Endocrine Cancer

Background

Merkel cell carcinoma (MCC) is a rare and aggressive primary cutaneous neuroendocrine carcinoma. The disease is associated with Merkel cell polyomavirus, immunosuppression, and ultra-violet radiation. Clinical presentation is highly varied and MCC is not suspected in majority of cases initially. It is rapidly growing and has a poor prognosis with a high mortality rate.

Case 1

A 75-year-old male initially presented with a cutaneous left facial lesion which on biopsy was confirmed to be Merkel cell carcinoma. He underwent wide local excision of the lesion with sentinel lymph node biopsy and was monitored. Six months later he was found to have palpable left parotid nodule, and underwent left parotidectomy and left neck lymph node dissection. The parotid nodule itself was of benign etiology; however, one of the cervical lymph nodes was positive for Merkel cell carcinoma with extranodal extension and lymphovascular invasion. Patient received adjuvant radiation to the site. A year after patient was noted to have bone lesions and other lesions concerning for visceral metastasis on surveillance imaging which were also confirmed to be recurrent MCC by biopsy. Patient was started on immunotherapy afterwards.

Case 2

A 60-year-male patient originally presented with a left inguinal mass. Pathology from the initial biopsy was noted to be small cell neuroendocrine carcinoma of unknown primary. Patient received six cycles of cisplatin and etoposide followed by radiation. Four months later patient was found to have local recurrence and underwent surgical resection, followed by five cycles of cyclophosphamide, doxorubicin, and vincristine. Five months later, the patient had a second recurrence in the surgical bed in addition to multiple subcutaneous nodules in the abdominal wall and lower extremity. A repeat biopsy was performed with Merkel cell polyomavirus testing by immunohistochemistry, which resulted as positive. Patient was started on immunotherapy afterwards.

Discussion

The above two cases represent how Merkel cell carcinoma can have varying presentations either on diagnosis or on progression. Thus, it is important to have a low threshold for biopsy or rebiopsy. Additionally, neuroendocrine carcinomas of unknown primary may benefit from additional Merkel cell IHC testing on diagnosis.

Background

Merkel cell carcinoma (MCC) is a rare and aggressive primary cutaneous neuroendocrine carcinoma. The disease is associated with Merkel cell polyomavirus, immunosuppression, and ultra-violet radiation. Clinical presentation is highly varied and MCC is not suspected in majority of cases initially. It is rapidly growing and has a poor prognosis with a high mortality rate.

Case 1

A 75-year-old male initially presented with a cutaneous left facial lesion which on biopsy was confirmed to be Merkel cell carcinoma. He underwent wide local excision of the lesion with sentinel lymph node biopsy and was monitored. Six months later he was found to have palpable left parotid nodule, and underwent left parotidectomy and left neck lymph node dissection. The parotid nodule itself was of benign etiology; however, one of the cervical lymph nodes was positive for Merkel cell carcinoma with extranodal extension and lymphovascular invasion. Patient received adjuvant radiation to the site. A year after patient was noted to have bone lesions and other lesions concerning for visceral metastasis on surveillance imaging which were also confirmed to be recurrent MCC by biopsy. Patient was started on immunotherapy afterwards.

Case 2

A 60-year-male patient originally presented with a left inguinal mass. Pathology from the initial biopsy was noted to be small cell neuroendocrine carcinoma of unknown primary. Patient received six cycles of cisplatin and etoposide followed by radiation. Four months later patient was found to have local recurrence and underwent surgical resection, followed by five cycles of cyclophosphamide, doxorubicin, and vincristine. Five months later, the patient had a second recurrence in the surgical bed in addition to multiple subcutaneous nodules in the abdominal wall and lower extremity. A repeat biopsy was performed with Merkel cell polyomavirus testing by immunohistochemistry, which resulted as positive. Patient was started on immunotherapy afterwards.

Discussion

The above two cases represent how Merkel cell carcinoma can have varying presentations either on diagnosis or on progression. Thus, it is important to have a low threshold for biopsy or rebiopsy. Additionally, neuroendocrine carcinomas of unknown primary may benefit from additional Merkel cell IHC testing on diagnosis.

Background

Merkel cell carcinoma (MCC) is a rare and aggressive primary cutaneous neuroendocrine carcinoma. The disease is associated with Merkel cell polyomavirus, immunosuppression, and ultra-violet radiation. Clinical presentation is highly varied and MCC is not suspected in majority of cases initially. It is rapidly growing and has a poor prognosis with a high mortality rate.

Case 1

A 75-year-old male initially presented with a cutaneous left facial lesion which on biopsy was confirmed to be Merkel cell carcinoma. He underwent wide local excision of the lesion with sentinel lymph node biopsy and was monitored. Six months later he was found to have palpable left parotid nodule, and underwent left parotidectomy and left neck lymph node dissection. The parotid nodule itself was of benign etiology; however, one of the cervical lymph nodes was positive for Merkel cell carcinoma with extranodal extension and lymphovascular invasion. Patient received adjuvant radiation to the site. A year after patient was noted to have bone lesions and other lesions concerning for visceral metastasis on surveillance imaging which were also confirmed to be recurrent MCC by biopsy. Patient was started on immunotherapy afterwards.

Case 2

A 60-year-male patient originally presented with a left inguinal mass. Pathology from the initial biopsy was noted to be small cell neuroendocrine carcinoma of unknown primary. Patient received six cycles of cisplatin and etoposide followed by radiation. Four months later patient was found to have local recurrence and underwent surgical resection, followed by five cycles of cyclophosphamide, doxorubicin, and vincristine. Five months later, the patient had a second recurrence in the surgical bed in addition to multiple subcutaneous nodules in the abdominal wall and lower extremity. A repeat biopsy was performed with Merkel cell polyomavirus testing by immunohistochemistry, which resulted as positive. Patient was started on immunotherapy afterwards.

Discussion

The above two cases represent how Merkel cell carcinoma can have varying presentations either on diagnosis or on progression. Thus, it is important to have a low threshold for biopsy or rebiopsy. Additionally, neuroendocrine carcinomas of unknown primary may benefit from additional Merkel cell IHC testing on diagnosis.

MRI-invisible prostate lesions. It sounds like the stuff of science fiction and fantasy, a creation from the minds of H.G. Wells, who wrote The Invisible Man, or J.K. Rowling, who authored the Harry Potter series.

But MRI-invisible prostate lesions are real. And what these lesions may, or may not, indicate is the subject of intense debate.

MRI plays an increasingly important role in detecting and diagnosing prostate cancer, staging prostate cancer as well as monitoring disease progression. However, on occasion, a puzzling phenomenon arises. Certain prostate lesions that appear when pathologists examine biopsied tissue samples under a microscope are not visible on MRI. The prostate tissue will, instead, appear normal to a radiologist’s eye.

Why are certain lesions invisible with MRI? And is it dangerous for patients if these lesions are not detected? 

Some experts believe these MRI-invisible lesions are nothing to worry about.

If the clinician can’t see the cancer on MRI, then it simply isn’t a threat, according to Mark Emberton, MD, a pioneer in prostate MRIs and director of interventional oncology at University College London, England.

Laurence Klotz, MD, of the University of Toronto, Ontario, Canada, agreed, noting that “invisible cancers are clinically insignificant and don’t require systematic biopsies.”

Emberton and Klotz compared MRI-invisible lesions to grade group 1 prostate cancer (Gleason score ≤ 6) — the least aggressive category that indicates the cancer that is not likely to spread or kill. For patients on active surveillance, those with MRI-invisible cancers do drastically better than those with visible cancers, Klotz explained.

But other experts in the field are skeptical that MRI-invisible lesions are truly innocuous.

Although statistically an MRI-visible prostate lesion indicates a more aggressive tumor, that is not always the case for every individual, said Brian Helfand, MD, PhD, chief of urology at NorthShore University Health System, Evanston, Illinois.

MRIs can lead to false negatives in about 10%-20% of patients who have clinically significant prostate cancer, though estimates vary.

In one analysis, 16% of men with no suspicious lesions on MRI had clinically significant prostate cancer identified after undergoing a systematic biopsy. Another analysis found that about 35% of MRI-invisible prostate cancers identified via biopsy were clinically significant.

Other studies, however, have indicated that negative MRI results accurately indicate patients at low risk of developing clinically significant cancers. A recent JAMA Oncology analysis, for instance, found that only seven of 233 men (3%) with negative MRI results at baseline who completed 3 years of monitoring were diagnosed with clinically significant prostate cancer.

When a patient has an MRI-invisible prostate tumor, there are a couple of reasons the MRI may not be picking it up, said urologic oncologist Alexander Putnam Cole, MD, assistant professor of surgery, Harvard Medical School, Boston, Massachusetts. “One is that the cancer is aggressive but just very small,” said Cole.

“Another possibility is that the cancer looks very similar to background prostate tissue, which is something that you might expect if you think about more of a low-grade cancer,” he explained.

The experience level of the radiologist interpreting the MRI can also play into the accuracy of the reading.

But Cole agreed that “in general, MRI visibility is associated with molecular and histologic features of progression and aggressiveness and non-visible cancers are less likely to have aggressive features.”

The genomic profiles of MRI-visible and -invisible cancers bear this out.

According to Todd Morgan, MD, chief of urologic oncology at Michigan Medicine, University of Michigan, Ann Arbor, the gene expression in visible disease tends to be linked to more aggressive prostate tumors whereas gene expression in invisible disease does not.

In one analysis, for instance, researchers found that four genes — PHYHD1, CENPF, ALDH2, and GDF15 — associated with worse progression-free survival and metastasis-free survival in prostate cancer also predicted MRI visibility.

“Genes that are associated with visibility are essentially the same genes that are associated with aggressive cancers,” Klotz said.

 

Next Steps After Negative MRI Result

What do MRI-invisible lesions mean for patient care? If, for instance, a patient has elevated PSA levels but a normal MRI, is a targeted or systematic biopsy warranted?

The overarching message, according to Klotz, is that “you don’t need to find them.” Klotz noted, however, that patients with a negative MRI result should still be followed with periodic repeat imaging.

Several trials support this approach of using MRI to decide who needs a biopsy and delaying a biopsy in men with normal MRIs.

The recent JAMA Oncology analysis found that, among men with negative MRI results, 86% avoided a biopsy over 3 years, with clinically significant prostate cancer detected in only 4% of men across the study period — four in the initial diagnostic phase and seven in the 3-year monitoring phase. However, during the initial diagnostic phase, more than half the men with positive MRI findings had clinically significant prostate cancer detected.

Another recent study found that patients with negative MRI results were much less likely to upgrade to higher Gleason scores over time. Among 522 patients who underwent a systematic and targeted biopsy within 18 months of their grade group 1 designation, 9.2% with negative MRI findings had tumors reclassified as grade group 2 or higher vs 27% with positive MRI findings, and 2.3% with negative MRI findings had tumors reclassified as grade group 3 or higher vs 7.8% with positive MRI findings.

These data suggest that men with grade group 1 cancer and negative MRI result “may be able to avoid confirmatory biopsies until a routine surveillance biopsy in 2-3 years,” according to study author Christian Pavlovich, MD, professor of urologic oncology at the Johns Hopkins University School of Medicine, Baltimore.

Cole used MRI findings to triage who gets a biopsy. When a biopsy is warranted, “I usually recommend adding in some systematic sampling of the other side to assess for nonvisible cancers,” he noted.

Sampling prostate tissue outside the target area “adds maybe 1-2 minutes to the procedure and doesn’t drastically increase the morbidity or risks,” Cole said. It also can help “confirm there is cancer in the MRI target and also confirm there is no cancer in the nonvisible areas.” 

According to Klotz, if imaging demonstrates progression, patients should receive a biopsy — in most cases, a targeted biopsy only. And, Klotz noted, skipping routine prostate biopsies in men with negative MRI results can save thousands of men from these procedures, which carry risks for infections and sepsis.

Looking beyond Gleason scores for risk prediction, MRI “visibility is a very powerful risk stratifier,” he said.

A version of this article appeared on Medscape.com.

MRI-invisible prostate lesions. It sounds like the stuff of science fiction and fantasy, a creation from the minds of H.G. Wells, who wrote The Invisible Man, or J.K. Rowling, who authored the Harry Potter series.

But MRI-invisible prostate lesions are real. And what these lesions may, or may not, indicate is the subject of intense debate.

MRI plays an increasingly important role in detecting and diagnosing prostate cancer, staging prostate cancer as well as monitoring disease progression. However, on occasion, a puzzling phenomenon arises. Certain prostate lesions that appear when pathologists examine biopsied tissue samples under a microscope are not visible on MRI. The prostate tissue will, instead, appear normal to a radiologist’s eye.

Why are certain lesions invisible with MRI? And is it dangerous for patients if these lesions are not detected? 

Some experts believe these MRI-invisible lesions are nothing to worry about.

If the clinician can’t see the cancer on MRI, then it simply isn’t a threat, according to Mark Emberton, MD, a pioneer in prostate MRIs and director of interventional oncology at University College London, England.

Laurence Klotz, MD, of the University of Toronto, Ontario, Canada, agreed, noting that “invisible cancers are clinically insignificant and don’t require systematic biopsies.”

Emberton and Klotz compared MRI-invisible lesions to grade group 1 prostate cancer (Gleason score ≤ 6) — the least aggressive category that indicates the cancer that is not likely to spread or kill. For patients on active surveillance, those with MRI-invisible cancers do drastically better than those with visible cancers, Klotz explained.

But other experts in the field are skeptical that MRI-invisible lesions are truly innocuous.

Although statistically an MRI-visible prostate lesion indicates a more aggressive tumor, that is not always the case for every individual, said Brian Helfand, MD, PhD, chief of urology at NorthShore University Health System, Evanston, Illinois.

MRIs can lead to false negatives in about 10%-20% of patients who have clinically significant prostate cancer, though estimates vary.

In one analysis, 16% of men with no suspicious lesions on MRI had clinically significant prostate cancer identified after undergoing a systematic biopsy. Another analysis found that about 35% of MRI-invisible prostate cancers identified via biopsy were clinically significant.

Other studies, however, have indicated that negative MRI results accurately indicate patients at low risk of developing clinically significant cancers. A recent JAMA Oncology analysis, for instance, found that only seven of 233 men (3%) with negative MRI results at baseline who completed 3 years of monitoring were diagnosed with clinically significant prostate cancer.

When a patient has an MRI-invisible prostate tumor, there are a couple of reasons the MRI may not be picking it up, said urologic oncologist Alexander Putnam Cole, MD, assistant professor of surgery, Harvard Medical School, Boston, Massachusetts. “One is that the cancer is aggressive but just very small,” said Cole.

“Another possibility is that the cancer looks very similar to background prostate tissue, which is something that you might expect if you think about more of a low-grade cancer,” he explained.

The experience level of the radiologist interpreting the MRI can also play into the accuracy of the reading.

But Cole agreed that “in general, MRI visibility is associated with molecular and histologic features of progression and aggressiveness and non-visible cancers are less likely to have aggressive features.”

The genomic profiles of MRI-visible and -invisible cancers bear this out.

According to Todd Morgan, MD, chief of urologic oncology at Michigan Medicine, University of Michigan, Ann Arbor, the gene expression in visible disease tends to be linked to more aggressive prostate tumors whereas gene expression in invisible disease does not.

In one analysis, for instance, researchers found that four genes — PHYHD1, CENPF, ALDH2, and GDF15 — associated with worse progression-free survival and metastasis-free survival in prostate cancer also predicted MRI visibility.

“Genes that are associated with visibility are essentially the same genes that are associated with aggressive cancers,” Klotz said.

 

Next Steps After Negative MRI Result

What do MRI-invisible lesions mean for patient care? If, for instance, a patient has elevated PSA levels but a normal MRI, is a targeted or systematic biopsy warranted?

The overarching message, according to Klotz, is that “you don’t need to find them.” Klotz noted, however, that patients with a negative MRI result should still be followed with periodic repeat imaging.

Several trials support this approach of using MRI to decide who needs a biopsy and delaying a biopsy in men with normal MRIs.

The recent JAMA Oncology analysis found that, among men with negative MRI results, 86% avoided a biopsy over 3 years, with clinically significant prostate cancer detected in only 4% of men across the study period — four in the initial diagnostic phase and seven in the 3-year monitoring phase. However, during the initial diagnostic phase, more than half the men with positive MRI findings had clinically significant prostate cancer detected.

Another recent study found that patients with negative MRI results were much less likely to upgrade to higher Gleason scores over time. Among 522 patients who underwent a systematic and targeted biopsy within 18 months of their grade group 1 designation, 9.2% with negative MRI findings had tumors reclassified as grade group 2 or higher vs 27% with positive MRI findings, and 2.3% with negative MRI findings had tumors reclassified as grade group 3 or higher vs 7.8% with positive MRI findings.

These data suggest that men with grade group 1 cancer and negative MRI result “may be able to avoid confirmatory biopsies until a routine surveillance biopsy in 2-3 years,” according to study author Christian Pavlovich, MD, professor of urologic oncology at the Johns Hopkins University School of Medicine, Baltimore.

Cole used MRI findings to triage who gets a biopsy. When a biopsy is warranted, “I usually recommend adding in some systematic sampling of the other side to assess for nonvisible cancers,” he noted.

Sampling prostate tissue outside the target area “adds maybe 1-2 minutes to the procedure and doesn’t drastically increase the morbidity or risks,” Cole said. It also can help “confirm there is cancer in the MRI target and also confirm there is no cancer in the nonvisible areas.” 

According to Klotz, if imaging demonstrates progression, patients should receive a biopsy — in most cases, a targeted biopsy only. And, Klotz noted, skipping routine prostate biopsies in men with negative MRI results can save thousands of men from these procedures, which carry risks for infections and sepsis.

Looking beyond Gleason scores for risk prediction, MRI “visibility is a very powerful risk stratifier,” he said.

A version of this article appeared on Medscape.com.

MRI-invisible prostate lesions. It sounds like the stuff of science fiction and fantasy, a creation from the minds of H.G. Wells, who wrote The Invisible Man, or J.K. Rowling, who authored the Harry Potter series.

But MRI-invisible prostate lesions are real. And what these lesions may, or may not, indicate is the subject of intense debate.

MRI plays an increasingly important role in detecting and diagnosing prostate cancer, staging prostate cancer as well as monitoring disease progression. However, on occasion, a puzzling phenomenon arises. Certain prostate lesions that appear when pathologists examine biopsied tissue samples under a microscope are not visible on MRI. The prostate tissue will, instead, appear normal to a radiologist’s eye.

Why are certain lesions invisible with MRI? And is it dangerous for patients if these lesions are not detected? 

Some experts believe these MRI-invisible lesions are nothing to worry about.

If the clinician can’t see the cancer on MRI, then it simply isn’t a threat, according to Mark Emberton, MD, a pioneer in prostate MRIs and director of interventional oncology at University College London, England.

Laurence Klotz, MD, of the University of Toronto, Ontario, Canada, agreed, noting that “invisible cancers are clinically insignificant and don’t require systematic biopsies.”

Emberton and Klotz compared MRI-invisible lesions to grade group 1 prostate cancer (Gleason score ≤ 6) — the least aggressive category that indicates the cancer that is not likely to spread or kill. For patients on active surveillance, those with MRI-invisible cancers do drastically better than those with visible cancers, Klotz explained.

But other experts in the field are skeptical that MRI-invisible lesions are truly innocuous.

Although statistically an MRI-visible prostate lesion indicates a more aggressive tumor, that is not always the case for every individual, said Brian Helfand, MD, PhD, chief of urology at NorthShore University Health System, Evanston, Illinois.

MRIs can lead to false negatives in about 10%-20% of patients who have clinically significant prostate cancer, though estimates vary.

In one analysis, 16% of men with no suspicious lesions on MRI had clinically significant prostate cancer identified after undergoing a systematic biopsy. Another analysis found that about 35% of MRI-invisible prostate cancers identified via biopsy were clinically significant.

Other studies, however, have indicated that negative MRI results accurately indicate patients at low risk of developing clinically significant cancers. A recent JAMA Oncology analysis, for instance, found that only seven of 233 men (3%) with negative MRI results at baseline who completed 3 years of monitoring were diagnosed with clinically significant prostate cancer.

When a patient has an MRI-invisible prostate tumor, there are a couple of reasons the MRI may not be picking it up, said urologic oncologist Alexander Putnam Cole, MD, assistant professor of surgery, Harvard Medical School, Boston, Massachusetts. “One is that the cancer is aggressive but just very small,” said Cole.

“Another possibility is that the cancer looks very similar to background prostate tissue, which is something that you might expect if you think about more of a low-grade cancer,” he explained.

The experience level of the radiologist interpreting the MRI can also play into the accuracy of the reading.

But Cole agreed that “in general, MRI visibility is associated with molecular and histologic features of progression and aggressiveness and non-visible cancers are less likely to have aggressive features.”

The genomic profiles of MRI-visible and -invisible cancers bear this out.

According to Todd Morgan, MD, chief of urologic oncology at Michigan Medicine, University of Michigan, Ann Arbor, the gene expression in visible disease tends to be linked to more aggressive prostate tumors whereas gene expression in invisible disease does not.

In one analysis, for instance, researchers found that four genes — PHYHD1, CENPF, ALDH2, and GDF15 — associated with worse progression-free survival and metastasis-free survival in prostate cancer also predicted MRI visibility.

“Genes that are associated with visibility are essentially the same genes that are associated with aggressive cancers,” Klotz said.

 

Next Steps After Negative MRI Result

What do MRI-invisible lesions mean for patient care? If, for instance, a patient has elevated PSA levels but a normal MRI, is a targeted or systematic biopsy warranted?

The overarching message, according to Klotz, is that “you don’t need to find them.” Klotz noted, however, that patients with a negative MRI result should still be followed with periodic repeat imaging.

Several trials support this approach of using MRI to decide who needs a biopsy and delaying a biopsy in men with normal MRIs.

The recent JAMA Oncology analysis found that, among men with negative MRI results, 86% avoided a biopsy over 3 years, with clinically significant prostate cancer detected in only 4% of men across the study period — four in the initial diagnostic phase and seven in the 3-year monitoring phase. However, during the initial diagnostic phase, more than half the men with positive MRI findings had clinically significant prostate cancer detected.

Another recent study found that patients with negative MRI results were much less likely to upgrade to higher Gleason scores over time. Among 522 patients who underwent a systematic and targeted biopsy within 18 months of their grade group 1 designation, 9.2% with negative MRI findings had tumors reclassified as grade group 2 or higher vs 27% with positive MRI findings, and 2.3% with negative MRI findings had tumors reclassified as grade group 3 or higher vs 7.8% with positive MRI findings.

These data suggest that men with grade group 1 cancer and negative MRI result “may be able to avoid confirmatory biopsies until a routine surveillance biopsy in 2-3 years,” according to study author Christian Pavlovich, MD, professor of urologic oncology at the Johns Hopkins University School of Medicine, Baltimore.

Cole used MRI findings to triage who gets a biopsy. When a biopsy is warranted, “I usually recommend adding in some systematic sampling of the other side to assess for nonvisible cancers,” he noted.

Sampling prostate tissue outside the target area “adds maybe 1-2 minutes to the procedure and doesn’t drastically increase the morbidity or risks,” Cole said. It also can help “confirm there is cancer in the MRI target and also confirm there is no cancer in the nonvisible areas.” 

According to Klotz, if imaging demonstrates progression, patients should receive a biopsy — in most cases, a targeted biopsy only. And, Klotz noted, skipping routine prostate biopsies in men with negative MRI results can save thousands of men from these procedures, which carry risks for infections and sepsis.

Looking beyond Gleason scores for risk prediction, MRI “visibility is a very powerful risk stratifier,” he said.

A version of this article appeared on Medscape.com.

Endocrine disruptors (EDs) — chemicals in the environment that could affect human endocrine function — are increasingly becoming a prominent concern for the public as well as professionals. At its 40th congress, the French Society of Endocrinology hosted a public lecture on the subject, given by Nicolas Chevalier, MD, PhD, professor of endocrinology at the University Hospital of Nice in France.

Environmental EDs

Chevalier began by asking the audience to remember one number: 906. This is the number of substances identified by the French Agency for Food, Environmental and Occupational Health & Safety for which there are sufficient scientific data to confirm or at least suspect endocrine-disrupting activity. In reality, the number is likely closer to 10,000, he said.

These chemicals include bisphenol A and its substitutes, parabens, phthalates, and pesticides. Additionally, lithium (mainly found in batteries), polychlorinated biphenyls, per- and polyfluoroalkyl substances, and polybromodiphenyl ethers, or brominated flame retardants, are included. These products are found throughout our environment, so much so that Chevalier said: “We are swimming in a soup of endocrine disruptors.”

The main source of human contamination is food, responsible for an estimated 80%-90% of those encountered. They may enter the food supply during production or preservation, and pesticides are not the only culprits. For example, fatty fish contain heavy metals. Water is also a significant source of contamination. It is worth noting that tap water is the cleanest and most monitored type when it comes to EDs. However, plastic bottles leach not only EDs but also microplastics, which are a major environmental pollution source.

Many other features in our daily environment contain EDs: Clothing (especially shoes), nonstick cookware, plastic containers (especially those heated in the microwave), plastic toys (which young children often put in their mouths), and cosmetic products (makeup, which is increasingly used by young girls). The placenta is not the barrier it was once thought to be: Amniotic fluid has been found to contain about 35 molecules that are toxic for the fetus, with at least 11 or 12 exceeding safety thresholds.

 

Multiple Linked Diseases

An incomplete list of ED-related diseases would include cancer, infertility, obesity, and diabetes, Chevalier said. Are these data alarmist? he asked. After all, life expectancy has increased globally by more than 10 years since the 1970s, and this has occurred alongside the increased use of EDs. However, he suggested remembering a second number: 157. This represents the billions of euros in European healthcare costs primarily caused by neurologic disorders linked to pesticides. They have a half-life estimated at least 10 years, and banning them will not stop them from persisting in the environment for up to 40 years. US studies have shown that their presence in the environment contributes to cognitive delays in young children.

Another area of concern is the rising infertility rates among couples, now affecting around one in five in France. This trend has been linked to the toxicity of EDs on the genital tract, especially in men, and is not only related to increased use of birth control. For example, in sub-Saharan Africa, rates of contraceptive use have increased only marginally, but birth rates have significantly decreased in areas contaminated by waste that is inadequately managed by Western standards.

EDs have also been implicated in the rising incidence of several cancers, including breast cancer in women and prostate cancer in men, and may have contributed to increases in both childhood obesity and adult diabetes.

 

A Difficult Battle

Chevalier asked: Is the increase in ED contamination inevitable? No, he said, but it is extremely difficult to counter. Governments are reluctant to legislate, particularly when jobs are at stake, even though certain workers are particularly exposed. The ideal situation would be for the public to take matters into their own hands by eliminating EDs from their environment through daily actions that pressure policymakers to act. For example:

• Eliminate plastics (especially for food products) and nonstick coatings
• Reject most cleaning products in favor of traditional solutions (eg, white vinegar and baking soda)
• Avoid imported toys (as producer countries often fail to comply with European health standards)

Environmental charters have been created by several local authorities and regional health agencies. Chevalier urged the public to rely on their recommendations and resources to help drive change.

 

This story was translated from Univadis France 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.

Endocrine disruptors (EDs) — chemicals in the environment that could affect human endocrine function — are increasingly becoming a prominent concern for the public as well as professionals. At its 40th congress, the French Society of Endocrinology hosted a public lecture on the subject, given by Nicolas Chevalier, MD, PhD, professor of endocrinology at the University Hospital of Nice in France.

Environmental EDs

Chevalier began by asking the audience to remember one number: 906. This is the number of substances identified by the French Agency for Food, Environmental and Occupational Health & Safety for which there are sufficient scientific data to confirm or at least suspect endocrine-disrupting activity. In reality, the number is likely closer to 10,000, he said.

These chemicals include bisphenol A and its substitutes, parabens, phthalates, and pesticides. Additionally, lithium (mainly found in batteries), polychlorinated biphenyls, per- and polyfluoroalkyl substances, and polybromodiphenyl ethers, or brominated flame retardants, are included. These products are found throughout our environment, so much so that Chevalier said: “We are swimming in a soup of endocrine disruptors.”

The main source of human contamination is food, responsible for an estimated 80%-90% of those encountered. They may enter the food supply during production or preservation, and pesticides are not the only culprits. For example, fatty fish contain heavy metals. Water is also a significant source of contamination. It is worth noting that tap water is the cleanest and most monitored type when it comes to EDs. However, plastic bottles leach not only EDs but also microplastics, which are a major environmental pollution source.

Many other features in our daily environment contain EDs: Clothing (especially shoes), nonstick cookware, plastic containers (especially those heated in the microwave), plastic toys (which young children often put in their mouths), and cosmetic products (makeup, which is increasingly used by young girls). The placenta is not the barrier it was once thought to be: Amniotic fluid has been found to contain about 35 molecules that are toxic for the fetus, with at least 11 or 12 exceeding safety thresholds.

 

Multiple Linked Diseases

An incomplete list of ED-related diseases would include cancer, infertility, obesity, and diabetes, Chevalier said. Are these data alarmist? he asked. After all, life expectancy has increased globally by more than 10 years since the 1970s, and this has occurred alongside the increased use of EDs. However, he suggested remembering a second number: 157. This represents the billions of euros in European healthcare costs primarily caused by neurologic disorders linked to pesticides. They have a half-life estimated at least 10 years, and banning them will not stop them from persisting in the environment for up to 40 years. US studies have shown that their presence in the environment contributes to cognitive delays in young children.

Another area of concern is the rising infertility rates among couples, now affecting around one in five in France. This trend has been linked to the toxicity of EDs on the genital tract, especially in men, and is not only related to increased use of birth control. For example, in sub-Saharan Africa, rates of contraceptive use have increased only marginally, but birth rates have significantly decreased in areas contaminated by waste that is inadequately managed by Western standards.

EDs have also been implicated in the rising incidence of several cancers, including breast cancer in women and prostate cancer in men, and may have contributed to increases in both childhood obesity and adult diabetes.

 

A Difficult Battle

Chevalier asked: Is the increase in ED contamination inevitable? No, he said, but it is extremely difficult to counter. Governments are reluctant to legislate, particularly when jobs are at stake, even though certain workers are particularly exposed. The ideal situation would be for the public to take matters into their own hands by eliminating EDs from their environment through daily actions that pressure policymakers to act. For example:

• Eliminate plastics (especially for food products) and nonstick coatings
• Reject most cleaning products in favor of traditional solutions (eg, white vinegar and baking soda)
• Avoid imported toys (as producer countries often fail to comply with European health standards)

Environmental charters have been created by several local authorities and regional health agencies. Chevalier urged the public to rely on their recommendations and resources to help drive change.

 

This story was translated from Univadis France 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.

Endocrine disruptors (EDs) — chemicals in the environment that could affect human endocrine function — are increasingly becoming a prominent concern for the public as well as professionals. At its 40th congress, the French Society of Endocrinology hosted a public lecture on the subject, given by Nicolas Chevalier, MD, PhD, professor of endocrinology at the University Hospital of Nice in France.

Environmental EDs

Chevalier began by asking the audience to remember one number: 906. This is the number of substances identified by the French Agency for Food, Environmental and Occupational Health & Safety for which there are sufficient scientific data to confirm or at least suspect endocrine-disrupting activity. In reality, the number is likely closer to 10,000, he said.

These chemicals include bisphenol A and its substitutes, parabens, phthalates, and pesticides. Additionally, lithium (mainly found in batteries), polychlorinated biphenyls, per- and polyfluoroalkyl substances, and polybromodiphenyl ethers, or brominated flame retardants, are included. These products are found throughout our environment, so much so that Chevalier said: “We are swimming in a soup of endocrine disruptors.”

The main source of human contamination is food, responsible for an estimated 80%-90% of those encountered. They may enter the food supply during production or preservation, and pesticides are not the only culprits. For example, fatty fish contain heavy metals. Water is also a significant source of contamination. It is worth noting that tap water is the cleanest and most monitored type when it comes to EDs. However, plastic bottles leach not only EDs but also microplastics, which are a major environmental pollution source.

Many other features in our daily environment contain EDs: Clothing (especially shoes), nonstick cookware, plastic containers (especially those heated in the microwave), plastic toys (which young children often put in their mouths), and cosmetic products (makeup, which is increasingly used by young girls). The placenta is not the barrier it was once thought to be: Amniotic fluid has been found to contain about 35 molecules that are toxic for the fetus, with at least 11 or 12 exceeding safety thresholds.

 

Multiple Linked Diseases

An incomplete list of ED-related diseases would include cancer, infertility, obesity, and diabetes, Chevalier said. Are these data alarmist? he asked. After all, life expectancy has increased globally by more than 10 years since the 1970s, and this has occurred alongside the increased use of EDs. However, he suggested remembering a second number: 157. This represents the billions of euros in European healthcare costs primarily caused by neurologic disorders linked to pesticides. They have a half-life estimated at least 10 years, and banning them will not stop them from persisting in the environment for up to 40 years. US studies have shown that their presence in the environment contributes to cognitive delays in young children.

Another area of concern is the rising infertility rates among couples, now affecting around one in five in France. This trend has been linked to the toxicity of EDs on the genital tract, especially in men, and is not only related to increased use of birth control. For example, in sub-Saharan Africa, rates of contraceptive use have increased only marginally, but birth rates have significantly decreased in areas contaminated by waste that is inadequately managed by Western standards.

EDs have also been implicated in the rising incidence of several cancers, including breast cancer in women and prostate cancer in men, and may have contributed to increases in both childhood obesity and adult diabetes.

 

A Difficult Battle

Chevalier asked: Is the increase in ED contamination inevitable? No, he said, but it is extremely difficult to counter. Governments are reluctant to legislate, particularly when jobs are at stake, even though certain workers are particularly exposed. The ideal situation would be for the public to take matters into their own hands by eliminating EDs from their environment through daily actions that pressure policymakers to act. For example:

• Eliminate plastics (especially for food products) and nonstick coatings
• Reject most cleaning products in favor of traditional solutions (eg, white vinegar and baking soda)
• Avoid imported toys (as producer countries often fail to comply with European health standards)

Environmental charters have been created by several local authorities and regional health agencies. Chevalier urged the public to rely on their recommendations and resources to help drive change.

 

This story was translated from Univadis France 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.

Rose Gerber was 39, mother to a third grader and a kindergartener, when the diagnosis came: Advanced HER2-positive breast cancer.

“On one of my first or second appointments, I took in a little picture of Alexander and Isabella,” Gerber said. Gerber showed her oncologist the picture and told her: “I’ll do anything. I just want to be there for them.”

That was 21 years ago. Today, her current cancer status is “no evidence of disease.”

Over the past 2 decades, Gerber has gotten to be there for her children. Her youngest is now a television producer and her oldest, a CPA.

In that time, Gerber has had one constant: Her oncologist, Kandhasamy Jagathambal, MD, or Dr. Jaga, as she’s often called. 

“I’ve seen multiple physicians over my 21 years, but my oncologist has always been the focal point, guiding me in the right direction,” Gerber said in an interview.

Over the years, Jaga guided Gerber through a range of treatment decisions, including a Herceptin clinical trial that the mom of two views as lifesaving. Jaga often took on the role of both doctor and therapist, even providing comfort in the smaller moments when Gerber would fret about her weight gain.

The oncologist-patient “bond is very, very, very special,” said Gerber, who now works as director of patient advocacy and education at the Community Oncology Alliance.

Gerber isn’t alone in calling out the depth of the oncologist-patient bond.

Over years, sometimes decades, patients and oncologists can experience a whole world together: The treatment successes, relapses, uncertainties, and tough calls. As a result, a deep therapeutic alliance often develops. And with each new hurdle or decision, that collaborative, human connection between doctor and patient continues to form new layers.

“It’s like a shared bonding experience over trauma, like strangers trapped on a subway and then we get out, and we’re now on the other side, celebrating together,” said Saad Khan, MD, an associate professor of medicine (oncology) at Stanford University in California.

 

Connecting Through Stress

Although studies exploring the oncologist-patient bond are limited, some research suggests that a strong therapeutic alliance between patients and oncologists not only provides a foundation for quality care but can also help improve patients’ quality of life, protect against suicidal ideation, and increase treatment adherence.

Because of how stressful and frightening a cancer diagnosis can be, creating “a trusting, uninterrupted, almost sacred environment for them” is paramount for Khan. “I have no doubt that the most important part of their treatment is that they find an oncologist in whom they have total confidence,” Khan wrote in a blog.

The stress that patients with cancer experience is well documented, but oncologists take on a lot themselves and can also experience intense stress (.

“I consider my patient’s battles to be my battles,” Khan wrote.

The stress can start with the daily schedule. Oncologists often have a high volume of patients and tend to spend more time with each individual than most.

According to a 2023 survey, oncologists see about 68 patients a week, on average, but some oncologists, like Khan, have many more. Khan typically sees 20-30 patients a day and continues to care for many over years.

The survey also found that oncologists tend to spend a lot of time with their patients. Compared with other physicians, oncologists are two times more likely to spend at least 25 minutes with each patient.

With this kind of patient volume and time, Khan said, “you’re going to be exhausted.”

What can compound the exhaustion are the occasions oncologists need to deliver bad news — this treatment isn’t working, your cancer has come roaring back and, perhaps the hardest, we have no therapeutic options left. The end-of-life conversations, in particular, can be heartbreaking, especially when a patient is young and not ready to stop trying.

“It can be hard for doctors to discuss the end of life,” Don Dizon, MD, director of the Pelvic Malignancies Program at Lifespan Cancer Institute and director of Medical Oncology at Rhode Island Hospital, Providence, wrote in a column in 2023. Instead, it can be tempting and is often easier to focus on the next treatment, “instilling hope that there’s more that can be done,” even if doing more will only do harm.

In the face of these challenging decisions, growing a personal connection with patients over time can help keep oncologists going.

“We’re not just chemotherapy salesmen,” Khan said in an interview. “We get to know their social support network, who’s going to be driving them [to and from appointments], where they go on vacation, their cat’s name, who their neighbors are.”

 

A ‘Special Relationship’

Ralph V. Boccia, MD, is often asked what he does.

The next question that often comes — “Why do I do what I do?” — is Boccia’s favorite.

“Someone needs to take these patients through their journey,” Boccia, the founder of The Center for Cancer and Blood Disorders, Bethesda, Maryland, typically responds. He also often notes that “it is a special relationship you develop with the patient and their families.”

Boccia thinks about one long-term patient who captures this bond.

Joan Pinson, 70, was diagnosed with multiple myeloma about 25 years ago, when patients’ average survival was about 4 years.

Over a quarter century, Pinson has pivoted to different treatments, amid multiple relapses and remissions. Throughout most of this cancer journey, Boccia has been her primary oncologist, performing a stem cell transplant in 2000 and steering her to six clinical trials.

Her last relapse was 2 years ago, and since then she has been doing well on oral chemotherapy.

“Every time I relapsed, by the next appointment, he’d say, ‘here is what we are going to do,’ ” Pinson recalled. “I never worried, I never panicked. I knew he would take care of me.”

Over the years, Pinson and Boccia have shared many personal moments, sometimes by accident. One special moment happened early on in Pinson’s cancer journey. During an appointment, Boccia had “one ear to the phone” as his wife was about to deliver their first baby, Pinson recalled.

Later, Pinson met that child as a young man working in Boccia’s lab. She has also met Boccia’s wife, a nurse, when she filled in one day in the chemotherapy room.

Boccia now also treats Pinson’s husband who has prostate cancer, and he ruled out cancer when Pinson’s son, now in his 40s, had some worrisome symptoms.

More than 2 decades ago, Pinson told Boccia her goal was to see her youngest child graduate from high school. Now, six grandsons later, she has lived far beyond that goal.

“He has kept me alive,” said Pinson.

 

The Dying Patient

Harsha Vyas, MD, FACP, remembers the first encounter his office had with a 29-year-old woman referred with a diagnosis of stage IV breast cancer.

After just 15 minutes in the waiting room, the woman announced she was leaving. Although office staff assured the woman that she was next, the patient walked out.

Several months later, Vyas was called for an inpatient consult. It was the same woman.

Her lungs were full of fluid, and she was struggling to breathe, said Vyas, president and CEO of the Cancer Center of Middle Georgia, Dublin, and assistant professor at Augusta University in Georgia.

The woman, a single mother, told Vyas about her three young kids at home and asked him, “Doc, do something, please help me,” he recalled.

“Absolutely,” Vyas told her. But he had to be brutally honest about her prognosis and firm that she needed to follow his instructions. “You have a breast cancer I cannot cure,” he said. “All I can do is control the disease.”

From that first day, until the day she died, she came to every appointment and followed the treatment plan Vyas laid out.

For about 2 years, she responded well to treatment. And as the time passed and the trust grew, she began to open up to him. She showed him pictures. She talked about her children and being a mother.

“I’ve got to get my kids in a better place. I’m going to be there for them,” he recalled her saying.

Vyas admired her resourcefulness. She held down a part-time job, working retail and at a local restaurant. She figured out childcare so she could get to her chemotherapy appointments every 3 weeks and manage the copays.

Several years later, when she knew she was approaching the end of her life, she asked Vyas a question that hit hard.

“Doc, I don’t want to die and my kids find me dead. What can we do about it?”

Vyas, who has three daughters, imagined how traumatic this would be for a child. She and Vyas made the shared decision to cease treatment and begin home hospice. When the end was approaching, a hospice worker took over, waiting for bodily functions to cease.

When news of a death comes, “I say a little prayer, it’s almost like a send-off for that soul. That helps me absorb the news ... and let it go.”

But when the bond grows strong over time, as with his patient with breast cancer, Vyas said, “a piece of her is still with me.”

Khan had no relevant disclosures. Boccia and Vyas had no disclosures.

A version of this article appeared on Medscape.com.

Rose Gerber was 39, mother to a third grader and a kindergartener, when the diagnosis came: Advanced HER2-positive breast cancer.

“On one of my first or second appointments, I took in a little picture of Alexander and Isabella,” Gerber said. Gerber showed her oncologist the picture and told her: “I’ll do anything. I just want to be there for them.”

That was 21 years ago. Today, her current cancer status is “no evidence of disease.”

Over the past 2 decades, Gerber has gotten to be there for her children. Her youngest is now a television producer and her oldest, a CPA.

In that time, Gerber has had one constant: Her oncologist, Kandhasamy Jagathambal, MD, or Dr. Jaga, as she’s often called. 

“I’ve seen multiple physicians over my 21 years, but my oncologist has always been the focal point, guiding me in the right direction,” Gerber said in an interview.

Over the years, Jaga guided Gerber through a range of treatment decisions, including a Herceptin clinical trial that the mom of two views as lifesaving. Jaga often took on the role of both doctor and therapist, even providing comfort in the smaller moments when Gerber would fret about her weight gain.

The oncologist-patient “bond is very, very, very special,” said Gerber, who now works as director of patient advocacy and education at the Community Oncology Alliance.

Gerber isn’t alone in calling out the depth of the oncologist-patient bond.

Over years, sometimes decades, patients and oncologists can experience a whole world together: The treatment successes, relapses, uncertainties, and tough calls. As a result, a deep therapeutic alliance often develops. And with each new hurdle or decision, that collaborative, human connection between doctor and patient continues to form new layers.

“It’s like a shared bonding experience over trauma, like strangers trapped on a subway and then we get out, and we’re now on the other side, celebrating together,” said Saad Khan, MD, an associate professor of medicine (oncology) at Stanford University in California.

 

Connecting Through Stress

Although studies exploring the oncologist-patient bond are limited, some research suggests that a strong therapeutic alliance between patients and oncologists not only provides a foundation for quality care but can also help improve patients’ quality of life, protect against suicidal ideation, and increase treatment adherence.

Because of how stressful and frightening a cancer diagnosis can be, creating “a trusting, uninterrupted, almost sacred environment for them” is paramount for Khan. “I have no doubt that the most important part of their treatment is that they find an oncologist in whom they have total confidence,” Khan wrote in a blog.

The stress that patients with cancer experience is well documented, but oncologists take on a lot themselves and can also experience intense stress (.

“I consider my patient’s battles to be my battles,” Khan wrote.

The stress can start with the daily schedule. Oncologists often have a high volume of patients and tend to spend more time with each individual than most.

According to a 2023 survey, oncologists see about 68 patients a week, on average, but some oncologists, like Khan, have many more. Khan typically sees 20-30 patients a day and continues to care for many over years.

The survey also found that oncologists tend to spend a lot of time with their patients. Compared with other physicians, oncologists are two times more likely to spend at least 25 minutes with each patient.

With this kind of patient volume and time, Khan said, “you’re going to be exhausted.”

What can compound the exhaustion are the occasions oncologists need to deliver bad news — this treatment isn’t working, your cancer has come roaring back and, perhaps the hardest, we have no therapeutic options left. The end-of-life conversations, in particular, can be heartbreaking, especially when a patient is young and not ready to stop trying.

“It can be hard for doctors to discuss the end of life,” Don Dizon, MD, director of the Pelvic Malignancies Program at Lifespan Cancer Institute and director of Medical Oncology at Rhode Island Hospital, Providence, wrote in a column in 2023. Instead, it can be tempting and is often easier to focus on the next treatment, “instilling hope that there’s more that can be done,” even if doing more will only do harm.

In the face of these challenging decisions, growing a personal connection with patients over time can help keep oncologists going.

“We’re not just chemotherapy salesmen,” Khan said in an interview. “We get to know their social support network, who’s going to be driving them [to and from appointments], where they go on vacation, their cat’s name, who their neighbors are.”

 

A ‘Special Relationship’

Ralph V. Boccia, MD, is often asked what he does.

The next question that often comes — “Why do I do what I do?” — is Boccia’s favorite.

“Someone needs to take these patients through their journey,” Boccia, the founder of The Center for Cancer and Blood Disorders, Bethesda, Maryland, typically responds. He also often notes that “it is a special relationship you develop with the patient and their families.”

Boccia thinks about one long-term patient who captures this bond.

Joan Pinson, 70, was diagnosed with multiple myeloma about 25 years ago, when patients’ average survival was about 4 years.

Over a quarter century, Pinson has pivoted to different treatments, amid multiple relapses and remissions. Throughout most of this cancer journey, Boccia has been her primary oncologist, performing a stem cell transplant in 2000 and steering her to six clinical trials.

Her last relapse was 2 years ago, and since then she has been doing well on oral chemotherapy.

“Every time I relapsed, by the next appointment, he’d say, ‘here is what we are going to do,’ ” Pinson recalled. “I never worried, I never panicked. I knew he would take care of me.”

Over the years, Pinson and Boccia have shared many personal moments, sometimes by accident. One special moment happened early on in Pinson’s cancer journey. During an appointment, Boccia had “one ear to the phone” as his wife was about to deliver their first baby, Pinson recalled.

Later, Pinson met that child as a young man working in Boccia’s lab. She has also met Boccia’s wife, a nurse, when she filled in one day in the chemotherapy room.

Boccia now also treats Pinson’s husband who has prostate cancer, and he ruled out cancer when Pinson’s son, now in his 40s, had some worrisome symptoms.

More than 2 decades ago, Pinson told Boccia her goal was to see her youngest child graduate from high school. Now, six grandsons later, she has lived far beyond that goal.

“He has kept me alive,” said Pinson.

 

The Dying Patient

Harsha Vyas, MD, FACP, remembers the first encounter his office had with a 29-year-old woman referred with a diagnosis of stage IV breast cancer.

After just 15 minutes in the waiting room, the woman announced she was leaving. Although office staff assured the woman that she was next, the patient walked out.

Several months later, Vyas was called for an inpatient consult. It was the same woman.

Her lungs were full of fluid, and she was struggling to breathe, said Vyas, president and CEO of the Cancer Center of Middle Georgia, Dublin, and assistant professor at Augusta University in Georgia.

The woman, a single mother, told Vyas about her three young kids at home and asked him, “Doc, do something, please help me,” he recalled.

“Absolutely,” Vyas told her. But he had to be brutally honest about her prognosis and firm that she needed to follow his instructions. “You have a breast cancer I cannot cure,” he said. “All I can do is control the disease.”

From that first day, until the day she died, she came to every appointment and followed the treatment plan Vyas laid out.

For about 2 years, she responded well to treatment. And as the time passed and the trust grew, she began to open up to him. She showed him pictures. She talked about her children and being a mother.

“I’ve got to get my kids in a better place. I’m going to be there for them,” he recalled her saying.

Vyas admired her resourcefulness. She held down a part-time job, working retail and at a local restaurant. She figured out childcare so she could get to her chemotherapy appointments every 3 weeks and manage the copays.

Several years later, when she knew she was approaching the end of her life, she asked Vyas a question that hit hard.

“Doc, I don’t want to die and my kids find me dead. What can we do about it?”

Vyas, who has three daughters, imagined how traumatic this would be for a child. She and Vyas made the shared decision to cease treatment and begin home hospice. When the end was approaching, a hospice worker took over, waiting for bodily functions to cease.

When news of a death comes, “I say a little prayer, it’s almost like a send-off for that soul. That helps me absorb the news ... and let it go.”

But when the bond grows strong over time, as with his patient with breast cancer, Vyas said, “a piece of her is still with me.”

Khan had no relevant disclosures. Boccia and Vyas had no disclosures.

A version of this article appeared on Medscape.com.

Rose Gerber was 39, mother to a third grader and a kindergartener, when the diagnosis came: Advanced HER2-positive breast cancer.

“On one of my first or second appointments, I took in a little picture of Alexander and Isabella,” Gerber said. Gerber showed her oncologist the picture and told her: “I’ll do anything. I just want to be there for them.”

That was 21 years ago. Today, her current cancer status is “no evidence of disease.”

Over the past 2 decades, Gerber has gotten to be there for her children. Her youngest is now a television producer and her oldest, a CPA.

In that time, Gerber has had one constant: Her oncologist, Kandhasamy Jagathambal, MD, or Dr. Jaga, as she’s often called. 

“I’ve seen multiple physicians over my 21 years, but my oncologist has always been the focal point, guiding me in the right direction,” Gerber said in an interview.

Over the years, Jaga guided Gerber through a range of treatment decisions, including a Herceptin clinical trial that the mom of two views as lifesaving. Jaga often took on the role of both doctor and therapist, even providing comfort in the smaller moments when Gerber would fret about her weight gain.

The oncologist-patient “bond is very, very, very special,” said Gerber, who now works as director of patient advocacy and education at the Community Oncology Alliance.

Gerber isn’t alone in calling out the depth of the oncologist-patient bond.

Over years, sometimes decades, patients and oncologists can experience a whole world together: The treatment successes, relapses, uncertainties, and tough calls. As a result, a deep therapeutic alliance often develops. And with each new hurdle or decision, that collaborative, human connection between doctor and patient continues to form new layers.

“It’s like a shared bonding experience over trauma, like strangers trapped on a subway and then we get out, and we’re now on the other side, celebrating together,” said Saad Khan, MD, an associate professor of medicine (oncology) at Stanford University in California.

 

Connecting Through Stress

Although studies exploring the oncologist-patient bond are limited, some research suggests that a strong therapeutic alliance between patients and oncologists not only provides a foundation for quality care but can also help improve patients’ quality of life, protect against suicidal ideation, and increase treatment adherence.

Because of how stressful and frightening a cancer diagnosis can be, creating “a trusting, uninterrupted, almost sacred environment for them” is paramount for Khan. “I have no doubt that the most important part of their treatment is that they find an oncologist in whom they have total confidence,” Khan wrote in a blog.

The stress that patients with cancer experience is well documented, but oncologists take on a lot themselves and can also experience intense stress (.

“I consider my patient’s battles to be my battles,” Khan wrote.

The stress can start with the daily schedule. Oncologists often have a high volume of patients and tend to spend more time with each individual than most.

According to a 2023 survey, oncologists see about 68 patients a week, on average, but some oncologists, like Khan, have many more. Khan typically sees 20-30 patients a day and continues to care for many over years.

The survey also found that oncologists tend to spend a lot of time with their patients. Compared with other physicians, oncologists are two times more likely to spend at least 25 minutes with each patient.

With this kind of patient volume and time, Khan said, “you’re going to be exhausted.”

What can compound the exhaustion are the occasions oncologists need to deliver bad news — this treatment isn’t working, your cancer has come roaring back and, perhaps the hardest, we have no therapeutic options left. The end-of-life conversations, in particular, can be heartbreaking, especially when a patient is young and not ready to stop trying.

“It can be hard for doctors to discuss the end of life,” Don Dizon, MD, director of the Pelvic Malignancies Program at Lifespan Cancer Institute and director of Medical Oncology at Rhode Island Hospital, Providence, wrote in a column in 2023. Instead, it can be tempting and is often easier to focus on the next treatment, “instilling hope that there’s more that can be done,” even if doing more will only do harm.

In the face of these challenging decisions, growing a personal connection with patients over time can help keep oncologists going.

“We’re not just chemotherapy salesmen,” Khan said in an interview. “We get to know their social support network, who’s going to be driving them [to and from appointments], where they go on vacation, their cat’s name, who their neighbors are.”

 

A ‘Special Relationship’

Ralph V. Boccia, MD, is often asked what he does.

The next question that often comes — “Why do I do what I do?” — is Boccia’s favorite.

“Someone needs to take these patients through their journey,” Boccia, the founder of The Center for Cancer and Blood Disorders, Bethesda, Maryland, typically responds. He also often notes that “it is a special relationship you develop with the patient and their families.”

Boccia thinks about one long-term patient who captures this bond.

Joan Pinson, 70, was diagnosed with multiple myeloma about 25 years ago, when patients’ average survival was about 4 years.

Over a quarter century, Pinson has pivoted to different treatments, amid multiple relapses and remissions. Throughout most of this cancer journey, Boccia has been her primary oncologist, performing a stem cell transplant in 2000 and steering her to six clinical trials.

Her last relapse was 2 years ago, and since then she has been doing well on oral chemotherapy.

“Every time I relapsed, by the next appointment, he’d say, ‘here is what we are going to do,’ ” Pinson recalled. “I never worried, I never panicked. I knew he would take care of me.”

Over the years, Pinson and Boccia have shared many personal moments, sometimes by accident. One special moment happened early on in Pinson’s cancer journey. During an appointment, Boccia had “one ear to the phone” as his wife was about to deliver their first baby, Pinson recalled.

Later, Pinson met that child as a young man working in Boccia’s lab. She has also met Boccia’s wife, a nurse, when she filled in one day in the chemotherapy room.

Boccia now also treats Pinson’s husband who has prostate cancer, and he ruled out cancer when Pinson’s son, now in his 40s, had some worrisome symptoms.

More than 2 decades ago, Pinson told Boccia her goal was to see her youngest child graduate from high school. Now, six grandsons later, she has lived far beyond that goal.

“He has kept me alive,” said Pinson.

 

The Dying Patient

Harsha Vyas, MD, FACP, remembers the first encounter his office had with a 29-year-old woman referred with a diagnosis of stage IV breast cancer.

After just 15 minutes in the waiting room, the woman announced she was leaving. Although office staff assured the woman that she was next, the patient walked out.

Several months later, Vyas was called for an inpatient consult. It was the same woman.

Her lungs were full of fluid, and she was struggling to breathe, said Vyas, president and CEO of the Cancer Center of Middle Georgia, Dublin, and assistant professor at Augusta University in Georgia.

The woman, a single mother, told Vyas about her three young kids at home and asked him, “Doc, do something, please help me,” he recalled.

“Absolutely,” Vyas told her. But he had to be brutally honest about her prognosis and firm that she needed to follow his instructions. “You have a breast cancer I cannot cure,” he said. “All I can do is control the disease.”

From that first day, until the day she died, she came to every appointment and followed the treatment plan Vyas laid out.

For about 2 years, she responded well to treatment. And as the time passed and the trust grew, she began to open up to him. She showed him pictures. She talked about her children and being a mother.

“I’ve got to get my kids in a better place. I’m going to be there for them,” he recalled her saying.

Vyas admired her resourcefulness. She held down a part-time job, working retail and at a local restaurant. She figured out childcare so she could get to her chemotherapy appointments every 3 weeks and manage the copays.

Several years later, when she knew she was approaching the end of her life, she asked Vyas a question that hit hard.

“Doc, I don’t want to die and my kids find me dead. What can we do about it?”

Vyas, who has three daughters, imagined how traumatic this would be for a child. She and Vyas made the shared decision to cease treatment and begin home hospice. When the end was approaching, a hospice worker took over, waiting for bodily functions to cease.

When news of a death comes, “I say a little prayer, it’s almost like a send-off for that soul. That helps me absorb the news ... and let it go.”

But when the bond grows strong over time, as with his patient with breast cancer, Vyas said, “a piece of her is still with me.”

Khan had no relevant disclosures. Boccia and Vyas had no disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

The increase in incidence of pancreatic cancer among young Americans is largely caused by improved detection of early-stage endocrine cancer, not an increase in pancreatic adenocarcinoma. Given the stable mortality rates in this population, the increase in incidence likely reflects previously undetected cases instead of a true rise in new cases, researchers say.

METHODOLOGY:

• Data from several registries have indicated that the incidence of pancreatic cancer among younger individuals, particularly women, is on the rise in the United States and worldwide.
• In a new analysis, researchers wanted to see if the observed increase in pancreatic cancer incidence among young Americans represented a true rise in cancer occurrence or indicated greater diagnostic scrutiny. If pancreatic cancer incidence is really increasing, “incidence and mortality would be expected to increase concurrently, as would early- and late-stage diagnoses,” the researchers explained.
• The researchers collected data on pancreatic cancer incidence, histology, and stage distribution for individuals aged 15-39 years from US Cancer Statistics, a database covering almost the entire US population from 2001 to 2020. Pancreatic cancer mortality data from the same timeframe came from the National Vital Statistics System.
• The researchers looked at four histologic categories: Adenocarcinoma, the dominant pancreatic cancer histology, as well as more rare subtypes — endocrine and solid pseudopapillary — and “other” category. Researchers also categorized stage-specific incidence as early stage (in situ or localized) or late stage (regional or distant).

TAKEAWAY:

• The incidence of pancreatic cancer increased 2.1-fold in young women (incidence, 3.3-6.9 per million) and 1.6-fold in young men (incidence, 3.9-6.2 per million) between 2001 and 2019. However, mortality rates remained stable for women (1.5 deaths per million; annual percent change [AAPC], −0.5%; 95% CI, –1.4% to 0.5%) and men (2.5 deaths per million; AAPC, –0.1%; 95% CI, –0.8% to 0.6%) over this period.
• Looking at cancer subtypes, the increase in incidence was largely caused by early-stage endocrine cancer and solid pseudopapillary neoplasms in women, not adenocarcinoma (which remained stable over the study period).
• Looking at cancer stage, most of the increase in incidence came from detection of smaller tumors (< 2 cm) and early-stage cancer, which rose from 0.6 to 3.7 per million in women and from 0.4 to 2.2 per million in men. The authors also found no statistically significant change in the incidence of late-stage cancer in women or men.
• Rates of surgical treatment for pancreatic cancer increased, more than tripling among women (from 1.5 to 4.7 per million) and more than doubling among men (from 1.1 to 2.3 per million).

IN PRACTICE:

“Pancreatic cancer now can be another cancer subject to overdiagnosis: The detection of disease not destined to cause symptoms or death,” the authors concluded. “Although the observed changes in incidence are small, overdiagnosis is especially concerning for pancreatic cancer, as pancreatic surgery has substantial risk for morbidity (in particular, pancreatic fistulas) and mortality.”

SOURCE:

The study, with first author Vishal R. Patel, MD, MPH, and corresponding author H. Gilbert Welch, MD, MPH, from Brigham and Women’s Hospital, Boston, was published online on November 19 in Annals of Internal Medicine.

LIMITATIONS:

The study was limited by the lack of data on the method of cancer detection, which may have affected the interpretation of the findings.

DISCLOSURES:

Disclosure forms are available with the article online.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

TOPLINE:

The increase in incidence of pancreatic cancer among young Americans is largely caused by improved detection of early-stage endocrine cancer, not an increase in pancreatic adenocarcinoma. Given the stable mortality rates in this population, the increase in incidence likely reflects previously undetected cases instead of a true rise in new cases, researchers say.

METHODOLOGY:

• Data from several registries have indicated that the incidence of pancreatic cancer among younger individuals, particularly women, is on the rise in the United States and worldwide.
• In a new analysis, researchers wanted to see if the observed increase in pancreatic cancer incidence among young Americans represented a true rise in cancer occurrence or indicated greater diagnostic scrutiny. If pancreatic cancer incidence is really increasing, “incidence and mortality would be expected to increase concurrently, as would early- and late-stage diagnoses,” the researchers explained.
• The researchers collected data on pancreatic cancer incidence, histology, and stage distribution for individuals aged 15-39 years from US Cancer Statistics, a database covering almost the entire US population from 2001 to 2020. Pancreatic cancer mortality data from the same timeframe came from the National Vital Statistics System.
• The researchers looked at four histologic categories: Adenocarcinoma, the dominant pancreatic cancer histology, as well as more rare subtypes — endocrine and solid pseudopapillary — and “other” category. Researchers also categorized stage-specific incidence as early stage (in situ or localized) or late stage (regional or distant).

TAKEAWAY:

• The incidence of pancreatic cancer increased 2.1-fold in young women (incidence, 3.3-6.9 per million) and 1.6-fold in young men (incidence, 3.9-6.2 per million) between 2001 and 2019. However, mortality rates remained stable for women (1.5 deaths per million; annual percent change [AAPC], −0.5%; 95% CI, –1.4% to 0.5%) and men (2.5 deaths per million; AAPC, –0.1%; 95% CI, –0.8% to 0.6%) over this period.
• Looking at cancer subtypes, the increase in incidence was largely caused by early-stage endocrine cancer and solid pseudopapillary neoplasms in women, not adenocarcinoma (which remained stable over the study period).
• Looking at cancer stage, most of the increase in incidence came from detection of smaller tumors (< 2 cm) and early-stage cancer, which rose from 0.6 to 3.7 per million in women and from 0.4 to 2.2 per million in men. The authors also found no statistically significant change in the incidence of late-stage cancer in women or men.
• Rates of surgical treatment for pancreatic cancer increased, more than tripling among women (from 1.5 to 4.7 per million) and more than doubling among men (from 1.1 to 2.3 per million).

IN PRACTICE:

“Pancreatic cancer now can be another cancer subject to overdiagnosis: The detection of disease not destined to cause symptoms or death,” the authors concluded. “Although the observed changes in incidence are small, overdiagnosis is especially concerning for pancreatic cancer, as pancreatic surgery has substantial risk for morbidity (in particular, pancreatic fistulas) and mortality.”

SOURCE:

The study, with first author Vishal R. Patel, MD, MPH, and corresponding author H. Gilbert Welch, MD, MPH, from Brigham and Women’s Hospital, Boston, was published online on November 19 in Annals of Internal Medicine.

LIMITATIONS:

The study was limited by the lack of data on the method of cancer detection, which may have affected the interpretation of the findings.

DISCLOSURES:

Disclosure forms are available with the article online.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

TOPLINE:

The increase in incidence of pancreatic cancer among young Americans is largely caused by improved detection of early-stage endocrine cancer, not an increase in pancreatic adenocarcinoma. Given the stable mortality rates in this population, the increase in incidence likely reflects previously undetected cases instead of a true rise in new cases, researchers say.

METHODOLOGY:

• Data from several registries have indicated that the incidence of pancreatic cancer among younger individuals, particularly women, is on the rise in the United States and worldwide.
• In a new analysis, researchers wanted to see if the observed increase in pancreatic cancer incidence among young Americans represented a true rise in cancer occurrence or indicated greater diagnostic scrutiny. If pancreatic cancer incidence is really increasing, “incidence and mortality would be expected to increase concurrently, as would early- and late-stage diagnoses,” the researchers explained.
• The researchers collected data on pancreatic cancer incidence, histology, and stage distribution for individuals aged 15-39 years from US Cancer Statistics, a database covering almost the entire US population from 2001 to 2020. Pancreatic cancer mortality data from the same timeframe came from the National Vital Statistics System.
• The researchers looked at four histologic categories: Adenocarcinoma, the dominant pancreatic cancer histology, as well as more rare subtypes — endocrine and solid pseudopapillary — and “other” category. Researchers also categorized stage-specific incidence as early stage (in situ or localized) or late stage (regional or distant).

TAKEAWAY:

• The incidence of pancreatic cancer increased 2.1-fold in young women (incidence, 3.3-6.9 per million) and 1.6-fold in young men (incidence, 3.9-6.2 per million) between 2001 and 2019. However, mortality rates remained stable for women (1.5 deaths per million; annual percent change [AAPC], −0.5%; 95% CI, –1.4% to 0.5%) and men (2.5 deaths per million; AAPC, –0.1%; 95% CI, –0.8% to 0.6%) over this period.
• Looking at cancer subtypes, the increase in incidence was largely caused by early-stage endocrine cancer and solid pseudopapillary neoplasms in women, not adenocarcinoma (which remained stable over the study period).
• Looking at cancer stage, most of the increase in incidence came from detection of smaller tumors (< 2 cm) and early-stage cancer, which rose from 0.6 to 3.7 per million in women and from 0.4 to 2.2 per million in men. The authors also found no statistically significant change in the incidence of late-stage cancer in women or men.
• Rates of surgical treatment for pancreatic cancer increased, more than tripling among women (from 1.5 to 4.7 per million) and more than doubling among men (from 1.1 to 2.3 per million).

IN PRACTICE:

“Pancreatic cancer now can be another cancer subject to overdiagnosis: The detection of disease not destined to cause symptoms or death,” the authors concluded. “Although the observed changes in incidence are small, overdiagnosis is especially concerning for pancreatic cancer, as pancreatic surgery has substantial risk for morbidity (in particular, pancreatic fistulas) and mortality.”

SOURCE:

The study, with first author Vishal R. Patel, MD, MPH, and corresponding author H. Gilbert Welch, MD, MPH, from Brigham and Women’s Hospital, Boston, was published online on November 19 in Annals of Internal Medicine.

LIMITATIONS:

The study was limited by the lack of data on the method of cancer detection, which may have affected the interpretation of the findings.

DISCLOSURES:

Disclosure forms are available with the article online.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

PHILADELPHIA — New research provides more evidence that glucagon-like peptide 1 receptor agonists (GLP-1 RAs) do not increase the risk for pancreatic cancer.

Instead, the large electronic health record (EHR) analysis of patients with type 2 diabetes (T2D) found those taking GLP-1 RAs had a significantly lower risk for pancreatic cancer than peers on other antidiabetic medications. 

“Although there were previous reports suggesting possible association between pancreatic cancer and GLP-1 receptor agonist medications, this study provides reassurance that there is no observed increased incidence of pancreatic cancer in patients prescribed these medications,” said Khaled Alsabbagh Alchirazi, MD, a gastroenterology fellow with Aurora Healthcare in Brookfield, Wisconsin. 

He presented the study findings at the American College of Gastroenterology (ACG) 2024 Annual Scientific Meeting. 

 

Important Topic

Patients with T2D are at increased risk for several malignancies, including pancreatic cancer. Given the unique mechanism of action of GLP-1 RAs in the pancreas, it was important to investigate the relationship between use of these drugs and incidence of pancreatic cancer, he explained.

Using the TriNetX database, the study team identified 4.95 million antidiabetic drug naive T2D patients who were prescribed antidiabetic medications for the first time between 2005 and 2020. None had a history of pancreatic cancer. 

A total of 245,532 were prescribed a GLP-1 RA. The researchers compared GLP-1 RAs users to users of other antidiabetic medications — namely, insulin, metformin, alpha-glucosidase inhibitors, dipeptidyl-peptidase 4 inhibitors (DPP-4i), sodium-glucose cotransporter-2 inhibitors (SGLT2i), sulfonylureas, and thiazolidinediones. 

Patients were propensity score-matched based on demographics, health determinants, lifestyle factors, medical history, family history of cancers, and acute/chronic pancreatitis. 

The risk for pancreatic cancer was significantly lower among patients on GLP-1 RAs vs insulin (hazard ratio [HR], 0.47; 95% CI, 0.40-0.55), DPP-4i (HR, 0.80; 95% CI, 0.73-0.89), SGLT2i (HR, 0.78; 95% CI, 0.69-0.89), and sulfonylureas (HR, 0.84; 95% CI, 0.74-0.95), Alchirazi reported.

The results were consistent across different groups, including patients with obesity/ overweight on GLP-1 RAs vs insulin (HR, 0.53; 95% CI, 0.43-0.65) and SGLT2i (HR, 0.81; 95% CI, 0.69-0.96).

Strengths of the analysis included the large and diverse cohort of propensity score-matched patients. Limitations included the retrospective design and use of claims data that did not provide granular data on pathology reports.

The study by Alchirazi and colleagues aligns with a large population-based cohort study from Israel that found no evidence that GLP-1 RAs increase risk for pancreatic cancer over 7 years following initiation.

Separately, a study of more than 1.6 million patients with T2D found that treatment with a GLP-1 RA (vs insulin or metformin) was associated with lower risks for specific types of obesity-related cancers, including pancreatic cancer.

The study had no specific funding. Alchirazi had no relevant disclosures.

A version of this article appeared on Medscape.com.

PHILADELPHIA — New research provides more evidence that glucagon-like peptide 1 receptor agonists (GLP-1 RAs) do not increase the risk for pancreatic cancer.

Instead, the large electronic health record (EHR) analysis of patients with type 2 diabetes (T2D) found those taking GLP-1 RAs had a significantly lower risk for pancreatic cancer than peers on other antidiabetic medications. 

“Although there were previous reports suggesting possible association between pancreatic cancer and GLP-1 receptor agonist medications, this study provides reassurance that there is no observed increased incidence of pancreatic cancer in patients prescribed these medications,” said Khaled Alsabbagh Alchirazi, MD, a gastroenterology fellow with Aurora Healthcare in Brookfield, Wisconsin. 

He presented the study findings at the American College of Gastroenterology (ACG) 2024 Annual Scientific Meeting. 

 

Important Topic

Patients with T2D are at increased risk for several malignancies, including pancreatic cancer. Given the unique mechanism of action of GLP-1 RAs in the pancreas, it was important to investigate the relationship between use of these drugs and incidence of pancreatic cancer, he explained.

Using the TriNetX database, the study team identified 4.95 million antidiabetic drug naive T2D patients who were prescribed antidiabetic medications for the first time between 2005 and 2020. None had a history of pancreatic cancer. 

A total of 245,532 were prescribed a GLP-1 RA. The researchers compared GLP-1 RAs users to users of other antidiabetic medications — namely, insulin, metformin, alpha-glucosidase inhibitors, dipeptidyl-peptidase 4 inhibitors (DPP-4i), sodium-glucose cotransporter-2 inhibitors (SGLT2i), sulfonylureas, and thiazolidinediones. 

Patients were propensity score-matched based on demographics, health determinants, lifestyle factors, medical history, family history of cancers, and acute/chronic pancreatitis. 

The risk for pancreatic cancer was significantly lower among patients on GLP-1 RAs vs insulin (hazard ratio [HR], 0.47; 95% CI, 0.40-0.55), DPP-4i (HR, 0.80; 95% CI, 0.73-0.89), SGLT2i (HR, 0.78; 95% CI, 0.69-0.89), and sulfonylureas (HR, 0.84; 95% CI, 0.74-0.95), Alchirazi reported.

The results were consistent across different groups, including patients with obesity/ overweight on GLP-1 RAs vs insulin (HR, 0.53; 95% CI, 0.43-0.65) and SGLT2i (HR, 0.81; 95% CI, 0.69-0.96).

Strengths of the analysis included the large and diverse cohort of propensity score-matched patients. Limitations included the retrospective design and use of claims data that did not provide granular data on pathology reports.

The study by Alchirazi and colleagues aligns with a large population-based cohort study from Israel that found no evidence that GLP-1 RAs increase risk for pancreatic cancer over 7 years following initiation.

Separately, a study of more than 1.6 million patients with T2D found that treatment with a GLP-1 RA (vs insulin or metformin) was associated with lower risks for specific types of obesity-related cancers, including pancreatic cancer.

The study had no specific funding. Alchirazi had no relevant disclosures.

A version of this article appeared on Medscape.com.

PHILADELPHIA — New research provides more evidence that glucagon-like peptide 1 receptor agonists (GLP-1 RAs) do not increase the risk for pancreatic cancer.

Instead, the large electronic health record (EHR) analysis of patients with type 2 diabetes (T2D) found those taking GLP-1 RAs had a significantly lower risk for pancreatic cancer than peers on other antidiabetic medications. 

“Although there were previous reports suggesting possible association between pancreatic cancer and GLP-1 receptor agonist medications, this study provides reassurance that there is no observed increased incidence of pancreatic cancer in patients prescribed these medications,” said Khaled Alsabbagh Alchirazi, MD, a gastroenterology fellow with Aurora Healthcare in Brookfield, Wisconsin. 

He presented the study findings at the American College of Gastroenterology (ACG) 2024 Annual Scientific Meeting. 

 

Important Topic

Patients with T2D are at increased risk for several malignancies, including pancreatic cancer. Given the unique mechanism of action of GLP-1 RAs in the pancreas, it was important to investigate the relationship between use of these drugs and incidence of pancreatic cancer, he explained.

Using the TriNetX database, the study team identified 4.95 million antidiabetic drug naive T2D patients who were prescribed antidiabetic medications for the first time between 2005 and 2020. None had a history of pancreatic cancer. 

A total of 245,532 were prescribed a GLP-1 RA. The researchers compared GLP-1 RAs users to users of other antidiabetic medications — namely, insulin, metformin, alpha-glucosidase inhibitors, dipeptidyl-peptidase 4 inhibitors (DPP-4i), sodium-glucose cotransporter-2 inhibitors (SGLT2i), sulfonylureas, and thiazolidinediones. 

Patients were propensity score-matched based on demographics, health determinants, lifestyle factors, medical history, family history of cancers, and acute/chronic pancreatitis. 

The risk for pancreatic cancer was significantly lower among patients on GLP-1 RAs vs insulin (hazard ratio [HR], 0.47; 95% CI, 0.40-0.55), DPP-4i (HR, 0.80; 95% CI, 0.73-0.89), SGLT2i (HR, 0.78; 95% CI, 0.69-0.89), and sulfonylureas (HR, 0.84; 95% CI, 0.74-0.95), Alchirazi reported.

The results were consistent across different groups, including patients with obesity/ overweight on GLP-1 RAs vs insulin (HR, 0.53; 95% CI, 0.43-0.65) and SGLT2i (HR, 0.81; 95% CI, 0.69-0.96).

Strengths of the analysis included the large and diverse cohort of propensity score-matched patients. Limitations included the retrospective design and use of claims data that did not provide granular data on pathology reports.

The study by Alchirazi and colleagues aligns with a large population-based cohort study from Israel that found no evidence that GLP-1 RAs increase risk for pancreatic cancer over 7 years following initiation.

Separately, a study of more than 1.6 million patients with T2D found that treatment with a GLP-1 RA (vs insulin or metformin) was associated with lower risks for specific types of obesity-related cancers, including pancreatic cancer.

The study had no specific funding. Alchirazi had no relevant disclosures.

A version of this article appeared on Medscape.com.