Ob.Gyn. News

Patients with metastatic or advanced cancer treated in practices that have high rates of giving systemic care in the last two weeks of life do not have longer survival rates than patients in practices that have low rates of such care.

This conclusion of a new study published online May 16 in JAMA Oncology may help reassure oncologists that giving systemic anticancer therapy (SACT) at the most advanced stages of cancer will not improve the patient’s life, the authors wrote. It also may encourage them to instead focus more on honest communication with patients about their choices, Maureen E. Canavan, PhD, at the Cancer and Outcomes, Public Policy and Effectiveness Research (COPPER) Center at the Yale School of Medicine in New Haven, Connecticut, and colleagues, wrote in their paper.
 

How Was the Study Conducted?

Researchers used Flatiron Health, a nationwide electronic health records database of academic and community practices throughout the United State. They identified 78,446 adults with advanced or metastatic stages of one of six common cancers (breast, colorectal, urothelial, non–small cell lung cancer [NSCLC], pancreatic and renal cell carcinoma) who were treated at healthcare practices from 2015 to 2019. They then stratified practices into quintiles based on how often the practices treated patients with any systemic therapy, including chemotherapy and immunotherapy, in their last 14 days of life. They compared whether patients in practices with greater use of systemic treatment at very advanced stages had longer overall survival.

What Were the Main Findings?

“We saw that there were absolutely no survival differences between the practices that used more systemic therapy for very advanced cancer than the practices that use less,” said senior author Kerin Adelson, MD, chief quality and value officer at MD Anderson Cancer Center in Houston, Texas. In some cancers, those in the lowest quintile (those with the lowest rates of systemic end-of-life care) lived fewer years compared with those in the highest quintiles. In other cancers, those in the lowest quintiles lived more years than those in the highest quintiles.

“What’s important is that none of those differences, after you control for other factors, was statistically significant,” Dr. Adelson said. “That was the same in every cancer type we looked at.”

An example is seen in advanced urothelial cancer. Those in the first quintile (lowest rates of systemic care at end of life) had an SACT rate range of 4.0-9.1. The SACT rate range in the highest quintile was 19.8-42.6. But the median overall survival (OS) rate for those in the lowest quintile was 12.7 months, not statistically different from the median OS in the highest quintile (11 months.)
 

How Does This Study Add to the Literature?

The American Society of Clinical Oncology (ASCO) and the National Quality Forum (NQF) developed a cancer quality metric to reduce SACT at the end of life. The NQF 0210 is a ratio of patients who get systemic treatment within 14 days of death over all patients who die of cancer. The quality metric has been widely adopted and used in value-based care reporting.

But the metric has been criticized because it focuses only on people who died and not people who lived longer because they benefited from the systemic therapy, the authors wrote.

Dr. Canavan’s team focused on all patients treated in the practice, not just those who died, Dr. Adelson said. This may put that criticism to rest, Dr. Adelson said.

“I personally believed the ASCO and NQF metric was appropriate and the criticisms were off base,” said Otis Brawley, MD, associate director of community outreach and engagement at the Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins University School of Medicine in Baltimore. “Canavan’s study is evidence suggesting the metrics were appropriate.”

This study included not just chemotherapy, as some other studies have, but targeted therapies and immunotherapies as well. Dr. Adelson said some think that the newer drugs might change the prognosis at end of life. But this study shows “even those drugs are not helping patients to survive with very advanced cancer,” she said.

 

Could This Change Practice?

The authors noted that end-of life SACT has been linked with more acute care use, delays in conversations about care goals, late enrollment in hospice, higher costs, and potentially shorter and poorer quality life.

Dr. Adelson said she’s hoping that the knowledge that there’s no survival benefit for use of SACT for patients with advanced solid tumors who are nearing the end of life will lead instead to more conversations about prognosis with patients and transitions to palliative care.

“Palliative care has actually been shown to improve quality of life and, in some studies, even survival,” she said.

“I doubt it will change practice, but it should,” Dr. Brawley said. “The study suggests that doctors and patients have too much hope for chemotherapy as patients’ disease progresses. In the US especially, there is a tendency to believe we have better therapies than we truly do and we have difficulty accepting that the patient is dying. Many patients get third- and fourth-line chemotherapy that is highly likely to increase suffering without realistic hope of prolonging life and especially no hope of prolonging life with good quality.”

Dr. Adelson disclosed ties with AbbVie, Quantum Health, Gilead, ParetoHealth, and Carrum Health. Various coauthors disclosed ties with Roche, AbbVie, Johnson & Johnson, Genentech, the National Comprehensive Cancer Network, and AstraZeneca. The study was funded by Flatiron Health, an independent member of the Roche group. Dr. Brawley reports no relevant financial disclosures.

Patients with metastatic or advanced cancer treated in practices that have high rates of giving systemic care in the last two weeks of life do not have longer survival rates than patients in practices that have low rates of such care.

This conclusion of a new study published online May 16 in JAMA Oncology may help reassure oncologists that giving systemic anticancer therapy (SACT) at the most advanced stages of cancer will not improve the patient’s life, the authors wrote. It also may encourage them to instead focus more on honest communication with patients about their choices, Maureen E. Canavan, PhD, at the Cancer and Outcomes, Public Policy and Effectiveness Research (COPPER) Center at the Yale School of Medicine in New Haven, Connecticut, and colleagues, wrote in their paper.
 

How Was the Study Conducted?

Researchers used Flatiron Health, a nationwide electronic health records database of academic and community practices throughout the United State. They identified 78,446 adults with advanced or metastatic stages of one of six common cancers (breast, colorectal, urothelial, non–small cell lung cancer [NSCLC], pancreatic and renal cell carcinoma) who were treated at healthcare practices from 2015 to 2019. They then stratified practices into quintiles based on how often the practices treated patients with any systemic therapy, including chemotherapy and immunotherapy, in their last 14 days of life. They compared whether patients in practices with greater use of systemic treatment at very advanced stages had longer overall survival.

What Were the Main Findings?

“We saw that there were absolutely no survival differences between the practices that used more systemic therapy for very advanced cancer than the practices that use less,” said senior author Kerin Adelson, MD, chief quality and value officer at MD Anderson Cancer Center in Houston, Texas. In some cancers, those in the lowest quintile (those with the lowest rates of systemic end-of-life care) lived fewer years compared with those in the highest quintiles. In other cancers, those in the lowest quintiles lived more years than those in the highest quintiles.

“What’s important is that none of those differences, after you control for other factors, was statistically significant,” Dr. Adelson said. “That was the same in every cancer type we looked at.”

An example is seen in advanced urothelial cancer. Those in the first quintile (lowest rates of systemic care at end of life) had an SACT rate range of 4.0-9.1. The SACT rate range in the highest quintile was 19.8-42.6. But the median overall survival (OS) rate for those in the lowest quintile was 12.7 months, not statistically different from the median OS in the highest quintile (11 months.)
 

How Does This Study Add to the Literature?

The American Society of Clinical Oncology (ASCO) and the National Quality Forum (NQF) developed a cancer quality metric to reduce SACT at the end of life. The NQF 0210 is a ratio of patients who get systemic treatment within 14 days of death over all patients who die of cancer. The quality metric has been widely adopted and used in value-based care reporting.

But the metric has been criticized because it focuses only on people who died and not people who lived longer because they benefited from the systemic therapy, the authors wrote.

Dr. Canavan’s team focused on all patients treated in the practice, not just those who died, Dr. Adelson said. This may put that criticism to rest, Dr. Adelson said.

“I personally believed the ASCO and NQF metric was appropriate and the criticisms were off base,” said Otis Brawley, MD, associate director of community outreach and engagement at the Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins University School of Medicine in Baltimore. “Canavan’s study is evidence suggesting the metrics were appropriate.”

This study included not just chemotherapy, as some other studies have, but targeted therapies and immunotherapies as well. Dr. Adelson said some think that the newer drugs might change the prognosis at end of life. But this study shows “even those drugs are not helping patients to survive with very advanced cancer,” she said.

 

Could This Change Practice?

The authors noted that end-of life SACT has been linked with more acute care use, delays in conversations about care goals, late enrollment in hospice, higher costs, and potentially shorter and poorer quality life.

Dr. Adelson said she’s hoping that the knowledge that there’s no survival benefit for use of SACT for patients with advanced solid tumors who are nearing the end of life will lead instead to more conversations about prognosis with patients and transitions to palliative care.

“Palliative care has actually been shown to improve quality of life and, in some studies, even survival,” she said.

“I doubt it will change practice, but it should,” Dr. Brawley said. “The study suggests that doctors and patients have too much hope for chemotherapy as patients’ disease progresses. In the US especially, there is a tendency to believe we have better therapies than we truly do and we have difficulty accepting that the patient is dying. Many patients get third- and fourth-line chemotherapy that is highly likely to increase suffering without realistic hope of prolonging life and especially no hope of prolonging life with good quality.”

Dr. Adelson disclosed ties with AbbVie, Quantum Health, Gilead, ParetoHealth, and Carrum Health. Various coauthors disclosed ties with Roche, AbbVie, Johnson & Johnson, Genentech, the National Comprehensive Cancer Network, and AstraZeneca. The study was funded by Flatiron Health, an independent member of the Roche group. Dr. Brawley reports no relevant financial disclosures.

Patients with metastatic or advanced cancer treated in practices that have high rates of giving systemic care in the last two weeks of life do not have longer survival rates than patients in practices that have low rates of such care.

This conclusion of a new study published online May 16 in JAMA Oncology may help reassure oncologists that giving systemic anticancer therapy (SACT) at the most advanced stages of cancer will not improve the patient’s life, the authors wrote. It also may encourage them to instead focus more on honest communication with patients about their choices, Maureen E. Canavan, PhD, at the Cancer and Outcomes, Public Policy and Effectiveness Research (COPPER) Center at the Yale School of Medicine in New Haven, Connecticut, and colleagues, wrote in their paper.
 

How Was the Study Conducted?

Researchers used Flatiron Health, a nationwide electronic health records database of academic and community practices throughout the United State. They identified 78,446 adults with advanced or metastatic stages of one of six common cancers (breast, colorectal, urothelial, non–small cell lung cancer [NSCLC], pancreatic and renal cell carcinoma) who were treated at healthcare practices from 2015 to 2019. They then stratified practices into quintiles based on how often the practices treated patients with any systemic therapy, including chemotherapy and immunotherapy, in their last 14 days of life. They compared whether patients in practices with greater use of systemic treatment at very advanced stages had longer overall survival.

What Were the Main Findings?

“We saw that there were absolutely no survival differences between the practices that used more systemic therapy for very advanced cancer than the practices that use less,” said senior author Kerin Adelson, MD, chief quality and value officer at MD Anderson Cancer Center in Houston, Texas. In some cancers, those in the lowest quintile (those with the lowest rates of systemic end-of-life care) lived fewer years compared with those in the highest quintiles. In other cancers, those in the lowest quintiles lived more years than those in the highest quintiles.

“What’s important is that none of those differences, after you control for other factors, was statistically significant,” Dr. Adelson said. “That was the same in every cancer type we looked at.”

An example is seen in advanced urothelial cancer. Those in the first quintile (lowest rates of systemic care at end of life) had an SACT rate range of 4.0-9.1. The SACT rate range in the highest quintile was 19.8-42.6. But the median overall survival (OS) rate for those in the lowest quintile was 12.7 months, not statistically different from the median OS in the highest quintile (11 months.)
 

How Does This Study Add to the Literature?

The American Society of Clinical Oncology (ASCO) and the National Quality Forum (NQF) developed a cancer quality metric to reduce SACT at the end of life. The NQF 0210 is a ratio of patients who get systemic treatment within 14 days of death over all patients who die of cancer. The quality metric has been widely adopted and used in value-based care reporting.

But the metric has been criticized because it focuses only on people who died and not people who lived longer because they benefited from the systemic therapy, the authors wrote.

Dr. Canavan’s team focused on all patients treated in the practice, not just those who died, Dr. Adelson said. This may put that criticism to rest, Dr. Adelson said.

“I personally believed the ASCO and NQF metric was appropriate and the criticisms were off base,” said Otis Brawley, MD, associate director of community outreach and engagement at the Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins University School of Medicine in Baltimore. “Canavan’s study is evidence suggesting the metrics were appropriate.”

This study included not just chemotherapy, as some other studies have, but targeted therapies and immunotherapies as well. Dr. Adelson said some think that the newer drugs might change the prognosis at end of life. But this study shows “even those drugs are not helping patients to survive with very advanced cancer,” she said.

 

Could This Change Practice?

The authors noted that end-of life SACT has been linked with more acute care use, delays in conversations about care goals, late enrollment in hospice, higher costs, and potentially shorter and poorer quality life.

Dr. Adelson said she’s hoping that the knowledge that there’s no survival benefit for use of SACT for patients with advanced solid tumors who are nearing the end of life will lead instead to more conversations about prognosis with patients and transitions to palliative care.

“Palliative care has actually been shown to improve quality of life and, in some studies, even survival,” she said.

“I doubt it will change practice, but it should,” Dr. Brawley said. “The study suggests that doctors and patients have too much hope for chemotherapy as patients’ disease progresses. In the US especially, there is a tendency to believe we have better therapies than we truly do and we have difficulty accepting that the patient is dying. Many patients get third- and fourth-line chemotherapy that is highly likely to increase suffering without realistic hope of prolonging life and especially no hope of prolonging life with good quality.”

Dr. Adelson disclosed ties with AbbVie, Quantum Health, Gilead, ParetoHealth, and Carrum Health. Various coauthors disclosed ties with Roche, AbbVie, Johnson & Johnson, Genentech, the National Comprehensive Cancer Network, and AstraZeneca. The study was funded by Flatiron Health, an independent member of the Roche group. Dr. Brawley reports no relevant financial disclosures.

The next frontier in cancer detection could be the humble urine test.

Emerging science suggests that the body’s “liquid gold” could be particularly useful for liquid biopsies, offering a convenient, pain-free, and cost-effective way to spot otherwise hard-to-detect cancers.

“The search for cancer biomarkers that can be detected in urine could provide an enormous step forward to decrease cancer patient mortality,” said Kenneth R. Shroyer, MD, PhD, a pathologist at Stony Brook University, Stony Brook, New York, who studies cancer biomarkers.

Physicians have long known that urine can reveal a lot about our health — that’s why urinalysis has been part of medicine for 6000 years. Urine tests can detect diabetes, pregnancy, drug use, and urinary or kidney conditions.

But other conditions leave clues in urine, too, and cancer may be one of the most promising. “Urine testing could detect biomarkers of early-stage cancers, not only from local but also distant sites,” Dr. Shroyer said. It could also help flag recurrence in cancer survivors who have undergone treatment.

Granted, cancer biomarkers in urine are not nearly as widely studied as those in the blood, Dr. Shroyer noted. But a new wave of urine tests suggests research is gaining pace.

“The recent availability of high-throughput screening technologies has enabled researchers to investigate cancer from a top-down, comprehensive approach,” said Pak Kin Wong, PhD, professor of mechanical engineering, biomedical engineering, and surgery at The Pennsylvania State University. “We are starting to understand the rich information that can be obtained from urine.”

Urine is mostly water (about 95%) and urea, a metabolic byproduct that imparts that signature yellow color (about 2%). The other 3% is a mix of waste products, minerals, and other compounds the kidneys removed from the blood. Even in trace amounts, these substances say a lot.

Among them are “exfoliated cancer cells, cell-free DNA, hormones, and the urine microbiota — the collection of microbes in our urinary tract system,” Dr. Wong said.

“It is highly promising to be one of the major biological fluids used for screening, diagnosis, prognosis, and monitoring treatment efficiency in the era of precision medicine,” Dr. Wong said.

How Urine Testing Could Reveal Cancer

Still, as exciting as the prospect is, there’s a lot to consider in the hunt for cancer biomarkers in urine. These biomarkers must be able to pass through the renal nephrons (filtering units), remain stable in urine, and have high-level sensitivity, Dr. Shroyer said. They should also have high specificity for cancer vs benign conditions and be expressed at early stages, before the primary tumor has spread.

“At this stage, few circulating biomarkers have been found that are both sensitive and specific for early-stage disease,” said Dr. Shroyer.

But there are a few promising examples under investigation in humans:

Prostate cancer. Researchers at the University of Michigan have developed a urine test that detects high-grade prostate cancer more accurately than existing tests, including PHI, SelectMDx, 4Kscore, EPI, MPS, and IsoPSA.

The MyProstateScore 2.0 (MPS2) test, which looks for 18 genes associated with high-grade tumors, could reduce unnecessary biopsies in men with elevated prostate-specific antigen levels, according to a paper published in JAMA Oncology.

It makes sense. The prostate gland secretes fluid that becomes part of the semen, traces of which enter urine. After a digital rectal exam, even more prostate fluid enters the urine. If a patient has prostate cancer, genetic material from the cancer cells will infiltrate the urine.

In the MPS2 test, researchers used polymerase chain reaction (PCR) testing in urine. “The technology used for COVID PCR is essentially the same as the PCR used to detect transcripts associated with high-grade prostate cancer in urine,” said study author Arul Chinnaiyan, MD, PhD, director of the Michigan Center for Translational Pathology at the University of Michigan, Ann Arbor. “In the case of the MPS2 test, we are doing PCR on 18 genes simultaneously on urine samples.”

A statistical model uses levels of that genetic material to predict the risk for high-grade disease, helping doctors decide what to do next. At 95% sensitivity, the MPS2 model could eliminate 35%-45% of unnecessary biopsies, compared with 15%-30% for the other tests, and reduce repeat biopsies by 46%-51%, compared with 9%-21% for the other tests.

Head and neck cancer. In a paper published in JCI Insight, researchers described a test that finds ultra-short fragments of DNA in urine to enable early detection of head and neck cancers caused by human papillomavirus.

“Our data show that a relatively small volume of urine (30-60 mL) gives overall detection results comparable to a tube of blood,” said study author Muneesh Tewari, MD, PhD, professor of hematology and oncology at the University of Michigan .

A larger volume of urine could potentially “make cancer detection even more sensitive than blood,” Dr. Tewari said, “allowing cancers to be detected at the earliest stages when they are more curable.”

The team used a technique called droplet digital PCR to detect DNA fragments that are “ultra-short” (less than 50 base pairs long) and usually missed by conventional PCR testing. This transrenal cell-free tumor DNA, which travels from the tumor into the bloodstream, is broken down small enough to pass through the kidneys and into the urine. But the fragments are still long enough to carry information about the tumor’s genetic signature.

This test could spot cancer before a tumor grows big enough — about a centimeter wide and carrying a billion cells — to spot on a CT scan or other imaging test. “When we are instead detecting fragments of DNA released from a tumor,” said Dr. Tewari, “our testing methods are very sensitive and can detect DNA in urine that came from just 5-10 cells in a tumor that died and released their DNA into the blood, which then made its way into the urine.”

Pancreatic cancer. Pancreatic ductal adenocarcinoma is one of the deadliest cancers, largely because it is diagnosed so late. A urine panel now in clinical trials could help doctors diagnose the cancer before it has spread so more people can have the tumor surgically removed, improving prognosis.

Using enzyme-linked immunosorbent assay test, a common lab method that detects antibodies and other proteins, the team measured expression levels for three genes (LYVE1, REG1B, and TFF1) in urine samples collected from people up to 5 years before they were diagnosed with pancreatic cancer. The researchers combined this result with patients’ urinary creatinine levels, a common component of existing urinalysis, and their age to develop a risk score.

This score performed similarly to an existing blood test, CA19-9, in predicting patients’ risk for pancreatic cancer up to 1 year before diagnosis. When combined with CA19-9, the urinary panel helped spot cancer up to 2 years before diagnosis.

According to a paper in the International Journal of Cancer, “the urine panel and affiliated PancRISK are currently being validated in a prospective clinical study (UroPanc).” If all goes well, they could be implemented in clinical practice in a few years as a “noninvasive stratification tool” to identify patients for further testing, speeding up diagnosis, and saving lives.

Limitations and Promises

Each cancer type is different, and more research is needed to map out which substances in urine predict which cancers and to develop tests for mass adoption. “There are medical and technological hurdles to the large-scale implementation of urine analysis for complex diseases such as cancer,” said Dr. Wong.

One possibility: Scientists and clinicians could collaborate and use artificial intelligence techniques to combine urine test results with other data.

“It is likely that future diagnostics may combine urine with other biological samples such as feces and saliva, among others,” said Dr. Wong. “This is especially true when novel data science and machine learning techniques can integrate comprehensive data from patients that span genetic, proteomic, metabolic, microbiomic, and even behavioral data to evaluate a patient’s condition.”

One thing that excites Dr. Tewari about urine-based cancer testing: “We think it could be especially impactful for patients living in rural areas or other areas with less access to healthcare services,” he said.
 

A version of this article appeared on Medscape.com.

The next frontier in cancer detection could be the humble urine test.

Emerging science suggests that the body’s “liquid gold” could be particularly useful for liquid biopsies, offering a convenient, pain-free, and cost-effective way to spot otherwise hard-to-detect cancers.

“The search for cancer biomarkers that can be detected in urine could provide an enormous step forward to decrease cancer patient mortality,” said Kenneth R. Shroyer, MD, PhD, a pathologist at Stony Brook University, Stony Brook, New York, who studies cancer biomarkers.

Physicians have long known that urine can reveal a lot about our health — that’s why urinalysis has been part of medicine for 6000 years. Urine tests can detect diabetes, pregnancy, drug use, and urinary or kidney conditions.

But other conditions leave clues in urine, too, and cancer may be one of the most promising. “Urine testing could detect biomarkers of early-stage cancers, not only from local but also distant sites,” Dr. Shroyer said. It could also help flag recurrence in cancer survivors who have undergone treatment.

Granted, cancer biomarkers in urine are not nearly as widely studied as those in the blood, Dr. Shroyer noted. But a new wave of urine tests suggests research is gaining pace.

“The recent availability of high-throughput screening technologies has enabled researchers to investigate cancer from a top-down, comprehensive approach,” said Pak Kin Wong, PhD, professor of mechanical engineering, biomedical engineering, and surgery at The Pennsylvania State University. “We are starting to understand the rich information that can be obtained from urine.”

Urine is mostly water (about 95%) and urea, a metabolic byproduct that imparts that signature yellow color (about 2%). The other 3% is a mix of waste products, minerals, and other compounds the kidneys removed from the blood. Even in trace amounts, these substances say a lot.

Among them are “exfoliated cancer cells, cell-free DNA, hormones, and the urine microbiota — the collection of microbes in our urinary tract system,” Dr. Wong said.

“It is highly promising to be one of the major biological fluids used for screening, diagnosis, prognosis, and monitoring treatment efficiency in the era of precision medicine,” Dr. Wong said.

How Urine Testing Could Reveal Cancer

Still, as exciting as the prospect is, there’s a lot to consider in the hunt for cancer biomarkers in urine. These biomarkers must be able to pass through the renal nephrons (filtering units), remain stable in urine, and have high-level sensitivity, Dr. Shroyer said. They should also have high specificity for cancer vs benign conditions and be expressed at early stages, before the primary tumor has spread.

“At this stage, few circulating biomarkers have been found that are both sensitive and specific for early-stage disease,” said Dr. Shroyer.

But there are a few promising examples under investigation in humans:

Prostate cancer. Researchers at the University of Michigan have developed a urine test that detects high-grade prostate cancer more accurately than existing tests, including PHI, SelectMDx, 4Kscore, EPI, MPS, and IsoPSA.

The MyProstateScore 2.0 (MPS2) test, which looks for 18 genes associated with high-grade tumors, could reduce unnecessary biopsies in men with elevated prostate-specific antigen levels, according to a paper published in JAMA Oncology.

It makes sense. The prostate gland secretes fluid that becomes part of the semen, traces of which enter urine. After a digital rectal exam, even more prostate fluid enters the urine. If a patient has prostate cancer, genetic material from the cancer cells will infiltrate the urine.

In the MPS2 test, researchers used polymerase chain reaction (PCR) testing in urine. “The technology used for COVID PCR is essentially the same as the PCR used to detect transcripts associated with high-grade prostate cancer in urine,” said study author Arul Chinnaiyan, MD, PhD, director of the Michigan Center for Translational Pathology at the University of Michigan, Ann Arbor. “In the case of the MPS2 test, we are doing PCR on 18 genes simultaneously on urine samples.”

A statistical model uses levels of that genetic material to predict the risk for high-grade disease, helping doctors decide what to do next. At 95% sensitivity, the MPS2 model could eliminate 35%-45% of unnecessary biopsies, compared with 15%-30% for the other tests, and reduce repeat biopsies by 46%-51%, compared with 9%-21% for the other tests.

Head and neck cancer. In a paper published in JCI Insight, researchers described a test that finds ultra-short fragments of DNA in urine to enable early detection of head and neck cancers caused by human papillomavirus.

“Our data show that a relatively small volume of urine (30-60 mL) gives overall detection results comparable to a tube of blood,” said study author Muneesh Tewari, MD, PhD, professor of hematology and oncology at the University of Michigan .

A larger volume of urine could potentially “make cancer detection even more sensitive than blood,” Dr. Tewari said, “allowing cancers to be detected at the earliest stages when they are more curable.”

The team used a technique called droplet digital PCR to detect DNA fragments that are “ultra-short” (less than 50 base pairs long) and usually missed by conventional PCR testing. This transrenal cell-free tumor DNA, which travels from the tumor into the bloodstream, is broken down small enough to pass through the kidneys and into the urine. But the fragments are still long enough to carry information about the tumor’s genetic signature.

This test could spot cancer before a tumor grows big enough — about a centimeter wide and carrying a billion cells — to spot on a CT scan or other imaging test. “When we are instead detecting fragments of DNA released from a tumor,” said Dr. Tewari, “our testing methods are very sensitive and can detect DNA in urine that came from just 5-10 cells in a tumor that died and released their DNA into the blood, which then made its way into the urine.”

Pancreatic cancer. Pancreatic ductal adenocarcinoma is one of the deadliest cancers, largely because it is diagnosed so late. A urine panel now in clinical trials could help doctors diagnose the cancer before it has spread so more people can have the tumor surgically removed, improving prognosis.

Using enzyme-linked immunosorbent assay test, a common lab method that detects antibodies and other proteins, the team measured expression levels for three genes (LYVE1, REG1B, and TFF1) in urine samples collected from people up to 5 years before they were diagnosed with pancreatic cancer. The researchers combined this result with patients’ urinary creatinine levels, a common component of existing urinalysis, and their age to develop a risk score.

This score performed similarly to an existing blood test, CA19-9, in predicting patients’ risk for pancreatic cancer up to 1 year before diagnosis. When combined with CA19-9, the urinary panel helped spot cancer up to 2 years before diagnosis.

According to a paper in the International Journal of Cancer, “the urine panel and affiliated PancRISK are currently being validated in a prospective clinical study (UroPanc).” If all goes well, they could be implemented in clinical practice in a few years as a “noninvasive stratification tool” to identify patients for further testing, speeding up diagnosis, and saving lives.

Limitations and Promises

Each cancer type is different, and more research is needed to map out which substances in urine predict which cancers and to develop tests for mass adoption. “There are medical and technological hurdles to the large-scale implementation of urine analysis for complex diseases such as cancer,” said Dr. Wong.

One possibility: Scientists and clinicians could collaborate and use artificial intelligence techniques to combine urine test results with other data.

“It is likely that future diagnostics may combine urine with other biological samples such as feces and saliva, among others,” said Dr. Wong. “This is especially true when novel data science and machine learning techniques can integrate comprehensive data from patients that span genetic, proteomic, metabolic, microbiomic, and even behavioral data to evaluate a patient’s condition.”

One thing that excites Dr. Tewari about urine-based cancer testing: “We think it could be especially impactful for patients living in rural areas or other areas with less access to healthcare services,” he said.
 

A version of this article appeared on Medscape.com.

The next frontier in cancer detection could be the humble urine test.

Emerging science suggests that the body’s “liquid gold” could be particularly useful for liquid biopsies, offering a convenient, pain-free, and cost-effective way to spot otherwise hard-to-detect cancers.

“The search for cancer biomarkers that can be detected in urine could provide an enormous step forward to decrease cancer patient mortality,” said Kenneth R. Shroyer, MD, PhD, a pathologist at Stony Brook University, Stony Brook, New York, who studies cancer biomarkers.

Physicians have long known that urine can reveal a lot about our health — that’s why urinalysis has been part of medicine for 6000 years. Urine tests can detect diabetes, pregnancy, drug use, and urinary or kidney conditions.

But other conditions leave clues in urine, too, and cancer may be one of the most promising. “Urine testing could detect biomarkers of early-stage cancers, not only from local but also distant sites,” Dr. Shroyer said. It could also help flag recurrence in cancer survivors who have undergone treatment.

Granted, cancer biomarkers in urine are not nearly as widely studied as those in the blood, Dr. Shroyer noted. But a new wave of urine tests suggests research is gaining pace.

“The recent availability of high-throughput screening technologies has enabled researchers to investigate cancer from a top-down, comprehensive approach,” said Pak Kin Wong, PhD, professor of mechanical engineering, biomedical engineering, and surgery at The Pennsylvania State University. “We are starting to understand the rich information that can be obtained from urine.”

Urine is mostly water (about 95%) and urea, a metabolic byproduct that imparts that signature yellow color (about 2%). The other 3% is a mix of waste products, minerals, and other compounds the kidneys removed from the blood. Even in trace amounts, these substances say a lot.

Among them are “exfoliated cancer cells, cell-free DNA, hormones, and the urine microbiota — the collection of microbes in our urinary tract system,” Dr. Wong said.

“It is highly promising to be one of the major biological fluids used for screening, diagnosis, prognosis, and monitoring treatment efficiency in the era of precision medicine,” Dr. Wong said.

How Urine Testing Could Reveal Cancer

Still, as exciting as the prospect is, there’s a lot to consider in the hunt for cancer biomarkers in urine. These biomarkers must be able to pass through the renal nephrons (filtering units), remain stable in urine, and have high-level sensitivity, Dr. Shroyer said. They should also have high specificity for cancer vs benign conditions and be expressed at early stages, before the primary tumor has spread.

“At this stage, few circulating biomarkers have been found that are both sensitive and specific for early-stage disease,” said Dr. Shroyer.

But there are a few promising examples under investigation in humans:

Prostate cancer. Researchers at the University of Michigan have developed a urine test that detects high-grade prostate cancer more accurately than existing tests, including PHI, SelectMDx, 4Kscore, EPI, MPS, and IsoPSA.

The MyProstateScore 2.0 (MPS2) test, which looks for 18 genes associated with high-grade tumors, could reduce unnecessary biopsies in men with elevated prostate-specific antigen levels, according to a paper published in JAMA Oncology.

It makes sense. The prostate gland secretes fluid that becomes part of the semen, traces of which enter urine. After a digital rectal exam, even more prostate fluid enters the urine. If a patient has prostate cancer, genetic material from the cancer cells will infiltrate the urine.

In the MPS2 test, researchers used polymerase chain reaction (PCR) testing in urine. “The technology used for COVID PCR is essentially the same as the PCR used to detect transcripts associated with high-grade prostate cancer in urine,” said study author Arul Chinnaiyan, MD, PhD, director of the Michigan Center for Translational Pathology at the University of Michigan, Ann Arbor. “In the case of the MPS2 test, we are doing PCR on 18 genes simultaneously on urine samples.”

A statistical model uses levels of that genetic material to predict the risk for high-grade disease, helping doctors decide what to do next. At 95% sensitivity, the MPS2 model could eliminate 35%-45% of unnecessary biopsies, compared with 15%-30% for the other tests, and reduce repeat biopsies by 46%-51%, compared with 9%-21% for the other tests.

Head and neck cancer. In a paper published in JCI Insight, researchers described a test that finds ultra-short fragments of DNA in urine to enable early detection of head and neck cancers caused by human papillomavirus.

“Our data show that a relatively small volume of urine (30-60 mL) gives overall detection results comparable to a tube of blood,” said study author Muneesh Tewari, MD, PhD, professor of hematology and oncology at the University of Michigan .

A larger volume of urine could potentially “make cancer detection even more sensitive than blood,” Dr. Tewari said, “allowing cancers to be detected at the earliest stages when they are more curable.”

The team used a technique called droplet digital PCR to detect DNA fragments that are “ultra-short” (less than 50 base pairs long) and usually missed by conventional PCR testing. This transrenal cell-free tumor DNA, which travels from the tumor into the bloodstream, is broken down small enough to pass through the kidneys and into the urine. But the fragments are still long enough to carry information about the tumor’s genetic signature.

This test could spot cancer before a tumor grows big enough — about a centimeter wide and carrying a billion cells — to spot on a CT scan or other imaging test. “When we are instead detecting fragments of DNA released from a tumor,” said Dr. Tewari, “our testing methods are very sensitive and can detect DNA in urine that came from just 5-10 cells in a tumor that died and released their DNA into the blood, which then made its way into the urine.”

Pancreatic cancer. Pancreatic ductal adenocarcinoma is one of the deadliest cancers, largely because it is diagnosed so late. A urine panel now in clinical trials could help doctors diagnose the cancer before it has spread so more people can have the tumor surgically removed, improving prognosis.

Using enzyme-linked immunosorbent assay test, a common lab method that detects antibodies and other proteins, the team measured expression levels for three genes (LYVE1, REG1B, and TFF1) in urine samples collected from people up to 5 years before they were diagnosed with pancreatic cancer. The researchers combined this result with patients’ urinary creatinine levels, a common component of existing urinalysis, and their age to develop a risk score.

This score performed similarly to an existing blood test, CA19-9, in predicting patients’ risk for pancreatic cancer up to 1 year before diagnosis. When combined with CA19-9, the urinary panel helped spot cancer up to 2 years before diagnosis.

According to a paper in the International Journal of Cancer, “the urine panel and affiliated PancRISK are currently being validated in a prospective clinical study (UroPanc).” If all goes well, they could be implemented in clinical practice in a few years as a “noninvasive stratification tool” to identify patients for further testing, speeding up diagnosis, and saving lives.

Limitations and Promises

Each cancer type is different, and more research is needed to map out which substances in urine predict which cancers and to develop tests for mass adoption. “There are medical and technological hurdles to the large-scale implementation of urine analysis for complex diseases such as cancer,” said Dr. Wong.

One possibility: Scientists and clinicians could collaborate and use artificial intelligence techniques to combine urine test results with other data.

“It is likely that future diagnostics may combine urine with other biological samples such as feces and saliva, among others,” said Dr. Wong. “This is especially true when novel data science and machine learning techniques can integrate comprehensive data from patients that span genetic, proteomic, metabolic, microbiomic, and even behavioral data to evaluate a patient’s condition.”

One thing that excites Dr. Tewari about urine-based cancer testing: “We think it could be especially impactful for patients living in rural areas or other areas with less access to healthcare services,” he said.
 

A version of this article appeared on Medscape.com.

SAN FRANCISCO — Patients with a low-lying placenta who underwent cesarean deliveries were at higher risk for multiple complications even if they did not have placenta previa, according to data presented at the annual meeting of the American College of Obstetricians and Gynecologists.

Rates of preterm delivery, postpartum hemorrhage, placenta accreta, and need for hysterectomy and transfusion were all significantly higher in patients with low-lying placenta than in patients without, Jacob Thomas, MD, of Advocate Aurora Health in Chicago, Illinois, and Ascension Illinois St. Alexius Medical Center in Hoffman Estates, reported at the meeting.

A low-lying placenta is defined as a placental edge less than 20 mm from the internal os but not covering it. Most studies looking at low-lying placentas, however, group them with placenta previa, making it difficult to know if there are differences in risk of adverse outcomes for those who don’t have placenta previa.

“These are not necessarily shocking findings, but it shows that even low-lying placentas have significant morbidity in and of themselves, not just when they’re lumped with placenta previas,” Dr. Thomas said in an interview. “This means, if you’re doing a C-section for a low-lying placenta, you probably want to treat it a lot like you would treat a placenta previa. You may have blood ready, whether or not you’re going to give it, and you’re going to be more prepared for those complications.”

Noting that approximately 30% of patients with low-lying placenta had preterm deliveries, Dr. Thomas added that these patients might need to be counseled differently as well. The researchers did not have data on how preterm the deliveries were — many could have been 35-37 weeks, for example — but “how you prepare those patients is different,” he said.

Breanna Bolivar, MD, MPH, an obgyn hospitalist at MAHEC Ob/Gyn Specialists in Asheville, North Carolina, said the findings confirm her experience in practice.

“Low-lying placentas are treated very similarly to placenta previas and the results seem similar to patients that have placenta previas,” Dr. Bolivar said in an interview. “In my practice, I treat patients with low-lying placenta the same as I do with placenta previa. I have the same risk factors in mind, and I prepare in the same way.”

The researchers conducted a retrospective analysis of all patients who underwent a cesarean delivery in the National Inpatient Sample from 2017 to 2019 through the Healthcare Cost and Utilization Project from the Agency for Healthcare Research and Quality. After excluding patients with placenta previa, the researchers compared outcomes among patients with ICD-10 codes for low-lying placenta to those of patients without low-lying placenta. The researchers specifically looked at preterm delivery, hemorrhage, hysterectomy, placenta accreta spectrum (PAS), sepsis, shock, disseminated intravascular coagulation, and blood transfusion.

Among 700,635 patients with cesarean deliveries in the database, 0.4% had low-lying placenta. These patients were more likely to be older, to be anemic, and to deliver at a large or urban teaching hospital. They were less likely to have public insurance or a previous cesarean.

After controlling for confounders that differed between the two populations, the researchers found a higher likelihood of all adverse maternal outcomes studied in patients with low-lying placenta (P < .05). These patients had three times greater risk for preterm delivery (adjusted odds ratio [aOR], 3.07; 95% CI, 2.81-3.35) and nearly three times greater risk for shock (aOR 2.55; 95% CI, 1.44-4.52), and transfusion (aOR, 2.56; 95% CI, 2.14-3.06).

Compared to those without low-lying placenta, risk for patients with low-lying placenta was even higher for hemorrhage (aOR, 8.87; 95% CI, 8.10-9.73), hysterectomy (aOR, 9.42; 95% CI, 7.11-12.47), and PAS (aOR, 13.41; 95% CI, 10.34-17.39).

Within the group with low-lying placenta, older patients were modestly, but significantly, more likely to have hemorrhage, hysterectomy, and PAS (aOR, 1.06 for all). The risk was more elevated and significant in patients with tobacco use for hemorrhage (aOR, 1.43), hysterectomy (aOR, 1.40), and PAS (aOR, 1.40). Patients with anemia were also significantly more likely to experience PAS (aOR, 1.34).

“Interestingly, in this population, prior cesarean was not associated with increased rates of hemorrhage or hysterectomy,” the researchers reported. The findings can also “help guide research in terms of questions for the future,” Dr. Thomas said, such as looking at complication rates for vaginal deliveries in people with low-lying placenta.

No external funding was noted, and the authors all had no disclosures. Dr. Bolivar had no disclosures.

SAN FRANCISCO — Patients with a low-lying placenta who underwent cesarean deliveries were at higher risk for multiple complications even if they did not have placenta previa, according to data presented at the annual meeting of the American College of Obstetricians and Gynecologists.

Rates of preterm delivery, postpartum hemorrhage, placenta accreta, and need for hysterectomy and transfusion were all significantly higher in patients with low-lying placenta than in patients without, Jacob Thomas, MD, of Advocate Aurora Health in Chicago, Illinois, and Ascension Illinois St. Alexius Medical Center in Hoffman Estates, reported at the meeting.

A low-lying placenta is defined as a placental edge less than 20 mm from the internal os but not covering it. Most studies looking at low-lying placentas, however, group them with placenta previa, making it difficult to know if there are differences in risk of adverse outcomes for those who don’t have placenta previa.

“These are not necessarily shocking findings, but it shows that even low-lying placentas have significant morbidity in and of themselves, not just when they’re lumped with placenta previas,” Dr. Thomas said in an interview. “This means, if you’re doing a C-section for a low-lying placenta, you probably want to treat it a lot like you would treat a placenta previa. You may have blood ready, whether or not you’re going to give it, and you’re going to be more prepared for those complications.”

Noting that approximately 30% of patients with low-lying placenta had preterm deliveries, Dr. Thomas added that these patients might need to be counseled differently as well. The researchers did not have data on how preterm the deliveries were — many could have been 35-37 weeks, for example — but “how you prepare those patients is different,” he said.

Breanna Bolivar, MD, MPH, an obgyn hospitalist at MAHEC Ob/Gyn Specialists in Asheville, North Carolina, said the findings confirm her experience in practice.

“Low-lying placentas are treated very similarly to placenta previas and the results seem similar to patients that have placenta previas,” Dr. Bolivar said in an interview. “In my practice, I treat patients with low-lying placenta the same as I do with placenta previa. I have the same risk factors in mind, and I prepare in the same way.”

The researchers conducted a retrospective analysis of all patients who underwent a cesarean delivery in the National Inpatient Sample from 2017 to 2019 through the Healthcare Cost and Utilization Project from the Agency for Healthcare Research and Quality. After excluding patients with placenta previa, the researchers compared outcomes among patients with ICD-10 codes for low-lying placenta to those of patients without low-lying placenta. The researchers specifically looked at preterm delivery, hemorrhage, hysterectomy, placenta accreta spectrum (PAS), sepsis, shock, disseminated intravascular coagulation, and blood transfusion.

Among 700,635 patients with cesarean deliveries in the database, 0.4% had low-lying placenta. These patients were more likely to be older, to be anemic, and to deliver at a large or urban teaching hospital. They were less likely to have public insurance or a previous cesarean.

After controlling for confounders that differed between the two populations, the researchers found a higher likelihood of all adverse maternal outcomes studied in patients with low-lying placenta (P < .05). These patients had three times greater risk for preterm delivery (adjusted odds ratio [aOR], 3.07; 95% CI, 2.81-3.35) and nearly three times greater risk for shock (aOR 2.55; 95% CI, 1.44-4.52), and transfusion (aOR, 2.56; 95% CI, 2.14-3.06).

Compared to those without low-lying placenta, risk for patients with low-lying placenta was even higher for hemorrhage (aOR, 8.87; 95% CI, 8.10-9.73), hysterectomy (aOR, 9.42; 95% CI, 7.11-12.47), and PAS (aOR, 13.41; 95% CI, 10.34-17.39).

Within the group with low-lying placenta, older patients were modestly, but significantly, more likely to have hemorrhage, hysterectomy, and PAS (aOR, 1.06 for all). The risk was more elevated and significant in patients with tobacco use for hemorrhage (aOR, 1.43), hysterectomy (aOR, 1.40), and PAS (aOR, 1.40). Patients with anemia were also significantly more likely to experience PAS (aOR, 1.34).

“Interestingly, in this population, prior cesarean was not associated with increased rates of hemorrhage or hysterectomy,” the researchers reported. The findings can also “help guide research in terms of questions for the future,” Dr. Thomas said, such as looking at complication rates for vaginal deliveries in people with low-lying placenta.

No external funding was noted, and the authors all had no disclosures. Dr. Bolivar had no disclosures.

SAN FRANCISCO — Patients with a low-lying placenta who underwent cesarean deliveries were at higher risk for multiple complications even if they did not have placenta previa, according to data presented at the annual meeting of the American College of Obstetricians and Gynecologists.

Rates of preterm delivery, postpartum hemorrhage, placenta accreta, and need for hysterectomy and transfusion were all significantly higher in patients with low-lying placenta than in patients without, Jacob Thomas, MD, of Advocate Aurora Health in Chicago, Illinois, and Ascension Illinois St. Alexius Medical Center in Hoffman Estates, reported at the meeting.

A low-lying placenta is defined as a placental edge less than 20 mm from the internal os but not covering it. Most studies looking at low-lying placentas, however, group them with placenta previa, making it difficult to know if there are differences in risk of adverse outcomes for those who don’t have placenta previa.

“These are not necessarily shocking findings, but it shows that even low-lying placentas have significant morbidity in and of themselves, not just when they’re lumped with placenta previas,” Dr. Thomas said in an interview. “This means, if you’re doing a C-section for a low-lying placenta, you probably want to treat it a lot like you would treat a placenta previa. You may have blood ready, whether or not you’re going to give it, and you’re going to be more prepared for those complications.”

Noting that approximately 30% of patients with low-lying placenta had preterm deliveries, Dr. Thomas added that these patients might need to be counseled differently as well. The researchers did not have data on how preterm the deliveries were — many could have been 35-37 weeks, for example — but “how you prepare those patients is different,” he said.

Breanna Bolivar, MD, MPH, an obgyn hospitalist at MAHEC Ob/Gyn Specialists in Asheville, North Carolina, said the findings confirm her experience in practice.

“Low-lying placentas are treated very similarly to placenta previas and the results seem similar to patients that have placenta previas,” Dr. Bolivar said in an interview. “In my practice, I treat patients with low-lying placenta the same as I do with placenta previa. I have the same risk factors in mind, and I prepare in the same way.”

The researchers conducted a retrospective analysis of all patients who underwent a cesarean delivery in the National Inpatient Sample from 2017 to 2019 through the Healthcare Cost and Utilization Project from the Agency for Healthcare Research and Quality. After excluding patients with placenta previa, the researchers compared outcomes among patients with ICD-10 codes for low-lying placenta to those of patients without low-lying placenta. The researchers specifically looked at preterm delivery, hemorrhage, hysterectomy, placenta accreta spectrum (PAS), sepsis, shock, disseminated intravascular coagulation, and blood transfusion.

Among 700,635 patients with cesarean deliveries in the database, 0.4% had low-lying placenta. These patients were more likely to be older, to be anemic, and to deliver at a large or urban teaching hospital. They were less likely to have public insurance or a previous cesarean.

After controlling for confounders that differed between the two populations, the researchers found a higher likelihood of all adverse maternal outcomes studied in patients with low-lying placenta (P < .05). These patients had three times greater risk for preterm delivery (adjusted odds ratio [aOR], 3.07; 95% CI, 2.81-3.35) and nearly three times greater risk for shock (aOR 2.55; 95% CI, 1.44-4.52), and transfusion (aOR, 2.56; 95% CI, 2.14-3.06).

Compared to those without low-lying placenta, risk for patients with low-lying placenta was even higher for hemorrhage (aOR, 8.87; 95% CI, 8.10-9.73), hysterectomy (aOR, 9.42; 95% CI, 7.11-12.47), and PAS (aOR, 13.41; 95% CI, 10.34-17.39).

Within the group with low-lying placenta, older patients were modestly, but significantly, more likely to have hemorrhage, hysterectomy, and PAS (aOR, 1.06 for all). The risk was more elevated and significant in patients with tobacco use for hemorrhage (aOR, 1.43), hysterectomy (aOR, 1.40), and PAS (aOR, 1.40). Patients with anemia were also significantly more likely to experience PAS (aOR, 1.34).

“Interestingly, in this population, prior cesarean was not associated with increased rates of hemorrhage or hysterectomy,” the researchers reported. The findings can also “help guide research in terms of questions for the future,” Dr. Thomas said, such as looking at complication rates for vaginal deliveries in people with low-lying placenta.

No external funding was noted, and the authors all had no disclosures. Dr. Bolivar had no disclosures.

For many patients, seeing a nurse practitioner has become a routine part of primary care, in which these “NPs” often perform the same tasks that patients have relied on doctors for.

But NPs in specialty care? That’s not routine, at least not yet. Increasingly, though, nurse practitioners and physician assistants are joining cardiology, dermatology, and other specialty practices, broadening their skills and increasing their income.

This development worries some people who track the health workforce, because current trends suggest primary care, which has counted on nurse practitioners to backstop physician shortages, soon might not be able to rely on them to the same extent.

“They’re succumbing to the same challenges that we have with physicians,” said Atul Grover, MD, PhD, executive director of the Research and Action Institute at the Association of American Medical Colleges. The rates NPs can command in a specialty practice “are quite a bit higher” than practice salaries in primary care, he said.

When nurse practitioner programs began to proliferate in the 1970s, “at first it looked great, producing all these nurse practitioners that go to work with primary care physicians,” said Yalda Jabbarpour, MD, director of the American Academy of Family Physicians’ Robert Graham Center for Policy Studies. “But now only 30% are going into primary care.”

Dr. Jabbarpour was referring to the 2024 primary care scorecard by the Milbank Memorial Fund, which found that from 2016 to 2021 the proportion of nurse practitioners who worked in primary care practices hovered between 32% and 34%, even though their numbers grew rapidly. The proportion of physician assistants, also known as physician associates, in primary care ranged from 27% to 30%, the study found.

Both nurse practitioners and physician assistants are advanced practice clinicians who, in addition to graduate degrees, must complete distinct education, training, and certification steps. NPs can practice without a doctor’s supervision in more than two dozen states, while PAs have similar independence in only a handful of states.

About 88% of nurse practitioners are certified in an area of primary care, according to the American Association of Nurse Practitioners. But it is difficult to track exactly how many work in primary care or in specialty practices. Unlike physicians, they’re generally not required to be endorsed by a national standard-setting body to practice in specialties like oncology or cardiology, for example. The AANP declined to answer questions about its annual workforce survey or the extent to which primary care NPs are moving toward specialties.

Though data tracking the change is sparse, specialty practices are adding these advanced practice clinicians at almost the same rate as primary care practices, according to frequently cited research published in 2018.

The clearest evidence of the shift: From 2008 to 2016, there was a 22% increase in the number of specialty practices that employed nurse practitioners and physician assistants, according to that study. The increase in the number of primary care practices that employed these professionals was 24%.

Once more, the most recent projections by the Association of American Medical Colleges predict a dearth of at least 20,200 primary care physicians by 2036. There will also be a shortfall of non-primary care specialists, including a deficiency of at least 10,100 surgical physicians and up to 25,000 physicians in other specialties.

When it comes to the actual work performed, the lines between primary and specialty care are often blurred, said Candice Chen, MD, MPH, associate professor of health policy and management at George Washington University.

“You might be a nurse practitioner working in a gastroenterology clinic or cardiology clinic, but the scope of what you do is starting to overlap with primary care,” she said.

Nurse practitioners’ salaries vary widely by location, type of facility, and experience. Still, according to data from health care recruiter AMN Healthcare Physician Solutions, formerly known as Merritt Hawkins, the total annual average starting compensation, including signing bonus, for nurse practitioners and physician assistants in specialty practice was $172,544 in the year that ended March 31, slightly higher than the $166,544 for those in primary care.

According to forecasts from the federal Bureau of Labor Statistics, nurse practitioner jobs will increase faster than jobs in almost any other occupation in the decade leading up to 2032, growing by 123,600 jobs or 45%. (Wind turbine service technician is the only other occupation projected to grow as fast.) The growth rate for physician assistants is also much faster than average, at 27%. There are more than twice as many nurse practitioners as physician assistants, however: 323,900 versus 148,000, in 2022.

To Dr. Grover of the AAMC, numbers like this signal that there will probably be enough NPs, PAs, and physicians to meet primary care needs. At the same time, “expect more NPs and PAs to also flow out into other specialties,” he said.

When Pamela Ograbisz started working as a registered nurse 27 years ago, she worked in a cardiothoracic intensive care unit. After she became a family nurse practitioner a few years later, she found a job with a similar specialty practice, which trained her to take on a bigger role, first running their outpatient clinic, then working on the floor, and later in the intensive care unit.

If nurse practitioners want to specialize, often “the doctors mentor them just like they would with a physician residency,” said Ms. Ograbisz, now vice president of clinical operations at temporary placement recruiter LocumTenens.com.

If physician assistants want to specialize, they also can do so through mentoring, or they can receive “certificates of added qualifications” in 10 specialties to demonstrate their expertise. Most employers don’t “encourage or require” these certificates, however, said Jennifer Orozco, DMSc, PA-C, DFAAPA, chief medical officer at the American Academy of Physician Associates.

There are a number of training programs for family nurse practitioners who want to develop skills in other areas.

Raina Hoebelheinrich, 40, a family nurse practitioner at a regional medical center in Yankton, South Dakota, recently enrolled in a three-semester post-master’s endocrinology training program at Mount Marty University. She lives on a farm in nearby northeastern Nebraska with her husband and five sons.

Ms. Hoebelheinrich’s new skills could be helpful in her current hospital job, in which she sees a lot of patients with acute diabetes, or in a clinic setting like the one in Sioux Falls, South Dakota, where she is doing her clinical endocrinology training.

Lack of access to endocrinology care in rural areas is a real problem, and many people may travel hundreds of miles to see a specialist.

“There aren’t a lot of options,” she said.

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

For many patients, seeing a nurse practitioner has become a routine part of primary care, in which these “NPs” often perform the same tasks that patients have relied on doctors for.

But NPs in specialty care? That’s not routine, at least not yet. Increasingly, though, nurse practitioners and physician assistants are joining cardiology, dermatology, and other specialty practices, broadening their skills and increasing their income.

This development worries some people who track the health workforce, because current trends suggest primary care, which has counted on nurse practitioners to backstop physician shortages, soon might not be able to rely on them to the same extent.

“They’re succumbing to the same challenges that we have with physicians,” said Atul Grover, MD, PhD, executive director of the Research and Action Institute at the Association of American Medical Colleges. The rates NPs can command in a specialty practice “are quite a bit higher” than practice salaries in primary care, he said.

When nurse practitioner programs began to proliferate in the 1970s, “at first it looked great, producing all these nurse practitioners that go to work with primary care physicians,” said Yalda Jabbarpour, MD, director of the American Academy of Family Physicians’ Robert Graham Center for Policy Studies. “But now only 30% are going into primary care.”

Dr. Jabbarpour was referring to the 2024 primary care scorecard by the Milbank Memorial Fund, which found that from 2016 to 2021 the proportion of nurse practitioners who worked in primary care practices hovered between 32% and 34%, even though their numbers grew rapidly. The proportion of physician assistants, also known as physician associates, in primary care ranged from 27% to 30%, the study found.

Both nurse practitioners and physician assistants are advanced practice clinicians who, in addition to graduate degrees, must complete distinct education, training, and certification steps. NPs can practice without a doctor’s supervision in more than two dozen states, while PAs have similar independence in only a handful of states.

About 88% of nurse practitioners are certified in an area of primary care, according to the American Association of Nurse Practitioners. But it is difficult to track exactly how many work in primary care or in specialty practices. Unlike physicians, they’re generally not required to be endorsed by a national standard-setting body to practice in specialties like oncology or cardiology, for example. The AANP declined to answer questions about its annual workforce survey or the extent to which primary care NPs are moving toward specialties.

Though data tracking the change is sparse, specialty practices are adding these advanced practice clinicians at almost the same rate as primary care practices, according to frequently cited research published in 2018.

The clearest evidence of the shift: From 2008 to 2016, there was a 22% increase in the number of specialty practices that employed nurse practitioners and physician assistants, according to that study. The increase in the number of primary care practices that employed these professionals was 24%.

Once more, the most recent projections by the Association of American Medical Colleges predict a dearth of at least 20,200 primary care physicians by 2036. There will also be a shortfall of non-primary care specialists, including a deficiency of at least 10,100 surgical physicians and up to 25,000 physicians in other specialties.

When it comes to the actual work performed, the lines between primary and specialty care are often blurred, said Candice Chen, MD, MPH, associate professor of health policy and management at George Washington University.

“You might be a nurse practitioner working in a gastroenterology clinic or cardiology clinic, but the scope of what you do is starting to overlap with primary care,” she said.

Nurse practitioners’ salaries vary widely by location, type of facility, and experience. Still, according to data from health care recruiter AMN Healthcare Physician Solutions, formerly known as Merritt Hawkins, the total annual average starting compensation, including signing bonus, for nurse practitioners and physician assistants in specialty practice was $172,544 in the year that ended March 31, slightly higher than the $166,544 for those in primary care.

According to forecasts from the federal Bureau of Labor Statistics, nurse practitioner jobs will increase faster than jobs in almost any other occupation in the decade leading up to 2032, growing by 123,600 jobs or 45%. (Wind turbine service technician is the only other occupation projected to grow as fast.) The growth rate for physician assistants is also much faster than average, at 27%. There are more than twice as many nurse practitioners as physician assistants, however: 323,900 versus 148,000, in 2022.

To Dr. Grover of the AAMC, numbers like this signal that there will probably be enough NPs, PAs, and physicians to meet primary care needs. At the same time, “expect more NPs and PAs to also flow out into other specialties,” he said.

When Pamela Ograbisz started working as a registered nurse 27 years ago, she worked in a cardiothoracic intensive care unit. After she became a family nurse practitioner a few years later, she found a job with a similar specialty practice, which trained her to take on a bigger role, first running their outpatient clinic, then working on the floor, and later in the intensive care unit.

If nurse practitioners want to specialize, often “the doctors mentor them just like they would with a physician residency,” said Ms. Ograbisz, now vice president of clinical operations at temporary placement recruiter LocumTenens.com.

If physician assistants want to specialize, they also can do so through mentoring, or they can receive “certificates of added qualifications” in 10 specialties to demonstrate their expertise. Most employers don’t “encourage or require” these certificates, however, said Jennifer Orozco, DMSc, PA-C, DFAAPA, chief medical officer at the American Academy of Physician Associates.

There are a number of training programs for family nurse practitioners who want to develop skills in other areas.

Raina Hoebelheinrich, 40, a family nurse practitioner at a regional medical center in Yankton, South Dakota, recently enrolled in a three-semester post-master’s endocrinology training program at Mount Marty University. She lives on a farm in nearby northeastern Nebraska with her husband and five sons.

Ms. Hoebelheinrich’s new skills could be helpful in her current hospital job, in which she sees a lot of patients with acute diabetes, or in a clinic setting like the one in Sioux Falls, South Dakota, where she is doing her clinical endocrinology training.

Lack of access to endocrinology care in rural areas is a real problem, and many people may travel hundreds of miles to see a specialist.

“There aren’t a lot of options,” she said.

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

For many patients, seeing a nurse practitioner has become a routine part of primary care, in which these “NPs” often perform the same tasks that patients have relied on doctors for.

But NPs in specialty care? That’s not routine, at least not yet. Increasingly, though, nurse practitioners and physician assistants are joining cardiology, dermatology, and other specialty practices, broadening their skills and increasing their income.

This development worries some people who track the health workforce, because current trends suggest primary care, which has counted on nurse practitioners to backstop physician shortages, soon might not be able to rely on them to the same extent.

“They’re succumbing to the same challenges that we have with physicians,” said Atul Grover, MD, PhD, executive director of the Research and Action Institute at the Association of American Medical Colleges. The rates NPs can command in a specialty practice “are quite a bit higher” than practice salaries in primary care, he said.

When nurse practitioner programs began to proliferate in the 1970s, “at first it looked great, producing all these nurse practitioners that go to work with primary care physicians,” said Yalda Jabbarpour, MD, director of the American Academy of Family Physicians’ Robert Graham Center for Policy Studies. “But now only 30% are going into primary care.”

Dr. Jabbarpour was referring to the 2024 primary care scorecard by the Milbank Memorial Fund, which found that from 2016 to 2021 the proportion of nurse practitioners who worked in primary care practices hovered between 32% and 34%, even though their numbers grew rapidly. The proportion of physician assistants, also known as physician associates, in primary care ranged from 27% to 30%, the study found.

Both nurse practitioners and physician assistants are advanced practice clinicians who, in addition to graduate degrees, must complete distinct education, training, and certification steps. NPs can practice without a doctor’s supervision in more than two dozen states, while PAs have similar independence in only a handful of states.

About 88% of nurse practitioners are certified in an area of primary care, according to the American Association of Nurse Practitioners. But it is difficult to track exactly how many work in primary care or in specialty practices. Unlike physicians, they’re generally not required to be endorsed by a national standard-setting body to practice in specialties like oncology or cardiology, for example. The AANP declined to answer questions about its annual workforce survey or the extent to which primary care NPs are moving toward specialties.

Though data tracking the change is sparse, specialty practices are adding these advanced practice clinicians at almost the same rate as primary care practices, according to frequently cited research published in 2018.

The clearest evidence of the shift: From 2008 to 2016, there was a 22% increase in the number of specialty practices that employed nurse practitioners and physician assistants, according to that study. The increase in the number of primary care practices that employed these professionals was 24%.

Once more, the most recent projections by the Association of American Medical Colleges predict a dearth of at least 20,200 primary care physicians by 2036. There will also be a shortfall of non-primary care specialists, including a deficiency of at least 10,100 surgical physicians and up to 25,000 physicians in other specialties.

When it comes to the actual work performed, the lines between primary and specialty care are often blurred, said Candice Chen, MD, MPH, associate professor of health policy and management at George Washington University.

“You might be a nurse practitioner working in a gastroenterology clinic or cardiology clinic, but the scope of what you do is starting to overlap with primary care,” she said.

Nurse practitioners’ salaries vary widely by location, type of facility, and experience. Still, according to data from health care recruiter AMN Healthcare Physician Solutions, formerly known as Merritt Hawkins, the total annual average starting compensation, including signing bonus, for nurse practitioners and physician assistants in specialty practice was $172,544 in the year that ended March 31, slightly higher than the $166,544 for those in primary care.

According to forecasts from the federal Bureau of Labor Statistics, nurse practitioner jobs will increase faster than jobs in almost any other occupation in the decade leading up to 2032, growing by 123,600 jobs or 45%. (Wind turbine service technician is the only other occupation projected to grow as fast.) The growth rate for physician assistants is also much faster than average, at 27%. There are more than twice as many nurse practitioners as physician assistants, however: 323,900 versus 148,000, in 2022.

To Dr. Grover of the AAMC, numbers like this signal that there will probably be enough NPs, PAs, and physicians to meet primary care needs. At the same time, “expect more NPs and PAs to also flow out into other specialties,” he said.

When Pamela Ograbisz started working as a registered nurse 27 years ago, she worked in a cardiothoracic intensive care unit. After she became a family nurse practitioner a few years later, she found a job with a similar specialty practice, which trained her to take on a bigger role, first running their outpatient clinic, then working on the floor, and later in the intensive care unit.

If nurse practitioners want to specialize, often “the doctors mentor them just like they would with a physician residency,” said Ms. Ograbisz, now vice president of clinical operations at temporary placement recruiter LocumTenens.com.

If physician assistants want to specialize, they also can do so through mentoring, or they can receive “certificates of added qualifications” in 10 specialties to demonstrate their expertise. Most employers don’t “encourage or require” these certificates, however, said Jennifer Orozco, DMSc, PA-C, DFAAPA, chief medical officer at the American Academy of Physician Associates.

There are a number of training programs for family nurse practitioners who want to develop skills in other areas.

Raina Hoebelheinrich, 40, a family nurse practitioner at a regional medical center in Yankton, South Dakota, recently enrolled in a three-semester post-master’s endocrinology training program at Mount Marty University. She lives on a farm in nearby northeastern Nebraska with her husband and five sons.

Ms. Hoebelheinrich’s new skills could be helpful in her current hospital job, in which she sees a lot of patients with acute diabetes, or in a clinic setting like the one in Sioux Falls, South Dakota, where she is doing her clinical endocrinology training.

Lack of access to endocrinology care in rural areas is a real problem, and many people may travel hundreds of miles to see a specialist.

“There aren’t a lot of options,” she said.

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

TOPLINE:

Individuals with severe maternal morbidity (SMM) are at an increased risk for mental health condition–related hospitalization or emergency department (ED) visits up to 13 years after delivery.

METHODOLOGY:

• This retrospective cohort study compared mental health hospitalizations and ED visits in postpartum individuals with and without SMM over 13 years after delivery from April 2008 to March 2021.
• The study analyzed 1,579,392 individuals aged 18-55 years with a first recorded liveborn or stillborn delivery from a pregnancy lasting 20-43 weeks, of which 35,825 (2.3%) had exposure to SMM.
• The SMM exposure was analyzed for events occurring after 20 weeks’ gestation and up to 42 days after delivery hospital discharge in the first recorded birth; those without SMM were considered unexposed.
• The main outcome was a combination of mental health hospitalizations or ED visits occurring at least 43 days after the index birth hospitalization.

TAKEAWAY:

• Individuals with SMM had a 1.3-fold increased risk of mental health hospitalizations or ED visits.
• The hospital or ED visits per 10,000 person-years were 59.2 for mood and anxiety disorders, 17.1 for substance abuse and related disorders, 4.8 for suicidality or self-harm, and 4.1 for schizophrenia spectrum or other psychotic disorders.
• Following SMM, an elevated risk was observed for all mental health outcomes except one (schizophrenia spectrum and other psychotic disorders), with the highest risk seen for suicidality and self-harm (aHR, 1.54).

IN PRACTICE:

“Knowledge of the short- and long-term risks of serious mental health conditions after SMM and its subtypes could inform the need for enhanced postpartum supportive resources,” the authors wrote.

SOURCE:

This study was led by Asia Blackman, MSc, Department of Epidemiology, Biostatistics and Occupational Health, McGill University, Montreal, Québec, Canada. It was published online in JAMA Network Open.

LIMITATIONS:

The study is limited by its observational design, missing data, and misclassification bias.

DISCLOSURES:

This study was supported by funding from the Canadian Institutes of Health Research. Three authors reported receiving personal fees or grants outside the submitted work. No other conflicts of interest were reported.

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

TOPLINE:

Individuals with severe maternal morbidity (SMM) are at an increased risk for mental health condition–related hospitalization or emergency department (ED) visits up to 13 years after delivery.

METHODOLOGY:

• This retrospective cohort study compared mental health hospitalizations and ED visits in postpartum individuals with and without SMM over 13 years after delivery from April 2008 to March 2021.
• The study analyzed 1,579,392 individuals aged 18-55 years with a first recorded liveborn or stillborn delivery from a pregnancy lasting 20-43 weeks, of which 35,825 (2.3%) had exposure to SMM.
• The SMM exposure was analyzed for events occurring after 20 weeks’ gestation and up to 42 days after delivery hospital discharge in the first recorded birth; those without SMM were considered unexposed.
• The main outcome was a combination of mental health hospitalizations or ED visits occurring at least 43 days after the index birth hospitalization.

TAKEAWAY:

• Individuals with SMM had a 1.3-fold increased risk of mental health hospitalizations or ED visits.
• The hospital or ED visits per 10,000 person-years were 59.2 for mood and anxiety disorders, 17.1 for substance abuse and related disorders, 4.8 for suicidality or self-harm, and 4.1 for schizophrenia spectrum or other psychotic disorders.
• Following SMM, an elevated risk was observed for all mental health outcomes except one (schizophrenia spectrum and other psychotic disorders), with the highest risk seen for suicidality and self-harm (aHR, 1.54).

IN PRACTICE:

“Knowledge of the short- and long-term risks of serious mental health conditions after SMM and its subtypes could inform the need for enhanced postpartum supportive resources,” the authors wrote.

SOURCE:

This study was led by Asia Blackman, MSc, Department of Epidemiology, Biostatistics and Occupational Health, McGill University, Montreal, Québec, Canada. It was published online in JAMA Network Open.

LIMITATIONS:

The study is limited by its observational design, missing data, and misclassification bias.

DISCLOSURES:

This study was supported by funding from the Canadian Institutes of Health Research. Three authors reported receiving personal fees or grants outside the submitted work. No other conflicts of interest were reported.

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

TOPLINE:

Individuals with severe maternal morbidity (SMM) are at an increased risk for mental health condition–related hospitalization or emergency department (ED) visits up to 13 years after delivery.

METHODOLOGY:

• This retrospective cohort study compared mental health hospitalizations and ED visits in postpartum individuals with and without SMM over 13 years after delivery from April 2008 to March 2021.
• The study analyzed 1,579,392 individuals aged 18-55 years with a first recorded liveborn or stillborn delivery from a pregnancy lasting 20-43 weeks, of which 35,825 (2.3%) had exposure to SMM.
• The SMM exposure was analyzed for events occurring after 20 weeks’ gestation and up to 42 days after delivery hospital discharge in the first recorded birth; those without SMM were considered unexposed.
• The main outcome was a combination of mental health hospitalizations or ED visits occurring at least 43 days after the index birth hospitalization.

TAKEAWAY:

• Individuals with SMM had a 1.3-fold increased risk of mental health hospitalizations or ED visits.
• The hospital or ED visits per 10,000 person-years were 59.2 for mood and anxiety disorders, 17.1 for substance abuse and related disorders, 4.8 for suicidality or self-harm, and 4.1 for schizophrenia spectrum or other psychotic disorders.
• Following SMM, an elevated risk was observed for all mental health outcomes except one (schizophrenia spectrum and other psychotic disorders), with the highest risk seen for suicidality and self-harm (aHR, 1.54).

IN PRACTICE:

“Knowledge of the short- and long-term risks of serious mental health conditions after SMM and its subtypes could inform the need for enhanced postpartum supportive resources,” the authors wrote.

SOURCE:

This study was led by Asia Blackman, MSc, Department of Epidemiology, Biostatistics and Occupational Health, McGill University, Montreal, Québec, Canada. It was published online in JAMA Network Open.

LIMITATIONS:

The study is limited by its observational design, missing data, and misclassification bias.

DISCLOSURES:

This study was supported by funding from the Canadian Institutes of Health Research. Three authors reported receiving personal fees or grants outside the submitted work. No other conflicts of interest were reported.

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

Breast cancer mortality was significantly lower among patients who used statins than in those who did not use these cholesterol-lowering drugs, a new study finds.

Previous research examining the association between cholesterol and breast cancer metabolism suggests that cholesterol-lowering medications such as statins may improve outcomes in breast cancer patients, Sixten Harborg, a medical student and PhD student at Aarhus University, Denmark, said in a presentation at the European Society for Medical Oncology (ESMO) Breast Cancer annual congress.

In addition, cardiovascular-related death is the second most common cause of death for breast cancer survivors, and given the survival rates in early breast cancer, there is a demand for cardioprotective initiatives and maintenance of cardioprotective drugs after diagnosis, he said in an interview.
 

What Is Known About Statins and Breast Cancer?

Statins are the most common drugs used to lower cholesterol and may deprive tumor cells of the cholesterol needed for cell membrane synthesis, Mr. Harborg said in his presentation.

Data from a randomized trial published in the Journal of Clinical Oncology in 2017 showed significantly improved disease-free survival, breast cancer–free interval, and distant recurrence–free interval in early stage breast cancer patients randomized to cholesterol-lowering medication vs. those who did not receive cholesterol-lowering medication.

The 2017 study prompted the creation of the MASTER study, a randomized, multicenter, double-blind, placebo-controlled trial comparing standard adjuvant therapy plus placebo to standard adjuvant therapy plus atorvastatin in patients with early breast cancer (NCT04601116), Mr. Harborg said. The MASTER trial is currently recruiting patients in Denmark.
 

How Was the Current Study Designed?

To provide preliminary analysis, Mr. Harborg and colleagues used an emulation trial design based on electronic health care data from 110,160 females with a diagnosis of stage I, II, or III breast cancer who were part of the Danish Breast Cancer Group, a national clinical registry in Denmark, between 2000 and 2020.

As defined in the European Journal of Epidemiology in 2017, target trial emulation involves application of randomized trial designs to observational data with the goal of improving the quality of observational epidemiology when a comparator trial is not yet available.

The researchers created a cohort of patients based on electronic health care data to simulate a target trial of the use of atorvastatin after breast cancer diagnosis. Patients were randomized to one of two treatment strategies: starting to use statins within 36 months of diagnosis, or not using statins. The primary outcome was death from breast cancer. The follow-up for the MASTER study starts with inclusion and ends with death, emigration from Denmark, end of clinical follow-up, or 10 years of follow-up (whichever comes first); the follow-up was the same in the current study.

The researchers calculated hazard ratios (HR) of breast cancer mortality in statin users vs. non–statin users and used a technique known as inverse-probability of censoring-weighting (IPCW) to estimate the effects of statin use based on prognostic factors.
 

What Did the Results Show?

The results favored statin use for improved survival in early breast cancer patients, Mr. Harborg said. Overall, the hazard ratio for breast cancer mortality was 0.96 in statin users compared with non–statin users, and was similar in both a Cox regression analysis (HR 0.81), and in a 10-year landmark analysis (HR 0.86).

The difference in mortality between statin and non–statin users was even stronger in patients who were receiving adjuvant chemotherapy (HR 0.94, 0.64, and 0.76 on the IPCW, Cox, and landmark analyses, respectively).

The results were in line with previous reports of statins’ effect on breast cancer survival, Mr. Harborg said in an interview.

“We believe the results encourage the continuous effort of the currently enrolling MASTER trial,” he said.

The results also suggest that deprescribing statins at the time of breast cancer diagnosis is not recommended, and that statin treatment can safely be prescribed to breast cancer patients with increased cardiovascular disease risk and/or dyslipidemia, Mr. Harborg said in the interview.
 

What Is the Takeaway Message for Clinical Practice?

“The clinical takeaway from our study is that statin use is associated with reduced risk of dying from breast cancer, but that it is not possible to determine the true effect of statins on breast cancer survival without a randomized, placebo-controlled trial,” Mr. Harborg told this publication. “Statins are inexpensive and well-tolerated drugs and may have a beneficial effect in terms of survival for breast cancer patients. However, with the current level of evidence [because the MASTER study is ongoing], we still cannot recommend that oncologists prescribe statins to prevent mortality from breast cancer,” he said.

What Are the Next Steps for Research?

The findings were limited by the study design, and real-world data are needed, Dr. Harborg said. Other limitations include the presence of residual bias, and the use of data based on prescription codes, but these were not considered to have an effect on the main conclusion of the study, Mr. Harborg said in the interview.

However, the results suggest that the addition of statins may improve outcomes for early breast cancer patients, especially when used with chemotherapy, and support the value of the ongoing MASTER study, he concluded.

Ultimately, the MASTER study will provide a more definitive answer to the question of whether statins should be added to the adjuvant treatment regimen of breast cancer to improve breast cancer outcomes, he said.
 

What Do Clinicians Think of the Study?

The current study is timely and highlights the need for phase 3 trials to examine the potential of statin use for breast cancer outcomes, Malinda T. West, MD, a medical oncologist and breast oncologist at the University of Wisconsin Carbone Cancer Center, Madison, said in an interview.

Questions for future research include whether statins can be used in combination with adjuvant abemaciclib if indicated, or how to best sequence these agents, said Dr. West, who was not involved in the study. Other questions raised by the current study include whether other cholesterol-lowering agents have a potential adjuvant benefit in reducing breast cancer recurrent and/or mortality, and whether the addition of statins would benefit subgroups such as HER2+ and triple negative breast cancer, she said.

“I was not surprised to see another study reporting benefit with statins and reduced risk of breast cancer recurrence and/or mortality, but I think the larger question is defining the subgroups who benefit the most, and identifying predictors for benefit or resistance,” Dr. West said in an interview.

Previous studies have shown that cholesterol elevation, specifically LDL levels, can be linked to increased tumor growth in breast cancer, so the lower mortality risk associated with lipid-lowering therapies in the current study was consistent, Peyton L. Reves, MD, a hematology/oncology fellow, also at the University of Wisconsin, said in an interview. In practice, data from the current study and previous research could be especially useful for patients with elevated LDL levels, said Dr. Reves, who was not involved in the study.

“These results could impact clinical practice in many ways, including leading to routine cholesterol monitoring in breast cancer patients on adjuvant therapy as well as the addition of lipid-lowering therapy with statins in these patients,” Dr. Reves said.

The findings showing particular benefit for patients on adjuvant chemotherapy highlight the need for more research on this specific population and the effect of statins on overall breast cancer mortality, to explore the extent to which the results of the current study were driven by the benefit seen in patients receiving adjuvant chemotherapy, Dr. Reves said.

The study was supported by Director Michael Hermann Nielsen’s Memorial Grant, Manufacturer Einar Willumsen’s Memorial Grant, Astrid Thaysen’s Grant for Medical Basic Research, Eva and Henry Fraenkel’s Memorial Fund, and the Novo Nordisk Foundation.

The researchers had no financial conflicts to disclose. Dr. West and Dr. Reves had no financial conflicts to disclose.

Breast cancer mortality was significantly lower among patients who used statins than in those who did not use these cholesterol-lowering drugs, a new study finds.

Previous research examining the association between cholesterol and breast cancer metabolism suggests that cholesterol-lowering medications such as statins may improve outcomes in breast cancer patients, Sixten Harborg, a medical student and PhD student at Aarhus University, Denmark, said in a presentation at the European Society for Medical Oncology (ESMO) Breast Cancer annual congress.

In addition, cardiovascular-related death is the second most common cause of death for breast cancer survivors, and given the survival rates in early breast cancer, there is a demand for cardioprotective initiatives and maintenance of cardioprotective drugs after diagnosis, he said in an interview.
 

What Is Known About Statins and Breast Cancer?

Statins are the most common drugs used to lower cholesterol and may deprive tumor cells of the cholesterol needed for cell membrane synthesis, Mr. Harborg said in his presentation.

Data from a randomized trial published in the Journal of Clinical Oncology in 2017 showed significantly improved disease-free survival, breast cancer–free interval, and distant recurrence–free interval in early stage breast cancer patients randomized to cholesterol-lowering medication vs. those who did not receive cholesterol-lowering medication.

The 2017 study prompted the creation of the MASTER study, a randomized, multicenter, double-blind, placebo-controlled trial comparing standard adjuvant therapy plus placebo to standard adjuvant therapy plus atorvastatin in patients with early breast cancer (NCT04601116), Mr. Harborg said. The MASTER trial is currently recruiting patients in Denmark.
 

How Was the Current Study Designed?

To provide preliminary analysis, Mr. Harborg and colleagues used an emulation trial design based on electronic health care data from 110,160 females with a diagnosis of stage I, II, or III breast cancer who were part of the Danish Breast Cancer Group, a national clinical registry in Denmark, between 2000 and 2020.

As defined in the European Journal of Epidemiology in 2017, target trial emulation involves application of randomized trial designs to observational data with the goal of improving the quality of observational epidemiology when a comparator trial is not yet available.

The researchers created a cohort of patients based on electronic health care data to simulate a target trial of the use of atorvastatin after breast cancer diagnosis. Patients were randomized to one of two treatment strategies: starting to use statins within 36 months of diagnosis, or not using statins. The primary outcome was death from breast cancer. The follow-up for the MASTER study starts with inclusion and ends with death, emigration from Denmark, end of clinical follow-up, or 10 years of follow-up (whichever comes first); the follow-up was the same in the current study.

The researchers calculated hazard ratios (HR) of breast cancer mortality in statin users vs. non–statin users and used a technique known as inverse-probability of censoring-weighting (IPCW) to estimate the effects of statin use based on prognostic factors.
 

What Did the Results Show?

The results favored statin use for improved survival in early breast cancer patients, Mr. Harborg said. Overall, the hazard ratio for breast cancer mortality was 0.96 in statin users compared with non–statin users, and was similar in both a Cox regression analysis (HR 0.81), and in a 10-year landmark analysis (HR 0.86).

The difference in mortality between statin and non–statin users was even stronger in patients who were receiving adjuvant chemotherapy (HR 0.94, 0.64, and 0.76 on the IPCW, Cox, and landmark analyses, respectively).

The results were in line with previous reports of statins’ effect on breast cancer survival, Mr. Harborg said in an interview.

“We believe the results encourage the continuous effort of the currently enrolling MASTER trial,” he said.

The results also suggest that deprescribing statins at the time of breast cancer diagnosis is not recommended, and that statin treatment can safely be prescribed to breast cancer patients with increased cardiovascular disease risk and/or dyslipidemia, Mr. Harborg said in the interview.
 

What Is the Takeaway Message for Clinical Practice?

“The clinical takeaway from our study is that statin use is associated with reduced risk of dying from breast cancer, but that it is not possible to determine the true effect of statins on breast cancer survival without a randomized, placebo-controlled trial,” Mr. Harborg told this publication. “Statins are inexpensive and well-tolerated drugs and may have a beneficial effect in terms of survival for breast cancer patients. However, with the current level of evidence [because the MASTER study is ongoing], we still cannot recommend that oncologists prescribe statins to prevent mortality from breast cancer,” he said.

What Are the Next Steps for Research?

The findings were limited by the study design, and real-world data are needed, Dr. Harborg said. Other limitations include the presence of residual bias, and the use of data based on prescription codes, but these were not considered to have an effect on the main conclusion of the study, Mr. Harborg said in the interview.

However, the results suggest that the addition of statins may improve outcomes for early breast cancer patients, especially when used with chemotherapy, and support the value of the ongoing MASTER study, he concluded.

Ultimately, the MASTER study will provide a more definitive answer to the question of whether statins should be added to the adjuvant treatment regimen of breast cancer to improve breast cancer outcomes, he said.
 

What Do Clinicians Think of the Study?

The current study is timely and highlights the need for phase 3 trials to examine the potential of statin use for breast cancer outcomes, Malinda T. West, MD, a medical oncologist and breast oncologist at the University of Wisconsin Carbone Cancer Center, Madison, said in an interview.

Questions for future research include whether statins can be used in combination with adjuvant abemaciclib if indicated, or how to best sequence these agents, said Dr. West, who was not involved in the study. Other questions raised by the current study include whether other cholesterol-lowering agents have a potential adjuvant benefit in reducing breast cancer recurrent and/or mortality, and whether the addition of statins would benefit subgroups such as HER2+ and triple negative breast cancer, she said.

“I was not surprised to see another study reporting benefit with statins and reduced risk of breast cancer recurrence and/or mortality, but I think the larger question is defining the subgroups who benefit the most, and identifying predictors for benefit or resistance,” Dr. West said in an interview.

Previous studies have shown that cholesterol elevation, specifically LDL levels, can be linked to increased tumor growth in breast cancer, so the lower mortality risk associated with lipid-lowering therapies in the current study was consistent, Peyton L. Reves, MD, a hematology/oncology fellow, also at the University of Wisconsin, said in an interview. In practice, data from the current study and previous research could be especially useful for patients with elevated LDL levels, said Dr. Reves, who was not involved in the study.

“These results could impact clinical practice in many ways, including leading to routine cholesterol monitoring in breast cancer patients on adjuvant therapy as well as the addition of lipid-lowering therapy with statins in these patients,” Dr. Reves said.

The findings showing particular benefit for patients on adjuvant chemotherapy highlight the need for more research on this specific population and the effect of statins on overall breast cancer mortality, to explore the extent to which the results of the current study were driven by the benefit seen in patients receiving adjuvant chemotherapy, Dr. Reves said.

The study was supported by Director Michael Hermann Nielsen’s Memorial Grant, Manufacturer Einar Willumsen’s Memorial Grant, Astrid Thaysen’s Grant for Medical Basic Research, Eva and Henry Fraenkel’s Memorial Fund, and the Novo Nordisk Foundation.

The researchers had no financial conflicts to disclose. Dr. West and Dr. Reves had no financial conflicts to disclose.

Breast cancer mortality was significantly lower among patients who used statins than in those who did not use these cholesterol-lowering drugs, a new study finds.

Previous research examining the association between cholesterol and breast cancer metabolism suggests that cholesterol-lowering medications such as statins may improve outcomes in breast cancer patients, Sixten Harborg, a medical student and PhD student at Aarhus University, Denmark, said in a presentation at the European Society for Medical Oncology (ESMO) Breast Cancer annual congress.

In addition, cardiovascular-related death is the second most common cause of death for breast cancer survivors, and given the survival rates in early breast cancer, there is a demand for cardioprotective initiatives and maintenance of cardioprotective drugs after diagnosis, he said in an interview.
 

What Is Known About Statins and Breast Cancer?

Statins are the most common drugs used to lower cholesterol and may deprive tumor cells of the cholesterol needed for cell membrane synthesis, Mr. Harborg said in his presentation.

Data from a randomized trial published in the Journal of Clinical Oncology in 2017 showed significantly improved disease-free survival, breast cancer–free interval, and distant recurrence–free interval in early stage breast cancer patients randomized to cholesterol-lowering medication vs. those who did not receive cholesterol-lowering medication.

The 2017 study prompted the creation of the MASTER study, a randomized, multicenter, double-blind, placebo-controlled trial comparing standard adjuvant therapy plus placebo to standard adjuvant therapy plus atorvastatin in patients with early breast cancer (NCT04601116), Mr. Harborg said. The MASTER trial is currently recruiting patients in Denmark.
 

How Was the Current Study Designed?

To provide preliminary analysis, Mr. Harborg and colleagues used an emulation trial design based on electronic health care data from 110,160 females with a diagnosis of stage I, II, or III breast cancer who were part of the Danish Breast Cancer Group, a national clinical registry in Denmark, between 2000 and 2020.

As defined in the European Journal of Epidemiology in 2017, target trial emulation involves application of randomized trial designs to observational data with the goal of improving the quality of observational epidemiology when a comparator trial is not yet available.

The researchers created a cohort of patients based on electronic health care data to simulate a target trial of the use of atorvastatin after breast cancer diagnosis. Patients were randomized to one of two treatment strategies: starting to use statins within 36 months of diagnosis, or not using statins. The primary outcome was death from breast cancer. The follow-up for the MASTER study starts with inclusion and ends with death, emigration from Denmark, end of clinical follow-up, or 10 years of follow-up (whichever comes first); the follow-up was the same in the current study.

The researchers calculated hazard ratios (HR) of breast cancer mortality in statin users vs. non–statin users and used a technique known as inverse-probability of censoring-weighting (IPCW) to estimate the effects of statin use based on prognostic factors.
 

What Did the Results Show?

The results favored statin use for improved survival in early breast cancer patients, Mr. Harborg said. Overall, the hazard ratio for breast cancer mortality was 0.96 in statin users compared with non–statin users, and was similar in both a Cox regression analysis (HR 0.81), and in a 10-year landmark analysis (HR 0.86).

The difference in mortality between statin and non–statin users was even stronger in patients who were receiving adjuvant chemotherapy (HR 0.94, 0.64, and 0.76 on the IPCW, Cox, and landmark analyses, respectively).

The results were in line with previous reports of statins’ effect on breast cancer survival, Mr. Harborg said in an interview.

“We believe the results encourage the continuous effort of the currently enrolling MASTER trial,” he said.

The results also suggest that deprescribing statins at the time of breast cancer diagnosis is not recommended, and that statin treatment can safely be prescribed to breast cancer patients with increased cardiovascular disease risk and/or dyslipidemia, Mr. Harborg said in the interview.
 

What Is the Takeaway Message for Clinical Practice?

“The clinical takeaway from our study is that statin use is associated with reduced risk of dying from breast cancer, but that it is not possible to determine the true effect of statins on breast cancer survival without a randomized, placebo-controlled trial,” Mr. Harborg told this publication. “Statins are inexpensive and well-tolerated drugs and may have a beneficial effect in terms of survival for breast cancer patients. However, with the current level of evidence [because the MASTER study is ongoing], we still cannot recommend that oncologists prescribe statins to prevent mortality from breast cancer,” he said.

What Are the Next Steps for Research?

The findings were limited by the study design, and real-world data are needed, Dr. Harborg said. Other limitations include the presence of residual bias, and the use of data based on prescription codes, but these were not considered to have an effect on the main conclusion of the study, Mr. Harborg said in the interview.

However, the results suggest that the addition of statins may improve outcomes for early breast cancer patients, especially when used with chemotherapy, and support the value of the ongoing MASTER study, he concluded.

Ultimately, the MASTER study will provide a more definitive answer to the question of whether statins should be added to the adjuvant treatment regimen of breast cancer to improve breast cancer outcomes, he said.
 

What Do Clinicians Think of the Study?

The current study is timely and highlights the need for phase 3 trials to examine the potential of statin use for breast cancer outcomes, Malinda T. West, MD, a medical oncologist and breast oncologist at the University of Wisconsin Carbone Cancer Center, Madison, said in an interview.

Questions for future research include whether statins can be used in combination with adjuvant abemaciclib if indicated, or how to best sequence these agents, said Dr. West, who was not involved in the study. Other questions raised by the current study include whether other cholesterol-lowering agents have a potential adjuvant benefit in reducing breast cancer recurrent and/or mortality, and whether the addition of statins would benefit subgroups such as HER2+ and triple negative breast cancer, she said.

“I was not surprised to see another study reporting benefit with statins and reduced risk of breast cancer recurrence and/or mortality, but I think the larger question is defining the subgroups who benefit the most, and identifying predictors for benefit or resistance,” Dr. West said in an interview.

Previous studies have shown that cholesterol elevation, specifically LDL levels, can be linked to increased tumor growth in breast cancer, so the lower mortality risk associated with lipid-lowering therapies in the current study was consistent, Peyton L. Reves, MD, a hematology/oncology fellow, also at the University of Wisconsin, said in an interview. In practice, data from the current study and previous research could be especially useful for patients with elevated LDL levels, said Dr. Reves, who was not involved in the study.

“These results could impact clinical practice in many ways, including leading to routine cholesterol monitoring in breast cancer patients on adjuvant therapy as well as the addition of lipid-lowering therapy with statins in these patients,” Dr. Reves said.

The findings showing particular benefit for patients on adjuvant chemotherapy highlight the need for more research on this specific population and the effect of statins on overall breast cancer mortality, to explore the extent to which the results of the current study were driven by the benefit seen in patients receiving adjuvant chemotherapy, Dr. Reves said.

The study was supported by Director Michael Hermann Nielsen’s Memorial Grant, Manufacturer Einar Willumsen’s Memorial Grant, Astrid Thaysen’s Grant for Medical Basic Research, Eva and Henry Fraenkel’s Memorial Fund, and the Novo Nordisk Foundation.

The researchers had no financial conflicts to disclose. Dr. West and Dr. Reves had no financial conflicts to disclose.

A California jury has awarded $14 million to a former University of California, Los Angeles (UCLA) oncologist who claimed she was paid thousands less than her male colleagues and wrongfully terminated after her complaints of gender-based harassment and intimidation were ignored by program leadership.

The decision comes after a lengthy 8-year legal battle in which an appellate judge reversed a previous jury decision in her favor.

Lauren Pinter-Brown, MD, a hematologic oncologist, was hired in 2005 by the University of California, Los Angeles School of Medicine — now called UCLA’s David Geffen School of Medicine. As the school’s lymphoma program director, she conducted clinical research alongside other oncology doctors, including Sven de Vos, MD.

She claimed that her professional relationship with Dr. de Vos became contentious after he demonstrated “oppositional” and “disrespectful” behavior at team meetings, such as talking over her and turning his chair so Dr. Pinter-Brown faced his back. Court documents indicated that Dr. de Vos refused to use Dr. Pinter-Brown’s title in front of colleagues despite doing so for male counterparts.

Dr. Pinter-Brown argued that she was treated as the “butt of a joke” by Dr. de Vos and other male colleagues. In 2016, she sued Dr. de Vos, the university, and its governing body, the Board of Regents, for wrongful termination.

She was awarded a $13 million verdict in 2018. However, the California Court of Appeals overturned it in 2020 after concluding that several mistakes during the court proceedings impeded the school’s right to a fair and impartial trial. The case was retried, culminating in the even higher award of $14 million issued on May 9.

“Two juries have come to virtually identical findings showing multiple problems at UCLA involving gender discrimination,” Dr. Pinter-Brown’s attorney, Carney R. Shegerian, JD, told this news organization.

A spokesperson from UCLA’s David Geffen School of Medicine said administrators are carefully reviewing the new decision.

The spokesperson told this news organization that the medical school and its health system remain “deeply committed to maintaining a workplace free from discrimination, intimidation, retaliation, or harassment of any kind” and fostering a “respectful and inclusive environment ... in research, medical education, and patient care.”
 

Gender Pay Disparities Persist in Medicine

The gender pay gap in medicine is well documented. The 2024 Medscape Physician Compensation Report found that male doctors earn about 29% more than their female counterparts, with the disparity growing larger among specialists. In addition, a recent JAMA Health Forum study found that male physicians earned 21%-24% more per hour than female physicians.

Dr. Pinter-Brown, who now works at the University of California, Irvine, alleged that she was paid $200,000 less annually, on average, than her male colleagues.

That’s not surprising, says Martha Gulati, MD, professor and director of preventive cardiology at Cedars-Sinai Smidt Heart Institute, Los Angeles. She coauthored a commentary about gender disparities in JAMA Network Open. Dr. Gulati told this news organization that even a “small” pay disparity of $100,000 annually adds up.

“Let’s say the [male physician] invests it at 3% and adds to it yearly. Even without a raise, in 20 years, that is approximately $3 million,” Dr. Gulati explained. “Once you find out you are paid less than your male colleagues, you are upset. Your sense of value and self-worth disappears.”

Eileen Barrett, MD, MPH, president-elect of the American Medical Women’s Association, said that gender discrimination is likely more prevalent than research indicates. She told this news organization that self-doubt and fear of retaliation keep many from exposing the mistreatment.

Although more women are entering medicine, too few rise to the highest positions, Dr. Barrett said.

“Unfortunately, many are pulled and pushed into specialties and subspecialties that have lower compensation and are not promoted to leadership, so just having numbers isn’t enough to achieve equity,” Dr. Barrett said.

Dr. Pinter-Brown claimed she was repeatedly harassed and intimidated by Dr. de Vos from 2008 to 2015. Despite voicing concerns multiple times about the discriminatory behavior, the only resolutions offered by the male-dominated program leadership were for her to separate from the group and conduct lymphoma research independently or to avoid interacting with Dr. de Vos, court records said.

Even the school’s male Title IX officer, Jan Tillisch, MD, who handled gender-based discrimination complaints, reportedly made sexist comments. When Dr. Pinter-Brown sought his help, he allegedly told her that she had a reputation as an “angry woman” and “diva,” court records showed.

According to court documents, Dr. Pinter-Brown endured nitpicking and research audits as retaliation for speaking out, temporarily suspending her research privileges. She said she was subsequently removed from the director position and replaced by Dr. de Vos.

Female physicians who report discriminatory behavior often have unfavorable outcomes and risk future career prospects, Dr. Gulati said.

To shift this dynamic, she said institutions must increase transparency and practices that support female doctors receiving “equal pay for equal work.”
 

A version of this article appeared on Medscape.com.

A California jury has awarded $14 million to a former University of California, Los Angeles (UCLA) oncologist who claimed she was paid thousands less than her male colleagues and wrongfully terminated after her complaints of gender-based harassment and intimidation were ignored by program leadership.

The decision comes after a lengthy 8-year legal battle in which an appellate judge reversed a previous jury decision in her favor.

Lauren Pinter-Brown, MD, a hematologic oncologist, was hired in 2005 by the University of California, Los Angeles School of Medicine — now called UCLA’s David Geffen School of Medicine. As the school’s lymphoma program director, she conducted clinical research alongside other oncology doctors, including Sven de Vos, MD.

She claimed that her professional relationship with Dr. de Vos became contentious after he demonstrated “oppositional” and “disrespectful” behavior at team meetings, such as talking over her and turning his chair so Dr. Pinter-Brown faced his back. Court documents indicated that Dr. de Vos refused to use Dr. Pinter-Brown’s title in front of colleagues despite doing so for male counterparts.

Dr. Pinter-Brown argued that she was treated as the “butt of a joke” by Dr. de Vos and other male colleagues. In 2016, she sued Dr. de Vos, the university, and its governing body, the Board of Regents, for wrongful termination.

She was awarded a $13 million verdict in 2018. However, the California Court of Appeals overturned it in 2020 after concluding that several mistakes during the court proceedings impeded the school’s right to a fair and impartial trial. The case was retried, culminating in the even higher award of $14 million issued on May 9.

“Two juries have come to virtually identical findings showing multiple problems at UCLA involving gender discrimination,” Dr. Pinter-Brown’s attorney, Carney R. Shegerian, JD, told this news organization.

A spokesperson from UCLA’s David Geffen School of Medicine said administrators are carefully reviewing the new decision.

The spokesperson told this news organization that the medical school and its health system remain “deeply committed to maintaining a workplace free from discrimination, intimidation, retaliation, or harassment of any kind” and fostering a “respectful and inclusive environment ... in research, medical education, and patient care.”
 

Gender Pay Disparities Persist in Medicine

The gender pay gap in medicine is well documented. The 2024 Medscape Physician Compensation Report found that male doctors earn about 29% more than their female counterparts, with the disparity growing larger among specialists. In addition, a recent JAMA Health Forum study found that male physicians earned 21%-24% more per hour than female physicians.

Dr. Pinter-Brown, who now works at the University of California, Irvine, alleged that she was paid $200,000 less annually, on average, than her male colleagues.

That’s not surprising, says Martha Gulati, MD, professor and director of preventive cardiology at Cedars-Sinai Smidt Heart Institute, Los Angeles. She coauthored a commentary about gender disparities in JAMA Network Open. Dr. Gulati told this news organization that even a “small” pay disparity of $100,000 annually adds up.

“Let’s say the [male physician] invests it at 3% and adds to it yearly. Even without a raise, in 20 years, that is approximately $3 million,” Dr. Gulati explained. “Once you find out you are paid less than your male colleagues, you are upset. Your sense of value and self-worth disappears.”

Eileen Barrett, MD, MPH, president-elect of the American Medical Women’s Association, said that gender discrimination is likely more prevalent than research indicates. She told this news organization that self-doubt and fear of retaliation keep many from exposing the mistreatment.

Although more women are entering medicine, too few rise to the highest positions, Dr. Barrett said.

“Unfortunately, many are pulled and pushed into specialties and subspecialties that have lower compensation and are not promoted to leadership, so just having numbers isn’t enough to achieve equity,” Dr. Barrett said.

Dr. Pinter-Brown claimed she was repeatedly harassed and intimidated by Dr. de Vos from 2008 to 2015. Despite voicing concerns multiple times about the discriminatory behavior, the only resolutions offered by the male-dominated program leadership were for her to separate from the group and conduct lymphoma research independently or to avoid interacting with Dr. de Vos, court records said.

Even the school’s male Title IX officer, Jan Tillisch, MD, who handled gender-based discrimination complaints, reportedly made sexist comments. When Dr. Pinter-Brown sought his help, he allegedly told her that she had a reputation as an “angry woman” and “diva,” court records showed.

According to court documents, Dr. Pinter-Brown endured nitpicking and research audits as retaliation for speaking out, temporarily suspending her research privileges. She said she was subsequently removed from the director position and replaced by Dr. de Vos.

Female physicians who report discriminatory behavior often have unfavorable outcomes and risk future career prospects, Dr. Gulati said.

To shift this dynamic, she said institutions must increase transparency and practices that support female doctors receiving “equal pay for equal work.”
 

A version of this article appeared on Medscape.com.

A California jury has awarded $14 million to a former University of California, Los Angeles (UCLA) oncologist who claimed she was paid thousands less than her male colleagues and wrongfully terminated after her complaints of gender-based harassment and intimidation were ignored by program leadership.

The decision comes after a lengthy 8-year legal battle in which an appellate judge reversed a previous jury decision in her favor.

Lauren Pinter-Brown, MD, a hematologic oncologist, was hired in 2005 by the University of California, Los Angeles School of Medicine — now called UCLA’s David Geffen School of Medicine. As the school’s lymphoma program director, she conducted clinical research alongside other oncology doctors, including Sven de Vos, MD.

She claimed that her professional relationship with Dr. de Vos became contentious after he demonstrated “oppositional” and “disrespectful” behavior at team meetings, such as talking over her and turning his chair so Dr. Pinter-Brown faced his back. Court documents indicated that Dr. de Vos refused to use Dr. Pinter-Brown’s title in front of colleagues despite doing so for male counterparts.

Dr. Pinter-Brown argued that she was treated as the “butt of a joke” by Dr. de Vos and other male colleagues. In 2016, she sued Dr. de Vos, the university, and its governing body, the Board of Regents, for wrongful termination.

She was awarded a $13 million verdict in 2018. However, the California Court of Appeals overturned it in 2020 after concluding that several mistakes during the court proceedings impeded the school’s right to a fair and impartial trial. The case was retried, culminating in the even higher award of $14 million issued on May 9.

“Two juries have come to virtually identical findings showing multiple problems at UCLA involving gender discrimination,” Dr. Pinter-Brown’s attorney, Carney R. Shegerian, JD, told this news organization.

A spokesperson from UCLA’s David Geffen School of Medicine said administrators are carefully reviewing the new decision.

The spokesperson told this news organization that the medical school and its health system remain “deeply committed to maintaining a workplace free from discrimination, intimidation, retaliation, or harassment of any kind” and fostering a “respectful and inclusive environment ... in research, medical education, and patient care.”
 

Gender Pay Disparities Persist in Medicine

The gender pay gap in medicine is well documented. The 2024 Medscape Physician Compensation Report found that male doctors earn about 29% more than their female counterparts, with the disparity growing larger among specialists. In addition, a recent JAMA Health Forum study found that male physicians earned 21%-24% more per hour than female physicians.

Dr. Pinter-Brown, who now works at the University of California, Irvine, alleged that she was paid $200,000 less annually, on average, than her male colleagues.

That’s not surprising, says Martha Gulati, MD, professor and director of preventive cardiology at Cedars-Sinai Smidt Heart Institute, Los Angeles. She coauthored a commentary about gender disparities in JAMA Network Open. Dr. Gulati told this news organization that even a “small” pay disparity of $100,000 annually adds up.

“Let’s say the [male physician] invests it at 3% and adds to it yearly. Even without a raise, in 20 years, that is approximately $3 million,” Dr. Gulati explained. “Once you find out you are paid less than your male colleagues, you are upset. Your sense of value and self-worth disappears.”

Eileen Barrett, MD, MPH, president-elect of the American Medical Women’s Association, said that gender discrimination is likely more prevalent than research indicates. She told this news organization that self-doubt and fear of retaliation keep many from exposing the mistreatment.

Although more women are entering medicine, too few rise to the highest positions, Dr. Barrett said.

“Unfortunately, many are pulled and pushed into specialties and subspecialties that have lower compensation and are not promoted to leadership, so just having numbers isn’t enough to achieve equity,” Dr. Barrett said.

Dr. Pinter-Brown claimed she was repeatedly harassed and intimidated by Dr. de Vos from 2008 to 2015. Despite voicing concerns multiple times about the discriminatory behavior, the only resolutions offered by the male-dominated program leadership were for her to separate from the group and conduct lymphoma research independently or to avoid interacting with Dr. de Vos, court records said.

Even the school’s male Title IX officer, Jan Tillisch, MD, who handled gender-based discrimination complaints, reportedly made sexist comments. When Dr. Pinter-Brown sought his help, he allegedly told her that she had a reputation as an “angry woman” and “diva,” court records showed.

According to court documents, Dr. Pinter-Brown endured nitpicking and research audits as retaliation for speaking out, temporarily suspending her research privileges. She said she was subsequently removed from the director position and replaced by Dr. de Vos.

Female physicians who report discriminatory behavior often have unfavorable outcomes and risk future career prospects, Dr. Gulati said.

To shift this dynamic, she said institutions must increase transparency and practices that support female doctors receiving “equal pay for equal work.”
 

A version of this article appeared on Medscape.com.

Tell someone you’re a doctor, and the reaction is often: “You must be rich.” But physicians who are just finishing medical school or are in their early careers might feel far from it. The average medical school debt is more than $200,000, with total debts including undergrad climbing well north of $250,000.

That leaves house-hunting physicians in a predicament. A key factor for lending institutions is the “debt to income” ratio, a calculation which indicates if you already have too much debt to pay your mortgage. That single equation could eliminate you from lenders’ mortgage requirements.

But young doctors are also in a unique situation. Yes, they carry above-average levels of debt, but they are on a path to substantial income in future years. That’s where the physician mortgage loan (PML) becomes a useful option. 

What Is a Physician Mortgage Loan?

A PML is designed to help physicians access mortgages despite large amounts of debt. They are also sometimes available to dentists, veterinarians, podiatrists, and others, according to Stephen Chang, MD, a radiologist, and a managing director at Acts Financial Advisors in McLean, Virginia.

The key features, according to James M. Dahle, MD, an emergency physician and founder of The White Coat Investor, include:

• No required down payment, which is typically 20% with a conventional loan.
• No private mortgage insurance (PMI). This is often a requirement of traditional loans, designed to protect the lender if the buyer misses payments. PMLs don’t involve PMI even if you don’t put down 20%.
• No pay stubs. With a conventional loan, pay stubs are often required to prove income level and reliability. PMLs will often allow an employment contract in place of those. 
• Different consideration of the student loan burden.

Those are the upsides, of course, but there may be downsides. Dr. Dahle said a PML might involve slightly higher rates and fees than a conventional mortgage does but not always.

Who Is Best Suited for a Physician Mortgage Loan?

Financial advisers caution that everyone should first consider their full financial picture before applying for a mortgage, PML or otherwise. “If you don’t have the money saved for a down payment, one can ask if you are financially prepared to purchase a home,” says Cobin Soelberg, MD, an anesthesiologist and owner of Greeley Wealth Management, a financial planning firm serving physician families in Bend, Oregon. 

If your savings are slim, you might need to build those accounts further before pursuing home ownership and the expenses that come along with it.

Your credit score can contribute to the equation. “With any loan product, we always recommend working to optimize your personal credit score as soon as possible before applying for a loan,” said Mark P. Eid, MD, a dermatologist and co–managing director (with Dr. Chang) at Act Financial Advisors. “Once you get into the high 700s, you’ve typically qualified for the best interest rates, so while that perfect 850 is nice to achieve, it’s by no means necessary.”

Also, assess your reasons for purchasing a home and whether it will fit your lifestyle in the coming years. “The main reason that [my wife and I] wanted to buy a home was for stability,” said Jordan Frey, MD, founder of The Prudent Plastic Surgeon. “After living in apartments for years, we wanted a place that was truly our own. We definitely felt disappointed and frustrated when worrying that our student debt may limit our ability to do this.”

Like many physicians, Dr. Frey had taken on a huge amount of debt, to the tune of half a million dollars in student loans and credit card debt when he finished training in 2020. The question Dr. Frey and his wife wrestled with was: “How much debt should we take on in addition to what we already have?”

What Are the Risks? What’s in the Fine Print?

The eased limitations of PMLs come with potential pitfalls, and physicians should not imagine that they have unlimited buying power.

“Many physicians buy more expensive or bigger houses than they need simply because banks are willing to lend physicians money,” Dr. Soelberg warns. “So, the doctor gets locked into a large mortgage and cannot build wealth, save for retirement, and repay their student loans.” 

As you shop around, beware of omissions and scams. When meeting with lenders, Dr. Frey recalled that some didn’t even present PMLs as an option, and others presented them with unfavorable terms. He was careful to look for disadvantages hidden in the fine print, such as a potential “big hike in the rate a year later.” 

But sometimes, a scam is not outright deception but is more like temptation. So it’s important to have your own best interests in mind without relying on lenders’ advice. 

“When we were shopping around, some mortgage lenders would [offer] $1.5 million, and we thought ‘that makes no sense,’ ” said Dr. Frey. “[Physicians] have big future income, which makes us attractive to these lenders. No one in their right mind would give a mortgage like this to anyone else. They aren’t worried about whether it’s a smart decision for you or not.” 

What Other Red Flags Should You Look Out for?

Dr. Frey recommends medical professionals beware of these red flags when shopping for PMLs:

• A request for any type of collateral, including your medical practice
• A rate that is much higher than others
• A lender is pushing you to borrow a higher amount than you’re comfortable with 
• A lender attempts to influence your decision about the size of your down payment

Remember, if you are choosing an adjustable-rate mortgage (ARM), your rate will recalibrate on the basis of the market’s rates — for better or worse. This means that your payment might be higher or lower, taking current interest rates into account, based on the market.

Looking back, Dr. Frey said he might reconsider his decision to use a 10-year ARM. He and his wife chose it because the rate was low at the time, and they planned to pay off the mortgage quickly or move before it went up. But the uncertainty added an element of pressure. 

How Can PMLs Contribute to Overall Financial Health?

Dr. Frey says his physician mortgage was “a huge advantage,” allowing him and his wife to put 0% down on their home without PMI. But most importantly, it fit within their overall financial plan, which included investing. “The money that we would have potentially used for a down payment, we used to buy a rental property, which then got us more income,” he says. 

Of course, buying a rental property is not the only path to financial health and freedom. Many people approach a home as an investment that will eventually become fully their own. Others might put that down payment toward building a safety net of savings accounts. 

Used strategically and intentionally, PMLs can put you on a more predictable financial path. And with less money stress, buying a home can be an exciting milestone as you plan your future and put down roots in a community.

A version of this article appeared on Medscape.com.

Tell someone you’re a doctor, and the reaction is often: “You must be rich.” But physicians who are just finishing medical school or are in their early careers might feel far from it. The average medical school debt is more than $200,000, with total debts including undergrad climbing well north of $250,000.

That leaves house-hunting physicians in a predicament. A key factor for lending institutions is the “debt to income” ratio, a calculation which indicates if you already have too much debt to pay your mortgage. That single equation could eliminate you from lenders’ mortgage requirements.

But young doctors are also in a unique situation. Yes, they carry above-average levels of debt, but they are on a path to substantial income in future years. That’s where the physician mortgage loan (PML) becomes a useful option. 

What Is a Physician Mortgage Loan?

A PML is designed to help physicians access mortgages despite large amounts of debt. They are also sometimes available to dentists, veterinarians, podiatrists, and others, according to Stephen Chang, MD, a radiologist, and a managing director at Acts Financial Advisors in McLean, Virginia.

The key features, according to James M. Dahle, MD, an emergency physician and founder of The White Coat Investor, include:

• No required down payment, which is typically 20% with a conventional loan.
• No private mortgage insurance (PMI). This is often a requirement of traditional loans, designed to protect the lender if the buyer misses payments. PMLs don’t involve PMI even if you don’t put down 20%.
• No pay stubs. With a conventional loan, pay stubs are often required to prove income level and reliability. PMLs will often allow an employment contract in place of those. 
• Different consideration of the student loan burden.

Those are the upsides, of course, but there may be downsides. Dr. Dahle said a PML might involve slightly higher rates and fees than a conventional mortgage does but not always.

Who Is Best Suited for a Physician Mortgage Loan?

Financial advisers caution that everyone should first consider their full financial picture before applying for a mortgage, PML or otherwise. “If you don’t have the money saved for a down payment, one can ask if you are financially prepared to purchase a home,” says Cobin Soelberg, MD, an anesthesiologist and owner of Greeley Wealth Management, a financial planning firm serving physician families in Bend, Oregon. 

If your savings are slim, you might need to build those accounts further before pursuing home ownership and the expenses that come along with it.

Your credit score can contribute to the equation. “With any loan product, we always recommend working to optimize your personal credit score as soon as possible before applying for a loan,” said Mark P. Eid, MD, a dermatologist and co–managing director (with Dr. Chang) at Act Financial Advisors. “Once you get into the high 700s, you’ve typically qualified for the best interest rates, so while that perfect 850 is nice to achieve, it’s by no means necessary.”

Also, assess your reasons for purchasing a home and whether it will fit your lifestyle in the coming years. “The main reason that [my wife and I] wanted to buy a home was for stability,” said Jordan Frey, MD, founder of The Prudent Plastic Surgeon. “After living in apartments for years, we wanted a place that was truly our own. We definitely felt disappointed and frustrated when worrying that our student debt may limit our ability to do this.”

Like many physicians, Dr. Frey had taken on a huge amount of debt, to the tune of half a million dollars in student loans and credit card debt when he finished training in 2020. The question Dr. Frey and his wife wrestled with was: “How much debt should we take on in addition to what we already have?”

What Are the Risks? What’s in the Fine Print?

The eased limitations of PMLs come with potential pitfalls, and physicians should not imagine that they have unlimited buying power.

“Many physicians buy more expensive or bigger houses than they need simply because banks are willing to lend physicians money,” Dr. Soelberg warns. “So, the doctor gets locked into a large mortgage and cannot build wealth, save for retirement, and repay their student loans.” 

As you shop around, beware of omissions and scams. When meeting with lenders, Dr. Frey recalled that some didn’t even present PMLs as an option, and others presented them with unfavorable terms. He was careful to look for disadvantages hidden in the fine print, such as a potential “big hike in the rate a year later.” 

But sometimes, a scam is not outright deception but is more like temptation. So it’s important to have your own best interests in mind without relying on lenders’ advice. 

“When we were shopping around, some mortgage lenders would [offer] $1.5 million, and we thought ‘that makes no sense,’ ” said Dr. Frey. “[Physicians] have big future income, which makes us attractive to these lenders. No one in their right mind would give a mortgage like this to anyone else. They aren’t worried about whether it’s a smart decision for you or not.” 

What Other Red Flags Should You Look Out for?

Dr. Frey recommends medical professionals beware of these red flags when shopping for PMLs:

• A request for any type of collateral, including your medical practice
• A rate that is much higher than others
• A lender is pushing you to borrow a higher amount than you’re comfortable with 
• A lender attempts to influence your decision about the size of your down payment

Remember, if you are choosing an adjustable-rate mortgage (ARM), your rate will recalibrate on the basis of the market’s rates — for better or worse. This means that your payment might be higher or lower, taking current interest rates into account, based on the market.

Looking back, Dr. Frey said he might reconsider his decision to use a 10-year ARM. He and his wife chose it because the rate was low at the time, and they planned to pay off the mortgage quickly or move before it went up. But the uncertainty added an element of pressure. 

How Can PMLs Contribute to Overall Financial Health?

Dr. Frey says his physician mortgage was “a huge advantage,” allowing him and his wife to put 0% down on their home without PMI. But most importantly, it fit within their overall financial plan, which included investing. “The money that we would have potentially used for a down payment, we used to buy a rental property, which then got us more income,” he says. 

Of course, buying a rental property is not the only path to financial health and freedom. Many people approach a home as an investment that will eventually become fully their own. Others might put that down payment toward building a safety net of savings accounts. 

Used strategically and intentionally, PMLs can put you on a more predictable financial path. And with less money stress, buying a home can be an exciting milestone as you plan your future and put down roots in a community.

A version of this article appeared on Medscape.com.

Tell someone you’re a doctor, and the reaction is often: “You must be rich.” But physicians who are just finishing medical school or are in their early careers might feel far from it. The average medical school debt is more than $200,000, with total debts including undergrad climbing well north of $250,000.

That leaves house-hunting physicians in a predicament. A key factor for lending institutions is the “debt to income” ratio, a calculation which indicates if you already have too much debt to pay your mortgage. That single equation could eliminate you from lenders’ mortgage requirements.

But young doctors are also in a unique situation. Yes, they carry above-average levels of debt, but they are on a path to substantial income in future years. That’s where the physician mortgage loan (PML) becomes a useful option. 

What Is a Physician Mortgage Loan?

A PML is designed to help physicians access mortgages despite large amounts of debt. They are also sometimes available to dentists, veterinarians, podiatrists, and others, according to Stephen Chang, MD, a radiologist, and a managing director at Acts Financial Advisors in McLean, Virginia.

The key features, according to James M. Dahle, MD, an emergency physician and founder of The White Coat Investor, include:

• No required down payment, which is typically 20% with a conventional loan.
• No private mortgage insurance (PMI). This is often a requirement of traditional loans, designed to protect the lender if the buyer misses payments. PMLs don’t involve PMI even if you don’t put down 20%.
• No pay stubs. With a conventional loan, pay stubs are often required to prove income level and reliability. PMLs will often allow an employment contract in place of those. 
• Different consideration of the student loan burden.

Those are the upsides, of course, but there may be downsides. Dr. Dahle said a PML might involve slightly higher rates and fees than a conventional mortgage does but not always.

Who Is Best Suited for a Physician Mortgage Loan?

Financial advisers caution that everyone should first consider their full financial picture before applying for a mortgage, PML or otherwise. “If you don’t have the money saved for a down payment, one can ask if you are financially prepared to purchase a home,” says Cobin Soelberg, MD, an anesthesiologist and owner of Greeley Wealth Management, a financial planning firm serving physician families in Bend, Oregon. 

If your savings are slim, you might need to build those accounts further before pursuing home ownership and the expenses that come along with it.

Your credit score can contribute to the equation. “With any loan product, we always recommend working to optimize your personal credit score as soon as possible before applying for a loan,” said Mark P. Eid, MD, a dermatologist and co–managing director (with Dr. Chang) at Act Financial Advisors. “Once you get into the high 700s, you’ve typically qualified for the best interest rates, so while that perfect 850 is nice to achieve, it’s by no means necessary.”

Also, assess your reasons for purchasing a home and whether it will fit your lifestyle in the coming years. “The main reason that [my wife and I] wanted to buy a home was for stability,” said Jordan Frey, MD, founder of The Prudent Plastic Surgeon. “After living in apartments for years, we wanted a place that was truly our own. We definitely felt disappointed and frustrated when worrying that our student debt may limit our ability to do this.”

Like many physicians, Dr. Frey had taken on a huge amount of debt, to the tune of half a million dollars in student loans and credit card debt when he finished training in 2020. The question Dr. Frey and his wife wrestled with was: “How much debt should we take on in addition to what we already have?”

What Are the Risks? What’s in the Fine Print?

The eased limitations of PMLs come with potential pitfalls, and physicians should not imagine that they have unlimited buying power.

“Many physicians buy more expensive or bigger houses than they need simply because banks are willing to lend physicians money,” Dr. Soelberg warns. “So, the doctor gets locked into a large mortgage and cannot build wealth, save for retirement, and repay their student loans.” 

As you shop around, beware of omissions and scams. When meeting with lenders, Dr. Frey recalled that some didn’t even present PMLs as an option, and others presented them with unfavorable terms. He was careful to look for disadvantages hidden in the fine print, such as a potential “big hike in the rate a year later.” 

But sometimes, a scam is not outright deception but is more like temptation. So it’s important to have your own best interests in mind without relying on lenders’ advice. 

“When we were shopping around, some mortgage lenders would [offer] $1.5 million, and we thought ‘that makes no sense,’ ” said Dr. Frey. “[Physicians] have big future income, which makes us attractive to these lenders. No one in their right mind would give a mortgage like this to anyone else. They aren’t worried about whether it’s a smart decision for you or not.” 

What Other Red Flags Should You Look Out for?

Dr. Frey recommends medical professionals beware of these red flags when shopping for PMLs:

• A request for any type of collateral, including your medical practice
• A rate that is much higher than others
• A lender is pushing you to borrow a higher amount than you’re comfortable with 
• A lender attempts to influence your decision about the size of your down payment

Remember, if you are choosing an adjustable-rate mortgage (ARM), your rate will recalibrate on the basis of the market’s rates — for better or worse. This means that your payment might be higher or lower, taking current interest rates into account, based on the market.

Looking back, Dr. Frey said he might reconsider his decision to use a 10-year ARM. He and his wife chose it because the rate was low at the time, and they planned to pay off the mortgage quickly or move before it went up. But the uncertainty added an element of pressure. 

How Can PMLs Contribute to Overall Financial Health?

Dr. Frey says his physician mortgage was “a huge advantage,” allowing him and his wife to put 0% down on their home without PMI. But most importantly, it fit within their overall financial plan, which included investing. “The money that we would have potentially used for a down payment, we used to buy a rental property, which then got us more income,” he says. 

Of course, buying a rental property is not the only path to financial health and freedom. Many people approach a home as an investment that will eventually become fully their own. Others might put that down payment toward building a safety net of savings accounts. 

Used strategically and intentionally, PMLs can put you on a more predictable financial path. And with less money stress, buying a home can be an exciting milestone as you plan your future and put down roots in a community.

A version of this article appeared on Medscape.com.

For years, researchers and medical companies have explored low-field MRI systems (those with a magnetic field strength of less than 1 T) — searching for a feasible alternative to the loud, expensive machines requiring special rooms with shielding to block their powerful magnetic field.

Most low-field scanners in development are for brain scans only. In 2022, the US Food and Drug Administration (FDA) cleared the first portable MRI system — Hyperfine’s Swoop, designed for use at a patient’s bedside — for head and brain scans. But the technology has not been applied to whole-body MRI — until now.

In a new study published in Science, researchers from Hong Kong described a whole-body, ultra low–field MRI.

“This is a big breakthrough,” said Kevin Sheth, MD, director of the Yale Center for Brain & Mind Health, who was not involved in the study. “It is one of the first, if not the first, demonstrations of low-field MRI imaging for the entire body.”

The device uses a 0.05 T magnet — one sixtieth the magnetic field strength of the standard 3 T MRI model common in hospitals today, said lead author Ed Wu, PhD, professor of biomedical engineering at The University of Hong Kong.

Because the field strength is so low, no protective shielding is needed. Patients and bystanders can safely use smart phones . And the scanner is safe for patients with implanted devices, like a cochlear implant or pacemaker, or any metal on their body or clothes. No hearing protection is required, either, because the machine is so quiet.

If all goes well, the technology could be commercially available in as little as a few years, Dr. Wu said.

But first, funding and FDA approval would be needed. “A company is going to have to come along and say, ‘This looks fantastic. We’re going to commercialize this, and we’re going to go through this certification process,’ ” said Andrew Webb, PhD, professor of radiology and the founding director of the C.J. Gorter MRI Center at the Leiden University Medical Center, Leiden, the Netherlands. (Dr. Webb was not involved in the study.)
 

Improving Access to MRI

One hope for this technology is to bring MRI to more people worldwide. Africa has less than one MRI scanner per million residents, whereas the United States has about 40.

While a new 3 T machine can cost about $1 million, the low-field version is much cheaper — only about $22,000 in materials cost per scanner, according to Dr. Wu.

A low magnetic field means less electricity, too — the machine can be plugged into a standard wall outlet. And because a fully shielded room isn’t needed, that could save another $100,000 in materials, Dr. Webb said.

Its ease of use could improve accessibility in countries with limited training, Dr. Webb pointed out.

“To be a technician is 2-3 years training for a regular MRI machine, a lot of it to do safety, a lot of it to do very subtle planning,” said Webb. “These [low-field] systems are much simpler.”
 

Challenges and the Future

The prototype weighs about 1.5 tons or 3000 lb. (A 3 T MRI can weigh between 6 and 13 tons or 12,000 and 26,000 lb.) That might sound like a lot, but it’s comparable to a mobile CT scanner, which is designed to be moved from room to room. Plus, “its weight can be substantially reduced if further optimized,” Dr. Wu said.

One challenge with low-field MRIs is image quality, which tends to be not as clear and detailed as those from high-power machines. To address this, the research team used deep learning (artificial intelligence) to enhance the image quality. “Computing power and large-scale data underpin our success, which tackles the physics and math problems that are traditionally considered intractable in existing MRI methodology,” Dr. Wu said.

Dr. Webb said he was impressed by the image quality shown in the study. They “look much higher quality than you would expect from such a low-field system,” he said. Still, only healthy volunteers were scanned. The true test will be using it to view subtle pathologies, Dr. Webb said.

That’s what Dr. Wu and his team are working on now — taking scans to diagnose various medical conditions. His group’s brain-only version of the low-field MRI has been used for diagnosis, he noted.
 

A version of this article appeared on Medscape.com.

For years, researchers and medical companies have explored low-field MRI systems (those with a magnetic field strength of less than 1 T) — searching for a feasible alternative to the loud, expensive machines requiring special rooms with shielding to block their powerful magnetic field.

Most low-field scanners in development are for brain scans only. In 2022, the US Food and Drug Administration (FDA) cleared the first portable MRI system — Hyperfine’s Swoop, designed for use at a patient’s bedside — for head and brain scans. But the technology has not been applied to whole-body MRI — until now.

In a new study published in Science, researchers from Hong Kong described a whole-body, ultra low–field MRI.

“This is a big breakthrough,” said Kevin Sheth, MD, director of the Yale Center for Brain & Mind Health, who was not involved in the study. “It is one of the first, if not the first, demonstrations of low-field MRI imaging for the entire body.”

The device uses a 0.05 T magnet — one sixtieth the magnetic field strength of the standard 3 T MRI model common in hospitals today, said lead author Ed Wu, PhD, professor of biomedical engineering at The University of Hong Kong.

Because the field strength is so low, no protective shielding is needed. Patients and bystanders can safely use smart phones . And the scanner is safe for patients with implanted devices, like a cochlear implant or pacemaker, or any metal on their body or clothes. No hearing protection is required, either, because the machine is so quiet.

If all goes well, the technology could be commercially available in as little as a few years, Dr. Wu said.

But first, funding and FDA approval would be needed. “A company is going to have to come along and say, ‘This looks fantastic. We’re going to commercialize this, and we’re going to go through this certification process,’ ” said Andrew Webb, PhD, professor of radiology and the founding director of the C.J. Gorter MRI Center at the Leiden University Medical Center, Leiden, the Netherlands. (Dr. Webb was not involved in the study.)