective response rate. Overall survival will not be assessed. More details at ClinicalTrials.gov

“In the absence of a randomized population to compare treatment outcomes, the results of this trial will likely provide limited data upon which to determine the clinical benefits of this novel drug combination strategy,” said Dr. Markman. However, he added, “the results will be helpful in assessing the potential toxicity of this approach.”

Recurrent or metastatic endometrial cancer with proficient mismatch repair. Women with this diagnosis who have progressed after one prior platinum chemotherapy regimen in any setting may wish to consider a randomized, triple-blind, phase 2 trial of pembrolizumab plus favezelimab. Favezelimab, which blocks the lymphocyte activation gene 3 (LAG3), appears to boost the antitumor activity of programmed cell death protein 1 (PD-1) inhibition in other cancers such as classic Hodgkin lymphoma. 

In the trial, participants will be assigned to one of four groups. One group will receive 17 doses of the combination treatment IV every 3 weeks — three doses in the neoadjuvant period and 14 as adjuvant therapy. A second group of individuals will receive IV pembrolizumab monotherapy on the same schedule. A third will be given up to 35 doses of the combo therapy every 3 weeks plus a daily capsule of lenvatinib (Lenvima). The fourth group will receive 35 doses of pembrolizumab plus daily lenvatinib. 

Sites in North Carolina, New Jersey, Pennsylvania, and four countries other than the US started recruiting 60 participants with a solid tumor in September 2023. Pathologic complete response and objective response rate are the primary endpoints. Overall survival over approximately 3.5 years is a secondary endpoint, and QOL will not be measured. More details at ClinicalTrials.gov

Unresectable advanced or metastatic HER2-positive endometrial or ovarian cancer. Adults with one of these diagnoses in whom failed platinum-based therapy has failed may enroll in an open-label, phase 2 study to see whether their disease will respond to the antibody-drug conjugate disitamab vedotin. Everyone in the trial will receive IV disitamab vedotin every 2 weeks for up to approximately 5 years. 

Study sites in California, Connecticut, Michigan, Minnesota, Montana, New York, Ohio, Texas, and Canada began welcoming their 190 participants with one of a range of solid cancers in November 2023. The primary outcome is objective response rate. Overall survival is a secondary measure and QOL will not be tracked. More details at ClinicalTrials.gov

High-risk locally advanced cervical cancer. Girls and women older than 14 years with this cancer that has not progressed after platinum-based chemoradiation are sought for a randomized, quadruple-blind, phase 3 trial to determine whether the investigational immunotherapy volrustomig can slow disease progression. Volrustomig targets PD-1 and cytotoxic T lymphocyte protein 4 (CTLA4) and is being tested in a wide range of solid cancers. 

For approximately 3 years or until disease progression or death, whichever happens first, half of participants will receive IV infusions of volrustomig while the others will receive saline. Asian research sites started seeking the study’s 1000 participants in September 2023, while centers in 12 US states and eight other countries are gearing up for patient enrollment. Progression-free survival in participants with PD-L1 expression is the primary endpoint; overall survival and QOL are secondary endpoints. More details at ClinicalTrials.gov

All trial information is from the National Institutes of Health US National Library of Medicine (online at ClinicalTrials.gov). Dr. Markman declared he is not involved with these trials.

A version of this article appeared on Medscape.com .

Several new clinical trials in gynecologic cancers have started enrolling recently. Perhaps one of your patients is eligible to take part?

Persistent or recurrent endometrial cancer or any advanced solid gynecologic tumor with appropriate ATR mutations. Patients with one of these diagnoses may be eligible to join a phase 2, randomized, open-label study of an experimental drug called ART0380. ART0380 inhibits the ability of cancer cells to repair DNA damage by targeting a DNA repair kinase called ATR (ataxia telangiectasia–mutated and Rad3-related) protein, which is faulty in some tumors. The hope is that ART0380 will overwhelm the inadequate DNA repair processes of these cancer cells while sparing the more robust DNA repair in healthy cells. 

All participants in the trial will take daily oral ART0380 until disease progression, withdrawal of consent, or unacceptable toxicity, whichever happens first. Some individuals will receive the treatment for 3 weeks out of every 4. Sites in California, Illinois, Massachusetts, New York, Oklahoma, Pennsylvania, Rhode Island, and France started recruiting 60 participants with endometrial cancer or any solid tumor in September 2023. The primary outcome is objective response rate. Overall survival is a secondary measure and quality of life (QOL) is not assessed. More details at ClinicalTrials.gov

Maurie Markman, MD, president of medicine and science at City of Hope, Atlanta, who is not involved in this trial, explained that because “ a meaningful proportion of this population may have a defect in this DNA repair mechanism,” this hypothesis seems “worthy of clinical exploration.” 

Cancer of the endometrium, cervix, vagina, or vulva. Women with one of these types of cancer who can read and understand English or Spanish can join a randomized, open-label phase 2 trial to determine whether Reiki therapy can reduce pain and distress associated with brachytherapy. 

Reiki is a complementary therapy that involves a Reiki practitioner holding their hands lightly on or above the patient’s body for several minutes. Some hospitals in the US and the UK offer Reiki as a relaxation aid, although high-quality science is lacking.

In this study, one group of participants will each undergo Reiki in a quiet clinic room during the lengthy waiting period between placement of the vaginal cylinder and infusion of the radiation source, which is a time of anxiety and discomfort for many women. A second group of women will simply lie and wait in a clinic room, if desired accompanied by a friend or family member. 

The Huntsman Cancer Institute, Salt Lake City, Utah, started recruiting its 68 participants in October 2023. The primary outcome is self-reported anxiety. The secondary outcomes are other validated measures of anxiety, pain, and depression. Overall survival and broader measures of QOL will not be assessed. More details at ClinicalTrials.gov

Dr. Markman said that the benefits of Reiki may be “nothing more than a placebo effect.” But he highlighted the novelty of conducting a randomized trial to scientifically test Reiki’s “widely applied (without any real evidence) ‘integrative medicine’ approach to symptom management.”

Unresectable or metastatic endometrial cancer with deficient mismatch repair /high microsatellite instability. People in this clinical situation whose disease has progressed after one or two lines of prior chemotherapy, including platinum-based treatment, may be interested in an open-label nonrandomized, phase 2 investigation of bispecific antibody acasunlimab in combination with pembrolizumab (Keytruda). 

Acasunlimab stimulates T-cell antitumor activity as well as blocking programmed death ligand 1 (PD-L1) and is being tested in several types of solid-tumor cancer. For up to 2 years, all participants will receive intravenous (IV) infusions of the drug combination. Study sites in Florida and Europe opened in January 2024, ready for 80 participants. The primary outcome is objective response rate. Overall survival will not be assessed. More details at ClinicalTrials.gov

“In the absence of a randomized population to compare treatment outcomes, the results of this trial will likely provide limited data upon which to determine the clinical benefits of this novel drug combination strategy,” said Dr. Markman. However, he added, “the results will be helpful in assessing the potential toxicity of this approach.”

Recurrent or metastatic endometrial cancer with proficient mismatch repair. Women with this diagnosis who have progressed after one prior platinum chemotherapy regimen in any setting may wish to consider a randomized, triple-blind, phase 2 trial of pembrolizumab plus favezelimab. Favezelimab, which blocks the lymphocyte activation gene 3 (LAG3), appears to boost the antitumor activity of programmed cell death protein 1 (PD-1) inhibition in other cancers such as classic Hodgkin lymphoma. 

In the trial, participants will be assigned to one of four groups. One group will receive 17 doses of the combination treatment IV every 3 weeks — three doses in the neoadjuvant period and 14 as adjuvant therapy. A second group of individuals will receive IV pembrolizumab monotherapy on the same schedule. A third will be given up to 35 doses of the combo therapy every 3 weeks plus a daily capsule of lenvatinib (Lenvima). The fourth group will receive 35 doses of pembrolizumab plus daily lenvatinib. 

Sites in North Carolina, New Jersey, Pennsylvania, and four countries other than the US started recruiting 60 participants with a solid tumor in September 2023. Pathologic complete response and objective response rate are the primary endpoints. Overall survival over approximately 3.5 years is a secondary endpoint, and QOL will not be measured. More details at ClinicalTrials.gov

Unresectable advanced or metastatic HER2-positive endometrial or ovarian cancer. Adults with one of these diagnoses in whom failed platinum-based therapy has failed may enroll in an open-label, phase 2 study to see whether their disease will respond to the antibody-drug conjugate disitamab vedotin. Everyone in the trial will receive IV disitamab vedotin every 2 weeks for up to approximately 5 years. 

Study sites in California, Connecticut, Michigan, Minnesota, Montana, New York, Ohio, Texas, and Canada began welcoming their 190 participants with one of a range of solid cancers in November 2023. The primary outcome is objective response rate. Overall survival is a secondary measure and QOL will not be tracked. More details at ClinicalTrials.gov

High-risk locally advanced cervical cancer. Girls and women older than 14 years with this cancer that has not progressed after platinum-based chemoradiation are sought for a randomized, quadruple-blind, phase 3 trial to determine whether the investigational immunotherapy volrustomig can slow disease progression. Volrustomig targets PD-1 and cytotoxic T lymphocyte protein 4 (CTLA4) and is being tested in a wide range of solid cancers. 

For approximately 3 years or until disease progression or death, whichever happens first, half of participants will receive IV infusions of volrustomig while the others will receive saline. Asian research sites started seeking the study’s 1000 participants in September 2023, while centers in 12 US states and eight other countries are gearing up for patient enrollment. Progression-free survival in participants with PD-L1 expression is the primary endpoint; overall survival and QOL are secondary endpoints. More details at ClinicalTrials.gov

All trial information is from the National Institutes of Health US National Library of Medicine (online at ClinicalTrials.gov). Dr. Markman declared he is not involved with these trials.

A version of this article appeared on Medscape.com .

This transcript has been edited for clarity.

I want to briefly discuss a critically important topic that cannot be overly emphasized. It is the relevance, the importance, the benefits, and the outcome of HPV vaccination.

The paper I’m referring to was published in Pediatrics in October 2023. It’s titled, “Ten-Year Follow-up of 9-Valent Human Papillomavirus Vaccine: Immunogenicity, Effectiveness, and Safety.”

Let me emphasize that we’re talking about a 10-year follow-up. In this particular paper and analysis, 301 boys — I emphasize boys — were included and 971 girls at 40 different sites in 13 countries, who received the 9-valent vaccine, which includes HPV 16, 18, and seven other types.

These investigators demonstrated that the seropositivity rate 10 years after vaccination remained high for all nine types they looked at. Most importantly, there was not a single case. Not one. Let me repeat this: There was not a single case of high-grade intraepithelial neoplasia, or worse, or condyloma in either males or females. There was not a single case in over 1000 individuals with a follow-up of more than 10 years.

It is difficult to overstate the magnitude of the benefit associated with HPV vaccination for our children and young adults on their risk of developing highly relevant, life-changing, potentially deadly cancers.

For those of you who are interested in this topic — which should include almost all of you, if not all of you — I encourage you to read this very important follow-up paper, again, demonstrating the simple, overwhelming magnitude of the benefit of HPV vaccination. I thank you for your attention.
 

Dr. Markman is a professor in the department of medical oncology and therapeutics research, City of Hope, Duarte, California, and president of medicine and science, City of Hope Atlanta, Chicago, and Phoenix. He disclosed ties with GlaxoSmithKline; AstraZeneca.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity.

I want to briefly discuss a critically important topic that cannot be overly emphasized. It is the relevance, the importance, the benefits, and the outcome of HPV vaccination.

The paper I’m referring to was published in Pediatrics in October 2023. It’s titled, “Ten-Year Follow-up of 9-Valent Human Papillomavirus Vaccine: Immunogenicity, Effectiveness, and Safety.”

Let me emphasize that we’re talking about a 10-year follow-up. In this particular paper and analysis, 301 boys — I emphasize boys — were included and 971 girls at 40 different sites in 13 countries, who received the 9-valent vaccine, which includes HPV 16, 18, and seven other types.

These investigators demonstrated that the seropositivity rate 10 years after vaccination remained high for all nine types they looked at. Most importantly, there was not a single case. Not one. Let me repeat this: There was not a single case of high-grade intraepithelial neoplasia, or worse, or condyloma in either males or females. There was not a single case in over 1000 individuals with a follow-up of more than 10 years.

It is difficult to overstate the magnitude of the benefit associated with HPV vaccination for our children and young adults on their risk of developing highly relevant, life-changing, potentially deadly cancers.

For those of you who are interested in this topic — which should include almost all of you, if not all of you — I encourage you to read this very important follow-up paper, again, demonstrating the simple, overwhelming magnitude of the benefit of HPV vaccination. I thank you for your attention.
 

Dr. Markman is a professor in the department of medical oncology and therapeutics research, City of Hope, Duarte, California, and president of medicine and science, City of Hope Atlanta, Chicago, and Phoenix. He disclosed ties with GlaxoSmithKline; AstraZeneca.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity.

I want to briefly discuss a critically important topic that cannot be overly emphasized. It is the relevance, the importance, the benefits, and the outcome of HPV vaccination.

The paper I’m referring to was published in Pediatrics in October 2023. It’s titled, “Ten-Year Follow-up of 9-Valent Human Papillomavirus Vaccine: Immunogenicity, Effectiveness, and Safety.”

Let me emphasize that we’re talking about a 10-year follow-up. In this particular paper and analysis, 301 boys — I emphasize boys — were included and 971 girls at 40 different sites in 13 countries, who received the 9-valent vaccine, which includes HPV 16, 18, and seven other types.

These investigators demonstrated that the seropositivity rate 10 years after vaccination remained high for all nine types they looked at. Most importantly, there was not a single case. Not one. Let me repeat this: There was not a single case of high-grade intraepithelial neoplasia, or worse, or condyloma in either males or females. There was not a single case in over 1000 individuals with a follow-up of more than 10 years.

It is difficult to overstate the magnitude of the benefit associated with HPV vaccination for our children and young adults on their risk of developing highly relevant, life-changing, potentially deadly cancers.

For those of you who are interested in this topic — which should include almost all of you, if not all of you — I encourage you to read this very important follow-up paper, again, demonstrating the simple, overwhelming magnitude of the benefit of HPV vaccination. I thank you for your attention.
 

Dr. Markman is a professor in the department of medical oncology and therapeutics research, City of Hope, Duarte, California, and president of medicine and science, City of Hope Atlanta, Chicago, and Phoenix. He disclosed ties with GlaxoSmithKline; AstraZeneca.

A version of this article appeared on Medscape.com.

Faced with a positive human papillomavirus (HPV) test, patients are quickly overwhelmed by anxiety-inducing questions. It is crucial to provide them with adequate responses to reassure them, emphasized Jean-Louis Mergui, MD, president of the International Federation for Colposcopy, during the press conference of the Congress of the French Society of Colposcopy and Cervico-Vaginal Pathology.

“Do I have cancer? When did I catch this papillomavirus? Is it dangerous for my partner? How do I get rid of it?” “Not everyone is equipped to answer these four questions. However, it is extremely important that healthcare professionals provide correct answers to patients so that they stop worrying,” Dr. Mergui explained.
 

Papillomavirus and Cancer

One of the first instincts of patients who receive a positive HPV test is to turn to the Internet. There, they read about “high-risk HPV, which is potentially oncogenic,” and become completely panicked, said Dr. Mergui.

However, among women, the probability of having a high-grade CIN3 lesion or higher on the cervix when the HPV test is positive is about 7%, according to the ATHENA study. “About 93% of patients do not have a severe lesion on the cervix. That’s why colposcopy is not performed on all patients. They need to be reassured,” said Dr. Mergui. When the papillomavirus persists, there is a risk for a cervical lesion. After 11 years, between 20% and 30% of patients develop a high-grade lesion on the cervix. However, on average, a high-risk HPV is spontaneously eliminated within 1-2 years. “After 14 months, 50% of women will test negative for their papillomavirus,” Dr. Mergui noted.

“High-risk HPV does not mean there is a lesion; it means there is a risk of developing a lesion on the cervix one day. That’s why these patients need to be monitored and explored,” he added.

In practice, when a patient aged between 30 and 65 years has a positive HPV test, cytology is performed to look for lesions. Only in the case of an abnormal smear, ASC-US, is colposcopy recommended. In the absence of a lesion, a control HPV test is conducted 1 year later to monitor virus persistence.

It should be noted that patients who have been treated for a cervical lesion have a five times higher risk of developing invasive cervical, vaginal, or vulvar cancer. Therefore, treated patients must be monitored once every 3 years for life.
 

Time of Infection

Many patients ask, “When did I catch this papillomavirus?” In response, Dr. Mergui first emphasized that HPV infection is common. “Between ages 15 and 30 years, most of us are infected with a high-risk HPV. When we look at the incidence between ages 15 and 25 years, every year, 20% of all young girls are infected with HPV, including 17% with high-risk HPV. The virus is usually caught within the first 5 years of sexual activity, and typically disappears after about a year,” he explained.

However, the most disturbing scenario for patients is when their last examination was negative, and there is no apparent reason for having caught the virus since then. Suspicion often falls on the partner. Once again, the gynecologist seeks to reassure.

It is possible that the last time screening was conducted, the virus was not sought (HPV test), but rather cervical lesions were sought by smear. However, a normal smear does not mean that the papillomavirus is not present. A negative cytology does not mean a negative HPV test. As we have seen, the virus is not always associated with the presence of a lesion, explained Dr. Mergui.

Also, having had a negative HPV test a few years earlier does not mean that one was not already infected. The HPV test determines the quantity of virus. Therefore, it is possible that the virus was present in small quantities that were without clinical significance (hence, a negative test). However, a few years later, the virus may have multiplied, and the HPV test became positive.

“Sometimes, the virus re-emerges 40, 50 years after infection due to age-related immune decline,” said Dr. Mergui. “So, just because the smear was negative or the HPV test was negative at the last examination does not mean that one was infected between the two.” Moreover, only 15% of couples have the same virus present on the penis or vagina, he pointed out.
 

Protecting One’s Partner

Once the diagnosis is made, it is often too late to protect the partner because they have already been infected. “It is certain that the partner will be infected or has already been infected because when the patient comes to you with a positive HPV test, she has already had sexual intercourse. It is worth noting that the virus can be transmitted through digital touching, and condoms are not very effective in preventing virus transmission,” said Dr. Mergui.

The speaker further clarified that the risk for men is much lower than that for women. “In women, about 40,000 lesions linked to high-risk HPV types, precancerous or cancerous, are observed every year. In men, this number is 1900. So, this represents 20 times fewer neoplastic lesions in men. The problem in men is oropharyngeal lesions, which are three times more common than in women. However, there is no screening for oropharyngeal cancer.”

So, when should the partner consult? Dr. Mergui advised consulting when there are clinically visible lesions (small warts, bumps, or ear, nose, and throat symptoms). “I do not recommend systematic examination of male or female partners,” he added.
 

Clearing the Virus

There are treatments for cervical lesions but not for papillomavirus infection.

“The only thing that can be suggested is quitting smoking, which increases viral clearance, thus reducing viral load. Also, the use of condoms helps improve viral clearance, but when women have a stable relationship, it seems unrealistic to think they will constantly use condoms. Finally, the prophylactic vaccine has been proposed, but it does not treat the infection. In fact, the real solution is to tell patients that they need to continue regular monitoring,” said Dr. Mergui.

“It should be noted that an ongoing study at the European level seems to show that when women who have undergone surgical treatment for a high-grade cervical lesion are vaccinated at the time of treatment or just after treatment, it reduces the risk of recurrence by 50%. So, the risk of recurrence is around 7%-8%. This strategy could be interesting, but for now, there is no official recommendation,” Dr. Mergui concluded.
 

This article was translated from the Medscape French edition. A version of this article appeared on Medscape.com.

Faced with a positive human papillomavirus (HPV) test, patients are quickly overwhelmed by anxiety-inducing questions. It is crucial to provide them with adequate responses to reassure them, emphasized Jean-Louis Mergui, MD, president of the International Federation for Colposcopy, during the press conference of the Congress of the French Society of Colposcopy and Cervico-Vaginal Pathology.

“Do I have cancer? When did I catch this papillomavirus? Is it dangerous for my partner? How do I get rid of it?” “Not everyone is equipped to answer these four questions. However, it is extremely important that healthcare professionals provide correct answers to patients so that they stop worrying,” Dr. Mergui explained.
 

Papillomavirus and Cancer

One of the first instincts of patients who receive a positive HPV test is to turn to the Internet. There, they read about “high-risk HPV, which is potentially oncogenic,” and become completely panicked, said Dr. Mergui.

However, among women, the probability of having a high-grade CIN3 lesion or higher on the cervix when the HPV test is positive is about 7%, according to the ATHENA study. “About 93% of patients do not have a severe lesion on the cervix. That’s why colposcopy is not performed on all patients. They need to be reassured,” said Dr. Mergui. When the papillomavirus persists, there is a risk for a cervical lesion. After 11 years, between 20% and 30% of patients develop a high-grade lesion on the cervix. However, on average, a high-risk HPV is spontaneously eliminated within 1-2 years. “After 14 months, 50% of women will test negative for their papillomavirus,” Dr. Mergui noted.

“High-risk HPV does not mean there is a lesion; it means there is a risk of developing a lesion on the cervix one day. That’s why these patients need to be monitored and explored,” he added.

In practice, when a patient aged between 30 and 65 years has a positive HPV test, cytology is performed to look for lesions. Only in the case of an abnormal smear, ASC-US, is colposcopy recommended. In the absence of a lesion, a control HPV test is conducted 1 year later to monitor virus persistence.

It should be noted that patients who have been treated for a cervical lesion have a five times higher risk of developing invasive cervical, vaginal, or vulvar cancer. Therefore, treated patients must be monitored once every 3 years for life.
 

Time of Infection

Many patients ask, “When did I catch this papillomavirus?” In response, Dr. Mergui first emphasized that HPV infection is common. “Between ages 15 and 30 years, most of us are infected with a high-risk HPV. When we look at the incidence between ages 15 and 25 years, every year, 20% of all young girls are infected with HPV, including 17% with high-risk HPV. The virus is usually caught within the first 5 years of sexual activity, and typically disappears after about a year,” he explained.

However, the most disturbing scenario for patients is when their last examination was negative, and there is no apparent reason for having caught the virus since then. Suspicion often falls on the partner. Once again, the gynecologist seeks to reassure.

It is possible that the last time screening was conducted, the virus was not sought (HPV test), but rather cervical lesions were sought by smear. However, a normal smear does not mean that the papillomavirus is not present. A negative cytology does not mean a negative HPV test. As we have seen, the virus is not always associated with the presence of a lesion, explained Dr. Mergui.

Also, having had a negative HPV test a few years earlier does not mean that one was not already infected. The HPV test determines the quantity of virus. Therefore, it is possible that the virus was present in small quantities that were without clinical significance (hence, a negative test). However, a few years later, the virus may have multiplied, and the HPV test became positive.

“Sometimes, the virus re-emerges 40, 50 years after infection due to age-related immune decline,” said Dr. Mergui. “So, just because the smear was negative or the HPV test was negative at the last examination does not mean that one was infected between the two.” Moreover, only 15% of couples have the same virus present on the penis or vagina, he pointed out.
 

Protecting One’s Partner

Once the diagnosis is made, it is often too late to protect the partner because they have already been infected. “It is certain that the partner will be infected or has already been infected because when the patient comes to you with a positive HPV test, she has already had sexual intercourse. It is worth noting that the virus can be transmitted through digital touching, and condoms are not very effective in preventing virus transmission,” said Dr. Mergui.

The speaker further clarified that the risk for men is much lower than that for women. “In women, about 40,000 lesions linked to high-risk HPV types, precancerous or cancerous, are observed every year. In men, this number is 1900. So, this represents 20 times fewer neoplastic lesions in men. The problem in men is oropharyngeal lesions, which are three times more common than in women. However, there is no screening for oropharyngeal cancer.”

So, when should the partner consult? Dr. Mergui advised consulting when there are clinically visible lesions (small warts, bumps, or ear, nose, and throat symptoms). “I do not recommend systematic examination of male or female partners,” he added.
 

Clearing the Virus

There are treatments for cervical lesions but not for papillomavirus infection.

“The only thing that can be suggested is quitting smoking, which increases viral clearance, thus reducing viral load. Also, the use of condoms helps improve viral clearance, but when women have a stable relationship, it seems unrealistic to think they will constantly use condoms. Finally, the prophylactic vaccine has been proposed, but it does not treat the infection. In fact, the real solution is to tell patients that they need to continue regular monitoring,” said Dr. Mergui.

“It should be noted that an ongoing study at the European level seems to show that when women who have undergone surgical treatment for a high-grade cervical lesion are vaccinated at the time of treatment or just after treatment, it reduces the risk of recurrence by 50%. So, the risk of recurrence is around 7%-8%. This strategy could be interesting, but for now, there is no official recommendation,” Dr. Mergui concluded.
 

This article was translated from the Medscape French edition. A version of this article appeared on Medscape.com.

Faced with a positive human papillomavirus (HPV) test, patients are quickly overwhelmed by anxiety-inducing questions. It is crucial to provide them with adequate responses to reassure them, emphasized Jean-Louis Mergui, MD, president of the International Federation for Colposcopy, during the press conference of the Congress of the French Society of Colposcopy and Cervico-Vaginal Pathology.

“Do I have cancer? When did I catch this papillomavirus? Is it dangerous for my partner? How do I get rid of it?” “Not everyone is equipped to answer these four questions. However, it is extremely important that healthcare professionals provide correct answers to patients so that they stop worrying,” Dr. Mergui explained.
 

Papillomavirus and Cancer

One of the first instincts of patients who receive a positive HPV test is to turn to the Internet. There, they read about “high-risk HPV, which is potentially oncogenic,” and become completely panicked, said Dr. Mergui.

However, among women, the probability of having a high-grade CIN3 lesion or higher on the cervix when the HPV test is positive is about 7%, according to the ATHENA study. “About 93% of patients do not have a severe lesion on the cervix. That’s why colposcopy is not performed on all patients. They need to be reassured,” said Dr. Mergui. When the papillomavirus persists, there is a risk for a cervical lesion. After 11 years, between 20% and 30% of patients develop a high-grade lesion on the cervix. However, on average, a high-risk HPV is spontaneously eliminated within 1-2 years. “After 14 months, 50% of women will test negative for their papillomavirus,” Dr. Mergui noted.

“High-risk HPV does not mean there is a lesion; it means there is a risk of developing a lesion on the cervix one day. That’s why these patients need to be monitored and explored,” he added.

In practice, when a patient aged between 30 and 65 years has a positive HPV test, cytology is performed to look for lesions. Only in the case of an abnormal smear, ASC-US, is colposcopy recommended. In the absence of a lesion, a control HPV test is conducted 1 year later to monitor virus persistence.

It should be noted that patients who have been treated for a cervical lesion have a five times higher risk of developing invasive cervical, vaginal, or vulvar cancer. Therefore, treated patients must be monitored once every 3 years for life.
 

Time of Infection

Many patients ask, “When did I catch this papillomavirus?” In response, Dr. Mergui first emphasized that HPV infection is common. “Between ages 15 and 30 years, most of us are infected with a high-risk HPV. When we look at the incidence between ages 15 and 25 years, every year, 20% of all young girls are infected with HPV, including 17% with high-risk HPV. The virus is usually caught within the first 5 years of sexual activity, and typically disappears after about a year,” he explained.

However, the most disturbing scenario for patients is when their last examination was negative, and there is no apparent reason for having caught the virus since then. Suspicion often falls on the partner. Once again, the gynecologist seeks to reassure.

It is possible that the last time screening was conducted, the virus was not sought (HPV test), but rather cervical lesions were sought by smear. However, a normal smear does not mean that the papillomavirus is not present. A negative cytology does not mean a negative HPV test. As we have seen, the virus is not always associated with the presence of a lesion, explained Dr. Mergui.

Also, having had a negative HPV test a few years earlier does not mean that one was not already infected. The HPV test determines the quantity of virus. Therefore, it is possible that the virus was present in small quantities that were without clinical significance (hence, a negative test). However, a few years later, the virus may have multiplied, and the HPV test became positive.

“Sometimes, the virus re-emerges 40, 50 years after infection due to age-related immune decline,” said Dr. Mergui. “So, just because the smear was negative or the HPV test was negative at the last examination does not mean that one was infected between the two.” Moreover, only 15% of couples have the same virus present on the penis or vagina, he pointed out.
 

Protecting One’s Partner

Once the diagnosis is made, it is often too late to protect the partner because they have already been infected. “It is certain that the partner will be infected or has already been infected because when the patient comes to you with a positive HPV test, she has already had sexual intercourse. It is worth noting that the virus can be transmitted through digital touching, and condoms are not very effective in preventing virus transmission,” said Dr. Mergui.

The speaker further clarified that the risk for men is much lower than that for women. “In women, about 40,000 lesions linked to high-risk HPV types, precancerous or cancerous, are observed every year. In men, this number is 1900. So, this represents 20 times fewer neoplastic lesions in men. The problem in men is oropharyngeal lesions, which are three times more common than in women. However, there is no screening for oropharyngeal cancer.”

So, when should the partner consult? Dr. Mergui advised consulting when there are clinically visible lesions (small warts, bumps, or ear, nose, and throat symptoms). “I do not recommend systematic examination of male or female partners,” he added.
 

Clearing the Virus

There are treatments for cervical lesions but not for papillomavirus infection.

“The only thing that can be suggested is quitting smoking, which increases viral clearance, thus reducing viral load. Also, the use of condoms helps improve viral clearance, but when women have a stable relationship, it seems unrealistic to think they will constantly use condoms. Finally, the prophylactic vaccine has been proposed, but it does not treat the infection. In fact, the real solution is to tell patients that they need to continue regular monitoring,” said Dr. Mergui.

“It should be noted that an ongoing study at the European level seems to show that when women who have undergone surgical treatment for a high-grade cervical lesion are vaccinated at the time of treatment or just after treatment, it reduces the risk of recurrence by 50%. So, the risk of recurrence is around 7%-8%. This strategy could be interesting, but for now, there is no official recommendation,” Dr. Mergui concluded.
 

This article was translated from the Medscape French edition. A version of this article appeared on Medscape.com.

TOPLINE:

The vaccine Cervarix was effective in protecting women from cervical cancer when administered between ages 12 and 13 years, according to a new study published in Journal of the National Cancer Institute.

METHODOLOGY:

• Cervical cancer is the fourth most common cancer among women worldwide.
• Programs to provide Cervarix, a bivalent vaccine, began in the United Kingdom in 2007.
• After the initiation of the programs, administering the vaccine became part of routine care for girls starting at age 12 years.
• Researchers collected data in 2020 from 447,845 women born between 1988 and 1996 from the Scottish cervical cancer screening system to assess the efficacy of Cervarix in lowering rates of cervical cancer.
• They correlated the rate of cervical cancer per 100,000 person-years with data on women regarding vaccination status, age when vaccinated, and deprivation in areas like income, housing, and health.

TAKEAWAY:

• No cases of cervical cancer were found among women who were immunized at ages 12 or 13 years, no matter how many doses they received. 
• Women who were immunized between ages 14 and 18 years and received three doses had fewer instances of cervical cancer compared with unvaccinated women regardless of deprivation status (3.2 cases per 100,00 women vs 8.4 cases per 100,000). 

IN PRACTICE:

“Continued participation in screening and monitoring of outcomes is required, however, to assess the effects of changes in vaccines used and dosage schedules since the start of vaccination in Scotland in 2008 and the longevity of protection the vaccines offer.”

SOURCE:

The study was led by Timothy J. Palmer, PhD, Scottish Clinical Lead for Cervical Screening at Public Health Scotland.

LIMITATIONS:

Only 14,645 women had received just one or two doses, which may have affected the statistical analysis. 

DISCLOSURES:

The study was funded by Public Health Scotland. A coauthor reports attending an advisory board meeting for HOLOGIC and Vaccitech. Her institution received research funding or gratis support funding from Cepheid, Euroimmun, GeneFirst, SelfScreen, Hiantis, Seegene, Roche, Hologic, and Vaccitech in the past 3 years.
 

A version of this article appeared on Medscape.com.

TOPLINE:

The vaccine Cervarix was effective in protecting women from cervical cancer when administered between ages 12 and 13 years, according to a new study published in Journal of the National Cancer Institute.

METHODOLOGY:

• Cervical cancer is the fourth most common cancer among women worldwide.
• Programs to provide Cervarix, a bivalent vaccine, began in the United Kingdom in 2007.
• After the initiation of the programs, administering the vaccine became part of routine care for girls starting at age 12 years.
• Researchers collected data in 2020 from 447,845 women born between 1988 and 1996 from the Scottish cervical cancer screening system to assess the efficacy of Cervarix in lowering rates of cervical cancer.
• They correlated the rate of cervical cancer per 100,000 person-years with data on women regarding vaccination status, age when vaccinated, and deprivation in areas like income, housing, and health.

TAKEAWAY:

• No cases of cervical cancer were found among women who were immunized at ages 12 or 13 years, no matter how many doses they received. 
• Women who were immunized between ages 14 and 18 years and received three doses had fewer instances of cervical cancer compared with unvaccinated women regardless of deprivation status (3.2 cases per 100,00 women vs 8.4 cases per 100,000). 

IN PRACTICE:

“Continued participation in screening and monitoring of outcomes is required, however, to assess the effects of changes in vaccines used and dosage schedules since the start of vaccination in Scotland in 2008 and the longevity of protection the vaccines offer.”

SOURCE:

The study was led by Timothy J. Palmer, PhD, Scottish Clinical Lead for Cervical Screening at Public Health Scotland.

LIMITATIONS:

Only 14,645 women had received just one or two doses, which may have affected the statistical analysis. 

DISCLOSURES:

The study was funded by Public Health Scotland. A coauthor reports attending an advisory board meeting for HOLOGIC and Vaccitech. Her institution received research funding or gratis support funding from Cepheid, Euroimmun, GeneFirst, SelfScreen, Hiantis, Seegene, Roche, Hologic, and Vaccitech in the past 3 years.
 

A version of this article appeared on Medscape.com.

TOPLINE:

The vaccine Cervarix was effective in protecting women from cervical cancer when administered between ages 12 and 13 years, according to a new study published in Journal of the National Cancer Institute.

METHODOLOGY:

• Cervical cancer is the fourth most common cancer among women worldwide.
• Programs to provide Cervarix, a bivalent vaccine, began in the United Kingdom in 2007.
• After the initiation of the programs, administering the vaccine became part of routine care for girls starting at age 12 years.
• Researchers collected data in 2020 from 447,845 women born between 1988 and 1996 from the Scottish cervical cancer screening system to assess the efficacy of Cervarix in lowering rates of cervical cancer.
• They correlated the rate of cervical cancer per 100,000 person-years with data on women regarding vaccination status, age when vaccinated, and deprivation in areas like income, housing, and health.

TAKEAWAY:

• No cases of cervical cancer were found among women who were immunized at ages 12 or 13 years, no matter how many doses they received. 
• Women who were immunized between ages 14 and 18 years and received three doses had fewer instances of cervical cancer compared with unvaccinated women regardless of deprivation status (3.2 cases per 100,00 women vs 8.4 cases per 100,000). 

IN PRACTICE:

“Continued participation in screening and monitoring of outcomes is required, however, to assess the effects of changes in vaccines used and dosage schedules since the start of vaccination in Scotland in 2008 and the longevity of protection the vaccines offer.”

SOURCE:

The study was led by Timothy J. Palmer, PhD, Scottish Clinical Lead for Cervical Screening at Public Health Scotland.

LIMITATIONS:

Only 14,645 women had received just one or two doses, which may have affected the statistical analysis. 

DISCLOSURES:

The study was funded by Public Health Scotland. A coauthor reports attending an advisory board meeting for HOLOGIC and Vaccitech. Her institution received research funding or gratis support funding from Cepheid, Euroimmun, GeneFirst, SelfScreen, Hiantis, Seegene, Roche, Hologic, and Vaccitech in the past 3 years.
 

A version of this article appeared on Medscape.com.

TOPLINE:

A two-step screening strategy in postmenopausal women demonstrated a high specificity, sensitivity, and positive predictive value for detecting ovarian and borderline cancer, with most identified as stage I or II disease, a new analysis with a 21-year follow-up found.

METHODOLOGY:

• Detecting ovarian cancer at stage I or II could significantly reduce ovarian cancer-related deaths, but only 25%-30% of patients are diagnosed at an early stage.
• In this single-arm prospective analysis, 7,856 healthy postmenopausal women received annual screening for ovarian cancer between 2011 and 2022. Screening involved an annual blood test to detect levels of cancer antigen 125 and track these levels over time.
• Investigators used the Risk of Ovarian Cancer Algorithm (ROCA) to determine whether ovarian cancer risk was normal, intermediate, or high. Those with elevated ROCA scores were referred for transvaginal sonography; those with intermediate scores received follow-up blood tests every 3 months.
• Overall, 92.3% of women were normal risk, 5.7% were intermediate, and 2% were high risk and recommended for transvaginal sonography.

TAKEAWAY:

• Most women (95.5%) referred for transvaginal ultrasound had one. Of these ultrasounds, most (90%) were negative or revealed benign findings, 5.2% required a repeat ultrasound, and 4.8% (34 patients) showed suspicious findings.
• Of 34 patients with suspicious findings and recommended for surgery, 15 had ovarian cancer and two had borderline tumors, indicating a positive predictive value of 50% (17 of 34 patients) for ovarian cancer. Of these 17 patients, 12 (70.6%) had stage I or II disease.
• Following abnormal ROCA results, seven other women were diagnosed with endometrial tumors (six of which were stage I), indicating a positive predictive value of 74% (25 of 34) for any cancer.
• The specificity for elevated risk ROCA prompting ultrasound was 98%, and the specificity of the ROCA and ultrasound prompting surgery was 99.8%. The sensitivity for detecting ovarian and borderline cancer was 74% (17 of 23).

IN PRACTICE:

“Remarkably, 70% of ovarian cancers detected by the ROCA” were early stage,” the authors concluded. Although the trial was not powered to detect reduced mortality, the high specificity, positive predictive value, and shift to identifying earlier-stage cancers “support further development of this strategy,” the investigators said.

LIMITATIONS:

This trial was not powered to detect mortality benefit. Six ovarian cancers and borderline tumors were missed. Only 80% of ovarian cancers express cancer antigen 125, potentially limiting the sensitivity of the algorithm.

SOURCE:

This study, led by Chae Young Han from the University of Texas MD Anderson Cancer Center, Houston, was published online on January 12 in the Journal of Clinical Oncology.

DISCLOSURES:

This study was supported by funds from the NCI Early Detection Research Network, the MD Anderson Ovarian SPOREs, the National Cancer Institute, the Department of Health and Human Services, and others. The authors reported receiving research funding, grants, consulting, and personal fees from various companies, including Curio Science, Fujirebio Diagnostics, GlaxoSmithKline, AstraZeneca, and Genentech.

A version of this article appeared on Medscape.com.

TOPLINE:

A two-step screening strategy in postmenopausal women demonstrated a high specificity, sensitivity, and positive predictive value for detecting ovarian and borderline cancer, with most identified as stage I or II disease, a new analysis with a 21-year follow-up found.

METHODOLOGY:

• Detecting ovarian cancer at stage I or II could significantly reduce ovarian cancer-related deaths, but only 25%-30% of patients are diagnosed at an early stage.
• In this single-arm prospective analysis, 7,856 healthy postmenopausal women received annual screening for ovarian cancer between 2011 and 2022. Screening involved an annual blood test to detect levels of cancer antigen 125 and track these levels over time.
• Investigators used the Risk of Ovarian Cancer Algorithm (ROCA) to determine whether ovarian cancer risk was normal, intermediate, or high. Those with elevated ROCA scores were referred for transvaginal sonography; those with intermediate scores received follow-up blood tests every 3 months.
• Overall, 92.3% of women were normal risk, 5.7% were intermediate, and 2% were high risk and recommended for transvaginal sonography.

TAKEAWAY:

• Most women (95.5%) referred for transvaginal ultrasound had one. Of these ultrasounds, most (90%) were negative or revealed benign findings, 5.2% required a repeat ultrasound, and 4.8% (34 patients) showed suspicious findings.
• Of 34 patients with suspicious findings and recommended for surgery, 15 had ovarian cancer and two had borderline tumors, indicating a positive predictive value of 50% (17 of 34 patients) for ovarian cancer. Of these 17 patients, 12 (70.6%) had stage I or II disease.
• Following abnormal ROCA results, seven other women were diagnosed with endometrial tumors (six of which were stage I), indicating a positive predictive value of 74% (25 of 34) for any cancer.
• The specificity for elevated risk ROCA prompting ultrasound was 98%, and the specificity of the ROCA and ultrasound prompting surgery was 99.8%. The sensitivity for detecting ovarian and borderline cancer was 74% (17 of 23).

IN PRACTICE:

“Remarkably, 70% of ovarian cancers detected by the ROCA” were early stage,” the authors concluded. Although the trial was not powered to detect reduced mortality, the high specificity, positive predictive value, and shift to identifying earlier-stage cancers “support further development of this strategy,” the investigators said.

LIMITATIONS:

This trial was not powered to detect mortality benefit. Six ovarian cancers and borderline tumors were missed. Only 80% of ovarian cancers express cancer antigen 125, potentially limiting the sensitivity of the algorithm.

SOURCE:

This study, led by Chae Young Han from the University of Texas MD Anderson Cancer Center, Houston, was published online on January 12 in the Journal of Clinical Oncology.

DISCLOSURES:

This study was supported by funds from the NCI Early Detection Research Network, the MD Anderson Ovarian SPOREs, the National Cancer Institute, the Department of Health and Human Services, and others. The authors reported receiving research funding, grants, consulting, and personal fees from various companies, including Curio Science, Fujirebio Diagnostics, GlaxoSmithKline, AstraZeneca, and Genentech.

A version of this article appeared on Medscape.com.

TOPLINE:

A two-step screening strategy in postmenopausal women demonstrated a high specificity, sensitivity, and positive predictive value for detecting ovarian and borderline cancer, with most identified as stage I or II disease, a new analysis with a 21-year follow-up found.

METHODOLOGY:

• Detecting ovarian cancer at stage I or II could significantly reduce ovarian cancer-related deaths, but only 25%-30% of patients are diagnosed at an early stage.
• In this single-arm prospective analysis, 7,856 healthy postmenopausal women received annual screening for ovarian cancer between 2011 and 2022. Screening involved an annual blood test to detect levels of cancer antigen 125 and track these levels over time.
• Investigators used the Risk of Ovarian Cancer Algorithm (ROCA) to determine whether ovarian cancer risk was normal, intermediate, or high. Those with elevated ROCA scores were referred for transvaginal sonography; those with intermediate scores received follow-up blood tests every 3 months.
• Overall, 92.3% of women were normal risk, 5.7% were intermediate, and 2% were high risk and recommended for transvaginal sonography.

TAKEAWAY:

• Most women (95.5%) referred for transvaginal ultrasound had one. Of these ultrasounds, most (90%) were negative or revealed benign findings, 5.2% required a repeat ultrasound, and 4.8% (34 patients) showed suspicious findings.
• Of 34 patients with suspicious findings and recommended for surgery, 15 had ovarian cancer and two had borderline tumors, indicating a positive predictive value of 50% (17 of 34 patients) for ovarian cancer. Of these 17 patients, 12 (70.6%) had stage I or II disease.
• Following abnormal ROCA results, seven other women were diagnosed with endometrial tumors (six of which were stage I), indicating a positive predictive value of 74% (25 of 34) for any cancer.
• The specificity for elevated risk ROCA prompting ultrasound was 98%, and the specificity of the ROCA and ultrasound prompting surgery was 99.8%. The sensitivity for detecting ovarian and borderline cancer was 74% (17 of 23).

IN PRACTICE:

“Remarkably, 70% of ovarian cancers detected by the ROCA” were early stage,” the authors concluded. Although the trial was not powered to detect reduced mortality, the high specificity, positive predictive value, and shift to identifying earlier-stage cancers “support further development of this strategy,” the investigators said.

LIMITATIONS:

This trial was not powered to detect mortality benefit. Six ovarian cancers and borderline tumors were missed. Only 80% of ovarian cancers express cancer antigen 125, potentially limiting the sensitivity of the algorithm.

SOURCE:

This study, led by Chae Young Han from the University of Texas MD Anderson Cancer Center, Houston, was published online on January 12 in the Journal of Clinical Oncology.

DISCLOSURES:

This study was supported by funds from the NCI Early Detection Research Network, the MD Anderson Ovarian SPOREs, the National Cancer Institute, the Department of Health and Human Services, and others. The authors reported receiving research funding, grants, consulting, and personal fees from various companies, including Curio Science, Fujirebio Diagnostics, GlaxoSmithKline, AstraZeneca, and Genentech.

A version of this article appeared on Medscape.com.

Officials at Dana-Farber Cancer Institute are moving to retract at least six published research papers and correct 31 others amid allegations of data manipulation.

News of the investigation follows a blog post by British molecular biologist Sholto David, MD, who flagged almost 60 papers published between 1997 and 2017 that contained image manipulation and other errors. Some of the papers were published by Dana-Farber’s chief executive officer, Laurie Glimcher, MD, and chief operating officer, William Hahn, MD, on topics including multiple myeloma and immune cells.

Mr. David, who blogs about research integrity, highlighted numerous errors and irregularities, including copying and pasting images across multiple experiments to represent different days within the same experiment, sometimes rotating or stretching images.

In one case, Mr. David equated the manipulation with tactics used by “hapless Chinese papermills” and concluded that “a swathe of research coming out of [Dana-Farber] authored by the most senior researchers and managers appears to be hopelessly corrupt with errors that are obvious from just a cursory reading the papers.” 

“Imagine what mistakes might be found in the raw data if anyone was allowed to look!” he wrote.

Barrett Rollins, MD, PhD, Dana-Farber Cancer Institute’s research integrity officer, declined to comment on whether the errors represent scientific misconduct, according to STAT. Rollins told ScienceInsider that the “presence of image discrepancies in a paper is not evidence of an author’s intent to deceive.” 

Access to new artificial intelligence tools is making it easier for data sleuths, like Mr. David, to unearth data manipulation and errors. 

The current investigation closely follows two other investigations into the published work of Harvard University’s former president, Claudine Gay, and Stanford University’s former president, Marc Tessier-Lavigne, which led both to resign their posts. 

A version of this article appeared on Medscape.com.

Officials at Dana-Farber Cancer Institute are moving to retract at least six published research papers and correct 31 others amid allegations of data manipulation.

News of the investigation follows a blog post by British molecular biologist Sholto David, MD, who flagged almost 60 papers published between 1997 and 2017 that contained image manipulation and other errors. Some of the papers were published by Dana-Farber’s chief executive officer, Laurie Glimcher, MD, and chief operating officer, William Hahn, MD, on topics including multiple myeloma and immune cells.

Mr. David, who blogs about research integrity, highlighted numerous errors and irregularities, including copying and pasting images across multiple experiments to represent different days within the same experiment, sometimes rotating or stretching images.

In one case, Mr. David equated the manipulation with tactics used by “hapless Chinese papermills” and concluded that “a swathe of research coming out of [Dana-Farber] authored by the most senior researchers and managers appears to be hopelessly corrupt with errors that are obvious from just a cursory reading the papers.” 

“Imagine what mistakes might be found in the raw data if anyone was allowed to look!” he wrote.

Barrett Rollins, MD, PhD, Dana-Farber Cancer Institute’s research integrity officer, declined to comment on whether the errors represent scientific misconduct, according to STAT. Rollins told ScienceInsider that the “presence of image discrepancies in a paper is not evidence of an author’s intent to deceive.” 

Access to new artificial intelligence tools is making it easier for data sleuths, like Mr. David, to unearth data manipulation and errors. 

The current investigation closely follows two other investigations into the published work of Harvard University’s former president, Claudine Gay, and Stanford University’s former president, Marc Tessier-Lavigne, which led both to resign their posts. 

A version of this article appeared on Medscape.com.

Officials at Dana-Farber Cancer Institute are moving to retract at least six published research papers and correct 31 others amid allegations of data manipulation.

News of the investigation follows a blog post by British molecular biologist Sholto David, MD, who flagged almost 60 papers published between 1997 and 2017 that contained image manipulation and other errors. Some of the papers were published by Dana-Farber’s chief executive officer, Laurie Glimcher, MD, and chief operating officer, William Hahn, MD, on topics including multiple myeloma and immune cells.

Mr. David, who blogs about research integrity, highlighted numerous errors and irregularities, including copying and pasting images across multiple experiments to represent different days within the same experiment, sometimes rotating or stretching images.

In one case, Mr. David equated the manipulation with tactics used by “hapless Chinese papermills” and concluded that “a swathe of research coming out of [Dana-Farber] authored by the most senior researchers and managers appears to be hopelessly corrupt with errors that are obvious from just a cursory reading the papers.” 

“Imagine what mistakes might be found in the raw data if anyone was allowed to look!” he wrote.

Barrett Rollins, MD, PhD, Dana-Farber Cancer Institute’s research integrity officer, declined to comment on whether the errors represent scientific misconduct, according to STAT. Rollins told ScienceInsider that the “presence of image discrepancies in a paper is not evidence of an author’s intent to deceive.” 

Access to new artificial intelligence tools is making it easier for data sleuths, like Mr. David, to unearth data manipulation and errors. 

The current investigation closely follows two other investigations into the published work of Harvard University’s former president, Claudine Gay, and Stanford University’s former president, Marc Tessier-Lavigne, which led both to resign their posts. 

A version of this article appeared on Medscape.com.