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Increase in late-stage cancer diagnoses after pandemic
at Moores Cancer Center in La Jolla, Calif., according to a research letter in JAMA Network Open.
“The number of patients presenting at late, incurable stages is increasing,” say the authors, led by Jade Zifei Zhou, MD, PhD, a hematology/oncology fellow at the center, which is affiliated with the University of California, San Diego.
As the pandemic unfolded and much of routine medicine was put on hold, the postponement or delay in mammograms, colonoscopies, and other screenings led many cancer experts to warn of trouble ahead. In June 2020, for instance, the National Cancer Institute predicted tens of thousands of excess cancer deaths through 2030 because of missed screenings and delays in care.
The message now, Dr. Zhou and colleagues say, is that “patients who have delayed preventative care during the pandemic should be encouraged to resume treatment as soon as possible.”
The team compared the number of people presenting to their cancer center with stage I and IV disease, either for a new diagnosis or a second opinion, during 2019 and with the number during 2020, the first year of the pandemic. The review included over 500 patients, almost 90% of whom were women aged 58 years on average.
While 63.9% of patients with breast cancer presented with stage I disease in 2019, 51.3% did so in 2020. Conversely, while just 1.9% presented with stage IV breast cancer in 2019, the number went up to 6.2% in 2020.
The numbers were even worse from January through March 2021, with only 41.9% of women presenting with stage I and 8% presenting with stage IV breast cancer.
It was the same story for colon cancer, but because of smaller numbers, the findings were not statistically significant.
After the start of the pandemic, the number of patients presenting with stage I colon cancer fell from 17.8% (eight patients) to 14.6% (six patients), while stage IV presentations climbed from 6.7% (three) to 19.5% (eight).
Across all cancer types, stage I presentations fell from 31.9% in 2019 to 29% in 2020, while stage IV presentations rose from 26% to 26.4%.
One of the study limitations is that the patients who came in for a second opinion could have been newly diagnosed but might also have been referred for refractory disease, the authors comment.
No funding for this study was reported. Senior author Kathryn Ann Gold, MD, reported personal fees from AstraZeneca, Takeda, Rakuten, and Regeneron as well as grants from Pfizer and Pharmacyclics.
A version of this article first appeared on Medscape.com.
at Moores Cancer Center in La Jolla, Calif., according to a research letter in JAMA Network Open.
“The number of patients presenting at late, incurable stages is increasing,” say the authors, led by Jade Zifei Zhou, MD, PhD, a hematology/oncology fellow at the center, which is affiliated with the University of California, San Diego.
As the pandemic unfolded and much of routine medicine was put on hold, the postponement or delay in mammograms, colonoscopies, and other screenings led many cancer experts to warn of trouble ahead. In June 2020, for instance, the National Cancer Institute predicted tens of thousands of excess cancer deaths through 2030 because of missed screenings and delays in care.
The message now, Dr. Zhou and colleagues say, is that “patients who have delayed preventative care during the pandemic should be encouraged to resume treatment as soon as possible.”
The team compared the number of people presenting to their cancer center with stage I and IV disease, either for a new diagnosis or a second opinion, during 2019 and with the number during 2020, the first year of the pandemic. The review included over 500 patients, almost 90% of whom were women aged 58 years on average.
While 63.9% of patients with breast cancer presented with stage I disease in 2019, 51.3% did so in 2020. Conversely, while just 1.9% presented with stage IV breast cancer in 2019, the number went up to 6.2% in 2020.
The numbers were even worse from January through March 2021, with only 41.9% of women presenting with stage I and 8% presenting with stage IV breast cancer.
It was the same story for colon cancer, but because of smaller numbers, the findings were not statistically significant.
After the start of the pandemic, the number of patients presenting with stage I colon cancer fell from 17.8% (eight patients) to 14.6% (six patients), while stage IV presentations climbed from 6.7% (three) to 19.5% (eight).
Across all cancer types, stage I presentations fell from 31.9% in 2019 to 29% in 2020, while stage IV presentations rose from 26% to 26.4%.
One of the study limitations is that the patients who came in for a second opinion could have been newly diagnosed but might also have been referred for refractory disease, the authors comment.
No funding for this study was reported. Senior author Kathryn Ann Gold, MD, reported personal fees from AstraZeneca, Takeda, Rakuten, and Regeneron as well as grants from Pfizer and Pharmacyclics.
A version of this article first appeared on Medscape.com.
at Moores Cancer Center in La Jolla, Calif., according to a research letter in JAMA Network Open.
“The number of patients presenting at late, incurable stages is increasing,” say the authors, led by Jade Zifei Zhou, MD, PhD, a hematology/oncology fellow at the center, which is affiliated with the University of California, San Diego.
As the pandemic unfolded and much of routine medicine was put on hold, the postponement or delay in mammograms, colonoscopies, and other screenings led many cancer experts to warn of trouble ahead. In June 2020, for instance, the National Cancer Institute predicted tens of thousands of excess cancer deaths through 2030 because of missed screenings and delays in care.
The message now, Dr. Zhou and colleagues say, is that “patients who have delayed preventative care during the pandemic should be encouraged to resume treatment as soon as possible.”
The team compared the number of people presenting to their cancer center with stage I and IV disease, either for a new diagnosis or a second opinion, during 2019 and with the number during 2020, the first year of the pandemic. The review included over 500 patients, almost 90% of whom were women aged 58 years on average.
While 63.9% of patients with breast cancer presented with stage I disease in 2019, 51.3% did so in 2020. Conversely, while just 1.9% presented with stage IV breast cancer in 2019, the number went up to 6.2% in 2020.
The numbers were even worse from January through March 2021, with only 41.9% of women presenting with stage I and 8% presenting with stage IV breast cancer.
It was the same story for colon cancer, but because of smaller numbers, the findings were not statistically significant.
After the start of the pandemic, the number of patients presenting with stage I colon cancer fell from 17.8% (eight patients) to 14.6% (six patients), while stage IV presentations climbed from 6.7% (three) to 19.5% (eight).
Across all cancer types, stage I presentations fell from 31.9% in 2019 to 29% in 2020, while stage IV presentations rose from 26% to 26.4%.
One of the study limitations is that the patients who came in for a second opinion could have been newly diagnosed but might also have been referred for refractory disease, the authors comment.
No funding for this study was reported. Senior author Kathryn Ann Gold, MD, reported personal fees from AstraZeneca, Takeda, Rakuten, and Regeneron as well as grants from Pfizer and Pharmacyclics.
A version of this article first appeared on Medscape.com.
FROM JAMA NETWORK OPEN
Cost not a factor in radiotherapy type for breast cancer patients
A study comparing the cost of hypofractionated radiotherapy for early-stage breast cancer with the more expensive multidose conventional form, finds that physicians are increasingly opting for hypofractionated radiotherapy despite lower reimbursements rates for the procedure.
Hypofractionated radiotherapy is administered in fewer fractions requiring fewer hospital visits, which, in turn, should lead to less expensive procedures. According to previously reported randomized controlled trials of patients with early breast cancer, both procedures are equally efficacious. In 2011, the American Society of Radiation Oncology published guidelines recommending hypofractionated whole-breast irradiation for patients who have not undergone chemotherapy and who are at least 50 years old with a small primary tumor (T1-2).
In the new study, Loren Saulsberry, PhD, of the department of public health at the University of Chicago, and colleagues Chuanhong Liao and Dezheng Huo, hypothesized that a fee-for-service incentive structure in which doctors are paid by volume and quantity of services, would drive up use of conventional therapy among patients with commercial insurance. And, they hypothesized that, when presented with a smaller cost difference between the two procedures, physicians would recommend hypofractionated radiotherapy over the conventional form, but neither theory was proven true.
This was a retrospective study of private employer–sponsored health insurance claims processed between 2008 and 2017 for women with early-stage breast cancer who were treated with lumpectomy and whole-breast irradiation.
The study included 15,869 women who received hypofractionated radiotherapy and 59,328 who received the conventional form. Women who underwent hypofractionated radiotherapy received 15-24 fractions over 21-31 days. Those who received conventional radiotherapy received 25-40 fractions over 39-120 days. The primary outcomes and measures were the use of hypofractionated or conventional radiotherapy, costs incurred by insurers and out-of-pocket patient expenses.
Dr. Saulsberry and colleagues found the use of hypofractionated radiotherapy increased during this period. They found no association between the likelihood of receiving hypofractionated radiotherapy and insurance plan characteristics. At $23,286, conventional radiotherapy was $6,253 more expensive than hypofractionated radiotherapy which averaged $17,763.
After out-of-pocket expenses were paid (average of $502 for conventional and $363 for hypofractionated radiotherapy), insurers paid an average of $6,375 more for conventional therapy after adjustments.
“Hypofractionated radiotherapy represents significant savings to both the health care system and to individual patients. It may soon become the dominant form of radiation treatment in the U.S. if current trends continue,” Dr. Saulsberry said in an interview after she presented the study (Abstract P3-19-07) at the San Antonio Breast Cancer Symposium.
According to the National Cancer Institute, the cost of cancer care grew from $190.2 billion in 2015 to $208.9 billion in 2020.
Dr. Saulsberry declared no conflicts of interest.
A study comparing the cost of hypofractionated radiotherapy for early-stage breast cancer with the more expensive multidose conventional form, finds that physicians are increasingly opting for hypofractionated radiotherapy despite lower reimbursements rates for the procedure.
Hypofractionated radiotherapy is administered in fewer fractions requiring fewer hospital visits, which, in turn, should lead to less expensive procedures. According to previously reported randomized controlled trials of patients with early breast cancer, both procedures are equally efficacious. In 2011, the American Society of Radiation Oncology published guidelines recommending hypofractionated whole-breast irradiation for patients who have not undergone chemotherapy and who are at least 50 years old with a small primary tumor (T1-2).
In the new study, Loren Saulsberry, PhD, of the department of public health at the University of Chicago, and colleagues Chuanhong Liao and Dezheng Huo, hypothesized that a fee-for-service incentive structure in which doctors are paid by volume and quantity of services, would drive up use of conventional therapy among patients with commercial insurance. And, they hypothesized that, when presented with a smaller cost difference between the two procedures, physicians would recommend hypofractionated radiotherapy over the conventional form, but neither theory was proven true.
This was a retrospective study of private employer–sponsored health insurance claims processed between 2008 and 2017 for women with early-stage breast cancer who were treated with lumpectomy and whole-breast irradiation.
The study included 15,869 women who received hypofractionated radiotherapy and 59,328 who received the conventional form. Women who underwent hypofractionated radiotherapy received 15-24 fractions over 21-31 days. Those who received conventional radiotherapy received 25-40 fractions over 39-120 days. The primary outcomes and measures were the use of hypofractionated or conventional radiotherapy, costs incurred by insurers and out-of-pocket patient expenses.
Dr. Saulsberry and colleagues found the use of hypofractionated radiotherapy increased during this period. They found no association between the likelihood of receiving hypofractionated radiotherapy and insurance plan characteristics. At $23,286, conventional radiotherapy was $6,253 more expensive than hypofractionated radiotherapy which averaged $17,763.
After out-of-pocket expenses were paid (average of $502 for conventional and $363 for hypofractionated radiotherapy), insurers paid an average of $6,375 more for conventional therapy after adjustments.
“Hypofractionated radiotherapy represents significant savings to both the health care system and to individual patients. It may soon become the dominant form of radiation treatment in the U.S. if current trends continue,” Dr. Saulsberry said in an interview after she presented the study (Abstract P3-19-07) at the San Antonio Breast Cancer Symposium.
According to the National Cancer Institute, the cost of cancer care grew from $190.2 billion in 2015 to $208.9 billion in 2020.
Dr. Saulsberry declared no conflicts of interest.
A study comparing the cost of hypofractionated radiotherapy for early-stage breast cancer with the more expensive multidose conventional form, finds that physicians are increasingly opting for hypofractionated radiotherapy despite lower reimbursements rates for the procedure.
Hypofractionated radiotherapy is administered in fewer fractions requiring fewer hospital visits, which, in turn, should lead to less expensive procedures. According to previously reported randomized controlled trials of patients with early breast cancer, both procedures are equally efficacious. In 2011, the American Society of Radiation Oncology published guidelines recommending hypofractionated whole-breast irradiation for patients who have not undergone chemotherapy and who are at least 50 years old with a small primary tumor (T1-2).
In the new study, Loren Saulsberry, PhD, of the department of public health at the University of Chicago, and colleagues Chuanhong Liao and Dezheng Huo, hypothesized that a fee-for-service incentive structure in which doctors are paid by volume and quantity of services, would drive up use of conventional therapy among patients with commercial insurance. And, they hypothesized that, when presented with a smaller cost difference between the two procedures, physicians would recommend hypofractionated radiotherapy over the conventional form, but neither theory was proven true.
This was a retrospective study of private employer–sponsored health insurance claims processed between 2008 and 2017 for women with early-stage breast cancer who were treated with lumpectomy and whole-breast irradiation.
The study included 15,869 women who received hypofractionated radiotherapy and 59,328 who received the conventional form. Women who underwent hypofractionated radiotherapy received 15-24 fractions over 21-31 days. Those who received conventional radiotherapy received 25-40 fractions over 39-120 days. The primary outcomes and measures were the use of hypofractionated or conventional radiotherapy, costs incurred by insurers and out-of-pocket patient expenses.
Dr. Saulsberry and colleagues found the use of hypofractionated radiotherapy increased during this period. They found no association between the likelihood of receiving hypofractionated radiotherapy and insurance plan characteristics. At $23,286, conventional radiotherapy was $6,253 more expensive than hypofractionated radiotherapy which averaged $17,763.
After out-of-pocket expenses were paid (average of $502 for conventional and $363 for hypofractionated radiotherapy), insurers paid an average of $6,375 more for conventional therapy after adjustments.
“Hypofractionated radiotherapy represents significant savings to both the health care system and to individual patients. It may soon become the dominant form of radiation treatment in the U.S. if current trends continue,” Dr. Saulsberry said in an interview after she presented the study (Abstract P3-19-07) at the San Antonio Breast Cancer Symposium.
According to the National Cancer Institute, the cost of cancer care grew from $190.2 billion in 2015 to $208.9 billion in 2020.
Dr. Saulsberry declared no conflicts of interest.
FROM SABCS 2021
“I didn’t want to meet you.” Dispelling myths about palliative care
The names of health care professionals and patients cited within the dialogue text have been changed to protect their privacy.
but over the years I have come to realize that she was right – most people, including many within health care, don’t have a good appreciation of what palliative care is or how it can help patients and health care teams.
A recent national survey about cancer-related health information found that of more than 1,000 surveyed Americans, less than 30% professed any knowledge of palliative care. Of those who had some knowledge of palliative care, around 30% believed palliative care was synonymous with hospice.1 Another 15% believed that a patient would have to give up cancer-directed treatments to receive palliative care.1
It’s not giving up
This persistent belief that palliative care is equivalent to hospice, or is tantamount to “giving up,” is one of the most commonly held myths I encounter in everyday practice.
I knock on the exam door and walk in.
A small, trim woman in her late 50s is sitting in a chair, arms folded across her chest, face drawn in.
“Hi,” I start. “I’m Sarah, the palliative care nurse practitioner who works in this clinic. I work closely with Dr. Smith.”
Dr. Smith is the patient’s oncologist.
“I really didn’t want to meet you,” she says in a quiet voice, her eyes large with concern.
I don’t take it personally. Few patients really want to be in the position of needing to meet the palliative care team.
“I looked up palliative care on Google and saw the word hospice.”
“Yeah,” I say. “I hear that a lot. Well, I can reassure you that this isn’t hospice.
In this clinic, our focus is on your cancer symptoms, your treatment side effects, and your quality of life.”
She looks visibly relieved. “Quality of life,” she echoes. “I need more of that.”
“OK,” I say. “So, tell me what you’re struggling with the most right now.”
That’s how many palliative care visits start. I actually prefer if patients haven’t heard of palliative care because it allows me to frame it for them, rather than having to start by addressing a myth or a prior negative experience. Even when patients haven’t had a negative experience with palliative care per se, typically, if they’ve interacted with palliative care in the past, it’s usually because someone they loved died in a hospital setting and it is the memory of that terrible loss that becomes synonymous with their recollection of palliative care.
Many patients I meet have never seen another outpatient palliative care practitioner – and this makes sense – we are still too few and far between. Most established palliative care teams are hospital based and many patients seen in the community do not have easy access to palliative care teams where they receive oncologic care.2 As an embedded practitioner, I see patients in the same exam rooms and infusion centers where they receive their cancer therapies, so I’m effectively woven into the fabric of their oncology experience. Just being there in the cancer center allows me to be in the right place at the right time for the right patients and their care teams.
More than pain management
Another myth I tend to dispel a lot is that palliative care is just a euphemism for “pain management.” I have seen this less lately, but still occasionally in the chart I’ll see documented in a note, “patient is seeing palliative/pain management,” when a patient is seeing me or one of my colleagues. Unfortunately, when providers have limited or outdated views of what palliative care is or the value it brings to patient-centered cancer care, referrals to palliative care tend to be delayed.3
“I really think Ms. Lopez could benefit from seeing palliative care,” an oncology nurse practitioner says to an oncologist.
I’m standing nearby, about to see another patient in one of the exam rooms in our clinic.
“But I don’t think she’s ready. And besides, she doesn’t have any pain,” he says.
He turns to me quizzically. “What do you think?”
“Tell me about the patient,” I ask, taking a few steps in their direction.
“Well, she’s a 64-year-old woman with metastatic cancer.
She has a really poor appetite and is losing some weight.
Seems a bit down, kind of pessimistic about things.
Her scan showed some new growth, so guess I’m not surprised by that.”
“I might be able to help her with the appetite and the mood changes.
I can at least talk with her and see where she’s at,” I offer.
“Alright,” he says. “We’ll put the palliative referral in.”
He hesitates. “But are you sure you want to see her?
She doesn’t have any pain.” He sounds skeptical.
“Yeah, I mean, it sounds like she has symptoms that are bothering her, so I’d be happy to see her. She sounds completely appropriate for palliative care.”
I hear this assumption a lot – that palliative care is somehow equivalent to pain management and that unless a patient’s pain is severe, it’s not worth referring the patient to palliative care. Don’t get me wrong – we do a lot of pain management, but at its heart, palliative care is an interdisciplinary specialty focused on improving or maintaining quality of life for people with serious illness. Because the goal is so broad, care can take many shapes.4
In addition to pain, palliative care clinicians commonly treat nausea, shortness of breath, constipation or diarrhea, poor appetite, fatigue, anxiety, depression, and insomnia.
Palliative care is more than medical or nursing care
A related misconception about palliative care held by many lay people and health care workers alike is that palliative care is primarily medical or nursing care focused mostly on alleviating physical symptoms such as pain or nausea. This couldn’t be further from the truth.
We’ve been talking for a while.
Ms. Lopez tells me about her struggles to maintain her weight while undergoing chemotherapy. She has low-grade nausea that is impacting her ability and desire to eat more and didn’t think that her weight loss was severe enough to warrant taking medication.
We talk about how she may be able to use antinausea medication sparingly to alleviate nausea while also limiting side effects from the medications—which was a big concern for her.
I ask her what else is bothering her.
She tells me that she has always been a strong Catholic and even when life has gotten tough, her faith was never shaken – until now.
She is struggling to understand why she ended up with metastatic cancer at such a relatively young age—why would God do this to her?
She had plans for retirement that have since evaporated in the face of a foreshortened life.
Why did this happen to her of all people? She was completely healthy until her diagnosis.
Her face is wet with tears.
We talk a little about how a diagnosis like this can change so much of a person’s life and identity. I try to validate her experience. She’s clearly suffering from a sense that her life is not what she expected, and she is struggling to integrate how her future looks at this point.
I ask her what conversations with her priest have been like.
At this point you may be wondering where this conversation is going. Why are we talking about Ms. Lopez’s religion? Palliative care is best delivered through high functioning interdisciplinary teams that can include other supportive people in a patient’s life. We work in concert to try to bring comfort to a patient and their family.4 That support network can include nurses, physicians, social workers, and chaplains. In this case, Ms. Lopez had not yet reached out to her priest. She hasn’t had the time or energy to contact her priest given her symptoms.
“Can I contact your priest for you?
Maybe he can visit or call and chat with you?”
She nods and wipes tears away.
“That would be really nice,” she says. “I’d love it if he could pray with me.”
A few hours after the visit, I call Ms. Lopez’s priest.
I ask him to reach out to her and about her request for prayer.
He says he’s been thinking about her and that her presence has been missed at weekly Mass. He thanks me for the call and says he’ll call her tomorrow.
I say my own small prayer for Ms. Lopez and head home, the day’s work completed.
Sarah D'Ambruoso was born and raised in Maine. She completed her undergraduate and graduate nursing education at New York University and UCLA, respectively, and currently works as a palliative care nurse practitioner in an oncology clinic in Los Angeles.
References
1. Cheng BT et al. Patterns of palliative care beliefs among adults in the U.S.: Analysis of a National Cancer Database. J Pain Symptom Manage. 2019 Aug 10. doi: 10.1016/j.jpainsymman.2019.07.030.
2. Finlay E et al. Filling the gap: Creating an outpatient palliative care program in your institution. Am Soc Clin Oncol Educ Book. 2018 May 23. doi: 10.1200/EDBK_200775.
3. Von Roenn JH et al. Barriers and approaches to the successful integration of palliative care and oncology practice. J Natl Compr Canc Netw. 2013 Mar. doi: 10.6004/jnccn.2013.0209.
4. Ferrell BR et al. Integration of palliative care into standard oncology care: American Society of Clinical Oncology Clinical Practice Guideline Update. J Clin Oncol. 2016 Oct 31. doi: 10.1200/JCO.2016.70.1474.
The names of health care professionals and patients cited within the dialogue text have been changed to protect their privacy.
but over the years I have come to realize that she was right – most people, including many within health care, don’t have a good appreciation of what palliative care is or how it can help patients and health care teams.
A recent national survey about cancer-related health information found that of more than 1,000 surveyed Americans, less than 30% professed any knowledge of palliative care. Of those who had some knowledge of palliative care, around 30% believed palliative care was synonymous with hospice.1 Another 15% believed that a patient would have to give up cancer-directed treatments to receive palliative care.1
It’s not giving up
This persistent belief that palliative care is equivalent to hospice, or is tantamount to “giving up,” is one of the most commonly held myths I encounter in everyday practice.
I knock on the exam door and walk in.
A small, trim woman in her late 50s is sitting in a chair, arms folded across her chest, face drawn in.
“Hi,” I start. “I’m Sarah, the palliative care nurse practitioner who works in this clinic. I work closely with Dr. Smith.”
Dr. Smith is the patient’s oncologist.
“I really didn’t want to meet you,” she says in a quiet voice, her eyes large with concern.
I don’t take it personally. Few patients really want to be in the position of needing to meet the palliative care team.
“I looked up palliative care on Google and saw the word hospice.”
“Yeah,” I say. “I hear that a lot. Well, I can reassure you that this isn’t hospice.
In this clinic, our focus is on your cancer symptoms, your treatment side effects, and your quality of life.”
She looks visibly relieved. “Quality of life,” she echoes. “I need more of that.”
“OK,” I say. “So, tell me what you’re struggling with the most right now.”
That’s how many palliative care visits start. I actually prefer if patients haven’t heard of palliative care because it allows me to frame it for them, rather than having to start by addressing a myth or a prior negative experience. Even when patients haven’t had a negative experience with palliative care per se, typically, if they’ve interacted with palliative care in the past, it’s usually because someone they loved died in a hospital setting and it is the memory of that terrible loss that becomes synonymous with their recollection of palliative care.
Many patients I meet have never seen another outpatient palliative care practitioner – and this makes sense – we are still too few and far between. Most established palliative care teams are hospital based and many patients seen in the community do not have easy access to palliative care teams where they receive oncologic care.2 As an embedded practitioner, I see patients in the same exam rooms and infusion centers where they receive their cancer therapies, so I’m effectively woven into the fabric of their oncology experience. Just being there in the cancer center allows me to be in the right place at the right time for the right patients and their care teams.
More than pain management
Another myth I tend to dispel a lot is that palliative care is just a euphemism for “pain management.” I have seen this less lately, but still occasionally in the chart I’ll see documented in a note, “patient is seeing palliative/pain management,” when a patient is seeing me or one of my colleagues. Unfortunately, when providers have limited or outdated views of what palliative care is or the value it brings to patient-centered cancer care, referrals to palliative care tend to be delayed.3
“I really think Ms. Lopez could benefit from seeing palliative care,” an oncology nurse practitioner says to an oncologist.
I’m standing nearby, about to see another patient in one of the exam rooms in our clinic.
“But I don’t think she’s ready. And besides, she doesn’t have any pain,” he says.
He turns to me quizzically. “What do you think?”
“Tell me about the patient,” I ask, taking a few steps in their direction.
“Well, she’s a 64-year-old woman with metastatic cancer.
She has a really poor appetite and is losing some weight.
Seems a bit down, kind of pessimistic about things.
Her scan showed some new growth, so guess I’m not surprised by that.”
“I might be able to help her with the appetite and the mood changes.
I can at least talk with her and see where she’s at,” I offer.
“Alright,” he says. “We’ll put the palliative referral in.”
He hesitates. “But are you sure you want to see her?
She doesn’t have any pain.” He sounds skeptical.
“Yeah, I mean, it sounds like she has symptoms that are bothering her, so I’d be happy to see her. She sounds completely appropriate for palliative care.”
I hear this assumption a lot – that palliative care is somehow equivalent to pain management and that unless a patient’s pain is severe, it’s not worth referring the patient to palliative care. Don’t get me wrong – we do a lot of pain management, but at its heart, palliative care is an interdisciplinary specialty focused on improving or maintaining quality of life for people with serious illness. Because the goal is so broad, care can take many shapes.4
In addition to pain, palliative care clinicians commonly treat nausea, shortness of breath, constipation or diarrhea, poor appetite, fatigue, anxiety, depression, and insomnia.
Palliative care is more than medical or nursing care
A related misconception about palliative care held by many lay people and health care workers alike is that palliative care is primarily medical or nursing care focused mostly on alleviating physical symptoms such as pain or nausea. This couldn’t be further from the truth.
We’ve been talking for a while.
Ms. Lopez tells me about her struggles to maintain her weight while undergoing chemotherapy. She has low-grade nausea that is impacting her ability and desire to eat more and didn’t think that her weight loss was severe enough to warrant taking medication.
We talk about how she may be able to use antinausea medication sparingly to alleviate nausea while also limiting side effects from the medications—which was a big concern for her.
I ask her what else is bothering her.
She tells me that she has always been a strong Catholic and even when life has gotten tough, her faith was never shaken – until now.
She is struggling to understand why she ended up with metastatic cancer at such a relatively young age—why would God do this to her?
She had plans for retirement that have since evaporated in the face of a foreshortened life.
Why did this happen to her of all people? She was completely healthy until her diagnosis.
Her face is wet with tears.
We talk a little about how a diagnosis like this can change so much of a person’s life and identity. I try to validate her experience. She’s clearly suffering from a sense that her life is not what she expected, and she is struggling to integrate how her future looks at this point.
I ask her what conversations with her priest have been like.
At this point you may be wondering where this conversation is going. Why are we talking about Ms. Lopez’s religion? Palliative care is best delivered through high functioning interdisciplinary teams that can include other supportive people in a patient’s life. We work in concert to try to bring comfort to a patient and their family.4 That support network can include nurses, physicians, social workers, and chaplains. In this case, Ms. Lopez had not yet reached out to her priest. She hasn’t had the time or energy to contact her priest given her symptoms.
“Can I contact your priest for you?
Maybe he can visit or call and chat with you?”
She nods and wipes tears away.
“That would be really nice,” she says. “I’d love it if he could pray with me.”
A few hours after the visit, I call Ms. Lopez’s priest.
I ask him to reach out to her and about her request for prayer.
He says he’s been thinking about her and that her presence has been missed at weekly Mass. He thanks me for the call and says he’ll call her tomorrow.
I say my own small prayer for Ms. Lopez and head home, the day’s work completed.
Sarah D'Ambruoso was born and raised in Maine. She completed her undergraduate and graduate nursing education at New York University and UCLA, respectively, and currently works as a palliative care nurse practitioner in an oncology clinic in Los Angeles.
References
1. Cheng BT et al. Patterns of palliative care beliefs among adults in the U.S.: Analysis of a National Cancer Database. J Pain Symptom Manage. 2019 Aug 10. doi: 10.1016/j.jpainsymman.2019.07.030.
2. Finlay E et al. Filling the gap: Creating an outpatient palliative care program in your institution. Am Soc Clin Oncol Educ Book. 2018 May 23. doi: 10.1200/EDBK_200775.
3. Von Roenn JH et al. Barriers and approaches to the successful integration of palliative care and oncology practice. J Natl Compr Canc Netw. 2013 Mar. doi: 10.6004/jnccn.2013.0209.
4. Ferrell BR et al. Integration of palliative care into standard oncology care: American Society of Clinical Oncology Clinical Practice Guideline Update. J Clin Oncol. 2016 Oct 31. doi: 10.1200/JCO.2016.70.1474.
The names of health care professionals and patients cited within the dialogue text have been changed to protect their privacy.
but over the years I have come to realize that she was right – most people, including many within health care, don’t have a good appreciation of what palliative care is or how it can help patients and health care teams.
A recent national survey about cancer-related health information found that of more than 1,000 surveyed Americans, less than 30% professed any knowledge of palliative care. Of those who had some knowledge of palliative care, around 30% believed palliative care was synonymous with hospice.1 Another 15% believed that a patient would have to give up cancer-directed treatments to receive palliative care.1
It’s not giving up
This persistent belief that palliative care is equivalent to hospice, or is tantamount to “giving up,” is one of the most commonly held myths I encounter in everyday practice.
I knock on the exam door and walk in.
A small, trim woman in her late 50s is sitting in a chair, arms folded across her chest, face drawn in.
“Hi,” I start. “I’m Sarah, the palliative care nurse practitioner who works in this clinic. I work closely with Dr. Smith.”
Dr. Smith is the patient’s oncologist.
“I really didn’t want to meet you,” she says in a quiet voice, her eyes large with concern.
I don’t take it personally. Few patients really want to be in the position of needing to meet the palliative care team.
“I looked up palliative care on Google and saw the word hospice.”
“Yeah,” I say. “I hear that a lot. Well, I can reassure you that this isn’t hospice.
In this clinic, our focus is on your cancer symptoms, your treatment side effects, and your quality of life.”
She looks visibly relieved. “Quality of life,” she echoes. “I need more of that.”
“OK,” I say. “So, tell me what you’re struggling with the most right now.”
That’s how many palliative care visits start. I actually prefer if patients haven’t heard of palliative care because it allows me to frame it for them, rather than having to start by addressing a myth or a prior negative experience. Even when patients haven’t had a negative experience with palliative care per se, typically, if they’ve interacted with palliative care in the past, it’s usually because someone they loved died in a hospital setting and it is the memory of that terrible loss that becomes synonymous with their recollection of palliative care.
Many patients I meet have never seen another outpatient palliative care practitioner – and this makes sense – we are still too few and far between. Most established palliative care teams are hospital based and many patients seen in the community do not have easy access to palliative care teams where they receive oncologic care.2 As an embedded practitioner, I see patients in the same exam rooms and infusion centers where they receive their cancer therapies, so I’m effectively woven into the fabric of their oncology experience. Just being there in the cancer center allows me to be in the right place at the right time for the right patients and their care teams.
More than pain management
Another myth I tend to dispel a lot is that palliative care is just a euphemism for “pain management.” I have seen this less lately, but still occasionally in the chart I’ll see documented in a note, “patient is seeing palliative/pain management,” when a patient is seeing me or one of my colleagues. Unfortunately, when providers have limited or outdated views of what palliative care is or the value it brings to patient-centered cancer care, referrals to palliative care tend to be delayed.3
“I really think Ms. Lopez could benefit from seeing palliative care,” an oncology nurse practitioner says to an oncologist.
I’m standing nearby, about to see another patient in one of the exam rooms in our clinic.
“But I don’t think she’s ready. And besides, she doesn’t have any pain,” he says.
He turns to me quizzically. “What do you think?”
“Tell me about the patient,” I ask, taking a few steps in their direction.
“Well, she’s a 64-year-old woman with metastatic cancer.
She has a really poor appetite and is losing some weight.
Seems a bit down, kind of pessimistic about things.
Her scan showed some new growth, so guess I’m not surprised by that.”
“I might be able to help her with the appetite and the mood changes.
I can at least talk with her and see where she’s at,” I offer.
“Alright,” he says. “We’ll put the palliative referral in.”
He hesitates. “But are you sure you want to see her?
She doesn’t have any pain.” He sounds skeptical.
“Yeah, I mean, it sounds like she has symptoms that are bothering her, so I’d be happy to see her. She sounds completely appropriate for palliative care.”
I hear this assumption a lot – that palliative care is somehow equivalent to pain management and that unless a patient’s pain is severe, it’s not worth referring the patient to palliative care. Don’t get me wrong – we do a lot of pain management, but at its heart, palliative care is an interdisciplinary specialty focused on improving or maintaining quality of life for people with serious illness. Because the goal is so broad, care can take many shapes.4
In addition to pain, palliative care clinicians commonly treat nausea, shortness of breath, constipation or diarrhea, poor appetite, fatigue, anxiety, depression, and insomnia.
Palliative care is more than medical or nursing care
A related misconception about palliative care held by many lay people and health care workers alike is that palliative care is primarily medical or nursing care focused mostly on alleviating physical symptoms such as pain or nausea. This couldn’t be further from the truth.
We’ve been talking for a while.
Ms. Lopez tells me about her struggles to maintain her weight while undergoing chemotherapy. She has low-grade nausea that is impacting her ability and desire to eat more and didn’t think that her weight loss was severe enough to warrant taking medication.
We talk about how she may be able to use antinausea medication sparingly to alleviate nausea while also limiting side effects from the medications—which was a big concern for her.
I ask her what else is bothering her.
She tells me that she has always been a strong Catholic and even when life has gotten tough, her faith was never shaken – until now.
She is struggling to understand why she ended up with metastatic cancer at such a relatively young age—why would God do this to her?
She had plans for retirement that have since evaporated in the face of a foreshortened life.
Why did this happen to her of all people? She was completely healthy until her diagnosis.
Her face is wet with tears.
We talk a little about how a diagnosis like this can change so much of a person’s life and identity. I try to validate her experience. She’s clearly suffering from a sense that her life is not what she expected, and she is struggling to integrate how her future looks at this point.
I ask her what conversations with her priest have been like.
At this point you may be wondering where this conversation is going. Why are we talking about Ms. Lopez’s religion? Palliative care is best delivered through high functioning interdisciplinary teams that can include other supportive people in a patient’s life. We work in concert to try to bring comfort to a patient and their family.4 That support network can include nurses, physicians, social workers, and chaplains. In this case, Ms. Lopez had not yet reached out to her priest. She hasn’t had the time or energy to contact her priest given her symptoms.
“Can I contact your priest for you?
Maybe he can visit or call and chat with you?”
She nods and wipes tears away.
“That would be really nice,” she says. “I’d love it if he could pray with me.”
A few hours after the visit, I call Ms. Lopez’s priest.
I ask him to reach out to her and about her request for prayer.
He says he’s been thinking about her and that her presence has been missed at weekly Mass. He thanks me for the call and says he’ll call her tomorrow.
I say my own small prayer for Ms. Lopez and head home, the day’s work completed.
Sarah D'Ambruoso was born and raised in Maine. She completed her undergraduate and graduate nursing education at New York University and UCLA, respectively, and currently works as a palliative care nurse practitioner in an oncology clinic in Los Angeles.
References
1. Cheng BT et al. Patterns of palliative care beliefs among adults in the U.S.: Analysis of a National Cancer Database. J Pain Symptom Manage. 2019 Aug 10. doi: 10.1016/j.jpainsymman.2019.07.030.
2. Finlay E et al. Filling the gap: Creating an outpatient palliative care program in your institution. Am Soc Clin Oncol Educ Book. 2018 May 23. doi: 10.1200/EDBK_200775.
3. Von Roenn JH et al. Barriers and approaches to the successful integration of palliative care and oncology practice. J Natl Compr Canc Netw. 2013 Mar. doi: 10.6004/jnccn.2013.0209.
4. Ferrell BR et al. Integration of palliative care into standard oncology care: American Society of Clinical Oncology Clinical Practice Guideline Update. J Clin Oncol. 2016 Oct 31. doi: 10.1200/JCO.2016.70.1474.
New combo therapy for breast implant–associated lymphoma
The immediate treatment is surgical removal of the implant, which is sometimes followed with chemotherapy.
New data show that women who develop breast implant–associated anaplastic large-cell lymphoma (BIA-ALCL) who require chemotherapy can achieve excellent results with a combination of chemotherapy (cyclophosphamide, doxorubicin, and prednisone) and the antibody–drug conjugate brentuximab vedotin.
The findings were published in Blood.
The authors, led by Fabien Le Bras, MD, from the Henri Mondor Hospital, Créteil, France, note that despite BIA-ALCL being recently recognized as a provisional entity by the World Health Organization, its pathogenesis has yet to be fully elucidated, and a standard of care has not been established.
Results from the ECHELON 2 trial established brentuximab vedotin plus cyclophosphamide, doxorubicin, and prednisone (BV-CHP) as a new standard of care in CD30-positive peripheral T-cell lymphoma.
That trial included 316 patients with ACLC, although none of these cases were associated with breast implants.
The principal investigator on that trial, Steven Horwitz, MD, from Memorial Sloan Kettering Center, New York, told this news organization that although BIA-ALCL is “incredibly rare,” it causes “distress” to patients, as “many of them made a choice for reconstruction ... that they thought was safe.”
He said that the latest data from France is “interesting” and that the application of the ECHELON-2 findings to BIA-ALCL is “very logical.”
“For the people who need systemic therapy,” it appears from the current results that BV-CHP “is a very good option,” he said.
The “difficulty” in interpreting the data, however, is that “perhaps 80% of people with BIA-ALCL don’t need any systemic therapy” and are “cured with surgery alone.”
Dr. Horwitz said that while patients with infiltrative disease have a “higher risk of recurrence ... many of those are still cured with surgery alone.”
The main outstanding question he has is how many of the patients who received BV-CHP “might have been okay with observation.”
Details of the new data from France
For their study, Dr. Le Bras and colleagues analyzed data from the Lymphoma Study Association registry between 2009 and 2021 and identified 85 patients with BIA-ALCL, including 73 in France and 12 in Belgium.
Most of these patients (whose median age was 57 years) had unilateral lymphoma (94.1%), and only a few patients (5.9%) had bilateral disease.
The team notes that 41.2% of these women had received breast implants once, 41.2% received implants twice, and 17.6% received them three times or more.
In 45.9% of cases, the first implant followed mastectomy for breast cancer.
All patients had at least one textured implant. These have been associated with more cases of BIA-ALCL than smooth implants, and in 2019, Allergan recalled all BioCell textured breast implant products from the United States and around the world, due to the risk for BIA-ALCL, as reported, at the time, by this news organization.
For the women in this registry, the median time from the last implant to BIA-ALCL diagnosis was 7 years.
The most common presentation was seroma, which occurred in 75.3% of patients, while 21.2% of had a breast tumor mass with or without seroma.
Stage I-II disease was identified in 76.5% of patients, and 21.2% of cases were stage IV. Infiltrative disease was present in 24.7%.
Implant removal with total capsulectomy was performed in 77.6%; 29.4% of women also received chemotherapy, with 11.8% receiving BV-CHP.
A complete response was achieved in 84% of patients who received chemotherapy, while 8% failed to respond. Among the patients who received BV-CHP, 80% achieved a complete response.
After a median follow-up of 28.6 months, 91.8% patients were alive and progression free. All patients treated with BV-CHP were alive and progression free after a median follow-up of 1 year.
Patients with infiltrative disease had a significantly worse 2-year progression-free survival than those with in situ/mixed disease, at 73.8% versus 96.7%, or a hazard ratio for progression of 5.3 (P = .0039).
They also had worse 2-year overall survival, at 78.7% versus 100%, or a hazard ratio for death of 8.5 (P = .0022).
The authors note that these patients with infiltrative disease had significantly worse survival outcomes and may benefit most from BV-CHP.
No funding for the study was declared. Dr. Le Bras reports relationships with Novartis, Celgene, BMS, Takeda, Kite, and Gilead. Other authors declare numerous relevant financial relationships.
A version of this article first appeared on Medscape.com.
The immediate treatment is surgical removal of the implant, which is sometimes followed with chemotherapy.
New data show that women who develop breast implant–associated anaplastic large-cell lymphoma (BIA-ALCL) who require chemotherapy can achieve excellent results with a combination of chemotherapy (cyclophosphamide, doxorubicin, and prednisone) and the antibody–drug conjugate brentuximab vedotin.
The findings were published in Blood.
The authors, led by Fabien Le Bras, MD, from the Henri Mondor Hospital, Créteil, France, note that despite BIA-ALCL being recently recognized as a provisional entity by the World Health Organization, its pathogenesis has yet to be fully elucidated, and a standard of care has not been established.
Results from the ECHELON 2 trial established brentuximab vedotin plus cyclophosphamide, doxorubicin, and prednisone (BV-CHP) as a new standard of care in CD30-positive peripheral T-cell lymphoma.
That trial included 316 patients with ACLC, although none of these cases were associated with breast implants.
The principal investigator on that trial, Steven Horwitz, MD, from Memorial Sloan Kettering Center, New York, told this news organization that although BIA-ALCL is “incredibly rare,” it causes “distress” to patients, as “many of them made a choice for reconstruction ... that they thought was safe.”
He said that the latest data from France is “interesting” and that the application of the ECHELON-2 findings to BIA-ALCL is “very logical.”
“For the people who need systemic therapy,” it appears from the current results that BV-CHP “is a very good option,” he said.
The “difficulty” in interpreting the data, however, is that “perhaps 80% of people with BIA-ALCL don’t need any systemic therapy” and are “cured with surgery alone.”
Dr. Horwitz said that while patients with infiltrative disease have a “higher risk of recurrence ... many of those are still cured with surgery alone.”
The main outstanding question he has is how many of the patients who received BV-CHP “might have been okay with observation.”
Details of the new data from France
For their study, Dr. Le Bras and colleagues analyzed data from the Lymphoma Study Association registry between 2009 and 2021 and identified 85 patients with BIA-ALCL, including 73 in France and 12 in Belgium.
Most of these patients (whose median age was 57 years) had unilateral lymphoma (94.1%), and only a few patients (5.9%) had bilateral disease.
The team notes that 41.2% of these women had received breast implants once, 41.2% received implants twice, and 17.6% received them three times or more.
In 45.9% of cases, the first implant followed mastectomy for breast cancer.
All patients had at least one textured implant. These have been associated with more cases of BIA-ALCL than smooth implants, and in 2019, Allergan recalled all BioCell textured breast implant products from the United States and around the world, due to the risk for BIA-ALCL, as reported, at the time, by this news organization.
For the women in this registry, the median time from the last implant to BIA-ALCL diagnosis was 7 years.
The most common presentation was seroma, which occurred in 75.3% of patients, while 21.2% of had a breast tumor mass with or without seroma.
Stage I-II disease was identified in 76.5% of patients, and 21.2% of cases were stage IV. Infiltrative disease was present in 24.7%.
Implant removal with total capsulectomy was performed in 77.6%; 29.4% of women also received chemotherapy, with 11.8% receiving BV-CHP.
A complete response was achieved in 84% of patients who received chemotherapy, while 8% failed to respond. Among the patients who received BV-CHP, 80% achieved a complete response.
After a median follow-up of 28.6 months, 91.8% patients were alive and progression free. All patients treated with BV-CHP were alive and progression free after a median follow-up of 1 year.
Patients with infiltrative disease had a significantly worse 2-year progression-free survival than those with in situ/mixed disease, at 73.8% versus 96.7%, or a hazard ratio for progression of 5.3 (P = .0039).
They also had worse 2-year overall survival, at 78.7% versus 100%, or a hazard ratio for death of 8.5 (P = .0022).
The authors note that these patients with infiltrative disease had significantly worse survival outcomes and may benefit most from BV-CHP.
No funding for the study was declared. Dr. Le Bras reports relationships with Novartis, Celgene, BMS, Takeda, Kite, and Gilead. Other authors declare numerous relevant financial relationships.
A version of this article first appeared on Medscape.com.
The immediate treatment is surgical removal of the implant, which is sometimes followed with chemotherapy.
New data show that women who develop breast implant–associated anaplastic large-cell lymphoma (BIA-ALCL) who require chemotherapy can achieve excellent results with a combination of chemotherapy (cyclophosphamide, doxorubicin, and prednisone) and the antibody–drug conjugate brentuximab vedotin.
The findings were published in Blood.
The authors, led by Fabien Le Bras, MD, from the Henri Mondor Hospital, Créteil, France, note that despite BIA-ALCL being recently recognized as a provisional entity by the World Health Organization, its pathogenesis has yet to be fully elucidated, and a standard of care has not been established.
Results from the ECHELON 2 trial established brentuximab vedotin plus cyclophosphamide, doxorubicin, and prednisone (BV-CHP) as a new standard of care in CD30-positive peripheral T-cell lymphoma.
That trial included 316 patients with ACLC, although none of these cases were associated with breast implants.
The principal investigator on that trial, Steven Horwitz, MD, from Memorial Sloan Kettering Center, New York, told this news organization that although BIA-ALCL is “incredibly rare,” it causes “distress” to patients, as “many of them made a choice for reconstruction ... that they thought was safe.”
He said that the latest data from France is “interesting” and that the application of the ECHELON-2 findings to BIA-ALCL is “very logical.”
“For the people who need systemic therapy,” it appears from the current results that BV-CHP “is a very good option,” he said.
The “difficulty” in interpreting the data, however, is that “perhaps 80% of people with BIA-ALCL don’t need any systemic therapy” and are “cured with surgery alone.”
Dr. Horwitz said that while patients with infiltrative disease have a “higher risk of recurrence ... many of those are still cured with surgery alone.”
The main outstanding question he has is how many of the patients who received BV-CHP “might have been okay with observation.”
Details of the new data from France
For their study, Dr. Le Bras and colleagues analyzed data from the Lymphoma Study Association registry between 2009 and 2021 and identified 85 patients with BIA-ALCL, including 73 in France and 12 in Belgium.
Most of these patients (whose median age was 57 years) had unilateral lymphoma (94.1%), and only a few patients (5.9%) had bilateral disease.
The team notes that 41.2% of these women had received breast implants once, 41.2% received implants twice, and 17.6% received them three times or more.
In 45.9% of cases, the first implant followed mastectomy for breast cancer.
All patients had at least one textured implant. These have been associated with more cases of BIA-ALCL than smooth implants, and in 2019, Allergan recalled all BioCell textured breast implant products from the United States and around the world, due to the risk for BIA-ALCL, as reported, at the time, by this news organization.
For the women in this registry, the median time from the last implant to BIA-ALCL diagnosis was 7 years.
The most common presentation was seroma, which occurred in 75.3% of patients, while 21.2% of had a breast tumor mass with or without seroma.
Stage I-II disease was identified in 76.5% of patients, and 21.2% of cases were stage IV. Infiltrative disease was present in 24.7%.
Implant removal with total capsulectomy was performed in 77.6%; 29.4% of women also received chemotherapy, with 11.8% receiving BV-CHP.
A complete response was achieved in 84% of patients who received chemotherapy, while 8% failed to respond. Among the patients who received BV-CHP, 80% achieved a complete response.
After a median follow-up of 28.6 months, 91.8% patients were alive and progression free. All patients treated with BV-CHP were alive and progression free after a median follow-up of 1 year.
Patients with infiltrative disease had a significantly worse 2-year progression-free survival than those with in situ/mixed disease, at 73.8% versus 96.7%, or a hazard ratio for progression of 5.3 (P = .0039).
They also had worse 2-year overall survival, at 78.7% versus 100%, or a hazard ratio for death of 8.5 (P = .0022).
The authors note that these patients with infiltrative disease had significantly worse survival outcomes and may benefit most from BV-CHP.
No funding for the study was declared. Dr. Le Bras reports relationships with Novartis, Celgene, BMS, Takeda, Kite, and Gilead. Other authors declare numerous relevant financial relationships.
A version of this article first appeared on Medscape.com.
Medicare NCDs hinder access to cancer biomarker testing for minorities
of data from patients with advanced non–small cell lung cancer (aNSCLC), metastatic colorectal cancer, metastatic breast cancer, or advanced melanoma. The finding was reported in JAMA Network Open.
Biomarker testing has become an essential tool in cancer care over the last decade. In 2011, for example, less than 1% of patients with aNSCLC, metastatic colorectal cancer, metastatic breast cancer, and advanced melanoma underwent NGS testing, but by 2019, 40% of patients with these cancers received the testing.
“Next-generation sequencing testing has become increasingly important because it enables identification of multiple biomarkers simultaneously and efficiently while minimizing the number of biopsies required,” wrote the authors, led by William B. Wong, PharmD, of Genentech.
It has been unknown whether for Medicare beneficiaries and the overall population, if the NCD affected health equity issues, the authors wrote. While increased use of appropriate targeted therapies facilitated by NGS testing is associated with improved survival rates in patients with advanced or metastatic cancer, variability in health care coverage policies has posed a significant barrier to obtaining NGS testing for cancer patients, specifically through policy coverage limitations. It has remained unclear if the NCD has influenced NGS testing coverage in insurance types (for example, Medicaid) encompassing a larger population of minority racial and ethnic groups often experiencing poorer care and outcomes.
The retrospective cohort analysis compared EHR data from 280 U.S. cancer clinics in the (800 sites of care) pre- versus post-NCD period for patients with aNSCLC, metastatic colorectal cancer, metastatic breast cancer, or advanced melanoma (January 2011–March 2020). Nearly 70% of all patients in the study were Medicare recipients who needed NCD approval to cover the cost of testing.
Among 92,687 patients (mean age, 66.6 years; 55.7% women), compared with Medicare beneficiaries, changes in pre- to post-NCD NGS testing trends were similar in commercially insured patients (odds ratio, 1.03; 95% CI, 0.98-1.08; P = .25). Pre- to post-NCD NGS testing trends increased at a slower rate among patients in assistance programs (OR, 0.93; 95% CI, 0.87-0.99; P = .03), compared with Medicare beneficiaries. The rate of increase for patients receiving Medicaid was not significantly different statistically compared with those receiving Medicare (OR, 0.92; 95% CI, 0.84-1.01; P = .07). Also, the NCD was not associated with racial and ethnic groups within Medicare beneficiaries alone or across all insurance types.
Compared with non-Hispanic White individuals, increases in average NGS use from the pre-NCD to post-NCD period were 14% lower (OR, 0.86; 95% CI, 0.74-0.99; P = .04) among African American and 23% lower (OR, 0.77; 95% CI, 0.62-0.96; P = .02) among Hispanic/Latino individuals; increases were similar, however, among Asian individuals and other races and ethnicities.
The authors observed that the post-NCD trend of increasing NGS testing seen in Medicare beneficiaries was similarly observed in those with commercial insurance. Testing rate differences, however, widened or were maintained after versus before the NCD in PAP (personal assistance program) and Medicaid beneficiaries relative to Medicare beneficiaries, suggesting that access to NGS testing did not improve equally across insurance types. Since Medicare coverage is determined at the state level, the authors urged research examining individual state coverage policies to further elucidate factors slowing uptake among Medicaid beneficiaries. “Additional efforts beyond coverage policies,” the authors concluded, “are needed to ensure equitable access to the benefits of precision medicine.”
The study was supported by Genentech.
of data from patients with advanced non–small cell lung cancer (aNSCLC), metastatic colorectal cancer, metastatic breast cancer, or advanced melanoma. The finding was reported in JAMA Network Open.
Biomarker testing has become an essential tool in cancer care over the last decade. In 2011, for example, less than 1% of patients with aNSCLC, metastatic colorectal cancer, metastatic breast cancer, and advanced melanoma underwent NGS testing, but by 2019, 40% of patients with these cancers received the testing.
“Next-generation sequencing testing has become increasingly important because it enables identification of multiple biomarkers simultaneously and efficiently while minimizing the number of biopsies required,” wrote the authors, led by William B. Wong, PharmD, of Genentech.
It has been unknown whether for Medicare beneficiaries and the overall population, if the NCD affected health equity issues, the authors wrote. While increased use of appropriate targeted therapies facilitated by NGS testing is associated with improved survival rates in patients with advanced or metastatic cancer, variability in health care coverage policies has posed a significant barrier to obtaining NGS testing for cancer patients, specifically through policy coverage limitations. It has remained unclear if the NCD has influenced NGS testing coverage in insurance types (for example, Medicaid) encompassing a larger population of minority racial and ethnic groups often experiencing poorer care and outcomes.
The retrospective cohort analysis compared EHR data from 280 U.S. cancer clinics in the (800 sites of care) pre- versus post-NCD period for patients with aNSCLC, metastatic colorectal cancer, metastatic breast cancer, or advanced melanoma (January 2011–March 2020). Nearly 70% of all patients in the study were Medicare recipients who needed NCD approval to cover the cost of testing.
Among 92,687 patients (mean age, 66.6 years; 55.7% women), compared with Medicare beneficiaries, changes in pre- to post-NCD NGS testing trends were similar in commercially insured patients (odds ratio, 1.03; 95% CI, 0.98-1.08; P = .25). Pre- to post-NCD NGS testing trends increased at a slower rate among patients in assistance programs (OR, 0.93; 95% CI, 0.87-0.99; P = .03), compared with Medicare beneficiaries. The rate of increase for patients receiving Medicaid was not significantly different statistically compared with those receiving Medicare (OR, 0.92; 95% CI, 0.84-1.01; P = .07). Also, the NCD was not associated with racial and ethnic groups within Medicare beneficiaries alone or across all insurance types.
Compared with non-Hispanic White individuals, increases in average NGS use from the pre-NCD to post-NCD period were 14% lower (OR, 0.86; 95% CI, 0.74-0.99; P = .04) among African American and 23% lower (OR, 0.77; 95% CI, 0.62-0.96; P = .02) among Hispanic/Latino individuals; increases were similar, however, among Asian individuals and other races and ethnicities.
The authors observed that the post-NCD trend of increasing NGS testing seen in Medicare beneficiaries was similarly observed in those with commercial insurance. Testing rate differences, however, widened or were maintained after versus before the NCD in PAP (personal assistance program) and Medicaid beneficiaries relative to Medicare beneficiaries, suggesting that access to NGS testing did not improve equally across insurance types. Since Medicare coverage is determined at the state level, the authors urged research examining individual state coverage policies to further elucidate factors slowing uptake among Medicaid beneficiaries. “Additional efforts beyond coverage policies,” the authors concluded, “are needed to ensure equitable access to the benefits of precision medicine.”
The study was supported by Genentech.
of data from patients with advanced non–small cell lung cancer (aNSCLC), metastatic colorectal cancer, metastatic breast cancer, or advanced melanoma. The finding was reported in JAMA Network Open.
Biomarker testing has become an essential tool in cancer care over the last decade. In 2011, for example, less than 1% of patients with aNSCLC, metastatic colorectal cancer, metastatic breast cancer, and advanced melanoma underwent NGS testing, but by 2019, 40% of patients with these cancers received the testing.
“Next-generation sequencing testing has become increasingly important because it enables identification of multiple biomarkers simultaneously and efficiently while minimizing the number of biopsies required,” wrote the authors, led by William B. Wong, PharmD, of Genentech.
It has been unknown whether for Medicare beneficiaries and the overall population, if the NCD affected health equity issues, the authors wrote. While increased use of appropriate targeted therapies facilitated by NGS testing is associated with improved survival rates in patients with advanced or metastatic cancer, variability in health care coverage policies has posed a significant barrier to obtaining NGS testing for cancer patients, specifically through policy coverage limitations. It has remained unclear if the NCD has influenced NGS testing coverage in insurance types (for example, Medicaid) encompassing a larger population of minority racial and ethnic groups often experiencing poorer care and outcomes.
The retrospective cohort analysis compared EHR data from 280 U.S. cancer clinics in the (800 sites of care) pre- versus post-NCD period for patients with aNSCLC, metastatic colorectal cancer, metastatic breast cancer, or advanced melanoma (January 2011–March 2020). Nearly 70% of all patients in the study were Medicare recipients who needed NCD approval to cover the cost of testing.
Among 92,687 patients (mean age, 66.6 years; 55.7% women), compared with Medicare beneficiaries, changes in pre- to post-NCD NGS testing trends were similar in commercially insured patients (odds ratio, 1.03; 95% CI, 0.98-1.08; P = .25). Pre- to post-NCD NGS testing trends increased at a slower rate among patients in assistance programs (OR, 0.93; 95% CI, 0.87-0.99; P = .03), compared with Medicare beneficiaries. The rate of increase for patients receiving Medicaid was not significantly different statistically compared with those receiving Medicare (OR, 0.92; 95% CI, 0.84-1.01; P = .07). Also, the NCD was not associated with racial and ethnic groups within Medicare beneficiaries alone or across all insurance types.
Compared with non-Hispanic White individuals, increases in average NGS use from the pre-NCD to post-NCD period were 14% lower (OR, 0.86; 95% CI, 0.74-0.99; P = .04) among African American and 23% lower (OR, 0.77; 95% CI, 0.62-0.96; P = .02) among Hispanic/Latino individuals; increases were similar, however, among Asian individuals and other races and ethnicities.
The authors observed that the post-NCD trend of increasing NGS testing seen in Medicare beneficiaries was similarly observed in those with commercial insurance. Testing rate differences, however, widened or were maintained after versus before the NCD in PAP (personal assistance program) and Medicaid beneficiaries relative to Medicare beneficiaries, suggesting that access to NGS testing did not improve equally across insurance types. Since Medicare coverage is determined at the state level, the authors urged research examining individual state coverage policies to further elucidate factors slowing uptake among Medicaid beneficiaries. “Additional efforts beyond coverage policies,” the authors concluded, “are needed to ensure equitable access to the benefits of precision medicine.”
The study was supported by Genentech.
FROM JAMA NETWORK OPEN
Could probiotics reduce ‘chemo brain’ in breast cancer patients?
compared with a control group taking placebo capsules, reports the first study of its kind.
“Our finding[s] provide a simple, inexpensive, and effective prevention strategy for chemotherapy-related side effects, including cognitive impairment,” senior author Jianbin Tong, MD, PhD, of the department of anesthesiology, Third Xiangya Hospital, Central South University, Changsha, Hunan, China, said in an interview.
The research “is the first study showing that probiotics supplementation during chemotherapy can prevent chemotherapy-related brain impairment,” he noted.
The double-blind, randomized study was published in the European Journal of Cancer. It involved 159 patients in China with stage I-III breast cancer who required adjuvant chemotherapy between 2018 and 2019. These patients were randomized to receive a regimen of three capsules twice per day containing either probiotics (n = 80) or placebo (n = 79) during their chemotherapy.
The probiotic capsule (Bifico, Sine Pharmaceuticals) contained Bifidobacterium longum, Lactobacillus acidophilus, and Enterococcus faecalis (210 mg of each).
The reductions in symptoms seen with the supplementation “exceed our expectations,” Dr. Tong said in an interview.
He speculated that this may have longer-term effects, with the prevention of initial cognitive impairment potentially “changing the neurodegenerative trajectory of patients after chemotherapy.”
“Patients don’t need to take probiotics continuously, but it’s better to take probiotics intermittently,” he said.
Approached for comment, Melanie Sekeres, PhD, Canada Research Chair and assistant professor at the University of Ottawa, said the improvements, such as those seen in delayed recall, are especially of interest.
“This is particularly notable because one of the brain regions that is critically involved in long-term memory processing, the hippocampus, is known to be highly sensitive to chemotherapy-induced neurotoxicity,” she said in an interview.
“The finding that probiotic treatment given alongside chemotherapy is sufficient to, in part, protect against memory disturbances in these patients suggests that there may be some neuroprotection conferred by the probiotic treatment,” she said.
A key question is whether similar results would be seen with other chemotherapy regimens, Dr. Sekeres added. “To better understand the effectiveness of these probiotics in preventing CRCI, they should be tested using other classes of chemotherapies before any broad conclusions can be made.”
Measuring the effect on ‘chemo brain’
“Chemo brain” is commonly reported after chemotherapy, and some 35% of patients report having long-term effects. Key symptoms include deficits in memory, attention, and executive and processing speed skills.
In their study, Dr. Tong and colleagues assessed patients on their cognitive status with a number of validated neuropsychological battery tests 1 day prior to initiating chemotherapy and 21 days after the last cycle of chemotherapy. Tests included the Hopkins Verbal Learning Test–Revised for verbal memory, the Brief Visuospatial Memory Test–Revised for visuospatial memory, and various others.
The team reports that, after adjustment for confounding factors, the total incidence of CRCI was significantly lower in the probiotics group versus the placebo group 21 days post chemotherapy (35% vs. 81%; relative risk, 0.43).
Rates of mild cognitive impairment were also lower in the probiotics group (29% vs 52%; RR, 0.55), as were rates of moderate cognitive impairment (6% vs. 29%; RR, 0.22).
The improvements with probiotics were observed across most other neuropsychological domains, including instantaneous verbal memory and delayed visuospatial memory (for both, P = .003) and visuospatial interference and verbal fluency (for both, P < .001).
The greater improvements in the probiotics group were seen regardless of use of other medications or the type of chemotherapy regimen received, which could have included epirubicin or docetaxel and/or cyclophosphamide.
CRCI was more common in patients who were older and had lower education or a higher body mass index; however, the improvements in the probiotics group were observed regardless of those factors, the authors commented.
In addition to the reduction in cognitive impairment that was seen, the treatment with probiotics was also associated with lower blood glucose (mean, 4.96 vs. 5.30; P = .02) and lower LDL cholesterol (2.61 vs. 2.89; P = .03) versus placebo, while there were no significant differences between the groups prior to chemotherapy.
There were no reports of severe emesis or constipation (grade 3 or higher) in either group; however, the probiotics group did have a significantly lower incidence of both, the authors note.
How does it work?
The potential benefits with probiotics are theorized to result from stabilizing the colonic and bacterial disruptions that are caused by chemotherapy, potentially offsetting the neuroinflammation that is linked to the cancer treatment, the authors speculated.
A subanalysis of 78 stool samples from 20 patients in the study showed no differences in alpha diversity or beta diversity before or after chemotherapy; however, there were significant reductions in the abundance of Streptococcus and Tyzzerella (P = .023 and P = .033, respectively) in the probiotics group after chemotherapy.
Further analysis showed that probiotics supplement modulated the levels of nine plasma metabolites in patients with breast cancer, with the results suggesting that metabolites (including p-mentha-1,8-dien-7-ol) “may be modulators in preventing CRCI by probiotics,” the authors noted.
Benefits reported beyond breast cancer
A subsequent trial conducted by Dr. Tong and colleagues following the CRCI study further showed similar protective benefits with probiotics in the prevention of chemotherapy-related hand-foot syndrome and oral mucositis.
And in a recent study, the research team found evidence of probiotic supplements protecting against cognitive impairment in the elderly following surgery.
The study received support from the National Natural Science Foundation of China, Subproject of the National Key Research and Development Program Project of China, science and technology innovation platform and talent plan of Hunan province and Natural Science Foundation of Hunan Province.
A version of this article first appeared on Medscape.com.
compared with a control group taking placebo capsules, reports the first study of its kind.
“Our finding[s] provide a simple, inexpensive, and effective prevention strategy for chemotherapy-related side effects, including cognitive impairment,” senior author Jianbin Tong, MD, PhD, of the department of anesthesiology, Third Xiangya Hospital, Central South University, Changsha, Hunan, China, said in an interview.
The research “is the first study showing that probiotics supplementation during chemotherapy can prevent chemotherapy-related brain impairment,” he noted.
The double-blind, randomized study was published in the European Journal of Cancer. It involved 159 patients in China with stage I-III breast cancer who required adjuvant chemotherapy between 2018 and 2019. These patients were randomized to receive a regimen of three capsules twice per day containing either probiotics (n = 80) or placebo (n = 79) during their chemotherapy.
The probiotic capsule (Bifico, Sine Pharmaceuticals) contained Bifidobacterium longum, Lactobacillus acidophilus, and Enterococcus faecalis (210 mg of each).
The reductions in symptoms seen with the supplementation “exceed our expectations,” Dr. Tong said in an interview.
He speculated that this may have longer-term effects, with the prevention of initial cognitive impairment potentially “changing the neurodegenerative trajectory of patients after chemotherapy.”
“Patients don’t need to take probiotics continuously, but it’s better to take probiotics intermittently,” he said.
Approached for comment, Melanie Sekeres, PhD, Canada Research Chair and assistant professor at the University of Ottawa, said the improvements, such as those seen in delayed recall, are especially of interest.
“This is particularly notable because one of the brain regions that is critically involved in long-term memory processing, the hippocampus, is known to be highly sensitive to chemotherapy-induced neurotoxicity,” she said in an interview.
“The finding that probiotic treatment given alongside chemotherapy is sufficient to, in part, protect against memory disturbances in these patients suggests that there may be some neuroprotection conferred by the probiotic treatment,” she said.
A key question is whether similar results would be seen with other chemotherapy regimens, Dr. Sekeres added. “To better understand the effectiveness of these probiotics in preventing CRCI, they should be tested using other classes of chemotherapies before any broad conclusions can be made.”
Measuring the effect on ‘chemo brain’
“Chemo brain” is commonly reported after chemotherapy, and some 35% of patients report having long-term effects. Key symptoms include deficits in memory, attention, and executive and processing speed skills.
In their study, Dr. Tong and colleagues assessed patients on their cognitive status with a number of validated neuropsychological battery tests 1 day prior to initiating chemotherapy and 21 days after the last cycle of chemotherapy. Tests included the Hopkins Verbal Learning Test–Revised for verbal memory, the Brief Visuospatial Memory Test–Revised for visuospatial memory, and various others.
The team reports that, after adjustment for confounding factors, the total incidence of CRCI was significantly lower in the probiotics group versus the placebo group 21 days post chemotherapy (35% vs. 81%; relative risk, 0.43).
Rates of mild cognitive impairment were also lower in the probiotics group (29% vs 52%; RR, 0.55), as were rates of moderate cognitive impairment (6% vs. 29%; RR, 0.22).
The improvements with probiotics were observed across most other neuropsychological domains, including instantaneous verbal memory and delayed visuospatial memory (for both, P = .003) and visuospatial interference and verbal fluency (for both, P < .001).
The greater improvements in the probiotics group were seen regardless of use of other medications or the type of chemotherapy regimen received, which could have included epirubicin or docetaxel and/or cyclophosphamide.
CRCI was more common in patients who were older and had lower education or a higher body mass index; however, the improvements in the probiotics group were observed regardless of those factors, the authors commented.
In addition to the reduction in cognitive impairment that was seen, the treatment with probiotics was also associated with lower blood glucose (mean, 4.96 vs. 5.30; P = .02) and lower LDL cholesterol (2.61 vs. 2.89; P = .03) versus placebo, while there were no significant differences between the groups prior to chemotherapy.
There were no reports of severe emesis or constipation (grade 3 or higher) in either group; however, the probiotics group did have a significantly lower incidence of both, the authors note.
How does it work?
The potential benefits with probiotics are theorized to result from stabilizing the colonic and bacterial disruptions that are caused by chemotherapy, potentially offsetting the neuroinflammation that is linked to the cancer treatment, the authors speculated.
A subanalysis of 78 stool samples from 20 patients in the study showed no differences in alpha diversity or beta diversity before or after chemotherapy; however, there were significant reductions in the abundance of Streptococcus and Tyzzerella (P = .023 and P = .033, respectively) in the probiotics group after chemotherapy.
Further analysis showed that probiotics supplement modulated the levels of nine plasma metabolites in patients with breast cancer, with the results suggesting that metabolites (including p-mentha-1,8-dien-7-ol) “may be modulators in preventing CRCI by probiotics,” the authors noted.
Benefits reported beyond breast cancer
A subsequent trial conducted by Dr. Tong and colleagues following the CRCI study further showed similar protective benefits with probiotics in the prevention of chemotherapy-related hand-foot syndrome and oral mucositis.
And in a recent study, the research team found evidence of probiotic supplements protecting against cognitive impairment in the elderly following surgery.
The study received support from the National Natural Science Foundation of China, Subproject of the National Key Research and Development Program Project of China, science and technology innovation platform and talent plan of Hunan province and Natural Science Foundation of Hunan Province.
A version of this article first appeared on Medscape.com.
compared with a control group taking placebo capsules, reports the first study of its kind.
“Our finding[s] provide a simple, inexpensive, and effective prevention strategy for chemotherapy-related side effects, including cognitive impairment,” senior author Jianbin Tong, MD, PhD, of the department of anesthesiology, Third Xiangya Hospital, Central South University, Changsha, Hunan, China, said in an interview.
The research “is the first study showing that probiotics supplementation during chemotherapy can prevent chemotherapy-related brain impairment,” he noted.
The double-blind, randomized study was published in the European Journal of Cancer. It involved 159 patients in China with stage I-III breast cancer who required adjuvant chemotherapy between 2018 and 2019. These patients were randomized to receive a regimen of three capsules twice per day containing either probiotics (n = 80) or placebo (n = 79) during their chemotherapy.
The probiotic capsule (Bifico, Sine Pharmaceuticals) contained Bifidobacterium longum, Lactobacillus acidophilus, and Enterococcus faecalis (210 mg of each).
The reductions in symptoms seen with the supplementation “exceed our expectations,” Dr. Tong said in an interview.
He speculated that this may have longer-term effects, with the prevention of initial cognitive impairment potentially “changing the neurodegenerative trajectory of patients after chemotherapy.”
“Patients don’t need to take probiotics continuously, but it’s better to take probiotics intermittently,” he said.
Approached for comment, Melanie Sekeres, PhD, Canada Research Chair and assistant professor at the University of Ottawa, said the improvements, such as those seen in delayed recall, are especially of interest.
“This is particularly notable because one of the brain regions that is critically involved in long-term memory processing, the hippocampus, is known to be highly sensitive to chemotherapy-induced neurotoxicity,” she said in an interview.
“The finding that probiotic treatment given alongside chemotherapy is sufficient to, in part, protect against memory disturbances in these patients suggests that there may be some neuroprotection conferred by the probiotic treatment,” she said.
A key question is whether similar results would be seen with other chemotherapy regimens, Dr. Sekeres added. “To better understand the effectiveness of these probiotics in preventing CRCI, they should be tested using other classes of chemotherapies before any broad conclusions can be made.”
Measuring the effect on ‘chemo brain’
“Chemo brain” is commonly reported after chemotherapy, and some 35% of patients report having long-term effects. Key symptoms include deficits in memory, attention, and executive and processing speed skills.
In their study, Dr. Tong and colleagues assessed patients on their cognitive status with a number of validated neuropsychological battery tests 1 day prior to initiating chemotherapy and 21 days after the last cycle of chemotherapy. Tests included the Hopkins Verbal Learning Test–Revised for verbal memory, the Brief Visuospatial Memory Test–Revised for visuospatial memory, and various others.
The team reports that, after adjustment for confounding factors, the total incidence of CRCI was significantly lower in the probiotics group versus the placebo group 21 days post chemotherapy (35% vs. 81%; relative risk, 0.43).
Rates of mild cognitive impairment were also lower in the probiotics group (29% vs 52%; RR, 0.55), as were rates of moderate cognitive impairment (6% vs. 29%; RR, 0.22).
The improvements with probiotics were observed across most other neuropsychological domains, including instantaneous verbal memory and delayed visuospatial memory (for both, P = .003) and visuospatial interference and verbal fluency (for both, P < .001).
The greater improvements in the probiotics group were seen regardless of use of other medications or the type of chemotherapy regimen received, which could have included epirubicin or docetaxel and/or cyclophosphamide.
CRCI was more common in patients who were older and had lower education or a higher body mass index; however, the improvements in the probiotics group were observed regardless of those factors, the authors commented.
In addition to the reduction in cognitive impairment that was seen, the treatment with probiotics was also associated with lower blood glucose (mean, 4.96 vs. 5.30; P = .02) and lower LDL cholesterol (2.61 vs. 2.89; P = .03) versus placebo, while there were no significant differences between the groups prior to chemotherapy.
There were no reports of severe emesis or constipation (grade 3 or higher) in either group; however, the probiotics group did have a significantly lower incidence of both, the authors note.
How does it work?
The potential benefits with probiotics are theorized to result from stabilizing the colonic and bacterial disruptions that are caused by chemotherapy, potentially offsetting the neuroinflammation that is linked to the cancer treatment, the authors speculated.
A subanalysis of 78 stool samples from 20 patients in the study showed no differences in alpha diversity or beta diversity before or after chemotherapy; however, there were significant reductions in the abundance of Streptococcus and Tyzzerella (P = .023 and P = .033, respectively) in the probiotics group after chemotherapy.
Further analysis showed that probiotics supplement modulated the levels of nine plasma metabolites in patients with breast cancer, with the results suggesting that metabolites (including p-mentha-1,8-dien-7-ol) “may be modulators in preventing CRCI by probiotics,” the authors noted.
Benefits reported beyond breast cancer
A subsequent trial conducted by Dr. Tong and colleagues following the CRCI study further showed similar protective benefits with probiotics in the prevention of chemotherapy-related hand-foot syndrome and oral mucositis.
And in a recent study, the research team found evidence of probiotic supplements protecting against cognitive impairment in the elderly following surgery.
The study received support from the National Natural Science Foundation of China, Subproject of the National Key Research and Development Program Project of China, science and technology innovation platform and talent plan of Hunan province and Natural Science Foundation of Hunan Province.
A version of this article first appeared on Medscape.com.
FROM THE EUROPEAN JOURNAL OF CANCER
Radiologist fatigue affects breast imaging interpretation
, based on data from more than 97,000 screening mammograms.
Psychology literature has shown the impact of fatigue on performance in a range of settings, and previous studies have shown that radiologists’ performances are more accurate earlier in their shifts compared to later-shift performance, write Michael H. Bernstein, PhD, and colleagues at Brown University, Providence, R.I., in a study published online Jan. 11 in Radiology.
The effect of time of day on performance may be greater for more detailed imaging modalities that are more “cognitively taxing,” and the effect may be greater in less-experienced radiologists, but the impact of time and experience on overall patient recall and false-positive rates has not been well-studied, the researchers said.
In the retrospective review, the researchers identified 97,671 screening mammograms read by 18 radiologists at one of 12 community sites between Jan. 2018 and Dec. 2019. The researchers analyzed the results by type of image, either standard digital mammography (DM) or the more complex digital breast tomosynthesis (DBT). The researchers separated radiologists into two groups: those with at least 5 post-training years of experience and those with less than 5 post-training years of experience. A total of nine radiologists fell into each category.
Overall, the recall rates were significantly different and higher for DM versus DBT (10.2% vs. 9.0%; P = .006). The false-positive (FP) rate also differed significantly and was higher for DM versus DBT (9.8% vs. 8.6%; P = .004).
The odds of recall increased by 11.5% with each hour of reading time for radiologists with less than 5 post-training years of experience for both DBT (odds ratio, 1.12) and DM (OR, 1.09). For the more experienced radiologists, the odds of recall increased by 1.6% for each hour of reading time for DBT but decreased by 0.1% for DM, with no significant difference.
Similarly, the odds of an FP result increased by 12.1% for DBT and 9% for DM per hour of reading time for radiologists with less experience. For more experienced radiologists, the odds of an FP increased by 1.6% for DBT but decreased by 1.1% for DM per hour of reading time.
Cancer detection (defined as true-positive, or TP) was not higher for DM across time, the researchers note. However, “DBT achieved a higher TP rate than DM regardless of the time of day; this shows that for DBT to maintain a constant and superior TP rate relative to DM, radiologists’ FP rates had to go up as the day went on,” they write. “That is, although DBT achieves a superior TP rate, more junior radiologists appeared to compensate for their fatigue later in the day when using DBT by recalling a broader range of mammograms, more of which were FP findings.”
The researchers caution that their findings were limited by several factors, including the study’s retrospective design and the lack of randomization of the imaging technology, patients, and time of day, which prohibit conclusions regarding causality. Other limitations included the consideration of time of day without the ability to use hours since the start of a clinical shift and the use of a 5-year mark to indicate experience without accounting for work volume.
However, the stronger impact of a time-of-day effect for more junior radiologists agrees with findings from other studies, the researchers add. More empirical research is needed, and the researchers propose a longitudinal study of how time of day affects radiologists as they gain experience, as well as experimental studies to test strategies for mitigating the time-of-day effect observed in the current study.
Scheduled breaks may reduce impact of fatigue
“Digital breast tomosynthesis is increasingly used in clinical practice and takes significantly longer to interpret compared with digital mammography,” said corresponding author Ana P. Lourenco, MD, in an interview. “Radiologists interpret hundreds of images for each screening digital breast tomosynthesis exam, compared with four images for each screening digital mammogram exam; this may certainly contribute to radiologist fatigue.”
“I found it interesting that there was a difference based on years of experience of the radiologist, but I was not surprised that recall rate increased later in the day, as some of us had anecdotally noted this in our clinical practice,” Dr. Lourenco said. In fact, the idea to conduct the study was prompted by a conversation with her statistician colleagues “about how I subjectively felt like my own recall rate increased at the end of the day.”
Ways to counteract the impact of fatigue could include intermittent breaks to refocus attention, said Dr. Lourenco. “Potential barriers would include imaging volumes and attending to patients in the breast imaging center,” she said. “If we can show that decreasing fatigue improves mammography performance metrics, then this may encourage practices to support such interventions.”
However, “more research that includes a larger number of radiologists, wider range of imaging interpretation experience, perhaps even experimental studies comparing metrics for radiologists reading with scheduled breaks versus without such breaks would be of interest,” Dr. Lourenco said.
Fatigue in health care goes beyond radiology
“Due primarily to staffing shortages and increased volume and complexity of patients, burnout and fatigue of all medical personnel, not just physicians, have become hallmarks of modern health care delivery in the United States, and this has been exacerbated by COVID-19 and other societal factors,” said Jeffrey C. Weinreb, MD, professor of radiology and biomedical imaging at Yale University, New Haven, Conn., in an interview.
Previous studies have documented the fact that radiologists are among the specialists most affected by burnout and fatigue, and it has an impact on their performance, Dr. Weinreb said. The current study is important because it tries to pinpoint the key variables that are responsible for fatigue, so resources can be directed to effect change, he said.
Dr. Weinreb said he was not particularly surprised by the study findings. “Diagnostic mammography is a high-volume repetitive enterprise, so it would have been surprising if radiologist experience and time of day had no effect on performance and recall rate,” he said. “As most radiologists will attest based on personal experience, human beings get tired and lose some level of cognition over the course of a long, intense workday,” he added.
“I am a bit surprised that less experienced radiologists were more likely to recommend additional imaging at a higher rate when interpreting DBT but not for DM and only later in the day,” Dr. Weinreb noted. “The authors suggest that this could be due to the increased number of images that are viewed with DBT and the different ways experienced and less experienced radiologists process the information. However, there could be other explanations, such as differences in volumes or differences in ages.”
“Reducing the study volumes per radiologist is one obvious solution to reducing fatigue, but it will not be practical in many practices,” said Dr. Weinreb. “The important work of interpreting diagnostic mammograms needs to continue and grow. Without an increase in radiologist mammographers in the labor pool, this is not going to happen any time soon.”
Instead, “more immediate obvious solutions to radiologist fatigue in clinical practice include more frequent breaks during the workday, which would include walking around and not looking at a computer or cell phone screen, fewer images per study, report templates, streamlined workflow, more variety in daily work, and AI assistance for interpretation and reporting,” said Dr. Weinreb. Using nonradiologists when possible to relieve some of the burden could be considered, “but this is a complex and politically charged issue,” he noted.
Radiology is a well-compensated specialty, but further increasing compensation would help to mitigate burnout, said Dr. Weinreb. However, “perhaps even more important is making certain that the efforts of individual radiologists are appreciated and recognized,” he said.
As for additional research needs, “mammographers are not the only radiologists experiencing fatigue, but the most critical contributing factors for other types of imaging exams and subspecialities may not be identical,” Dr. Weinreb emphasized. “Data for other radiologists, similar to that provided by this study for diagnostic mammography, could be useful.
“An additional area of research could address the issue of individual radiologist circadian rhythms,” said Dr. Weinreb. “Perhaps we could rigorously determine whom amongst us is a ‘morning person’ versus one who performs equally well or better later in the day and use this information for radiologist scheduling,” he said. “Finally, once we know the key factors affecting performance for each type of exam and subspecialty, studies of possible incremental and combined benefits of various interventions would be needed.”
The study received no outside funding. The researchers and Dr. Weinreb have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
, based on data from more than 97,000 screening mammograms.
Psychology literature has shown the impact of fatigue on performance in a range of settings, and previous studies have shown that radiologists’ performances are more accurate earlier in their shifts compared to later-shift performance, write Michael H. Bernstein, PhD, and colleagues at Brown University, Providence, R.I., in a study published online Jan. 11 in Radiology.
The effect of time of day on performance may be greater for more detailed imaging modalities that are more “cognitively taxing,” and the effect may be greater in less-experienced radiologists, but the impact of time and experience on overall patient recall and false-positive rates has not been well-studied, the researchers said.
In the retrospective review, the researchers identified 97,671 screening mammograms read by 18 radiologists at one of 12 community sites between Jan. 2018 and Dec. 2019. The researchers analyzed the results by type of image, either standard digital mammography (DM) or the more complex digital breast tomosynthesis (DBT). The researchers separated radiologists into two groups: those with at least 5 post-training years of experience and those with less than 5 post-training years of experience. A total of nine radiologists fell into each category.
Overall, the recall rates were significantly different and higher for DM versus DBT (10.2% vs. 9.0%; P = .006). The false-positive (FP) rate also differed significantly and was higher for DM versus DBT (9.8% vs. 8.6%; P = .004).
The odds of recall increased by 11.5% with each hour of reading time for radiologists with less than 5 post-training years of experience for both DBT (odds ratio, 1.12) and DM (OR, 1.09). For the more experienced radiologists, the odds of recall increased by 1.6% for each hour of reading time for DBT but decreased by 0.1% for DM, with no significant difference.
Similarly, the odds of an FP result increased by 12.1% for DBT and 9% for DM per hour of reading time for radiologists with less experience. For more experienced radiologists, the odds of an FP increased by 1.6% for DBT but decreased by 1.1% for DM per hour of reading time.
Cancer detection (defined as true-positive, or TP) was not higher for DM across time, the researchers note. However, “DBT achieved a higher TP rate than DM regardless of the time of day; this shows that for DBT to maintain a constant and superior TP rate relative to DM, radiologists’ FP rates had to go up as the day went on,” they write. “That is, although DBT achieves a superior TP rate, more junior radiologists appeared to compensate for their fatigue later in the day when using DBT by recalling a broader range of mammograms, more of which were FP findings.”
The researchers caution that their findings were limited by several factors, including the study’s retrospective design and the lack of randomization of the imaging technology, patients, and time of day, which prohibit conclusions regarding causality. Other limitations included the consideration of time of day without the ability to use hours since the start of a clinical shift and the use of a 5-year mark to indicate experience without accounting for work volume.
However, the stronger impact of a time-of-day effect for more junior radiologists agrees with findings from other studies, the researchers add. More empirical research is needed, and the researchers propose a longitudinal study of how time of day affects radiologists as they gain experience, as well as experimental studies to test strategies for mitigating the time-of-day effect observed in the current study.
Scheduled breaks may reduce impact of fatigue
“Digital breast tomosynthesis is increasingly used in clinical practice and takes significantly longer to interpret compared with digital mammography,” said corresponding author Ana P. Lourenco, MD, in an interview. “Radiologists interpret hundreds of images for each screening digital breast tomosynthesis exam, compared with four images for each screening digital mammogram exam; this may certainly contribute to radiologist fatigue.”
“I found it interesting that there was a difference based on years of experience of the radiologist, but I was not surprised that recall rate increased later in the day, as some of us had anecdotally noted this in our clinical practice,” Dr. Lourenco said. In fact, the idea to conduct the study was prompted by a conversation with her statistician colleagues “about how I subjectively felt like my own recall rate increased at the end of the day.”
Ways to counteract the impact of fatigue could include intermittent breaks to refocus attention, said Dr. Lourenco. “Potential barriers would include imaging volumes and attending to patients in the breast imaging center,” she said. “If we can show that decreasing fatigue improves mammography performance metrics, then this may encourage practices to support such interventions.”
However, “more research that includes a larger number of radiologists, wider range of imaging interpretation experience, perhaps even experimental studies comparing metrics for radiologists reading with scheduled breaks versus without such breaks would be of interest,” Dr. Lourenco said.
Fatigue in health care goes beyond radiology
“Due primarily to staffing shortages and increased volume and complexity of patients, burnout and fatigue of all medical personnel, not just physicians, have become hallmarks of modern health care delivery in the United States, and this has been exacerbated by COVID-19 and other societal factors,” said Jeffrey C. Weinreb, MD, professor of radiology and biomedical imaging at Yale University, New Haven, Conn., in an interview.
Previous studies have documented the fact that radiologists are among the specialists most affected by burnout and fatigue, and it has an impact on their performance, Dr. Weinreb said. The current study is important because it tries to pinpoint the key variables that are responsible for fatigue, so resources can be directed to effect change, he said.
Dr. Weinreb said he was not particularly surprised by the study findings. “Diagnostic mammography is a high-volume repetitive enterprise, so it would have been surprising if radiologist experience and time of day had no effect on performance and recall rate,” he said. “As most radiologists will attest based on personal experience, human beings get tired and lose some level of cognition over the course of a long, intense workday,” he added.
“I am a bit surprised that less experienced radiologists were more likely to recommend additional imaging at a higher rate when interpreting DBT but not for DM and only later in the day,” Dr. Weinreb noted. “The authors suggest that this could be due to the increased number of images that are viewed with DBT and the different ways experienced and less experienced radiologists process the information. However, there could be other explanations, such as differences in volumes or differences in ages.”
“Reducing the study volumes per radiologist is one obvious solution to reducing fatigue, but it will not be practical in many practices,” said Dr. Weinreb. “The important work of interpreting diagnostic mammograms needs to continue and grow. Without an increase in radiologist mammographers in the labor pool, this is not going to happen any time soon.”
Instead, “more immediate obvious solutions to radiologist fatigue in clinical practice include more frequent breaks during the workday, which would include walking around and not looking at a computer or cell phone screen, fewer images per study, report templates, streamlined workflow, more variety in daily work, and AI assistance for interpretation and reporting,” said Dr. Weinreb. Using nonradiologists when possible to relieve some of the burden could be considered, “but this is a complex and politically charged issue,” he noted.
Radiology is a well-compensated specialty, but further increasing compensation would help to mitigate burnout, said Dr. Weinreb. However, “perhaps even more important is making certain that the efforts of individual radiologists are appreciated and recognized,” he said.
As for additional research needs, “mammographers are not the only radiologists experiencing fatigue, but the most critical contributing factors for other types of imaging exams and subspecialities may not be identical,” Dr. Weinreb emphasized. “Data for other radiologists, similar to that provided by this study for diagnostic mammography, could be useful.
“An additional area of research could address the issue of individual radiologist circadian rhythms,” said Dr. Weinreb. “Perhaps we could rigorously determine whom amongst us is a ‘morning person’ versus one who performs equally well or better later in the day and use this information for radiologist scheduling,” he said. “Finally, once we know the key factors affecting performance for each type of exam and subspecialty, studies of possible incremental and combined benefits of various interventions would be needed.”
The study received no outside funding. The researchers and Dr. Weinreb have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
, based on data from more than 97,000 screening mammograms.
Psychology literature has shown the impact of fatigue on performance in a range of settings, and previous studies have shown that radiologists’ performances are more accurate earlier in their shifts compared to later-shift performance, write Michael H. Bernstein, PhD, and colleagues at Brown University, Providence, R.I., in a study published online Jan. 11 in Radiology.
The effect of time of day on performance may be greater for more detailed imaging modalities that are more “cognitively taxing,” and the effect may be greater in less-experienced radiologists, but the impact of time and experience on overall patient recall and false-positive rates has not been well-studied, the researchers said.
In the retrospective review, the researchers identified 97,671 screening mammograms read by 18 radiologists at one of 12 community sites between Jan. 2018 and Dec. 2019. The researchers analyzed the results by type of image, either standard digital mammography (DM) or the more complex digital breast tomosynthesis (DBT). The researchers separated radiologists into two groups: those with at least 5 post-training years of experience and those with less than 5 post-training years of experience. A total of nine radiologists fell into each category.
Overall, the recall rates were significantly different and higher for DM versus DBT (10.2% vs. 9.0%; P = .006). The false-positive (FP) rate also differed significantly and was higher for DM versus DBT (9.8% vs. 8.6%; P = .004).
The odds of recall increased by 11.5% with each hour of reading time for radiologists with less than 5 post-training years of experience for both DBT (odds ratio, 1.12) and DM (OR, 1.09). For the more experienced radiologists, the odds of recall increased by 1.6% for each hour of reading time for DBT but decreased by 0.1% for DM, with no significant difference.
Similarly, the odds of an FP result increased by 12.1% for DBT and 9% for DM per hour of reading time for radiologists with less experience. For more experienced radiologists, the odds of an FP increased by 1.6% for DBT but decreased by 1.1% for DM per hour of reading time.
Cancer detection (defined as true-positive, or TP) was not higher for DM across time, the researchers note. However, “DBT achieved a higher TP rate than DM regardless of the time of day; this shows that for DBT to maintain a constant and superior TP rate relative to DM, radiologists’ FP rates had to go up as the day went on,” they write. “That is, although DBT achieves a superior TP rate, more junior radiologists appeared to compensate for their fatigue later in the day when using DBT by recalling a broader range of mammograms, more of which were FP findings.”
The researchers caution that their findings were limited by several factors, including the study’s retrospective design and the lack of randomization of the imaging technology, patients, and time of day, which prohibit conclusions regarding causality. Other limitations included the consideration of time of day without the ability to use hours since the start of a clinical shift and the use of a 5-year mark to indicate experience without accounting for work volume.
However, the stronger impact of a time-of-day effect for more junior radiologists agrees with findings from other studies, the researchers add. More empirical research is needed, and the researchers propose a longitudinal study of how time of day affects radiologists as they gain experience, as well as experimental studies to test strategies for mitigating the time-of-day effect observed in the current study.
Scheduled breaks may reduce impact of fatigue
“Digital breast tomosynthesis is increasingly used in clinical practice and takes significantly longer to interpret compared with digital mammography,” said corresponding author Ana P. Lourenco, MD, in an interview. “Radiologists interpret hundreds of images for each screening digital breast tomosynthesis exam, compared with four images for each screening digital mammogram exam; this may certainly contribute to radiologist fatigue.”
“I found it interesting that there was a difference based on years of experience of the radiologist, but I was not surprised that recall rate increased later in the day, as some of us had anecdotally noted this in our clinical practice,” Dr. Lourenco said. In fact, the idea to conduct the study was prompted by a conversation with her statistician colleagues “about how I subjectively felt like my own recall rate increased at the end of the day.”
Ways to counteract the impact of fatigue could include intermittent breaks to refocus attention, said Dr. Lourenco. “Potential barriers would include imaging volumes and attending to patients in the breast imaging center,” she said. “If we can show that decreasing fatigue improves mammography performance metrics, then this may encourage practices to support such interventions.”
However, “more research that includes a larger number of radiologists, wider range of imaging interpretation experience, perhaps even experimental studies comparing metrics for radiologists reading with scheduled breaks versus without such breaks would be of interest,” Dr. Lourenco said.
Fatigue in health care goes beyond radiology
“Due primarily to staffing shortages and increased volume and complexity of patients, burnout and fatigue of all medical personnel, not just physicians, have become hallmarks of modern health care delivery in the United States, and this has been exacerbated by COVID-19 and other societal factors,” said Jeffrey C. Weinreb, MD, professor of radiology and biomedical imaging at Yale University, New Haven, Conn., in an interview.
Previous studies have documented the fact that radiologists are among the specialists most affected by burnout and fatigue, and it has an impact on their performance, Dr. Weinreb said. The current study is important because it tries to pinpoint the key variables that are responsible for fatigue, so resources can be directed to effect change, he said.
Dr. Weinreb said he was not particularly surprised by the study findings. “Diagnostic mammography is a high-volume repetitive enterprise, so it would have been surprising if radiologist experience and time of day had no effect on performance and recall rate,” he said. “As most radiologists will attest based on personal experience, human beings get tired and lose some level of cognition over the course of a long, intense workday,” he added.
“I am a bit surprised that less experienced radiologists were more likely to recommend additional imaging at a higher rate when interpreting DBT but not for DM and only later in the day,” Dr. Weinreb noted. “The authors suggest that this could be due to the increased number of images that are viewed with DBT and the different ways experienced and less experienced radiologists process the information. However, there could be other explanations, such as differences in volumes or differences in ages.”
“Reducing the study volumes per radiologist is one obvious solution to reducing fatigue, but it will not be practical in many practices,” said Dr. Weinreb. “The important work of interpreting diagnostic mammograms needs to continue and grow. Without an increase in radiologist mammographers in the labor pool, this is not going to happen any time soon.”
Instead, “more immediate obvious solutions to radiologist fatigue in clinical practice include more frequent breaks during the workday, which would include walking around and not looking at a computer or cell phone screen, fewer images per study, report templates, streamlined workflow, more variety in daily work, and AI assistance for interpretation and reporting,” said Dr. Weinreb. Using nonradiologists when possible to relieve some of the burden could be considered, “but this is a complex and politically charged issue,” he noted.
Radiology is a well-compensated specialty, but further increasing compensation would help to mitigate burnout, said Dr. Weinreb. However, “perhaps even more important is making certain that the efforts of individual radiologists are appreciated and recognized,” he said.
As for additional research needs, “mammographers are not the only radiologists experiencing fatigue, but the most critical contributing factors for other types of imaging exams and subspecialities may not be identical,” Dr. Weinreb emphasized. “Data for other radiologists, similar to that provided by this study for diagnostic mammography, could be useful.
“An additional area of research could address the issue of individual radiologist circadian rhythms,” said Dr. Weinreb. “Perhaps we could rigorously determine whom amongst us is a ‘morning person’ versus one who performs equally well or better later in the day and use this information for radiologist scheduling,” he said. “Finally, once we know the key factors affecting performance for each type of exam and subspecialty, studies of possible incremental and combined benefits of various interventions would be needed.”
The study received no outside funding. The researchers and Dr. Weinreb have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Abraxane still in short supply for cancer patients
forcing physicians to find alternatives for a drug once lauded for being easier to tolerate.
Abraxane (Bristol-Myers Squibb) is a paclitaxel albumin-bound injectable. It is different from alternative chemotherapy treatments like Taxol (paclitaxel) because it doesn’t use the solvents that can make Taxol difficult to tolerate. It was described as a “next-generation taxane” because it didn’t rely on solvents. It was approved in 2005 for metastatic breast cancer, then in 2012 for advanced non–small cell lung cancer, in 2013 for late-stage pancreatic cancer and in 2019 for people with PD-L1–positive metastatic triple-negative breast cancer.
The shortage, which was announced on Oct. 5, 2021, by the Food and Drug Administration, has led to some difficult decisions for patients and physicians. How long the shortage will last isn’t clear.
“I printed out [an] allotment sheet 2 days ago, and all it says [for Abraxane] is allocated,” said Kathy Oubre, MS, CEO of Pontchartrain Cancer Center, Hammond, La. “Everyone is keeping what they’ve got for their own patients, so there really isn’t anything available.”
The Pontchartrain Cancer Center sent two patients to the University of Texas MD Anderson Cancer Center, Houston, for continued treatment with Abraxane, but that option is costly and time consuming for patients. The two patients had the means to travel, but Ms. Oubre said that many others cannot afford to travel for treatment. “Everyone has patients who are living paycheck to paycheck who certainly couldn’t afford to do that. There are going to be patients across the nation that are not going to be able to have care as a result of these things.”
The supply problems are causing difficult decisions for physicians, who may have to switch a patient from an unavailable drug to an alternative that isn’t as effective, Ms. Oubre said. “I can’t imagine the stress and the sadness that the physicians have to feel when they have to go explain that to a patient. That runs counter to everything they are as physicians.”
Other strategies include chemo holidays and rounding down doses in patients with metastatic cancer, according to Camille Hill, PharmD, vice president of oncology pharmacy services, West Cancer Center, Germantown, Tenn.
Shortages and allocations are growing at an alarming rate, Ms. Oubre said. In her 15 years of working in the industry, “I don’t recall it ever being this challenging.” During a Zoom interview, she held up a lengthy list of drugs on allocation or unavailable that her pharmacy group purchasing organization sent her the previous week. “I don’t ever recall getting this kind of list. Every 3 days, I’m getting this. If it were just that one product, I can live with that. We figure it out. But it’s bigger than that.”
Worker shortages are exacerbating the issue. Ms. Oubre received a letter from a drug company describing its employee issues, which included chemists, plant workers, and loading dock staff. On top of that, delivery companies are experiencing staff shortages, which can result in more delays and complicate matters further. “It’s just compounding. These things can get really difficult very quickly. I don’t want to say we’re in crisis, and we’re not rationing care. We’re not in those buckets yet. But I would say that if these things don’t get better, it’s the first time in my work career that we are having those conversations of: ‘How we are going to plan for that it does come to that?’ ” she said.
“In general, with the pandemic, we have seen all sorts of just disruptions to the supply chain. So, I think you just do your best, you find alternatives for those patients that you can, and you come up with strategies. I don’t know that for Abraxane, or any other product, that I’d be particularly confident that we may not see another shortage,” Dr. Hill said.
forcing physicians to find alternatives for a drug once lauded for being easier to tolerate.
Abraxane (Bristol-Myers Squibb) is a paclitaxel albumin-bound injectable. It is different from alternative chemotherapy treatments like Taxol (paclitaxel) because it doesn’t use the solvents that can make Taxol difficult to tolerate. It was described as a “next-generation taxane” because it didn’t rely on solvents. It was approved in 2005 for metastatic breast cancer, then in 2012 for advanced non–small cell lung cancer, in 2013 for late-stage pancreatic cancer and in 2019 for people with PD-L1–positive metastatic triple-negative breast cancer.
The shortage, which was announced on Oct. 5, 2021, by the Food and Drug Administration, has led to some difficult decisions for patients and physicians. How long the shortage will last isn’t clear.
“I printed out [an] allotment sheet 2 days ago, and all it says [for Abraxane] is allocated,” said Kathy Oubre, MS, CEO of Pontchartrain Cancer Center, Hammond, La. “Everyone is keeping what they’ve got for their own patients, so there really isn’t anything available.”
The Pontchartrain Cancer Center sent two patients to the University of Texas MD Anderson Cancer Center, Houston, for continued treatment with Abraxane, but that option is costly and time consuming for patients. The two patients had the means to travel, but Ms. Oubre said that many others cannot afford to travel for treatment. “Everyone has patients who are living paycheck to paycheck who certainly couldn’t afford to do that. There are going to be patients across the nation that are not going to be able to have care as a result of these things.”
The supply problems are causing difficult decisions for physicians, who may have to switch a patient from an unavailable drug to an alternative that isn’t as effective, Ms. Oubre said. “I can’t imagine the stress and the sadness that the physicians have to feel when they have to go explain that to a patient. That runs counter to everything they are as physicians.”
Other strategies include chemo holidays and rounding down doses in patients with metastatic cancer, according to Camille Hill, PharmD, vice president of oncology pharmacy services, West Cancer Center, Germantown, Tenn.
Shortages and allocations are growing at an alarming rate, Ms. Oubre said. In her 15 years of working in the industry, “I don’t recall it ever being this challenging.” During a Zoom interview, she held up a lengthy list of drugs on allocation or unavailable that her pharmacy group purchasing organization sent her the previous week. “I don’t ever recall getting this kind of list. Every 3 days, I’m getting this. If it were just that one product, I can live with that. We figure it out. But it’s bigger than that.”
Worker shortages are exacerbating the issue. Ms. Oubre received a letter from a drug company describing its employee issues, which included chemists, plant workers, and loading dock staff. On top of that, delivery companies are experiencing staff shortages, which can result in more delays and complicate matters further. “It’s just compounding. These things can get really difficult very quickly. I don’t want to say we’re in crisis, and we’re not rationing care. We’re not in those buckets yet. But I would say that if these things don’t get better, it’s the first time in my work career that we are having those conversations of: ‘How we are going to plan for that it does come to that?’ ” she said.
“In general, with the pandemic, we have seen all sorts of just disruptions to the supply chain. So, I think you just do your best, you find alternatives for those patients that you can, and you come up with strategies. I don’t know that for Abraxane, or any other product, that I’d be particularly confident that we may not see another shortage,” Dr. Hill said.
forcing physicians to find alternatives for a drug once lauded for being easier to tolerate.
Abraxane (Bristol-Myers Squibb) is a paclitaxel albumin-bound injectable. It is different from alternative chemotherapy treatments like Taxol (paclitaxel) because it doesn’t use the solvents that can make Taxol difficult to tolerate. It was described as a “next-generation taxane” because it didn’t rely on solvents. It was approved in 2005 for metastatic breast cancer, then in 2012 for advanced non–small cell lung cancer, in 2013 for late-stage pancreatic cancer and in 2019 for people with PD-L1–positive metastatic triple-negative breast cancer.
The shortage, which was announced on Oct. 5, 2021, by the Food and Drug Administration, has led to some difficult decisions for patients and physicians. How long the shortage will last isn’t clear.
“I printed out [an] allotment sheet 2 days ago, and all it says [for Abraxane] is allocated,” said Kathy Oubre, MS, CEO of Pontchartrain Cancer Center, Hammond, La. “Everyone is keeping what they’ve got for their own patients, so there really isn’t anything available.”
The Pontchartrain Cancer Center sent two patients to the University of Texas MD Anderson Cancer Center, Houston, for continued treatment with Abraxane, but that option is costly and time consuming for patients. The two patients had the means to travel, but Ms. Oubre said that many others cannot afford to travel for treatment. “Everyone has patients who are living paycheck to paycheck who certainly couldn’t afford to do that. There are going to be patients across the nation that are not going to be able to have care as a result of these things.”
The supply problems are causing difficult decisions for physicians, who may have to switch a patient from an unavailable drug to an alternative that isn’t as effective, Ms. Oubre said. “I can’t imagine the stress and the sadness that the physicians have to feel when they have to go explain that to a patient. That runs counter to everything they are as physicians.”
Other strategies include chemo holidays and rounding down doses in patients with metastatic cancer, according to Camille Hill, PharmD, vice president of oncology pharmacy services, West Cancer Center, Germantown, Tenn.
Shortages and allocations are growing at an alarming rate, Ms. Oubre said. In her 15 years of working in the industry, “I don’t recall it ever being this challenging.” During a Zoom interview, she held up a lengthy list of drugs on allocation or unavailable that her pharmacy group purchasing organization sent her the previous week. “I don’t ever recall getting this kind of list. Every 3 days, I’m getting this. If it were just that one product, I can live with that. We figure it out. But it’s bigger than that.”
Worker shortages are exacerbating the issue. Ms. Oubre received a letter from a drug company describing its employee issues, which included chemists, plant workers, and loading dock staff. On top of that, delivery companies are experiencing staff shortages, which can result in more delays and complicate matters further. “It’s just compounding. These things can get really difficult very quickly. I don’t want to say we’re in crisis, and we’re not rationing care. We’re not in those buckets yet. But I would say that if these things don’t get better, it’s the first time in my work career that we are having those conversations of: ‘How we are going to plan for that it does come to that?’ ” she said.
“In general, with the pandemic, we have seen all sorts of just disruptions to the supply chain. So, I think you just do your best, you find alternatives for those patients that you can, and you come up with strategies. I don’t know that for Abraxane, or any other product, that I’d be particularly confident that we may not see another shortage,” Dr. Hill said.
Breast cancer treatment worse for incarcerated patients
The study was presented at the 2021 San Antonio Breast Cancer Symposium on Dec. 10 (Abstract P5-14-10).
Examining the records of more than 4,300 patients with breast cancer who were treated between 2014 and 2020 in North Carolina, researchers identified 34 who were either incarcerated at the time of diagnosis or who were diagnosed before they were imprisoned.
They found that neoadjuvant therapy was not given to incarcerated breast cancer patients as compared to 8% of women who were never incarcerated and 20% of women incarcerated later. Incarcerated patients treated with surgery upfront had to wait on average more than 3 weeks longer than other patients for their procedure. Their findings were followed by a recently published study in JAMA Network Open indicating that young people with a history of incarceration were significantly more likely to experience early mortality and that mortality was higher among Black prisoners.
“These findings are concerning for missed treatment opportunities within the carceral system,” wrote researchers who were led by Oluwadamilola “Lola” Fayanju, MD, MPHS, FACS, chief of breast surgery for the University of Pennsylvania Health System, Philadelphia.
Dr. Fayanju told this news organization that she was “not surprised by the finding that there was no neoadjuvant chemotherapy given to patients at all. Even in the practice of care outside of the carceral system it is striking how much variation there is in regards to treatment sequence if it is not approached in an evidence-based way. Many of the social ills that contribute to incarceration also contribute to this variation in care, and it’s not surprising that in women who are experiencing incarceration, there is geometric escalation of disparities with regards to their opportunities for treatment.”
Erica L. Mayer, MD, MPH, a medical oncologist and clinical investigator in the Breast Oncology Center at the Dana-Faber Cancer Institute, Boston, said “this is really interesting and important work showing some worrisome trends. On the one hand, this is a very small experience and such a small sample size is always vulnerable to bias or skew from factors that become more important. However, this is not the first observation that there are disparities of care in incarcerated populations,”said Dr. Mayer, who was not involved in the study. “This is a topic that has been studied in diseases outside of oncology, such as heart disease and diabetes. There is a theme that patients who are incarcerated have a disparity and inequity of care compared to those who are not.”
The current findings “fit in with general themes,” she said. As rates of cancer are expected to grow in the coming years, “understanding how to provide the best possible care in those settings is very important. This is early data but it’s an important signal and is suggesting to us that a greater understanding of health care access for incarcerated individuals is a very important area of study, and hopefully an area for which one could provide interventions that might help to reduce these disparities.”
Dr. Fayanju and associates. set out to determine the disease and treatment characteristics of individuals with breast cancer and a history of incarceration. They focused on women who had a breast cancer diagnosis at the University of North Carolina Hospitals between April 2014 and December 2020. They gathered data on patient demographics, incarceration status, disease characteristics, treatment types, and dates of receipt of treatment, but there were few data available. “It is really striking how little data there is available. This is a very small study and is the best we could glean from a large state-wide dataset,” she said.
Of 4,332 breast cancer cases, 34 (0.8%) were diagnosed while incarcerated (70.6%) or before incarceration (29.4%). Those who were diagnosed during incarceration were significantly more likely to be single (P < .001), use illicit drugs at the time of diagnosis (P = .01), and have a family history of breast cancer (P = .03) as compared with patients who were never incarcerated and those who were diagnosed before incarceration.
The results also showed that patients diagnosed with breast cancer during incarceration were significantly less likely to receive neoadjuvant therapy at 0% versus 8.2% for those who were never incarcerated, and 20% for those who were diagnosed before incarceration (P = .01 for trend).
“Further research is needed to understand the full scope of cancer inequities and identify factors that contribute to them among patients who experience incarceration,” Dr. Fayanju said.
No funding or relevant financial relationships were declared for this featured study.
The study was presented at the 2021 San Antonio Breast Cancer Symposium on Dec. 10 (Abstract P5-14-10).
Examining the records of more than 4,300 patients with breast cancer who were treated between 2014 and 2020 in North Carolina, researchers identified 34 who were either incarcerated at the time of diagnosis or who were diagnosed before they were imprisoned.
They found that neoadjuvant therapy was not given to incarcerated breast cancer patients as compared to 8% of women who were never incarcerated and 20% of women incarcerated later. Incarcerated patients treated with surgery upfront had to wait on average more than 3 weeks longer than other patients for their procedure. Their findings were followed by a recently published study in JAMA Network Open indicating that young people with a history of incarceration were significantly more likely to experience early mortality and that mortality was higher among Black prisoners.
“These findings are concerning for missed treatment opportunities within the carceral system,” wrote researchers who were led by Oluwadamilola “Lola” Fayanju, MD, MPHS, FACS, chief of breast surgery for the University of Pennsylvania Health System, Philadelphia.
Dr. Fayanju told this news organization that she was “not surprised by the finding that there was no neoadjuvant chemotherapy given to patients at all. Even in the practice of care outside of the carceral system it is striking how much variation there is in regards to treatment sequence if it is not approached in an evidence-based way. Many of the social ills that contribute to incarceration also contribute to this variation in care, and it’s not surprising that in women who are experiencing incarceration, there is geometric escalation of disparities with regards to their opportunities for treatment.”
Erica L. Mayer, MD, MPH, a medical oncologist and clinical investigator in the Breast Oncology Center at the Dana-Faber Cancer Institute, Boston, said “this is really interesting and important work showing some worrisome trends. On the one hand, this is a very small experience and such a small sample size is always vulnerable to bias or skew from factors that become more important. However, this is not the first observation that there are disparities of care in incarcerated populations,”said Dr. Mayer, who was not involved in the study. “This is a topic that has been studied in diseases outside of oncology, such as heart disease and diabetes. There is a theme that patients who are incarcerated have a disparity and inequity of care compared to those who are not.”
The current findings “fit in with general themes,” she said. As rates of cancer are expected to grow in the coming years, “understanding how to provide the best possible care in those settings is very important. This is early data but it’s an important signal and is suggesting to us that a greater understanding of health care access for incarcerated individuals is a very important area of study, and hopefully an area for which one could provide interventions that might help to reduce these disparities.”
Dr. Fayanju and associates. set out to determine the disease and treatment characteristics of individuals with breast cancer and a history of incarceration. They focused on women who had a breast cancer diagnosis at the University of North Carolina Hospitals between April 2014 and December 2020. They gathered data on patient demographics, incarceration status, disease characteristics, treatment types, and dates of receipt of treatment, but there were few data available. “It is really striking how little data there is available. This is a very small study and is the best we could glean from a large state-wide dataset,” she said.
Of 4,332 breast cancer cases, 34 (0.8%) were diagnosed while incarcerated (70.6%) or before incarceration (29.4%). Those who were diagnosed during incarceration were significantly more likely to be single (P < .001), use illicit drugs at the time of diagnosis (P = .01), and have a family history of breast cancer (P = .03) as compared with patients who were never incarcerated and those who were diagnosed before incarceration.
The results also showed that patients diagnosed with breast cancer during incarceration were significantly less likely to receive neoadjuvant therapy at 0% versus 8.2% for those who were never incarcerated, and 20% for those who were diagnosed before incarceration (P = .01 for trend).
“Further research is needed to understand the full scope of cancer inequities and identify factors that contribute to them among patients who experience incarceration,” Dr. Fayanju said.
No funding or relevant financial relationships were declared for this featured study.
The study was presented at the 2021 San Antonio Breast Cancer Symposium on Dec. 10 (Abstract P5-14-10).
Examining the records of more than 4,300 patients with breast cancer who were treated between 2014 and 2020 in North Carolina, researchers identified 34 who were either incarcerated at the time of diagnosis or who were diagnosed before they were imprisoned.
They found that neoadjuvant therapy was not given to incarcerated breast cancer patients as compared to 8% of women who were never incarcerated and 20% of women incarcerated later. Incarcerated patients treated with surgery upfront had to wait on average more than 3 weeks longer than other patients for their procedure. Their findings were followed by a recently published study in JAMA Network Open indicating that young people with a history of incarceration were significantly more likely to experience early mortality and that mortality was higher among Black prisoners.
“These findings are concerning for missed treatment opportunities within the carceral system,” wrote researchers who were led by Oluwadamilola “Lola” Fayanju, MD, MPHS, FACS, chief of breast surgery for the University of Pennsylvania Health System, Philadelphia.
Dr. Fayanju told this news organization that she was “not surprised by the finding that there was no neoadjuvant chemotherapy given to patients at all. Even in the practice of care outside of the carceral system it is striking how much variation there is in regards to treatment sequence if it is not approached in an evidence-based way. Many of the social ills that contribute to incarceration also contribute to this variation in care, and it’s not surprising that in women who are experiencing incarceration, there is geometric escalation of disparities with regards to their opportunities for treatment.”
Erica L. Mayer, MD, MPH, a medical oncologist and clinical investigator in the Breast Oncology Center at the Dana-Faber Cancer Institute, Boston, said “this is really interesting and important work showing some worrisome trends. On the one hand, this is a very small experience and such a small sample size is always vulnerable to bias or skew from factors that become more important. However, this is not the first observation that there are disparities of care in incarcerated populations,”said Dr. Mayer, who was not involved in the study. “This is a topic that has been studied in diseases outside of oncology, such as heart disease and diabetes. There is a theme that patients who are incarcerated have a disparity and inequity of care compared to those who are not.”
The current findings “fit in with general themes,” she said. As rates of cancer are expected to grow in the coming years, “understanding how to provide the best possible care in those settings is very important. This is early data but it’s an important signal and is suggesting to us that a greater understanding of health care access for incarcerated individuals is a very important area of study, and hopefully an area for which one could provide interventions that might help to reduce these disparities.”
Dr. Fayanju and associates. set out to determine the disease and treatment characteristics of individuals with breast cancer and a history of incarceration. They focused on women who had a breast cancer diagnosis at the University of North Carolina Hospitals between April 2014 and December 2020. They gathered data on patient demographics, incarceration status, disease characteristics, treatment types, and dates of receipt of treatment, but there were few data available. “It is really striking how little data there is available. This is a very small study and is the best we could glean from a large state-wide dataset,” she said.
Of 4,332 breast cancer cases, 34 (0.8%) were diagnosed while incarcerated (70.6%) or before incarceration (29.4%). Those who were diagnosed during incarceration were significantly more likely to be single (P < .001), use illicit drugs at the time of diagnosis (P = .01), and have a family history of breast cancer (P = .03) as compared with patients who were never incarcerated and those who were diagnosed before incarceration.
The results also showed that patients diagnosed with breast cancer during incarceration were significantly less likely to receive neoadjuvant therapy at 0% versus 8.2% for those who were never incarcerated, and 20% for those who were diagnosed before incarceration (P = .01 for trend).
“Further research is needed to understand the full scope of cancer inequities and identify factors that contribute to them among patients who experience incarceration,” Dr. Fayanju said.
No funding or relevant financial relationships were declared for this featured study.
FROM SABCS 2021
Omega-3 supplementation improves sleep, mood in breast cancer patients on hormone therapy
After 4 weeks of treatment, patients who received omega-3 reported better sleep, depression, and mood outcomes than those who received placebo.
Estrogen-receptor inhibitors are used to treat breast cancer with positive hormone receptors in combination with other therapies. However, the drugs can lead to long-term side effects, including hot flashes, night sweats, and changes to mood and sleep.
These side effects are often treated with selective serotonin reuptake inhibitors and some anticonvulsant drugs. Omega-3 supplements contain various polyunsaturated fatty acids, which influence cell signaling and contribute to the production of bioactive fat mediators that counter inflammation. They are widely used in cardiovascular disease, breast cancer, rheumatoid arthritis, depression, and other cognitive disorders. They also appear to amplify the antitumor efficacy of tamoxifen through the inhibition of proliferative and antiapoptotic pathways that that are influenced by estrogen-receptor signaling.
“This study showed that omega-3 supplementation can improve mood and sleep disorder in women suffering from breast cancer while they (are) managing with antihormone drugs. … this supplement can be proposed for the treatment of these patients,” wrote researchers led by Azadeh Moghaddas, MD, PhD, who is an associate professor of clinical pharmacy and pharmacy practice at Isfahan (Iran) University of Medical Sciences.
The study was made available as a preprint on ResearchSquare and has not yet been peer reviewed. It included 60 patients who were screened for baseline mood disorders using the hospital anxiety and depression scale (HADS), then randomized to 2 mg omega-3 per day for 4 weeks, or placebo.
Studies have shown that omega-3 supplementation improves menopause and mood symptoms in postmenopausal women without cancer.
Omega-3 supplementation has neuroprotective effects and improved brain function and mood in rats, and a 2019 review suggested that the evidence is strong enough to warrant clinical studies.
To determine if the supplement was also safe and effective in women with breast cancer undergoing hormone therapy, the researchers analyzed data from 32 patients in the intervention group and 28 patients in the placebo group.
At 4 weeks of follow-up, patients in the intervention group had significantly lower values on the Center for Epidemiological Studies-Depression scale (mean, 22.8 vs. 30.8; P < .001), Profile of Mood State (mean, 30.8 versus 39.5; P<.001), and Pittsburgh Sleep Quality Index (mean, 4.6 vs. 5.9; P = .04). There were no statistically significant changes in these values in the placebo group.
At 4 weeks, paired samples t-test comparisons between the intervention and the placebo groups revealed lower scores in the intervention group for mean scores in the PSQI subscales subjective sleep quality (0.8 vs. 1.4; P = .002), delay in falling asleep (1.1 vs. 1.6; P = .02), and sleep disturbances (0.8 vs. 1.1; P = .005).
There were no significant adverse reactions in either group.
The study is limited by its small sample size and the short follow-up period.
The study was funded by Isfahan University of Medical Sciences. The authors declare no other conflicts of interest.
After 4 weeks of treatment, patients who received omega-3 reported better sleep, depression, and mood outcomes than those who received placebo.
Estrogen-receptor inhibitors are used to treat breast cancer with positive hormone receptors in combination with other therapies. However, the drugs can lead to long-term side effects, including hot flashes, night sweats, and changes to mood and sleep.
These side effects are often treated with selective serotonin reuptake inhibitors and some anticonvulsant drugs. Omega-3 supplements contain various polyunsaturated fatty acids, which influence cell signaling and contribute to the production of bioactive fat mediators that counter inflammation. They are widely used in cardiovascular disease, breast cancer, rheumatoid arthritis, depression, and other cognitive disorders. They also appear to amplify the antitumor efficacy of tamoxifen through the inhibition of proliferative and antiapoptotic pathways that that are influenced by estrogen-receptor signaling.
“This study showed that omega-3 supplementation can improve mood and sleep disorder in women suffering from breast cancer while they (are) managing with antihormone drugs. … this supplement can be proposed for the treatment of these patients,” wrote researchers led by Azadeh Moghaddas, MD, PhD, who is an associate professor of clinical pharmacy and pharmacy practice at Isfahan (Iran) University of Medical Sciences.
The study was made available as a preprint on ResearchSquare and has not yet been peer reviewed. It included 60 patients who were screened for baseline mood disorders using the hospital anxiety and depression scale (HADS), then randomized to 2 mg omega-3 per day for 4 weeks, or placebo.
Studies have shown that omega-3 supplementation improves menopause and mood symptoms in postmenopausal women without cancer.
Omega-3 supplementation has neuroprotective effects and improved brain function and mood in rats, and a 2019 review suggested that the evidence is strong enough to warrant clinical studies.
To determine if the supplement was also safe and effective in women with breast cancer undergoing hormone therapy, the researchers analyzed data from 32 patients in the intervention group and 28 patients in the placebo group.
At 4 weeks of follow-up, patients in the intervention group had significantly lower values on the Center for Epidemiological Studies-Depression scale (mean, 22.8 vs. 30.8; P < .001), Profile of Mood State (mean, 30.8 versus 39.5; P<.001), and Pittsburgh Sleep Quality Index (mean, 4.6 vs. 5.9; P = .04). There were no statistically significant changes in these values in the placebo group.
At 4 weeks, paired samples t-test comparisons between the intervention and the placebo groups revealed lower scores in the intervention group for mean scores in the PSQI subscales subjective sleep quality (0.8 vs. 1.4; P = .002), delay in falling asleep (1.1 vs. 1.6; P = .02), and sleep disturbances (0.8 vs. 1.1; P = .005).
There were no significant adverse reactions in either group.
The study is limited by its small sample size and the short follow-up period.
The study was funded by Isfahan University of Medical Sciences. The authors declare no other conflicts of interest.
After 4 weeks of treatment, patients who received omega-3 reported better sleep, depression, and mood outcomes than those who received placebo.
Estrogen-receptor inhibitors are used to treat breast cancer with positive hormone receptors in combination with other therapies. However, the drugs can lead to long-term side effects, including hot flashes, night sweats, and changes to mood and sleep.
These side effects are often treated with selective serotonin reuptake inhibitors and some anticonvulsant drugs. Omega-3 supplements contain various polyunsaturated fatty acids, which influence cell signaling and contribute to the production of bioactive fat mediators that counter inflammation. They are widely used in cardiovascular disease, breast cancer, rheumatoid arthritis, depression, and other cognitive disorders. They also appear to amplify the antitumor efficacy of tamoxifen through the inhibition of proliferative and antiapoptotic pathways that that are influenced by estrogen-receptor signaling.
“This study showed that omega-3 supplementation can improve mood and sleep disorder in women suffering from breast cancer while they (are) managing with antihormone drugs. … this supplement can be proposed for the treatment of these patients,” wrote researchers led by Azadeh Moghaddas, MD, PhD, who is an associate professor of clinical pharmacy and pharmacy practice at Isfahan (Iran) University of Medical Sciences.
The study was made available as a preprint on ResearchSquare and has not yet been peer reviewed. It included 60 patients who were screened for baseline mood disorders using the hospital anxiety and depression scale (HADS), then randomized to 2 mg omega-3 per day for 4 weeks, or placebo.
Studies have shown that omega-3 supplementation improves menopause and mood symptoms in postmenopausal women without cancer.
Omega-3 supplementation has neuroprotective effects and improved brain function and mood in rats, and a 2019 review suggested that the evidence is strong enough to warrant clinical studies.
To determine if the supplement was also safe and effective in women with breast cancer undergoing hormone therapy, the researchers analyzed data from 32 patients in the intervention group and 28 patients in the placebo group.
At 4 weeks of follow-up, patients in the intervention group had significantly lower values on the Center for Epidemiological Studies-Depression scale (mean, 22.8 vs. 30.8; P < .001), Profile of Mood State (mean, 30.8 versus 39.5; P<.001), and Pittsburgh Sleep Quality Index (mean, 4.6 vs. 5.9; P = .04). There were no statistically significant changes in these values in the placebo group.
At 4 weeks, paired samples t-test comparisons between the intervention and the placebo groups revealed lower scores in the intervention group for mean scores in the PSQI subscales subjective sleep quality (0.8 vs. 1.4; P = .002), delay in falling asleep (1.1 vs. 1.6; P = .02), and sleep disturbances (0.8 vs. 1.1; P = .005).
There were no significant adverse reactions in either group.
The study is limited by its small sample size and the short follow-up period.
The study was funded by Isfahan University of Medical Sciences. The authors declare no other conflicts of interest.
FROM RESEARCHSQUARE