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FDA approves first-ever drug for cold agglutinin disease
A new drug has become the first and only treatment for people with cold agglutinin disease (CAD) that is approved by the U.S. Food and Drug Administration.
CAD is a rare autoimmune hemolytic anemia, affecting about 5,000 people in the United States. It is caused by antibodies binding to the surface of red blood cells, which starts a process that causes the body’s immune system to mistakenly attack healthy red blood cells and cause their rupture (hemolysis). This can lead to severe anemia, which is often treated by blood transfusions.
“For people living with cold agglutinin disease, it is as if their body’s immune system is waging a war on itself. The relentless destruction of healthy red blood cells is a daily, silent reality for people with CAD. For the first time, we have a treatment that targets complement-mediated hemolysis, which is the underlying cause of the red blood cell destruction in many CAD patients,” commented Catherine Broome, MD, associate professor of medicine at Georgetown University Lombardi Comprehensive Cancer Center, in a company press release.
Dr. Broome was the principal investigator in the CARDINAL study, which was the basis for the new approval. In this pivotal study, patients treated with sutimlimab had an improvement in anemia as measured by hemoglobin (Hgb) and bilirubin levels, she commented in the company statement.
The CARDINAL study was a 26-week open-label, single-arm phase 3 study conducted in 24 patients with CAD who had recent history of blood transfusion.
The primary efficacy endpoint was a composite defined as the proportion of patients who achieved normalization of Hgb level greater than or equal to 12 g/dL or demonstrated an increase from baseline in Hgb level greater than or equal to 2 g/dL at the treatment assessment time point (mean value from weeks 23, 25, and 26) and no blood transfusion from weeks 5 through 26.
More than half of the patients (13 of 24, 54%) met the composite primary endpoint criteria, with 17 of 24 (71%) patients remaining transfusion-free after week 5. Most patients (22 of 24, 92%) did not use other CAD-related treatments.
For the secondary measures on disease process, patients enrolled in the trial experienced a mean increase in Hgb level of 2.29 g/dL at week 3 and 3.18 g/dL at the 26-week treatment assessment time points (increasing from the mean baseline level of 8.6 g/dL). In addition, there was a mean reduction in bilirubin levels (n = 14) of -2.23 mg/dL from a mean baseline level of 3.23 mg/dL.
The most common adverse reactions occurring in 10% or more of patients were respiratory tract infection, viral infection, diarrhea, dyspepsia, cough, arthralgia, arthritis, and peripheral edema. Serious adverse reactions were reported in 3 of 24 (13%) patients, and these included streptococcal sepsis and staphylococcal wound infection (n = 1), arthralgia (n = 1), and respiratory tract infection (n = 1).
None of the adverse reactions led to discontinuation of the drug, the company noted. Dosage interruptions due to an adverse reaction occurred in 4 of 24 (17%) patients who received the drug.
The recommended dose is based on body weight (6,500 mg for people 39-75 kg and 7,500 mg for people greater than 75 kg). The drug is administered intravenously weekly for the first 2 weeks with administration every 2 weeks thereafter.
Full prescribing information is available here.
The product is a humanized monoclonal antibody that is designed to selectively target and inhibit C1s in the classical complement pathway, which is part of the innate immune system. By blocking C1s, Enjaymo inhibits the activation of the complement cascade in the immune system and inhibits C1-activated hemolysis in CAD to prevent the abnormal destruction of healthy red blood cells. Enjaymo does not inhibit the lectin and alternative pathways, the company noted.
In the U.S., Enjaymo received FDA breakthrough therapy and orphan drug designation, as well as priority review. The product is awaiting approval in Europe and Japan.
Sanofi says the product is expected to be available in the United States in the coming weeks, with a list price, or wholesale acquisition cost, of $1,800 per vial. Actual costs to patients are generally anticipated to be lower, as the list price does not reflect insurance coverage, copay support, or financial assistance from patient support programs. The company offers support for eligible patients on 1-833-223-2428.
A version of this article first appeared on Medscape.com.
A new drug has become the first and only treatment for people with cold agglutinin disease (CAD) that is approved by the U.S. Food and Drug Administration.
CAD is a rare autoimmune hemolytic anemia, affecting about 5,000 people in the United States. It is caused by antibodies binding to the surface of red blood cells, which starts a process that causes the body’s immune system to mistakenly attack healthy red blood cells and cause their rupture (hemolysis). This can lead to severe anemia, which is often treated by blood transfusions.
“For people living with cold agglutinin disease, it is as if their body’s immune system is waging a war on itself. The relentless destruction of healthy red blood cells is a daily, silent reality for people with CAD. For the first time, we have a treatment that targets complement-mediated hemolysis, which is the underlying cause of the red blood cell destruction in many CAD patients,” commented Catherine Broome, MD, associate professor of medicine at Georgetown University Lombardi Comprehensive Cancer Center, in a company press release.
Dr. Broome was the principal investigator in the CARDINAL study, which was the basis for the new approval. In this pivotal study, patients treated with sutimlimab had an improvement in anemia as measured by hemoglobin (Hgb) and bilirubin levels, she commented in the company statement.
The CARDINAL study was a 26-week open-label, single-arm phase 3 study conducted in 24 patients with CAD who had recent history of blood transfusion.
The primary efficacy endpoint was a composite defined as the proportion of patients who achieved normalization of Hgb level greater than or equal to 12 g/dL or demonstrated an increase from baseline in Hgb level greater than or equal to 2 g/dL at the treatment assessment time point (mean value from weeks 23, 25, and 26) and no blood transfusion from weeks 5 through 26.
More than half of the patients (13 of 24, 54%) met the composite primary endpoint criteria, with 17 of 24 (71%) patients remaining transfusion-free after week 5. Most patients (22 of 24, 92%) did not use other CAD-related treatments.
For the secondary measures on disease process, patients enrolled in the trial experienced a mean increase in Hgb level of 2.29 g/dL at week 3 and 3.18 g/dL at the 26-week treatment assessment time points (increasing from the mean baseline level of 8.6 g/dL). In addition, there was a mean reduction in bilirubin levels (n = 14) of -2.23 mg/dL from a mean baseline level of 3.23 mg/dL.
The most common adverse reactions occurring in 10% or more of patients were respiratory tract infection, viral infection, diarrhea, dyspepsia, cough, arthralgia, arthritis, and peripheral edema. Serious adverse reactions were reported in 3 of 24 (13%) patients, and these included streptococcal sepsis and staphylococcal wound infection (n = 1), arthralgia (n = 1), and respiratory tract infection (n = 1).
None of the adverse reactions led to discontinuation of the drug, the company noted. Dosage interruptions due to an adverse reaction occurred in 4 of 24 (17%) patients who received the drug.
The recommended dose is based on body weight (6,500 mg for people 39-75 kg and 7,500 mg for people greater than 75 kg). The drug is administered intravenously weekly for the first 2 weeks with administration every 2 weeks thereafter.
Full prescribing information is available here.
The product is a humanized monoclonal antibody that is designed to selectively target and inhibit C1s in the classical complement pathway, which is part of the innate immune system. By blocking C1s, Enjaymo inhibits the activation of the complement cascade in the immune system and inhibits C1-activated hemolysis in CAD to prevent the abnormal destruction of healthy red blood cells. Enjaymo does not inhibit the lectin and alternative pathways, the company noted.
In the U.S., Enjaymo received FDA breakthrough therapy and orphan drug designation, as well as priority review. The product is awaiting approval in Europe and Japan.
Sanofi says the product is expected to be available in the United States in the coming weeks, with a list price, or wholesale acquisition cost, of $1,800 per vial. Actual costs to patients are generally anticipated to be lower, as the list price does not reflect insurance coverage, copay support, or financial assistance from patient support programs. The company offers support for eligible patients on 1-833-223-2428.
A version of this article first appeared on Medscape.com.
A new drug has become the first and only treatment for people with cold agglutinin disease (CAD) that is approved by the U.S. Food and Drug Administration.
CAD is a rare autoimmune hemolytic anemia, affecting about 5,000 people in the United States. It is caused by antibodies binding to the surface of red blood cells, which starts a process that causes the body’s immune system to mistakenly attack healthy red blood cells and cause their rupture (hemolysis). This can lead to severe anemia, which is often treated by blood transfusions.
“For people living with cold agglutinin disease, it is as if their body’s immune system is waging a war on itself. The relentless destruction of healthy red blood cells is a daily, silent reality for people with CAD. For the first time, we have a treatment that targets complement-mediated hemolysis, which is the underlying cause of the red blood cell destruction in many CAD patients,” commented Catherine Broome, MD, associate professor of medicine at Georgetown University Lombardi Comprehensive Cancer Center, in a company press release.
Dr. Broome was the principal investigator in the CARDINAL study, which was the basis for the new approval. In this pivotal study, patients treated with sutimlimab had an improvement in anemia as measured by hemoglobin (Hgb) and bilirubin levels, she commented in the company statement.
The CARDINAL study was a 26-week open-label, single-arm phase 3 study conducted in 24 patients with CAD who had recent history of blood transfusion.
The primary efficacy endpoint was a composite defined as the proportion of patients who achieved normalization of Hgb level greater than or equal to 12 g/dL or demonstrated an increase from baseline in Hgb level greater than or equal to 2 g/dL at the treatment assessment time point (mean value from weeks 23, 25, and 26) and no blood transfusion from weeks 5 through 26.
More than half of the patients (13 of 24, 54%) met the composite primary endpoint criteria, with 17 of 24 (71%) patients remaining transfusion-free after week 5. Most patients (22 of 24, 92%) did not use other CAD-related treatments.
For the secondary measures on disease process, patients enrolled in the trial experienced a mean increase in Hgb level of 2.29 g/dL at week 3 and 3.18 g/dL at the 26-week treatment assessment time points (increasing from the mean baseline level of 8.6 g/dL). In addition, there was a mean reduction in bilirubin levels (n = 14) of -2.23 mg/dL from a mean baseline level of 3.23 mg/dL.
The most common adverse reactions occurring in 10% or more of patients were respiratory tract infection, viral infection, diarrhea, dyspepsia, cough, arthralgia, arthritis, and peripheral edema. Serious adverse reactions were reported in 3 of 24 (13%) patients, and these included streptococcal sepsis and staphylococcal wound infection (n = 1), arthralgia (n = 1), and respiratory tract infection (n = 1).
None of the adverse reactions led to discontinuation of the drug, the company noted. Dosage interruptions due to an adverse reaction occurred in 4 of 24 (17%) patients who received the drug.
The recommended dose is based on body weight (6,500 mg for people 39-75 kg and 7,500 mg for people greater than 75 kg). The drug is administered intravenously weekly for the first 2 weeks with administration every 2 weeks thereafter.
Full prescribing information is available here.
The product is a humanized monoclonal antibody that is designed to selectively target and inhibit C1s in the classical complement pathway, which is part of the innate immune system. By blocking C1s, Enjaymo inhibits the activation of the complement cascade in the immune system and inhibits C1-activated hemolysis in CAD to prevent the abnormal destruction of healthy red blood cells. Enjaymo does not inhibit the lectin and alternative pathways, the company noted.
In the U.S., Enjaymo received FDA breakthrough therapy and orphan drug designation, as well as priority review. The product is awaiting approval in Europe and Japan.
Sanofi says the product is expected to be available in the United States in the coming weeks, with a list price, or wholesale acquisition cost, of $1,800 per vial. Actual costs to patients are generally anticipated to be lower, as the list price does not reflect insurance coverage, copay support, or financial assistance from patient support programs. The company offers support for eligible patients on 1-833-223-2428.
A version of this article first appeared on Medscape.com.
Beta-thalassemia gene therapy achieves lasting transfusion independence
, an investigator reported at the annual meeting of the American Society of Hematology.
Among patients who received betibeglogene autotemcel (beti-cel) in a phase 3 trial and enrolled in a long-term follow-up study, nearly 90% achieved durable transfusion independence, according to Alexis A. Thompson, MD, MPH, of the hematology section at the Ann & Robert H. Lurie Children’s Hospital of Chicago.
The median duration of ongoing transfusion independence was nearly 3 years as of this report, which Dr. Thompson described in a press conference at the meeting.
In a subanalysis of this international study, Dr. Thompson and co-investigators reported that in patients who achieve transfusion independence, chelation reduced iron, and iron markers stabilized even after chelation was stopped.
Beyond 2 years post-infusion, no adverse events related to the drug product were seen. This suggested that the therapy has a favorable long-term safety profile, according to Dr. Thompson.
“At this point, we believe that beti-cel is potentially curative for patients with TDT [transfusion-dependent beta-thalassemia],” Dr. Thompson said in the press conference.
This study answers one of the major outstanding questions about beti-cel and iron metabolism, according to Arielle L. Langer, MD, MPH, an instructor in medicine at Harvard Medical School and attending physician for adult thalassemia patients at Brigham and Women’s and Dana Farber Cancer Institute, both in Boston.
“Seeing the restoration of iron metabolism, it really takes us a step closer to really thinking the term ‘cure’ might truly apply,” Dr. Langer said in an interview.
Dr. Langer said she looks forward to “very long-term outcomes” of beti-cel-treated patients to see whether endocrinopathies and other long-term sequelae of TDT are also abated.
“This [study] is a great intermediate point, but really, when we think about how thalassemia harms and kills our patients, we really sometimes measure that in decades,” she said.
Beta-thalassemia is caused by mutations in the beta-globin gene, resulting in reduced levels of hemoglobin. Patients with TDT, the most serious form of the disease, have severe anemia and are often dependent on red blood cell transfusions from infancy onward, Dr. Thompson said.
With chronic transfusions needed to maintain hemoglobin levels, TDT patients inevitably experience iron overload, which can lead to organ damage and can be fatal. Consequently, patients will require lifelong iron chelation therapy, she added.
Beti-cel, an investigational ex vivo gene addition therapy currently under review by the U.S. Food and Drug Administration, involves adding functional copies of a modified form of the beta-globin gene into a patient’s own hematopoietic stem cells. Once those cells are reinfused, patients may produce adult hemoglobin at levels that eliminate the need for transfusions, according to Dr. Thompson.
At the meeting, Dr. Thompson reported on patients from two phase 1/2 and two phase 3 beti-cel clinical trials who subsequently enrolled in LTF-303, a 13-year follow-up study of the gene therapy’s safety and efficacy.
A total of 57 patients were included in this report, making it the largest gene therapy program to date in any blood disorder, according to Dr. Thompson. Before receiving beti-cel, the patients, who had a broad range of thalassemia genotypes, were receiving between 10 and almost 40 red blood cell transfusions per year, she reported.
Patients ranged in age from 5 to 35 years. The median age in the phase 1/2 studies was 20 years, while in the phase 3 studies it was 15 years.
“The early experience in the phase 1/2 trials allowed us to be more comfortable with enrolling more children, and that has actually helped us to understand safety and efficacy and children in the phase 3 setting,” Dr. Thompson said.
Fertility preservation measures had been undertaken by about 59% of patients from the phase 1/2 studies and 71% of patients from the phase 3 studies, the data show.
Among patients from the phase 3 beti-cel studies who could be evaluated, 31 out of 35 (or 89%) achieved durable transfusion independence, according to the investigator.
The median duration of ongoing transfusion independence was 32 months, with a range of about 18 to 49 months, she added.
Dr. Thompson also reported a subanalysis intended to assess iron status in 16 patients who restarted and then stopped chelation. That subanalysis demonstrated iron reduction in response to chelation, and then stabilization of iron markers after chelation was stopped. Post-gene therapy chelation led to reductions in liver iron concentration and serum ferritin that remained relatively stable after chelation was stopped, she said.
Serious adverse events occurred in eight patients in the long-term follow-up study. However, adverse events related to beti-cel have been absent beyond 2 years post-infusion, according to Dr. Thompson, who added that there have been no reported cases of replication-competent lentivirus, no clonal expansion, no insertional oncogenesis, and no malignancies observed.
“Very reassuringly, there have been 2 male patients, one of whom underwent fertility preservation, who report having healthy children with their partners,” she added.
Dr. Thompson provided disclosures related to Baxalta, Biomarin, bluebird bio, Inc., Celgene/BMS, CRISPR Therapeutics, Vertex, Editas, Graphite Bio, Novartis, Agios, Beam, and Global Blood Therapeutics.
, an investigator reported at the annual meeting of the American Society of Hematology.
Among patients who received betibeglogene autotemcel (beti-cel) in a phase 3 trial and enrolled in a long-term follow-up study, nearly 90% achieved durable transfusion independence, according to Alexis A. Thompson, MD, MPH, of the hematology section at the Ann & Robert H. Lurie Children’s Hospital of Chicago.
The median duration of ongoing transfusion independence was nearly 3 years as of this report, which Dr. Thompson described in a press conference at the meeting.
In a subanalysis of this international study, Dr. Thompson and co-investigators reported that in patients who achieve transfusion independence, chelation reduced iron, and iron markers stabilized even after chelation was stopped.
Beyond 2 years post-infusion, no adverse events related to the drug product were seen. This suggested that the therapy has a favorable long-term safety profile, according to Dr. Thompson.
“At this point, we believe that beti-cel is potentially curative for patients with TDT [transfusion-dependent beta-thalassemia],” Dr. Thompson said in the press conference.
This study answers one of the major outstanding questions about beti-cel and iron metabolism, according to Arielle L. Langer, MD, MPH, an instructor in medicine at Harvard Medical School and attending physician for adult thalassemia patients at Brigham and Women’s and Dana Farber Cancer Institute, both in Boston.
“Seeing the restoration of iron metabolism, it really takes us a step closer to really thinking the term ‘cure’ might truly apply,” Dr. Langer said in an interview.
Dr. Langer said she looks forward to “very long-term outcomes” of beti-cel-treated patients to see whether endocrinopathies and other long-term sequelae of TDT are also abated.
“This [study] is a great intermediate point, but really, when we think about how thalassemia harms and kills our patients, we really sometimes measure that in decades,” she said.
Beta-thalassemia is caused by mutations in the beta-globin gene, resulting in reduced levels of hemoglobin. Patients with TDT, the most serious form of the disease, have severe anemia and are often dependent on red blood cell transfusions from infancy onward, Dr. Thompson said.
With chronic transfusions needed to maintain hemoglobin levels, TDT patients inevitably experience iron overload, which can lead to organ damage and can be fatal. Consequently, patients will require lifelong iron chelation therapy, she added.
Beti-cel, an investigational ex vivo gene addition therapy currently under review by the U.S. Food and Drug Administration, involves adding functional copies of a modified form of the beta-globin gene into a patient’s own hematopoietic stem cells. Once those cells are reinfused, patients may produce adult hemoglobin at levels that eliminate the need for transfusions, according to Dr. Thompson.
At the meeting, Dr. Thompson reported on patients from two phase 1/2 and two phase 3 beti-cel clinical trials who subsequently enrolled in LTF-303, a 13-year follow-up study of the gene therapy’s safety and efficacy.
A total of 57 patients were included in this report, making it the largest gene therapy program to date in any blood disorder, according to Dr. Thompson. Before receiving beti-cel, the patients, who had a broad range of thalassemia genotypes, were receiving between 10 and almost 40 red blood cell transfusions per year, she reported.
Patients ranged in age from 5 to 35 years. The median age in the phase 1/2 studies was 20 years, while in the phase 3 studies it was 15 years.
“The early experience in the phase 1/2 trials allowed us to be more comfortable with enrolling more children, and that has actually helped us to understand safety and efficacy and children in the phase 3 setting,” Dr. Thompson said.
Fertility preservation measures had been undertaken by about 59% of patients from the phase 1/2 studies and 71% of patients from the phase 3 studies, the data show.
Among patients from the phase 3 beti-cel studies who could be evaluated, 31 out of 35 (or 89%) achieved durable transfusion independence, according to the investigator.
The median duration of ongoing transfusion independence was 32 months, with a range of about 18 to 49 months, she added.
Dr. Thompson also reported a subanalysis intended to assess iron status in 16 patients who restarted and then stopped chelation. That subanalysis demonstrated iron reduction in response to chelation, and then stabilization of iron markers after chelation was stopped. Post-gene therapy chelation led to reductions in liver iron concentration and serum ferritin that remained relatively stable after chelation was stopped, she said.
Serious adverse events occurred in eight patients in the long-term follow-up study. However, adverse events related to beti-cel have been absent beyond 2 years post-infusion, according to Dr. Thompson, who added that there have been no reported cases of replication-competent lentivirus, no clonal expansion, no insertional oncogenesis, and no malignancies observed.
“Very reassuringly, there have been 2 male patients, one of whom underwent fertility preservation, who report having healthy children with their partners,” she added.
Dr. Thompson provided disclosures related to Baxalta, Biomarin, bluebird bio, Inc., Celgene/BMS, CRISPR Therapeutics, Vertex, Editas, Graphite Bio, Novartis, Agios, Beam, and Global Blood Therapeutics.
, an investigator reported at the annual meeting of the American Society of Hematology.
Among patients who received betibeglogene autotemcel (beti-cel) in a phase 3 trial and enrolled in a long-term follow-up study, nearly 90% achieved durable transfusion independence, according to Alexis A. Thompson, MD, MPH, of the hematology section at the Ann & Robert H. Lurie Children’s Hospital of Chicago.
The median duration of ongoing transfusion independence was nearly 3 years as of this report, which Dr. Thompson described in a press conference at the meeting.
In a subanalysis of this international study, Dr. Thompson and co-investigators reported that in patients who achieve transfusion independence, chelation reduced iron, and iron markers stabilized even after chelation was stopped.
Beyond 2 years post-infusion, no adverse events related to the drug product were seen. This suggested that the therapy has a favorable long-term safety profile, according to Dr. Thompson.
“At this point, we believe that beti-cel is potentially curative for patients with TDT [transfusion-dependent beta-thalassemia],” Dr. Thompson said in the press conference.
This study answers one of the major outstanding questions about beti-cel and iron metabolism, according to Arielle L. Langer, MD, MPH, an instructor in medicine at Harvard Medical School and attending physician for adult thalassemia patients at Brigham and Women’s and Dana Farber Cancer Institute, both in Boston.
“Seeing the restoration of iron metabolism, it really takes us a step closer to really thinking the term ‘cure’ might truly apply,” Dr. Langer said in an interview.
Dr. Langer said she looks forward to “very long-term outcomes” of beti-cel-treated patients to see whether endocrinopathies and other long-term sequelae of TDT are also abated.
“This [study] is a great intermediate point, but really, when we think about how thalassemia harms and kills our patients, we really sometimes measure that in decades,” she said.
Beta-thalassemia is caused by mutations in the beta-globin gene, resulting in reduced levels of hemoglobin. Patients with TDT, the most serious form of the disease, have severe anemia and are often dependent on red blood cell transfusions from infancy onward, Dr. Thompson said.
With chronic transfusions needed to maintain hemoglobin levels, TDT patients inevitably experience iron overload, which can lead to organ damage and can be fatal. Consequently, patients will require lifelong iron chelation therapy, she added.
Beti-cel, an investigational ex vivo gene addition therapy currently under review by the U.S. Food and Drug Administration, involves adding functional copies of a modified form of the beta-globin gene into a patient’s own hematopoietic stem cells. Once those cells are reinfused, patients may produce adult hemoglobin at levels that eliminate the need for transfusions, according to Dr. Thompson.
At the meeting, Dr. Thompson reported on patients from two phase 1/2 and two phase 3 beti-cel clinical trials who subsequently enrolled in LTF-303, a 13-year follow-up study of the gene therapy’s safety and efficacy.
A total of 57 patients were included in this report, making it the largest gene therapy program to date in any blood disorder, according to Dr. Thompson. Before receiving beti-cel, the patients, who had a broad range of thalassemia genotypes, were receiving between 10 and almost 40 red blood cell transfusions per year, she reported.
Patients ranged in age from 5 to 35 years. The median age in the phase 1/2 studies was 20 years, while in the phase 3 studies it was 15 years.
“The early experience in the phase 1/2 trials allowed us to be more comfortable with enrolling more children, and that has actually helped us to understand safety and efficacy and children in the phase 3 setting,” Dr. Thompson said.
Fertility preservation measures had been undertaken by about 59% of patients from the phase 1/2 studies and 71% of patients from the phase 3 studies, the data show.
Among patients from the phase 3 beti-cel studies who could be evaluated, 31 out of 35 (or 89%) achieved durable transfusion independence, according to the investigator.
The median duration of ongoing transfusion independence was 32 months, with a range of about 18 to 49 months, she added.
Dr. Thompson also reported a subanalysis intended to assess iron status in 16 patients who restarted and then stopped chelation. That subanalysis demonstrated iron reduction in response to chelation, and then stabilization of iron markers after chelation was stopped. Post-gene therapy chelation led to reductions in liver iron concentration and serum ferritin that remained relatively stable after chelation was stopped, she said.
Serious adverse events occurred in eight patients in the long-term follow-up study. However, adverse events related to beti-cel have been absent beyond 2 years post-infusion, according to Dr. Thompson, who added that there have been no reported cases of replication-competent lentivirus, no clonal expansion, no insertional oncogenesis, and no malignancies observed.
“Very reassuringly, there have been 2 male patients, one of whom underwent fertility preservation, who report having healthy children with their partners,” she added.
Dr. Thompson provided disclosures related to Baxalta, Biomarin, bluebird bio, Inc., Celgene/BMS, CRISPR Therapeutics, Vertex, Editas, Graphite Bio, Novartis, Agios, Beam, and Global Blood Therapeutics.
FROM ASH 2021
Risk-based antenatal type-and-screen blood testing safe and economical
Implementing a selective type-and-screen blood testing policy in the labor and delivery unit was associated with projected annual savings of close to $200,000, a large single-center study found. Furthermore, there was no evidence of increased maternal morbidity in the university-based facility performing more than 4,400 deliveries per year, according to Ashley E. Benson, MD, MA, of the department of obstetrics and gynecology at the University of Utah, Salt Lake City, and colleagues.
The study, published in Obstetrics & Gynecology, evaluated patient safety, resource utilization, and transfusion-related costs after a policy change from universal type and screen to selective, risk-based type and screen on admission to labor and delivery.
“There had been some national interest in moving toward decreased resource utilization, and findings that universal screening was not cost effective,” Dr. Benson, who has since relocated to Oregon Health & Science University, Portland, said in an interview. An earlier cost-effective modeling study at her center had suggested that universal test and screen was not cost effective and likely not safer either. “So based on that data we felt an implementation study was warranted.”
The switch to a selective policy was made in 2018, after which her group compared outcomes from October 2017 to September 2019, looking those both 1 year preimplementation and 1 year post implementation.
One year post implementation, the following outcomes emerged, compared with preimplementation:
- Overall projected saving of $181,000 a year in the maternity unit
- Lower mean monthly type- and screen-related costs, such as those for ABO typing, antibody screen, and antibody workup. cross-matches, hold clots, and transfused products: $9,753 vs. $20,676 in the preimplementation year (P < .001)
- A lower mean monthly cost of total transfusion preparedness: $25,090 vs. $39,211 (P < .001)
- No differences in emergency-release transfusion events (four vs. three, P = .99),the study’s primary safety outcome
- Fewer emergency-release red blood cell units transfused (9 vs. 24, P = .002) and O-negative RBC units transfused (8 vs. 18, P = .016)
- No differences in hysterectomies (0.05% vs. 0.1%, P = .44) and ICU admissions (0.45% vs. 0.51%, P = .43)
“In a year of selective type and screen, we saw a 51% reduction in costs related to type and screen, and a 38% reduction in overall transfusion-related costs,” the authors wrote. “This study supports other literature suggesting that more judicious use of type and screen may be safe and cost effective.”
Dr. Benson said the results were positively received when presented a meeting 2 years ago but the published version has yet to prompt feedback.
The study
Antepartum patients underwent transfusion preparedness tests according to the center’s standard antenatal admission order sets and were risk stratified in alignment with California Maternal Quality Care Collaborative recommendations. The mean maternal age of patients in both time periods was similar at just over 29 years and the mean gestational age at delivery was just under 38 weeks.
Under the new policy, a “hold clot” is obtained for women stratified as low or medium risk on admission. In this instance, a tube of patient blood is held in the blood bank but processed only if needed, as in the event of active hemorrhage or an order for transfusion. A blood cross-match is obtained on all women stratified as high risk or having a prior positive antibody screen.
Relevant costs were the direct costs of transfusion-related testing in the labor and delivery unit from a health system perspective.
Obstetric hemorrhage is the leading cause of maternal death worldwide, the authors pointed out. While transfusion in obstetric patients occurs in only 1% or 2% of all deliveries it is nevertheless difficult to predict which patients will need transfusion, with only 2%-8% of those stratified as high risk ultimately requiring transfusion. Although obstetric hemorrhage safety bundles recommend risk stratification on admission to labor and delivery with selective type and screen for higher-risk individuals, for safety and simplicity’s sake, many labor and delivery units perform universal type and screen.
The authors cautioned that these results occurred in an academic tertiary care center with systems fine-tuned to deal with active hemorrhage and deliver timely transfusable blood. “At the moment we don’t have enough data to say whether the selective approach would be safe in hospitals with more limited blood bank capacity and access and fewer transfusion specialists in a setting optimized to respond to emergent needs, Dr. Benson said.
Katayoun F. M. Fomani, MD, a transfusion medicine specialist and medical director of blood bank and transfusion services at Long Island Jewish Medical Center, New York, agreed. “This approach only works in a controlled environment such as in this study where eligible women were assessed antenatally at the same center, but it would not work at every institution,” she said in an interview. “In addition, all patients were assessed according to the California Collaborative guideline, which itself increases the safety level but is not followed everywhere.”
The obstetric division at her hospital in New York adheres to the universal type and screen. “We have patients coming in from outside whose antenatal testing was not done at our hospital,” she said. “For this selective approach to work you need a controlled population and the electronic resources and personnel to follow each patient carefully.”
The authors indicated no specific funding for this study and disclosed no potential conflicts of interest. Dr. Fomani had no potential competing interests to declare.
Implementing a selective type-and-screen blood testing policy in the labor and delivery unit was associated with projected annual savings of close to $200,000, a large single-center study found. Furthermore, there was no evidence of increased maternal morbidity in the university-based facility performing more than 4,400 deliveries per year, according to Ashley E. Benson, MD, MA, of the department of obstetrics and gynecology at the University of Utah, Salt Lake City, and colleagues.
The study, published in Obstetrics & Gynecology, evaluated patient safety, resource utilization, and transfusion-related costs after a policy change from universal type and screen to selective, risk-based type and screen on admission to labor and delivery.
“There had been some national interest in moving toward decreased resource utilization, and findings that universal screening was not cost effective,” Dr. Benson, who has since relocated to Oregon Health & Science University, Portland, said in an interview. An earlier cost-effective modeling study at her center had suggested that universal test and screen was not cost effective and likely not safer either. “So based on that data we felt an implementation study was warranted.”
The switch to a selective policy was made in 2018, after which her group compared outcomes from October 2017 to September 2019, looking those both 1 year preimplementation and 1 year post implementation.
One year post implementation, the following outcomes emerged, compared with preimplementation:
- Overall projected saving of $181,000 a year in the maternity unit
- Lower mean monthly type- and screen-related costs, such as those for ABO typing, antibody screen, and antibody workup. cross-matches, hold clots, and transfused products: $9,753 vs. $20,676 in the preimplementation year (P < .001)
- A lower mean monthly cost of total transfusion preparedness: $25,090 vs. $39,211 (P < .001)
- No differences in emergency-release transfusion events (four vs. three, P = .99),the study’s primary safety outcome
- Fewer emergency-release red blood cell units transfused (9 vs. 24, P = .002) and O-negative RBC units transfused (8 vs. 18, P = .016)
- No differences in hysterectomies (0.05% vs. 0.1%, P = .44) and ICU admissions (0.45% vs. 0.51%, P = .43)
“In a year of selective type and screen, we saw a 51% reduction in costs related to type and screen, and a 38% reduction in overall transfusion-related costs,” the authors wrote. “This study supports other literature suggesting that more judicious use of type and screen may be safe and cost effective.”
Dr. Benson said the results were positively received when presented a meeting 2 years ago but the published version has yet to prompt feedback.
The study
Antepartum patients underwent transfusion preparedness tests according to the center’s standard antenatal admission order sets and were risk stratified in alignment with California Maternal Quality Care Collaborative recommendations. The mean maternal age of patients in both time periods was similar at just over 29 years and the mean gestational age at delivery was just under 38 weeks.
Under the new policy, a “hold clot” is obtained for women stratified as low or medium risk on admission. In this instance, a tube of patient blood is held in the blood bank but processed only if needed, as in the event of active hemorrhage or an order for transfusion. A blood cross-match is obtained on all women stratified as high risk or having a prior positive antibody screen.
Relevant costs were the direct costs of transfusion-related testing in the labor and delivery unit from a health system perspective.
Obstetric hemorrhage is the leading cause of maternal death worldwide, the authors pointed out. While transfusion in obstetric patients occurs in only 1% or 2% of all deliveries it is nevertheless difficult to predict which patients will need transfusion, with only 2%-8% of those stratified as high risk ultimately requiring transfusion. Although obstetric hemorrhage safety bundles recommend risk stratification on admission to labor and delivery with selective type and screen for higher-risk individuals, for safety and simplicity’s sake, many labor and delivery units perform universal type and screen.
The authors cautioned that these results occurred in an academic tertiary care center with systems fine-tuned to deal with active hemorrhage and deliver timely transfusable blood. “At the moment we don’t have enough data to say whether the selective approach would be safe in hospitals with more limited blood bank capacity and access and fewer transfusion specialists in a setting optimized to respond to emergent needs, Dr. Benson said.
Katayoun F. M. Fomani, MD, a transfusion medicine specialist and medical director of blood bank and transfusion services at Long Island Jewish Medical Center, New York, agreed. “This approach only works in a controlled environment such as in this study where eligible women were assessed antenatally at the same center, but it would not work at every institution,” she said in an interview. “In addition, all patients were assessed according to the California Collaborative guideline, which itself increases the safety level but is not followed everywhere.”
The obstetric division at her hospital in New York adheres to the universal type and screen. “We have patients coming in from outside whose antenatal testing was not done at our hospital,” she said. “For this selective approach to work you need a controlled population and the electronic resources and personnel to follow each patient carefully.”
The authors indicated no specific funding for this study and disclosed no potential conflicts of interest. Dr. Fomani had no potential competing interests to declare.
Implementing a selective type-and-screen blood testing policy in the labor and delivery unit was associated with projected annual savings of close to $200,000, a large single-center study found. Furthermore, there was no evidence of increased maternal morbidity in the university-based facility performing more than 4,400 deliveries per year, according to Ashley E. Benson, MD, MA, of the department of obstetrics and gynecology at the University of Utah, Salt Lake City, and colleagues.
The study, published in Obstetrics & Gynecology, evaluated patient safety, resource utilization, and transfusion-related costs after a policy change from universal type and screen to selective, risk-based type and screen on admission to labor and delivery.
“There had been some national interest in moving toward decreased resource utilization, and findings that universal screening was not cost effective,” Dr. Benson, who has since relocated to Oregon Health & Science University, Portland, said in an interview. An earlier cost-effective modeling study at her center had suggested that universal test and screen was not cost effective and likely not safer either. “So based on that data we felt an implementation study was warranted.”
The switch to a selective policy was made in 2018, after which her group compared outcomes from October 2017 to September 2019, looking those both 1 year preimplementation and 1 year post implementation.
One year post implementation, the following outcomes emerged, compared with preimplementation:
- Overall projected saving of $181,000 a year in the maternity unit
- Lower mean monthly type- and screen-related costs, such as those for ABO typing, antibody screen, and antibody workup. cross-matches, hold clots, and transfused products: $9,753 vs. $20,676 in the preimplementation year (P < .001)
- A lower mean monthly cost of total transfusion preparedness: $25,090 vs. $39,211 (P < .001)
- No differences in emergency-release transfusion events (four vs. three, P = .99),the study’s primary safety outcome
- Fewer emergency-release red blood cell units transfused (9 vs. 24, P = .002) and O-negative RBC units transfused (8 vs. 18, P = .016)
- No differences in hysterectomies (0.05% vs. 0.1%, P = .44) and ICU admissions (0.45% vs. 0.51%, P = .43)
“In a year of selective type and screen, we saw a 51% reduction in costs related to type and screen, and a 38% reduction in overall transfusion-related costs,” the authors wrote. “This study supports other literature suggesting that more judicious use of type and screen may be safe and cost effective.”
Dr. Benson said the results were positively received when presented a meeting 2 years ago but the published version has yet to prompt feedback.
The study
Antepartum patients underwent transfusion preparedness tests according to the center’s standard antenatal admission order sets and were risk stratified in alignment with California Maternal Quality Care Collaborative recommendations. The mean maternal age of patients in both time periods was similar at just over 29 years and the mean gestational age at delivery was just under 38 weeks.
Under the new policy, a “hold clot” is obtained for women stratified as low or medium risk on admission. In this instance, a tube of patient blood is held in the blood bank but processed only if needed, as in the event of active hemorrhage or an order for transfusion. A blood cross-match is obtained on all women stratified as high risk or having a prior positive antibody screen.
Relevant costs were the direct costs of transfusion-related testing in the labor and delivery unit from a health system perspective.
Obstetric hemorrhage is the leading cause of maternal death worldwide, the authors pointed out. While transfusion in obstetric patients occurs in only 1% or 2% of all deliveries it is nevertheless difficult to predict which patients will need transfusion, with only 2%-8% of those stratified as high risk ultimately requiring transfusion. Although obstetric hemorrhage safety bundles recommend risk stratification on admission to labor and delivery with selective type and screen for higher-risk individuals, for safety and simplicity’s sake, many labor and delivery units perform universal type and screen.
The authors cautioned that these results occurred in an academic tertiary care center with systems fine-tuned to deal with active hemorrhage and deliver timely transfusable blood. “At the moment we don’t have enough data to say whether the selective approach would be safe in hospitals with more limited blood bank capacity and access and fewer transfusion specialists in a setting optimized to respond to emergent needs, Dr. Benson said.
Katayoun F. M. Fomani, MD, a transfusion medicine specialist and medical director of blood bank and transfusion services at Long Island Jewish Medical Center, New York, agreed. “This approach only works in a controlled environment such as in this study where eligible women were assessed antenatally at the same center, but it would not work at every institution,” she said in an interview. “In addition, all patients were assessed according to the California Collaborative guideline, which itself increases the safety level but is not followed everywhere.”
The obstetric division at her hospital in New York adheres to the universal type and screen. “We have patients coming in from outside whose antenatal testing was not done at our hospital,” she said. “For this selective approach to work you need a controlled population and the electronic resources and personnel to follow each patient carefully.”
The authors indicated no specific funding for this study and disclosed no potential conflicts of interest. Dr. Fomani had no potential competing interests to declare.
FROM OBSTETRICS & GYNECOLOGY
Hemochromatosis variants may confer 10-fold higher risk of liver cancer
Hereditary hemochromatosis is primarily caused by HFE gene variants. Past research suggested that 81% of patients with hereditary hemochromatosis carry the p.C282Y variant and 5% carry the p.C282Y/p.H63D compound heterozygote genotype.
In a new study, the presence of HFE p.C282Y and p.H63D genotypes was associated with a 10-fold greater risk of developing a hepatic malignancy among men of European ancestry aged 40-70 years. In addition, men with HFE variants were 1.2 times more likely to die of any cause, compared with men who had neither pathogenic variant.
Janice L. Atkins, PhD, of the University of Exeter (England), and colleagues reported these findings in JAMA.
For this study, Dr. Atkins and colleagues used follow-up data from a large genotyped community sample to estimate the incidence of primary hepatic carcinomas and deaths by HFE variant status in participants of European descent.
Data for the two linked coprimary endpoints, incident primary liver carcinoma and all-cause mortality, were derived from hospital and death certificate records. Where available, primary care data was also included.
Results: Increased risks for men, not women
The researchers analyzed data from 451,186 men and women, aged 40-70 years, from the UK Biobank. There were 2,890 (0.9%) patients who were p.C282Y homozygous, 1,294 of whom were men.
Among the 1,294 men with HFE p.C282Y homozygosity, 21 were diagnosed with a primary hepatic malignancy. Ten of these patients were not diagnosed with hemochromatosis at baseline.
At a median follow-up of 8.9 years, the risk of primary hepatic malignancy was significantly higher in men with HFE p.C282Y homozygosity, compared with men without HFE pathogenic variants (hazard ratio, 10.5; 95% confidence interval, 6.6-16.7; P < .001).
The risk of all-cause death was significantly higher in men with HFE p.C282Y homozygosity as well (HR, 1.2; 95% CI, 1.0-1.5; P = .046).
In contrast, female HFE p.C282Y homozygotes had no significant increases in the risk of incident primary hepatic malignancy or all-cause mortality.
Life table projections estimated that 7.2% of men with HFE p.C282Y homozygosity will develop a primary hepatic malignancy by age 75, compared with 0.6% of men without p.C282Y or p.H63D variants.
The researchers acknowledged that a key limitation of this study was the ancestral homogeneity of the cohort. Thus, the findings may not be generalizable to all patient populations.
Implications: Earlier diagnosis and treatment
The results of this study underline the importance of early diagnosis and genetic testing, according to the researchers.
“Tragically, men with the hemochromatosis faulty genes have been dying of liver cancer for many years, but this was thought to be rare,” study author David Melzer, MBBCh, PhD, of University of Exeter, said in a press release.
“The large scale of the UK Biobank study allowed us to measure cancer risk accurately. We were shocked to find that more than 7% of men with two faulty genes are likely to develop liver cancer by age 75, particularly considering that the U.K. has the second-highest rate of these faulty genes in the world. Fortunately, most of these cancers could be prevented with early treatment,” Dr. Melzer added.
“Physicians and scientists have long acknowledged that iron overload is an important cofactor fueling the development of many serious diseases, including cancer,” said study author Jeremy Shearman, MBChB, DPhil, of Nuffield Health and South Warwickshire NHS Foundation Trust in the United Kingdom.
“This research is a vital step towards quantifying that risk and should raise awareness of the importance of iron in the minds of both clinicians and patients. Measurement of iron stores and recognition of the genetic risk of iron overload needs to become a routine part of health assessment and monitoring in the U.K.,” Dr. Shearman added.
“The UK Biobank project is a glimpse into the future of medicine where all known genes are tested and then treatable conditions are offered treatment before serious complications develop,” said study author Paul Adams, MD, of the University of Western Ontario in London.
This research was funded by the UK Medical Research Council. Dr. Melzer disclosed financial affiliations with the UK Medical Research Council during the conduct of the study.
SOURCE: Atkins JL et al. JAMA. 2020 Nov 24. doi: 10.1001/jama.2020.21566.
Hereditary hemochromatosis is primarily caused by HFE gene variants. Past research suggested that 81% of patients with hereditary hemochromatosis carry the p.C282Y variant and 5% carry the p.C282Y/p.H63D compound heterozygote genotype.
In a new study, the presence of HFE p.C282Y and p.H63D genotypes was associated with a 10-fold greater risk of developing a hepatic malignancy among men of European ancestry aged 40-70 years. In addition, men with HFE variants were 1.2 times more likely to die of any cause, compared with men who had neither pathogenic variant.
Janice L. Atkins, PhD, of the University of Exeter (England), and colleagues reported these findings in JAMA.
For this study, Dr. Atkins and colleagues used follow-up data from a large genotyped community sample to estimate the incidence of primary hepatic carcinomas and deaths by HFE variant status in participants of European descent.
Data for the two linked coprimary endpoints, incident primary liver carcinoma and all-cause mortality, were derived from hospital and death certificate records. Where available, primary care data was also included.
Results: Increased risks for men, not women
The researchers analyzed data from 451,186 men and women, aged 40-70 years, from the UK Biobank. There were 2,890 (0.9%) patients who were p.C282Y homozygous, 1,294 of whom were men.
Among the 1,294 men with HFE p.C282Y homozygosity, 21 were diagnosed with a primary hepatic malignancy. Ten of these patients were not diagnosed with hemochromatosis at baseline.
At a median follow-up of 8.9 years, the risk of primary hepatic malignancy was significantly higher in men with HFE p.C282Y homozygosity, compared with men without HFE pathogenic variants (hazard ratio, 10.5; 95% confidence interval, 6.6-16.7; P < .001).
The risk of all-cause death was significantly higher in men with HFE p.C282Y homozygosity as well (HR, 1.2; 95% CI, 1.0-1.5; P = .046).
In contrast, female HFE p.C282Y homozygotes had no significant increases in the risk of incident primary hepatic malignancy or all-cause mortality.
Life table projections estimated that 7.2% of men with HFE p.C282Y homozygosity will develop a primary hepatic malignancy by age 75, compared with 0.6% of men without p.C282Y or p.H63D variants.
The researchers acknowledged that a key limitation of this study was the ancestral homogeneity of the cohort. Thus, the findings may not be generalizable to all patient populations.
Implications: Earlier diagnosis and treatment
The results of this study underline the importance of early diagnosis and genetic testing, according to the researchers.
“Tragically, men with the hemochromatosis faulty genes have been dying of liver cancer for many years, but this was thought to be rare,” study author David Melzer, MBBCh, PhD, of University of Exeter, said in a press release.
“The large scale of the UK Biobank study allowed us to measure cancer risk accurately. We were shocked to find that more than 7% of men with two faulty genes are likely to develop liver cancer by age 75, particularly considering that the U.K. has the second-highest rate of these faulty genes in the world. Fortunately, most of these cancers could be prevented with early treatment,” Dr. Melzer added.
“Physicians and scientists have long acknowledged that iron overload is an important cofactor fueling the development of many serious diseases, including cancer,” said study author Jeremy Shearman, MBChB, DPhil, of Nuffield Health and South Warwickshire NHS Foundation Trust in the United Kingdom.
“This research is a vital step towards quantifying that risk and should raise awareness of the importance of iron in the minds of both clinicians and patients. Measurement of iron stores and recognition of the genetic risk of iron overload needs to become a routine part of health assessment and monitoring in the U.K.,” Dr. Shearman added.
“The UK Biobank project is a glimpse into the future of medicine where all known genes are tested and then treatable conditions are offered treatment before serious complications develop,” said study author Paul Adams, MD, of the University of Western Ontario in London.
This research was funded by the UK Medical Research Council. Dr. Melzer disclosed financial affiliations with the UK Medical Research Council during the conduct of the study.
SOURCE: Atkins JL et al. JAMA. 2020 Nov 24. doi: 10.1001/jama.2020.21566.
Hereditary hemochromatosis is primarily caused by HFE gene variants. Past research suggested that 81% of patients with hereditary hemochromatosis carry the p.C282Y variant and 5% carry the p.C282Y/p.H63D compound heterozygote genotype.
In a new study, the presence of HFE p.C282Y and p.H63D genotypes was associated with a 10-fold greater risk of developing a hepatic malignancy among men of European ancestry aged 40-70 years. In addition, men with HFE variants were 1.2 times more likely to die of any cause, compared with men who had neither pathogenic variant.
Janice L. Atkins, PhD, of the University of Exeter (England), and colleagues reported these findings in JAMA.
For this study, Dr. Atkins and colleagues used follow-up data from a large genotyped community sample to estimate the incidence of primary hepatic carcinomas and deaths by HFE variant status in participants of European descent.
Data for the two linked coprimary endpoints, incident primary liver carcinoma and all-cause mortality, were derived from hospital and death certificate records. Where available, primary care data was also included.
Results: Increased risks for men, not women
The researchers analyzed data from 451,186 men and women, aged 40-70 years, from the UK Biobank. There were 2,890 (0.9%) patients who were p.C282Y homozygous, 1,294 of whom were men.
Among the 1,294 men with HFE p.C282Y homozygosity, 21 were diagnosed with a primary hepatic malignancy. Ten of these patients were not diagnosed with hemochromatosis at baseline.
At a median follow-up of 8.9 years, the risk of primary hepatic malignancy was significantly higher in men with HFE p.C282Y homozygosity, compared with men without HFE pathogenic variants (hazard ratio, 10.5; 95% confidence interval, 6.6-16.7; P < .001).
The risk of all-cause death was significantly higher in men with HFE p.C282Y homozygosity as well (HR, 1.2; 95% CI, 1.0-1.5; P = .046).
In contrast, female HFE p.C282Y homozygotes had no significant increases in the risk of incident primary hepatic malignancy or all-cause mortality.
Life table projections estimated that 7.2% of men with HFE p.C282Y homozygosity will develop a primary hepatic malignancy by age 75, compared with 0.6% of men without p.C282Y or p.H63D variants.
The researchers acknowledged that a key limitation of this study was the ancestral homogeneity of the cohort. Thus, the findings may not be generalizable to all patient populations.
Implications: Earlier diagnosis and treatment
The results of this study underline the importance of early diagnosis and genetic testing, according to the researchers.
“Tragically, men with the hemochromatosis faulty genes have been dying of liver cancer for many years, but this was thought to be rare,” study author David Melzer, MBBCh, PhD, of University of Exeter, said in a press release.
“The large scale of the UK Biobank study allowed us to measure cancer risk accurately. We were shocked to find that more than 7% of men with two faulty genes are likely to develop liver cancer by age 75, particularly considering that the U.K. has the second-highest rate of these faulty genes in the world. Fortunately, most of these cancers could be prevented with early treatment,” Dr. Melzer added.
“Physicians and scientists have long acknowledged that iron overload is an important cofactor fueling the development of many serious diseases, including cancer,” said study author Jeremy Shearman, MBChB, DPhil, of Nuffield Health and South Warwickshire NHS Foundation Trust in the United Kingdom.
“This research is a vital step towards quantifying that risk and should raise awareness of the importance of iron in the minds of both clinicians and patients. Measurement of iron stores and recognition of the genetic risk of iron overload needs to become a routine part of health assessment and monitoring in the U.K.,” Dr. Shearman added.
“The UK Biobank project is a glimpse into the future of medicine where all known genes are tested and then treatable conditions are offered treatment before serious complications develop,” said study author Paul Adams, MD, of the University of Western Ontario in London.
This research was funded by the UK Medical Research Council. Dr. Melzer disclosed financial affiliations with the UK Medical Research Council during the conduct of the study.
SOURCE: Atkins JL et al. JAMA. 2020 Nov 24. doi: 10.1001/jama.2020.21566.
FROM JAMA
INR fails to predict bleeding in patients with cirrhosis
International normalized ratio (INR) does not predict periprocedural bleeding in patients with cirrhosis, according to a meta-analysis of 29 studies.
This finding should deter the common practice of delivering blood products to cirrhotic patients with an elevated INR, reported lead author Alexander J. Kovalic, MD, of Novant Forsyth Medical Center in Winston Salem, N.C., and colleagues.
“INR measurement among cirrhotic patients is important in MELD [Model for End-Stage Liver Disease] prognostication and assessment of underlying hepatic synthetic function, however the INR alone does not capture the complicated interplay of anticoagulant and procoagulant deficiencies present in cirrhotic coagulopathy,” Dr. Kovalic and colleagues wrote in Alimentary Pharmacology & Therapeutics. “Yet, the ‘correction’ of these aberrancies among peripheral coagulation tests remains common ... even in modern practice, and not uncommonly occurs in the periprocedural setting.”
According to investigators, addressing INR with blood transfusion can have a litany of negative effects. Beyond the risks faced by all patient populations, increasing blood volume in those with cirrhosis can increase portal venous pressure, thereby raising risks of portal gastropathy or variceal hemorrhage. In addition, giving plasma products to patients with cirrhotic coagulopathy may further disrupt the balance between anticoagulants and procoagulants, potentially triggering disseminated intravascular coagulation.
Dr. Kovalic and colleagues noted that the lack of correlation between peripheral coagulation tests and bleeding risk has been a longstanding subject of investigation, citing studies from as early as 1981.
To add further weight to this body of evidence, the investigators conducted a systematic review and meta-analysis involving 13,276 patients with cirrhosis who underwent various procedures between 1999 and 2019. Primary outcomes included periprocedural bleeding events and the association between preprocedural INR and periprocedural bleeding events. Secondary outcomes included mortality, quantity of blood and/or plasma products used, and relationship between preprocedural platelet count and periprocedural bleeding events.
The analysis showed that preprocedural INR was not significantly associated with periprocedural bleeding events (pooled odds ratio, 1.52; 95% confidence interval, 0.99-2.33; P = .06), a finding that held across INR threshold subgroups. Similarly, no significant difference was found between mean INR of patients who had bleeding events versus that of those who did not (pooled mean difference, 0.05; 95% CI, 0.03-0.13; P = .23).
Preprocedural platelet count was also a poor predictor of periprocedural bleeding, with a pooled odds ratio of 1.24 (95% CI, 0.55-2.77; P = .60), although the investigators noted that platelet count thresholds varied widely across studies, from 30 to 150 × 109/L. When studies were stratified by procedural bleeding risk or procedure type, subgroup effects were no longer significant. Other secondary endpoints were incalculable because of insufficient data.
“Hopefully, these findings will spark initiation of more large-scale, higher-quality studies ... to reinforce minimizing administration of fresh frozen plasma for inappropriate correction of INR, which carries a multitude of adverse effects among cirrhotic [patients],” the investigators concluded.
According to Stephen H. Caldwell, MD, of the University of Virginia in Charlottesville, “The present paper augments accumulating literature over the past 15 years that INR should be discarded as a measure of procedure-related bleeding risk.”
Dr. Caldwell pointed out that “bleeding in cirrhosis is usually related to portal hypertension not with impaired hemostasis, with the occasional exception of hyperfibrinolysis, which is very different from a prolonged INR.”
He went on to suggest that the present findings should dissuade clinicians from a practice that, for some, is reflexive rather than evidence based.
“It’s remarkable how many medical practices become entrenched based on hand-me-down teaching during our early training years, and remain so for many years beyond as we disperse into various medical and surgical fields,” Dr. Caldwell said. “These learned approaches to common problems can clearly persist for generations despite overwhelming evidence to the contrary that usually evolve slowly and well-insulated within subspecialties or sub-subspecialties, and hence take several generations of training to diffuse into the wider practice of medical care for common problems. These may become matters of expedience in decision-making, much like the old antibiotic conundrum of ‘no-think-a-cillin,’ as critics referred to over-use of broad spectrum antibiotics. And so it has been with the INR.”The investigators disclosed relationships with AbbVie, Eisai, Gilead, and others. Dr. Caldwell disclosed research support from Daiichi concerning the potential role of anticoagulation therapy in preventing cirrhosis progression.
SOURCE: Kovalic AJ et al. Aliment Pharmacol Ther. 2020 Sep 10. doi: 10.1111/apt.16078.
International normalized ratio (INR) does not predict periprocedural bleeding in patients with cirrhosis, according to a meta-analysis of 29 studies.
This finding should deter the common practice of delivering blood products to cirrhotic patients with an elevated INR, reported lead author Alexander J. Kovalic, MD, of Novant Forsyth Medical Center in Winston Salem, N.C., and colleagues.
“INR measurement among cirrhotic patients is important in MELD [Model for End-Stage Liver Disease] prognostication and assessment of underlying hepatic synthetic function, however the INR alone does not capture the complicated interplay of anticoagulant and procoagulant deficiencies present in cirrhotic coagulopathy,” Dr. Kovalic and colleagues wrote in Alimentary Pharmacology & Therapeutics. “Yet, the ‘correction’ of these aberrancies among peripheral coagulation tests remains common ... even in modern practice, and not uncommonly occurs in the periprocedural setting.”
According to investigators, addressing INR with blood transfusion can have a litany of negative effects. Beyond the risks faced by all patient populations, increasing blood volume in those with cirrhosis can increase portal venous pressure, thereby raising risks of portal gastropathy or variceal hemorrhage. In addition, giving plasma products to patients with cirrhotic coagulopathy may further disrupt the balance between anticoagulants and procoagulants, potentially triggering disseminated intravascular coagulation.
Dr. Kovalic and colleagues noted that the lack of correlation between peripheral coagulation tests and bleeding risk has been a longstanding subject of investigation, citing studies from as early as 1981.
To add further weight to this body of evidence, the investigators conducted a systematic review and meta-analysis involving 13,276 patients with cirrhosis who underwent various procedures between 1999 and 2019. Primary outcomes included periprocedural bleeding events and the association between preprocedural INR and periprocedural bleeding events. Secondary outcomes included mortality, quantity of blood and/or plasma products used, and relationship between preprocedural platelet count and periprocedural bleeding events.
The analysis showed that preprocedural INR was not significantly associated with periprocedural bleeding events (pooled odds ratio, 1.52; 95% confidence interval, 0.99-2.33; P = .06), a finding that held across INR threshold subgroups. Similarly, no significant difference was found between mean INR of patients who had bleeding events versus that of those who did not (pooled mean difference, 0.05; 95% CI, 0.03-0.13; P = .23).
Preprocedural platelet count was also a poor predictor of periprocedural bleeding, with a pooled odds ratio of 1.24 (95% CI, 0.55-2.77; P = .60), although the investigators noted that platelet count thresholds varied widely across studies, from 30 to 150 × 109/L. When studies were stratified by procedural bleeding risk or procedure type, subgroup effects were no longer significant. Other secondary endpoints were incalculable because of insufficient data.
“Hopefully, these findings will spark initiation of more large-scale, higher-quality studies ... to reinforce minimizing administration of fresh frozen plasma for inappropriate correction of INR, which carries a multitude of adverse effects among cirrhotic [patients],” the investigators concluded.
According to Stephen H. Caldwell, MD, of the University of Virginia in Charlottesville, “The present paper augments accumulating literature over the past 15 years that INR should be discarded as a measure of procedure-related bleeding risk.”
Dr. Caldwell pointed out that “bleeding in cirrhosis is usually related to portal hypertension not with impaired hemostasis, with the occasional exception of hyperfibrinolysis, which is very different from a prolonged INR.”
He went on to suggest that the present findings should dissuade clinicians from a practice that, for some, is reflexive rather than evidence based.
“It’s remarkable how many medical practices become entrenched based on hand-me-down teaching during our early training years, and remain so for many years beyond as we disperse into various medical and surgical fields,” Dr. Caldwell said. “These learned approaches to common problems can clearly persist for generations despite overwhelming evidence to the contrary that usually evolve slowly and well-insulated within subspecialties or sub-subspecialties, and hence take several generations of training to diffuse into the wider practice of medical care for common problems. These may become matters of expedience in decision-making, much like the old antibiotic conundrum of ‘no-think-a-cillin,’ as critics referred to over-use of broad spectrum antibiotics. And so it has been with the INR.”The investigators disclosed relationships with AbbVie, Eisai, Gilead, and others. Dr. Caldwell disclosed research support from Daiichi concerning the potential role of anticoagulation therapy in preventing cirrhosis progression.
SOURCE: Kovalic AJ et al. Aliment Pharmacol Ther. 2020 Sep 10. doi: 10.1111/apt.16078.
International normalized ratio (INR) does not predict periprocedural bleeding in patients with cirrhosis, according to a meta-analysis of 29 studies.
This finding should deter the common practice of delivering blood products to cirrhotic patients with an elevated INR, reported lead author Alexander J. Kovalic, MD, of Novant Forsyth Medical Center in Winston Salem, N.C., and colleagues.
“INR measurement among cirrhotic patients is important in MELD [Model for End-Stage Liver Disease] prognostication and assessment of underlying hepatic synthetic function, however the INR alone does not capture the complicated interplay of anticoagulant and procoagulant deficiencies present in cirrhotic coagulopathy,” Dr. Kovalic and colleagues wrote in Alimentary Pharmacology & Therapeutics. “Yet, the ‘correction’ of these aberrancies among peripheral coagulation tests remains common ... even in modern practice, and not uncommonly occurs in the periprocedural setting.”
According to investigators, addressing INR with blood transfusion can have a litany of negative effects. Beyond the risks faced by all patient populations, increasing blood volume in those with cirrhosis can increase portal venous pressure, thereby raising risks of portal gastropathy or variceal hemorrhage. In addition, giving plasma products to patients with cirrhotic coagulopathy may further disrupt the balance between anticoagulants and procoagulants, potentially triggering disseminated intravascular coagulation.
Dr. Kovalic and colleagues noted that the lack of correlation between peripheral coagulation tests and bleeding risk has been a longstanding subject of investigation, citing studies from as early as 1981.
To add further weight to this body of evidence, the investigators conducted a systematic review and meta-analysis involving 13,276 patients with cirrhosis who underwent various procedures between 1999 and 2019. Primary outcomes included periprocedural bleeding events and the association between preprocedural INR and periprocedural bleeding events. Secondary outcomes included mortality, quantity of blood and/or plasma products used, and relationship between preprocedural platelet count and periprocedural bleeding events.
The analysis showed that preprocedural INR was not significantly associated with periprocedural bleeding events (pooled odds ratio, 1.52; 95% confidence interval, 0.99-2.33; P = .06), a finding that held across INR threshold subgroups. Similarly, no significant difference was found between mean INR of patients who had bleeding events versus that of those who did not (pooled mean difference, 0.05; 95% CI, 0.03-0.13; P = .23).
Preprocedural platelet count was also a poor predictor of periprocedural bleeding, with a pooled odds ratio of 1.24 (95% CI, 0.55-2.77; P = .60), although the investigators noted that platelet count thresholds varied widely across studies, from 30 to 150 × 109/L. When studies were stratified by procedural bleeding risk or procedure type, subgroup effects were no longer significant. Other secondary endpoints were incalculable because of insufficient data.
“Hopefully, these findings will spark initiation of more large-scale, higher-quality studies ... to reinforce minimizing administration of fresh frozen plasma for inappropriate correction of INR, which carries a multitude of adverse effects among cirrhotic [patients],” the investigators concluded.
According to Stephen H. Caldwell, MD, of the University of Virginia in Charlottesville, “The present paper augments accumulating literature over the past 15 years that INR should be discarded as a measure of procedure-related bleeding risk.”
Dr. Caldwell pointed out that “bleeding in cirrhosis is usually related to portal hypertension not with impaired hemostasis, with the occasional exception of hyperfibrinolysis, which is very different from a prolonged INR.”
He went on to suggest that the present findings should dissuade clinicians from a practice that, for some, is reflexive rather than evidence based.
“It’s remarkable how many medical practices become entrenched based on hand-me-down teaching during our early training years, and remain so for many years beyond as we disperse into various medical and surgical fields,” Dr. Caldwell said. “These learned approaches to common problems can clearly persist for generations despite overwhelming evidence to the contrary that usually evolve slowly and well-insulated within subspecialties or sub-subspecialties, and hence take several generations of training to diffuse into the wider practice of medical care for common problems. These may become matters of expedience in decision-making, much like the old antibiotic conundrum of ‘no-think-a-cillin,’ as critics referred to over-use of broad spectrum antibiotics. And so it has been with the INR.”The investigators disclosed relationships with AbbVie, Eisai, Gilead, and others. Dr. Caldwell disclosed research support from Daiichi concerning the potential role of anticoagulation therapy in preventing cirrhosis progression.
SOURCE: Kovalic AJ et al. Aliment Pharmacol Ther. 2020 Sep 10. doi: 10.1111/apt.16078.
FROM ALIMENTARY PHARMACOLOGY & THERAPEUTICS
Study finds no link between platelet count, surgery bleed risk in cirrhosis
The findings raise questions about current recommendations that call for transfusing platelet concentrates to reduce bleeding risk during surgery in cirrhosis patients with extremely low platelet counts, Gian Marco Podda, MD, PhD, said at the International Society on Thrombosis and Haemostasis virtual congress.
The overall rate of perioperative bleeding was 8.9% in 996 patients who underwent excision of hepatocellular carcinoma by resection (42%) or radiofrequency ablation (58%) without platelet transfusion between 1998 and 2018. The rates were slightly higher among 65 patients with platelet count of fewer than 50 × 109/L indicating severe thrombocytopenia, and in 292 patients with counts of 50-100 × 109/L, indicating moderate thrombocytopenia (10.8% and 10.2%, respectively), compared with those with a platelet count of higher than 100 × 109/L (8.1%), but the differences were not statistically significant, said Dr. Podda of the University of Milan (Italy).
The corresponding rates among those who underwent radiofrequency ablation were 8.6%, 5.9%, and 5%, and among those who underwent resection, they were 18.8%, 17.7%, and 15.9%.
On multivariate analysis, factors associated with an increased incidence of major bleeding were low hemoglobin level (odds ratio, 0.57), age over 65 years (OR, 1.19), aspartate aminotransferase level greater than twice the upper limit of normal (OR, 2.12), hepatitis B or C cirrhosis versus cryptogenic cirrhosis (OR, 0.08), and resection versus radiofrequency ablation (OR, 3.74), he noted. Logistic regression analysis showed no significant association between platelet count and major bleeding events.
Mortality, a secondary outcome measure, was significantly higher among those with moderate or severe thrombocytopenia (rate of 5.5% for each), compared with those with mild or no thrombocytopenia (2.4%), Dr. Podda said.
Factors associated with mortality on multivariate analysis were severe liver dysfunction as demonstrated by Model for End-Stage Liver Disease score of 10 or greater versus less than 10 (OR, 3.13) and Child-Pugh B and C score versus Child-Pugh A score (OR, 16.72), advanced tumor status as measured by Barcelona-Clínic Liver Cancer staging greater than A4 versus A1 (OR, 5.78), major bleeding (OR, 4.59), and resection versus radiofrequency ablation (OR, 3.31).
“Low platelet count was associated with an increased risk of mortality at 3 months. However, this association disappeared at the multivariate analysis, which took into account markers of severity of liver cirrhosis,” he said.
Dr. Podda and his colleagues conducted the study in light of a recommendation from a consensus conference of the Italian Association for the Study of Liver Disease and the Italian Society of Internal Medicine that called for increasing platelet count by platelet transfusions in patients with cirrhosis who undergo an invasive procedure and who have a platelet count lower than 50 × 109/L.
“This recommendation mostly stemmed from consideration of biological plausibility prospects rather than being based on hard experimental evidence,” he explained, noting that such severe thrombocytopenia affects about 10% of patients with liver cirrhosis.
Based on the findings of this study, the practice is not supported, he concluded.
Dr. Podda reported honoraria from Sanofi, Boehringer Ingelheim.
SOURCE: Ronca V et al. ISTH 2020, Abstract OC 13.4.
The findings raise questions about current recommendations that call for transfusing platelet concentrates to reduce bleeding risk during surgery in cirrhosis patients with extremely low platelet counts, Gian Marco Podda, MD, PhD, said at the International Society on Thrombosis and Haemostasis virtual congress.
The overall rate of perioperative bleeding was 8.9% in 996 patients who underwent excision of hepatocellular carcinoma by resection (42%) or radiofrequency ablation (58%) without platelet transfusion between 1998 and 2018. The rates were slightly higher among 65 patients with platelet count of fewer than 50 × 109/L indicating severe thrombocytopenia, and in 292 patients with counts of 50-100 × 109/L, indicating moderate thrombocytopenia (10.8% and 10.2%, respectively), compared with those with a platelet count of higher than 100 × 109/L (8.1%), but the differences were not statistically significant, said Dr. Podda of the University of Milan (Italy).
The corresponding rates among those who underwent radiofrequency ablation were 8.6%, 5.9%, and 5%, and among those who underwent resection, they were 18.8%, 17.7%, and 15.9%.
On multivariate analysis, factors associated with an increased incidence of major bleeding were low hemoglobin level (odds ratio, 0.57), age over 65 years (OR, 1.19), aspartate aminotransferase level greater than twice the upper limit of normal (OR, 2.12), hepatitis B or C cirrhosis versus cryptogenic cirrhosis (OR, 0.08), and resection versus radiofrequency ablation (OR, 3.74), he noted. Logistic regression analysis showed no significant association between platelet count and major bleeding events.
Mortality, a secondary outcome measure, was significantly higher among those with moderate or severe thrombocytopenia (rate of 5.5% for each), compared with those with mild or no thrombocytopenia (2.4%), Dr. Podda said.
Factors associated with mortality on multivariate analysis were severe liver dysfunction as demonstrated by Model for End-Stage Liver Disease score of 10 or greater versus less than 10 (OR, 3.13) and Child-Pugh B and C score versus Child-Pugh A score (OR, 16.72), advanced tumor status as measured by Barcelona-Clínic Liver Cancer staging greater than A4 versus A1 (OR, 5.78), major bleeding (OR, 4.59), and resection versus radiofrequency ablation (OR, 3.31).
“Low platelet count was associated with an increased risk of mortality at 3 months. However, this association disappeared at the multivariate analysis, which took into account markers of severity of liver cirrhosis,” he said.
Dr. Podda and his colleagues conducted the study in light of a recommendation from a consensus conference of the Italian Association for the Study of Liver Disease and the Italian Society of Internal Medicine that called for increasing platelet count by platelet transfusions in patients with cirrhosis who undergo an invasive procedure and who have a platelet count lower than 50 × 109/L.
“This recommendation mostly stemmed from consideration of biological plausibility prospects rather than being based on hard experimental evidence,” he explained, noting that such severe thrombocytopenia affects about 10% of patients with liver cirrhosis.
Based on the findings of this study, the practice is not supported, he concluded.
Dr. Podda reported honoraria from Sanofi, Boehringer Ingelheim.
SOURCE: Ronca V et al. ISTH 2020, Abstract OC 13.4.
The findings raise questions about current recommendations that call for transfusing platelet concentrates to reduce bleeding risk during surgery in cirrhosis patients with extremely low platelet counts, Gian Marco Podda, MD, PhD, said at the International Society on Thrombosis and Haemostasis virtual congress.
The overall rate of perioperative bleeding was 8.9% in 996 patients who underwent excision of hepatocellular carcinoma by resection (42%) or radiofrequency ablation (58%) without platelet transfusion between 1998 and 2018. The rates were slightly higher among 65 patients with platelet count of fewer than 50 × 109/L indicating severe thrombocytopenia, and in 292 patients with counts of 50-100 × 109/L, indicating moderate thrombocytopenia (10.8% and 10.2%, respectively), compared with those with a platelet count of higher than 100 × 109/L (8.1%), but the differences were not statistically significant, said Dr. Podda of the University of Milan (Italy).
The corresponding rates among those who underwent radiofrequency ablation were 8.6%, 5.9%, and 5%, and among those who underwent resection, they were 18.8%, 17.7%, and 15.9%.
On multivariate analysis, factors associated with an increased incidence of major bleeding were low hemoglobin level (odds ratio, 0.57), age over 65 years (OR, 1.19), aspartate aminotransferase level greater than twice the upper limit of normal (OR, 2.12), hepatitis B or C cirrhosis versus cryptogenic cirrhosis (OR, 0.08), and resection versus radiofrequency ablation (OR, 3.74), he noted. Logistic regression analysis showed no significant association between platelet count and major bleeding events.
Mortality, a secondary outcome measure, was significantly higher among those with moderate or severe thrombocytopenia (rate of 5.5% for each), compared with those with mild or no thrombocytopenia (2.4%), Dr. Podda said.
Factors associated with mortality on multivariate analysis were severe liver dysfunction as demonstrated by Model for End-Stage Liver Disease score of 10 or greater versus less than 10 (OR, 3.13) and Child-Pugh B and C score versus Child-Pugh A score (OR, 16.72), advanced tumor status as measured by Barcelona-Clínic Liver Cancer staging greater than A4 versus A1 (OR, 5.78), major bleeding (OR, 4.59), and resection versus radiofrequency ablation (OR, 3.31).
“Low platelet count was associated with an increased risk of mortality at 3 months. However, this association disappeared at the multivariate analysis, which took into account markers of severity of liver cirrhosis,” he said.
Dr. Podda and his colleagues conducted the study in light of a recommendation from a consensus conference of the Italian Association for the Study of Liver Disease and the Italian Society of Internal Medicine that called for increasing platelet count by platelet transfusions in patients with cirrhosis who undergo an invasive procedure and who have a platelet count lower than 50 × 109/L.
“This recommendation mostly stemmed from consideration of biological plausibility prospects rather than being based on hard experimental evidence,” he explained, noting that such severe thrombocytopenia affects about 10% of patients with liver cirrhosis.
Based on the findings of this study, the practice is not supported, he concluded.
Dr. Podda reported honoraria from Sanofi, Boehringer Ingelheim.
SOURCE: Ronca V et al. ISTH 2020, Abstract OC 13.4.
REPORTING FROM THE 2020 ISTH CONGRESS
Convalescent plasma: ‘Flavor of the month’ or valid COVID-19 treatment?
On March 31, soon after the Food and Drug Administration authorized emergency use of antibody-packed plasma from recovered patients with COVID-19, Marisa Leuzzi became the first donor at an American Red Cross center. She hoped it could help her aunt, Renee Bannister, who was failing after 3 weeks on a ventilator at Virtua Hospital in Voorhees, N.J.
It may have worked; 11 days after receiving the plasma, Ms. Bannister was weaned off the ventilator and she is now awake and speaking, said Red Cross spokesperson Stephanie Rendon.
This kind of anecdote is fueling demand for the therapy, which can be provided through an expanded access program led by the Mayo Clinic, backed by the FDA, and the plasma paid for by the U.S. Department of Health & Human Services. But while this program is collecting safety and outcomes data, it’s not a randomized, controlled trial.
Others, however, are pursuing that data.
“One of the things I don’t want this to be is the flavor of the month,” Shmuel Shoham, MD, associate professor of medicine at Johns Hopkins University, said in an interview.
Dr. Shoham, principal investigator for a study evaluating convalescent plasma to prevent the infection in high-risk individuals, said some clinicians, desperate for any treatment, have tried potential therapies such as hydroxychloroquine and remdesivir without evidence of safety or efficacy in COVID-19.
The National Institutes of Health recently said something similar for convalescent plasma, that “there are insufficient clinical data to recommend either for or against” its use for COVID-19.
But plasma has promise, according to a Johns Hopkins School of Medicine’s Bloomberg Distinguished Professor, Arturo Casadevall, MD, PhD, in Baltimore, and Liise-anne Pirofski, MD, a professor at Albert Einstein College of Medicine, New York. They lay out the case for convalescent plasma in an article published online March 13 in the Journal of Clinical Investigation. Passive antibody therapy, they wrote, has been used to stem polio, measles, mumps, and influenza, and more recently has shown some success against SARS-CoV-1 and Middle East respiratory syndrome (MERS).
“The special attraction of this modality of treatment is that, unlike vaccines or newly developed drugs, it could, in principle, be made available very rapidly,” said researchers with the National COVID-19 Convalescent Plasma Project, which includes physicians and scientists from 57 institutions in 46 states. But where principle veers from reality is in availability of the plasma itself, and donors are in short supply.
Aiming to prevent infection
So far, the FDA has approved 12 plasma trials – including Dr. Shoham’s – and the NIH’s clinicaltrials.gov lists more than two dozen convalescent plasma studies in the United States and elsewhere.
Most are single-arm trials to determine if one infusion can decrease the need for intubation or help those on a ventilator improve. Two others, one at Johns Hopkins and one at Stanford (Calif.) Hospital are investigating whether convalescent plasma might be used before severe disease sets in.
“A general principle of passive antibody therapy is that it is more effective when used for prophylaxis than for treatment of disease,” Dr. Casadevall and Dr. Pirofski wrote.
Stanford’s randomized, double-blind study will evaluate regular versus convalescent plasma in ED patients who are not sick enough to require hospitalization.
The Johns Hopkins trial, which aims to protect against infection in the first place, will begin at Johns Hopkins, Baltimore, and at Hopkins-affiliated hospitals throughout Maryland, Dr. Shoham said. He hopes it will expand nationwide eventually, and said that they expect to enroll the first patients soon.
To start, the prevention study will enroll only 150 patients, each of whom must have had close contact with someone who has COVID-19 within the previous 120 hours and be asymptomatic. The number of subjects is small, compared with the trial size of other potential therapies, and an issue, Shoham said, “that keeps me up at night.” But finding thousands of enrollees for plasma studies is hard, in part because it’s so difficult to recruit donors.
Participants will receive normal plasma (which will act as a placebo) or convalescent plasma.
The primary endpoint is cumulative incidence of COVID-19, defined as symptoms and a polymerase chain reaction–positive test; participants will be tracked for 90 days. Hospitals and health care workers could then decide if they want to use the therapy, he said.
The study will not answer whether participants will continue to have antibodies beyond the 90 days. Convalescent plasma is given as a rapid response to an emergent pathogen – a short-term boost of immunity rather than a long-term therapeutic.
What can we learn from expanded access?
Meanwhile, some 2,200 hospitals are participating in the expanded access program being led by the Mayo Clinic nationwide; more than 9,000 patients had received infusions at press time.
One participant is Northwell Health, a 23-hospital system that sprawls across the U.S. COVID epicenter: four of the five boroughs of New York City and Long Island.
Convalescent plasma is an in-demand therapy, said Christina Brennan, MD, vice president of clinical research at Northwell. “We get patients, family members, they say my family member is at X hospital – if it’s not being offered there, can you have them transferred?” she said in an interview.
When Northwell – through the New York Blood Bank – opened up donor registration, 800 people signed up in the first 24 hours, Dr. Brennan said. As of mid-May, 527 patients had received a transfusion.
Who’s the best donor and when should donation occur?
The Red Cross, hospitals, and independent blood banks are all soliciting donors, who can sign up at the Red Cross website. The FDA recommends that donors have a history of COVID-19 as confirmed by molecular or antibody testing, be symptom free for 14 days, have a negative follow-up molecular test, and be virus free at the time of collection. The FDA also suggests measuring a donor’s SARS-CoV-2 neutralizing antibody titers, if available, with a recommendation of at least 1:160.
But questions remain, such as whether there is a theoretical risk for antibody-dependent enhancement (ADE) of infection with SARS-CoV-2. “Antibodies to one type of coronavirus could enhance infection to another viral strain,” of coronavirus, Dr. Casadevall wrote. ADE has been observed in both severe acute respiratory syndrome (SARS) and MERS.
The other risk is that donors may still be shedding active virus. While the FDA suggests that donors are unlikely to still be infectious 14 days after infection, that is as of yet unproven. Both COVID-19 diagnostics and antibody tests have high rates of false negatives, which raises the specter that infection could be spread via the plasma donation.
Daniele Focosi, MD, PhD, from Pisa (Italy) University Hospital and colleagues raise that concern in a preprint review on convalescent plasma in COVID-19. “Although the recipient is already infected, theoretically transmission of more infectious particles could worsen clinical conditions,” they wrote, noting that “such a concern can be somewhat reduced by treatment with modern pathogen inactivation techniques.”
No evidence exists that SARS-CoV-2 can be transmitted through blood, but “we don’t know for sure,” Dr. Shoham said in an interview. A reassuring point: Even those with severe infection do not have viral RNA in their blood, he said, adding, “We don’t think there’s going to be viral transmission of this particular virus with transfusion.”
For another highly infectious pathogen, the Ebola virus, the World Health Organization recommended in 2014 that potential plasma donors wait at least 28 days after infection.
It’s also not known how long SARS-CoV-2 antibodies persist in the blood; longer viability could mean a longer donation window. Dr. Focosi noted that a previous Chinese study had shown that SARS-specific antibodies in people infected with the first SARS virus, SARS-CoV-1, persisted for 2 years.
Dr. Casadevall and Dr. Pirofski have disclosed no relevant financial relationships. Shoham has disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
On March 31, soon after the Food and Drug Administration authorized emergency use of antibody-packed plasma from recovered patients with COVID-19, Marisa Leuzzi became the first donor at an American Red Cross center. She hoped it could help her aunt, Renee Bannister, who was failing after 3 weeks on a ventilator at Virtua Hospital in Voorhees, N.J.
It may have worked; 11 days after receiving the plasma, Ms. Bannister was weaned off the ventilator and she is now awake and speaking, said Red Cross spokesperson Stephanie Rendon.
This kind of anecdote is fueling demand for the therapy, which can be provided through an expanded access program led by the Mayo Clinic, backed by the FDA, and the plasma paid for by the U.S. Department of Health & Human Services. But while this program is collecting safety and outcomes data, it’s not a randomized, controlled trial.
Others, however, are pursuing that data.
“One of the things I don’t want this to be is the flavor of the month,” Shmuel Shoham, MD, associate professor of medicine at Johns Hopkins University, said in an interview.
Dr. Shoham, principal investigator for a study evaluating convalescent plasma to prevent the infection in high-risk individuals, said some clinicians, desperate for any treatment, have tried potential therapies such as hydroxychloroquine and remdesivir without evidence of safety or efficacy in COVID-19.
The National Institutes of Health recently said something similar for convalescent plasma, that “there are insufficient clinical data to recommend either for or against” its use for COVID-19.
But plasma has promise, according to a Johns Hopkins School of Medicine’s Bloomberg Distinguished Professor, Arturo Casadevall, MD, PhD, in Baltimore, and Liise-anne Pirofski, MD, a professor at Albert Einstein College of Medicine, New York. They lay out the case for convalescent plasma in an article published online March 13 in the Journal of Clinical Investigation. Passive antibody therapy, they wrote, has been used to stem polio, measles, mumps, and influenza, and more recently has shown some success against SARS-CoV-1 and Middle East respiratory syndrome (MERS).
“The special attraction of this modality of treatment is that, unlike vaccines or newly developed drugs, it could, in principle, be made available very rapidly,” said researchers with the National COVID-19 Convalescent Plasma Project, which includes physicians and scientists from 57 institutions in 46 states. But where principle veers from reality is in availability of the plasma itself, and donors are in short supply.
Aiming to prevent infection
So far, the FDA has approved 12 plasma trials – including Dr. Shoham’s – and the NIH’s clinicaltrials.gov lists more than two dozen convalescent plasma studies in the United States and elsewhere.
Most are single-arm trials to determine if one infusion can decrease the need for intubation or help those on a ventilator improve. Two others, one at Johns Hopkins and one at Stanford (Calif.) Hospital are investigating whether convalescent plasma might be used before severe disease sets in.
“A general principle of passive antibody therapy is that it is more effective when used for prophylaxis than for treatment of disease,” Dr. Casadevall and Dr. Pirofski wrote.
Stanford’s randomized, double-blind study will evaluate regular versus convalescent plasma in ED patients who are not sick enough to require hospitalization.
The Johns Hopkins trial, which aims to protect against infection in the first place, will begin at Johns Hopkins, Baltimore, and at Hopkins-affiliated hospitals throughout Maryland, Dr. Shoham said. He hopes it will expand nationwide eventually, and said that they expect to enroll the first patients soon.
To start, the prevention study will enroll only 150 patients, each of whom must have had close contact with someone who has COVID-19 within the previous 120 hours and be asymptomatic. The number of subjects is small, compared with the trial size of other potential therapies, and an issue, Shoham said, “that keeps me up at night.” But finding thousands of enrollees for plasma studies is hard, in part because it’s so difficult to recruit donors.
Participants will receive normal plasma (which will act as a placebo) or convalescent plasma.
The primary endpoint is cumulative incidence of COVID-19, defined as symptoms and a polymerase chain reaction–positive test; participants will be tracked for 90 days. Hospitals and health care workers could then decide if they want to use the therapy, he said.
The study will not answer whether participants will continue to have antibodies beyond the 90 days. Convalescent plasma is given as a rapid response to an emergent pathogen – a short-term boost of immunity rather than a long-term therapeutic.
What can we learn from expanded access?
Meanwhile, some 2,200 hospitals are participating in the expanded access program being led by the Mayo Clinic nationwide; more than 9,000 patients had received infusions at press time.
One participant is Northwell Health, a 23-hospital system that sprawls across the U.S. COVID epicenter: four of the five boroughs of New York City and Long Island.
Convalescent plasma is an in-demand therapy, said Christina Brennan, MD, vice president of clinical research at Northwell. “We get patients, family members, they say my family member is at X hospital – if it’s not being offered there, can you have them transferred?” she said in an interview.
When Northwell – through the New York Blood Bank – opened up donor registration, 800 people signed up in the first 24 hours, Dr. Brennan said. As of mid-May, 527 patients had received a transfusion.
Who’s the best donor and when should donation occur?
The Red Cross, hospitals, and independent blood banks are all soliciting donors, who can sign up at the Red Cross website. The FDA recommends that donors have a history of COVID-19 as confirmed by molecular or antibody testing, be symptom free for 14 days, have a negative follow-up molecular test, and be virus free at the time of collection. The FDA also suggests measuring a donor’s SARS-CoV-2 neutralizing antibody titers, if available, with a recommendation of at least 1:160.
But questions remain, such as whether there is a theoretical risk for antibody-dependent enhancement (ADE) of infection with SARS-CoV-2. “Antibodies to one type of coronavirus could enhance infection to another viral strain,” of coronavirus, Dr. Casadevall wrote. ADE has been observed in both severe acute respiratory syndrome (SARS) and MERS.
The other risk is that donors may still be shedding active virus. While the FDA suggests that donors are unlikely to still be infectious 14 days after infection, that is as of yet unproven. Both COVID-19 diagnostics and antibody tests have high rates of false negatives, which raises the specter that infection could be spread via the plasma donation.
Daniele Focosi, MD, PhD, from Pisa (Italy) University Hospital and colleagues raise that concern in a preprint review on convalescent plasma in COVID-19. “Although the recipient is already infected, theoretically transmission of more infectious particles could worsen clinical conditions,” they wrote, noting that “such a concern can be somewhat reduced by treatment with modern pathogen inactivation techniques.”
No evidence exists that SARS-CoV-2 can be transmitted through blood, but “we don’t know for sure,” Dr. Shoham said in an interview. A reassuring point: Even those with severe infection do not have viral RNA in their blood, he said, adding, “We don’t think there’s going to be viral transmission of this particular virus with transfusion.”
For another highly infectious pathogen, the Ebola virus, the World Health Organization recommended in 2014 that potential plasma donors wait at least 28 days after infection.
It’s also not known how long SARS-CoV-2 antibodies persist in the blood; longer viability could mean a longer donation window. Dr. Focosi noted that a previous Chinese study had shown that SARS-specific antibodies in people infected with the first SARS virus, SARS-CoV-1, persisted for 2 years.
Dr. Casadevall and Dr. Pirofski have disclosed no relevant financial relationships. Shoham has disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
On March 31, soon after the Food and Drug Administration authorized emergency use of antibody-packed plasma from recovered patients with COVID-19, Marisa Leuzzi became the first donor at an American Red Cross center. She hoped it could help her aunt, Renee Bannister, who was failing after 3 weeks on a ventilator at Virtua Hospital in Voorhees, N.J.
It may have worked; 11 days after receiving the plasma, Ms. Bannister was weaned off the ventilator and she is now awake and speaking, said Red Cross spokesperson Stephanie Rendon.
This kind of anecdote is fueling demand for the therapy, which can be provided through an expanded access program led by the Mayo Clinic, backed by the FDA, and the plasma paid for by the U.S. Department of Health & Human Services. But while this program is collecting safety and outcomes data, it’s not a randomized, controlled trial.
Others, however, are pursuing that data.
“One of the things I don’t want this to be is the flavor of the month,” Shmuel Shoham, MD, associate professor of medicine at Johns Hopkins University, said in an interview.
Dr. Shoham, principal investigator for a study evaluating convalescent plasma to prevent the infection in high-risk individuals, said some clinicians, desperate for any treatment, have tried potential therapies such as hydroxychloroquine and remdesivir without evidence of safety or efficacy in COVID-19.
The National Institutes of Health recently said something similar for convalescent plasma, that “there are insufficient clinical data to recommend either for or against” its use for COVID-19.
But plasma has promise, according to a Johns Hopkins School of Medicine’s Bloomberg Distinguished Professor, Arturo Casadevall, MD, PhD, in Baltimore, and Liise-anne Pirofski, MD, a professor at Albert Einstein College of Medicine, New York. They lay out the case for convalescent plasma in an article published online March 13 in the Journal of Clinical Investigation. Passive antibody therapy, they wrote, has been used to stem polio, measles, mumps, and influenza, and more recently has shown some success against SARS-CoV-1 and Middle East respiratory syndrome (MERS).
“The special attraction of this modality of treatment is that, unlike vaccines or newly developed drugs, it could, in principle, be made available very rapidly,” said researchers with the National COVID-19 Convalescent Plasma Project, which includes physicians and scientists from 57 institutions in 46 states. But where principle veers from reality is in availability of the plasma itself, and donors are in short supply.
Aiming to prevent infection
So far, the FDA has approved 12 plasma trials – including Dr. Shoham’s – and the NIH’s clinicaltrials.gov lists more than two dozen convalescent plasma studies in the United States and elsewhere.
Most are single-arm trials to determine if one infusion can decrease the need for intubation or help those on a ventilator improve. Two others, one at Johns Hopkins and one at Stanford (Calif.) Hospital are investigating whether convalescent plasma might be used before severe disease sets in.
“A general principle of passive antibody therapy is that it is more effective when used for prophylaxis than for treatment of disease,” Dr. Casadevall and Dr. Pirofski wrote.
Stanford’s randomized, double-blind study will evaluate regular versus convalescent plasma in ED patients who are not sick enough to require hospitalization.
The Johns Hopkins trial, which aims to protect against infection in the first place, will begin at Johns Hopkins, Baltimore, and at Hopkins-affiliated hospitals throughout Maryland, Dr. Shoham said. He hopes it will expand nationwide eventually, and said that they expect to enroll the first patients soon.
To start, the prevention study will enroll only 150 patients, each of whom must have had close contact with someone who has COVID-19 within the previous 120 hours and be asymptomatic. The number of subjects is small, compared with the trial size of other potential therapies, and an issue, Shoham said, “that keeps me up at night.” But finding thousands of enrollees for plasma studies is hard, in part because it’s so difficult to recruit donors.
Participants will receive normal plasma (which will act as a placebo) or convalescent plasma.
The primary endpoint is cumulative incidence of COVID-19, defined as symptoms and a polymerase chain reaction–positive test; participants will be tracked for 90 days. Hospitals and health care workers could then decide if they want to use the therapy, he said.
The study will not answer whether participants will continue to have antibodies beyond the 90 days. Convalescent plasma is given as a rapid response to an emergent pathogen – a short-term boost of immunity rather than a long-term therapeutic.
What can we learn from expanded access?
Meanwhile, some 2,200 hospitals are participating in the expanded access program being led by the Mayo Clinic nationwide; more than 9,000 patients had received infusions at press time.
One participant is Northwell Health, a 23-hospital system that sprawls across the U.S. COVID epicenter: four of the five boroughs of New York City and Long Island.
Convalescent plasma is an in-demand therapy, said Christina Brennan, MD, vice president of clinical research at Northwell. “We get patients, family members, they say my family member is at X hospital – if it’s not being offered there, can you have them transferred?” she said in an interview.
When Northwell – through the New York Blood Bank – opened up donor registration, 800 people signed up in the first 24 hours, Dr. Brennan said. As of mid-May, 527 patients had received a transfusion.
Who’s the best donor and when should donation occur?
The Red Cross, hospitals, and independent blood banks are all soliciting donors, who can sign up at the Red Cross website. The FDA recommends that donors have a history of COVID-19 as confirmed by molecular or antibody testing, be symptom free for 14 days, have a negative follow-up molecular test, and be virus free at the time of collection. The FDA also suggests measuring a donor’s SARS-CoV-2 neutralizing antibody titers, if available, with a recommendation of at least 1:160.
But questions remain, such as whether there is a theoretical risk for antibody-dependent enhancement (ADE) of infection with SARS-CoV-2. “Antibodies to one type of coronavirus could enhance infection to another viral strain,” of coronavirus, Dr. Casadevall wrote. ADE has been observed in both severe acute respiratory syndrome (SARS) and MERS.
The other risk is that donors may still be shedding active virus. While the FDA suggests that donors are unlikely to still be infectious 14 days after infection, that is as of yet unproven. Both COVID-19 diagnostics and antibody tests have high rates of false negatives, which raises the specter that infection could be spread via the plasma donation.
Daniele Focosi, MD, PhD, from Pisa (Italy) University Hospital and colleagues raise that concern in a preprint review on convalescent plasma in COVID-19. “Although the recipient is already infected, theoretically transmission of more infectious particles could worsen clinical conditions,” they wrote, noting that “such a concern can be somewhat reduced by treatment with modern pathogen inactivation techniques.”
No evidence exists that SARS-CoV-2 can be transmitted through blood, but “we don’t know for sure,” Dr. Shoham said in an interview. A reassuring point: Even those with severe infection do not have viral RNA in their blood, he said, adding, “We don’t think there’s going to be viral transmission of this particular virus with transfusion.”
For another highly infectious pathogen, the Ebola virus, the World Health Organization recommended in 2014 that potential plasma donors wait at least 28 days after infection.
It’s also not known how long SARS-CoV-2 antibodies persist in the blood; longer viability could mean a longer donation window. Dr. Focosi noted that a previous Chinese study had shown that SARS-specific antibodies in people infected with the first SARS virus, SARS-CoV-1, persisted for 2 years.
Dr. Casadevall and Dr. Pirofski have disclosed no relevant financial relationships. Shoham has disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
Patient-focused precautions, testing help blunt pandemic effects on heme-onc unit
Keeping hematologic oncology patients on their treatment regimens and caring for inpatients with hematologic malignancies remained “manageable” during the first 2 months of the COVID-19 pandemic at Levine Cancer Institute in Charlotte, N.C.
That level of manageability has partly been because a surge in cases so far hasn’t arrived at Levine or in most of the surrounding North Carolina and South Carolina communities it serves. As of May 15, 2020, the total number of confirmed and reported COVID-19 cases had reached about 19,000 in North Carolina, and just under 9,000 in South Carolina, out of a total population in the two states of close to 16 million. What’s happened instead at Levine Cancer Institute (LCI) has been a steady but low drumbeat of cases that, by mid-May 2020, totaled fewer than 10 patients with hematologic malignancies diagnosed with COVID-19.
“For a large system with multiple sites throughout North and South Carolina that saw 17,200 new patients in 2019 – including solid tumor, benign hematology, and malignant hematology patients – with 198,000 total patient visits, it is safe to say that we are off to a good start. However, we remain in the early throes of the pandemic and we will need to remain vigilant going forward,” said Peter Voorhees, MD, professor of medicine and director of Medical Operations and Outreach Services in LCI’s Department of Hematologic Oncology and Blood Disorders.
The limited effects to date of COVID-19 at LCI has been thanks to a regimen of great caution for preventing infections that’s been consistently conveyed to LCI patients from before the pandemic’s onset, liberal testing that started early, a proactive plan to defer and temporarily replace infusion care when medically appropriate, a novel staffing approach designed to minimize and contain potential staff outbreaks, and an early pivot to virtual patient contact when feasible.
COVID-19 has had limited penetration into the LCI case load because patients have, in general, “been very careful,” said Dr. Voorhees.
“My impression is that the incidence has been low partly because our patients, especially those with hematologic malignancies including those on active chemotherapy, were already getting warned to be cautious even before the coronavirus using distancing, masking, and meticulous hand hygiene,” he said in an interview that reviewed the steps LCI took starting in March to confront and manage the effects of the then-nascent pandemic. “Since we started screening asymptomatic patients in the inpatient and outpatient settings we have identified only one patient with COVID-19 infection, which supports the low rate of infection in our patient population thus far.”
Another key step was the launch of “robust” testing for the COVID-19 virus starting on March 9, using an in-house assay from LCI’s parent health system, Atrium Health, that delivered results within 24 hours. Testing became available at LCI “earlier than at many other health systems.” At first, testing was limited to patients or staff presenting with symptoms, but in the following weeks, it expanded to more patients, including those without symptoms who were scheduled for treatment at the apheresis center, cell donors and cell recipients, patients arriving for inpatient chemotherapy or cellular therapy, patients arriving from a skilled nursing facility or similar environments, and more recently, outpatient chemotherapy patients. “We’re now doing a lot of screening,” Dr. Voorhees said. “In general, screening has been well received because patients recognize that it’s for their own safety.”
Another piece of COVID-19 preparedness was a move toward technology as an alternative to face-to-face encounters between patients and staff. “We adopted virtual technology early.” When medically appropriate, they provided either video consultations with more tech-savvy patients or telephone-based virtual visits for patients who preferred a more familiar interface. As LCI starts the process of reentry for patients whose face-to-face encounters were deferred, virtual visits will remain an important facet of maintaining care while limiting exposure for appropriate patients and facilitating adequate space for social distancing in the clinics and infusion centers.
Atrium Health also launched a “virtual hospital” geared to intensified remote management of COVID-19 patients who aren’t sick enough for hospitalization. “People who test positive automatically enter the virtual hospital and have regular interactions with their team of providers,” with LCI providing additional support for their patients who get infected. Patients receive an equipment kit that lets them monitor and transmit their vital signs. The virtual hospital program also helps expedite personal needs like delivery of prescriptions and food. “It helps patients manage at home, and has been incredibly useful,” said Dr. Voorhees.
Perhaps the most challenging step LCI clinicians took to preclude a potential COVID-19 case surge was to review all patients receiving infusional therapy or planned cellular therapy and triage those who could potentially tolerate a temporary change to either an oral, at-home regimen or to a brief hold on their treatment. Some patients on maintenance, outpatient infusion-therapy regimens “expressed concern about coming to the clinic. We looked at the patients scheduled to come for infusions and decided which visits were essential and which were deferrable without disrupting care by briefly using a noninfusional approach,” said Dr. Voorhees. The number of patients who had their regimens modified or held was “relatively small,” and with the recent recognition that a surge of infections has not occurred, “we’re now rolling out cautious reentry of those patients back to their originally prescribed chemotherapy.”
In addition to concerns of exposure at infusion clinics, there are concerns about the heightened susceptibility of immunosuppressed hematologic oncology patients to COVID-19 and their risk for more severe infection. “Our view is that, if patients tested positive, continuing immunosuppressive treatment would likely be detrimental,” so when possible treatment is temporarily suspended and then resumed when the infection has cleared. “When patients test positive for a prolonged period, a decision to resume treatment must be in the best interests of the patient and weigh the benefits of resuming therapy against the risks of incurring a more severe infection by restarting potentially immunosuppressive therapy,” Dr. Voorhees said.
The enhanced risk that cancer patients face if they develop COVID-19 was documented in a recent review of 218 cancer patients hospitalized for COVID-19 during parts of March and April in a large New York health system. The results showed an overall mortality rate of 28%, including a 37% rate among 54 patients with hematologic malignancies and a 25% rate among 164 patients with solid tumors. The mortality rate “may not be quite as high as they reported because that depends on how many patients you test, but there is no question that patients with more comorbidities are at higher risk. Patients with active cancer on chemotherapy are a particularly vulnerable population, and many have expressed concerns about their vulnerability,” he observed.
For the few LCI patients who developed COVID-19 infection, the medical staff has had several therapeutic options they could match to each patient’s needs, with help from the Atrium Health infectious disease team. LCI and Atrium Health are participating in several COVID-19 clinical treatment trials, including an investigational convalescent plasma protocol spearheaded by the Mayo Clinic. They have also opened a randomized, phase 2 trial evaluating the safety and efficacy of selinexor (Xpovio), an oral drug that’s Food and Drug Administration approved for patients with multiple myeloma, for treatment of moderate or severe COVID-19 infection. Additional studies evaluating blockade of granulocyte-macrophage colony-stimulating factor, as well as inhaled antiviral therapy, have recently launched, and several additional studies are poised to open in the coming weeks.
The LCI and Atrium Health team also has a supply of the antiviral agent remdesivir as part of the FDA’s expanded access protocol and emergency use authorization. They also have a supply of and experience administering the interleukin-6 receptor inhibitor tocilizumab (Actemra), which showed some suggestion of efficacy in limited experience treating patients with severe or critical COVID-19 infections . Clinicians at LCI have not used the investigational and unproven agents hydroxychloroquine, chloroquine, and azithromycin to either prevent or treat COVID-19.
LCI also instituted measures to try to minimize the risk that staff members could become infected and transmit the virus while asymptomatic. Following conversations held early on with COVID-19–experienced health authorities in China and Italy, the patient-facing LCI staff split into two teams starting on March 23 that alternated responsibility for direct patient interactions every 2 weeks. When one of these teams was off from direct patient contact they continued to care for patients remotely through virtual technologies. The concept was that, if a staffer became infected while remaining asymptomatic during their contact with patients, their status would either become diagnosable or resolve during their 2 weeks away from seeing any patients. Perhaps in part because of this approach infections among staff members “have not been a big issue. We’ve had an incredibly low infection rate among the LCI staff,” Dr. Voorhees noted.
By mid-May, with the imminent threat of a sudden CODIV-19 surge moderated, heme-onc operations at LCI began to cautiously revert to more normal operations. “We’re continuing patient screening for signs and symptoms of COVID-19 infection, testing for asymptomatic infections, and requiring masking and social distancing in the clinics and hospitals, but we’re starting to slowly restore the number of patients at our clinics [virtual and face to face[ and infusion centers,” and the staff’s division into two teams ended. “The idea was to get past a surge and make sure our system was not overwhelmed. We anticipated a local surge in late April, but then it kept getting pushed back. Current projections are for the infection rate among LCI patients to remain low provided that community spread remains stable or, ideally, decreases.” The LCI infectious disease staff is closely monitoring infection rates for early recognition of an outbreak, with plans to follow any new cases with contact tracing. So far, the COVID-19 pandemic at LCI “has been very manageable,” Dr. Voorhees concluded.
“We’re now better positioned to deal with a case surge if it were to happen. We could resume the two-team approach, hospital-wide plans are now in place for a future surge, and we are now up and running with robust testing and inpatient and outpatient virtual technology. The first time, we were all learning on the fly.”
The LCI biostatistics team has been prospectively collecting the Institutes’s COVID-19 patient data, with plans to report their findings.
Dr. Voorhees has had financial relationships with Bristol-Myers Squibb/Celgene, Janssen, Novartis, and Oncopeptides, none of which are relevant to this article.
Keeping hematologic oncology patients on their treatment regimens and caring for inpatients with hematologic malignancies remained “manageable” during the first 2 months of the COVID-19 pandemic at Levine Cancer Institute in Charlotte, N.C.
That level of manageability has partly been because a surge in cases so far hasn’t arrived at Levine or in most of the surrounding North Carolina and South Carolina communities it serves. As of May 15, 2020, the total number of confirmed and reported COVID-19 cases had reached about 19,000 in North Carolina, and just under 9,000 in South Carolina, out of a total population in the two states of close to 16 million. What’s happened instead at Levine Cancer Institute (LCI) has been a steady but low drumbeat of cases that, by mid-May 2020, totaled fewer than 10 patients with hematologic malignancies diagnosed with COVID-19.
“For a large system with multiple sites throughout North and South Carolina that saw 17,200 new patients in 2019 – including solid tumor, benign hematology, and malignant hematology patients – with 198,000 total patient visits, it is safe to say that we are off to a good start. However, we remain in the early throes of the pandemic and we will need to remain vigilant going forward,” said Peter Voorhees, MD, professor of medicine and director of Medical Operations and Outreach Services in LCI’s Department of Hematologic Oncology and Blood Disorders.
The limited effects to date of COVID-19 at LCI has been thanks to a regimen of great caution for preventing infections that’s been consistently conveyed to LCI patients from before the pandemic’s onset, liberal testing that started early, a proactive plan to defer and temporarily replace infusion care when medically appropriate, a novel staffing approach designed to minimize and contain potential staff outbreaks, and an early pivot to virtual patient contact when feasible.
COVID-19 has had limited penetration into the LCI case load because patients have, in general, “been very careful,” said Dr. Voorhees.
“My impression is that the incidence has been low partly because our patients, especially those with hematologic malignancies including those on active chemotherapy, were already getting warned to be cautious even before the coronavirus using distancing, masking, and meticulous hand hygiene,” he said in an interview that reviewed the steps LCI took starting in March to confront and manage the effects of the then-nascent pandemic. “Since we started screening asymptomatic patients in the inpatient and outpatient settings we have identified only one patient with COVID-19 infection, which supports the low rate of infection in our patient population thus far.”
Another key step was the launch of “robust” testing for the COVID-19 virus starting on March 9, using an in-house assay from LCI’s parent health system, Atrium Health, that delivered results within 24 hours. Testing became available at LCI “earlier than at many other health systems.” At first, testing was limited to patients or staff presenting with symptoms, but in the following weeks, it expanded to more patients, including those without symptoms who were scheduled for treatment at the apheresis center, cell donors and cell recipients, patients arriving for inpatient chemotherapy or cellular therapy, patients arriving from a skilled nursing facility or similar environments, and more recently, outpatient chemotherapy patients. “We’re now doing a lot of screening,” Dr. Voorhees said. “In general, screening has been well received because patients recognize that it’s for their own safety.”
Another piece of COVID-19 preparedness was a move toward technology as an alternative to face-to-face encounters between patients and staff. “We adopted virtual technology early.” When medically appropriate, they provided either video consultations with more tech-savvy patients or telephone-based virtual visits for patients who preferred a more familiar interface. As LCI starts the process of reentry for patients whose face-to-face encounters were deferred, virtual visits will remain an important facet of maintaining care while limiting exposure for appropriate patients and facilitating adequate space for social distancing in the clinics and infusion centers.
Atrium Health also launched a “virtual hospital” geared to intensified remote management of COVID-19 patients who aren’t sick enough for hospitalization. “People who test positive automatically enter the virtual hospital and have regular interactions with their team of providers,” with LCI providing additional support for their patients who get infected. Patients receive an equipment kit that lets them monitor and transmit their vital signs. The virtual hospital program also helps expedite personal needs like delivery of prescriptions and food. “It helps patients manage at home, and has been incredibly useful,” said Dr. Voorhees.
Perhaps the most challenging step LCI clinicians took to preclude a potential COVID-19 case surge was to review all patients receiving infusional therapy or planned cellular therapy and triage those who could potentially tolerate a temporary change to either an oral, at-home regimen or to a brief hold on their treatment. Some patients on maintenance, outpatient infusion-therapy regimens “expressed concern about coming to the clinic. We looked at the patients scheduled to come for infusions and decided which visits were essential and which were deferrable without disrupting care by briefly using a noninfusional approach,” said Dr. Voorhees. The number of patients who had their regimens modified or held was “relatively small,” and with the recent recognition that a surge of infections has not occurred, “we’re now rolling out cautious reentry of those patients back to their originally prescribed chemotherapy.”
In addition to concerns of exposure at infusion clinics, there are concerns about the heightened susceptibility of immunosuppressed hematologic oncology patients to COVID-19 and their risk for more severe infection. “Our view is that, if patients tested positive, continuing immunosuppressive treatment would likely be detrimental,” so when possible treatment is temporarily suspended and then resumed when the infection has cleared. “When patients test positive for a prolonged period, a decision to resume treatment must be in the best interests of the patient and weigh the benefits of resuming therapy against the risks of incurring a more severe infection by restarting potentially immunosuppressive therapy,” Dr. Voorhees said.
The enhanced risk that cancer patients face if they develop COVID-19 was documented in a recent review of 218 cancer patients hospitalized for COVID-19 during parts of March and April in a large New York health system. The results showed an overall mortality rate of 28%, including a 37% rate among 54 patients with hematologic malignancies and a 25% rate among 164 patients with solid tumors. The mortality rate “may not be quite as high as they reported because that depends on how many patients you test, but there is no question that patients with more comorbidities are at higher risk. Patients with active cancer on chemotherapy are a particularly vulnerable population, and many have expressed concerns about their vulnerability,” he observed.
For the few LCI patients who developed COVID-19 infection, the medical staff has had several therapeutic options they could match to each patient’s needs, with help from the Atrium Health infectious disease team. LCI and Atrium Health are participating in several COVID-19 clinical treatment trials, including an investigational convalescent plasma protocol spearheaded by the Mayo Clinic. They have also opened a randomized, phase 2 trial evaluating the safety and efficacy of selinexor (Xpovio), an oral drug that’s Food and Drug Administration approved for patients with multiple myeloma, for treatment of moderate or severe COVID-19 infection. Additional studies evaluating blockade of granulocyte-macrophage colony-stimulating factor, as well as inhaled antiviral therapy, have recently launched, and several additional studies are poised to open in the coming weeks.
The LCI and Atrium Health team also has a supply of the antiviral agent remdesivir as part of the FDA’s expanded access protocol and emergency use authorization. They also have a supply of and experience administering the interleukin-6 receptor inhibitor tocilizumab (Actemra), which showed some suggestion of efficacy in limited experience treating patients with severe or critical COVID-19 infections . Clinicians at LCI have not used the investigational and unproven agents hydroxychloroquine, chloroquine, and azithromycin to either prevent or treat COVID-19.
LCI also instituted measures to try to minimize the risk that staff members could become infected and transmit the virus while asymptomatic. Following conversations held early on with COVID-19–experienced health authorities in China and Italy, the patient-facing LCI staff split into two teams starting on March 23 that alternated responsibility for direct patient interactions every 2 weeks. When one of these teams was off from direct patient contact they continued to care for patients remotely through virtual technologies. The concept was that, if a staffer became infected while remaining asymptomatic during their contact with patients, their status would either become diagnosable or resolve during their 2 weeks away from seeing any patients. Perhaps in part because of this approach infections among staff members “have not been a big issue. We’ve had an incredibly low infection rate among the LCI staff,” Dr. Voorhees noted.
By mid-May, with the imminent threat of a sudden CODIV-19 surge moderated, heme-onc operations at LCI began to cautiously revert to more normal operations. “We’re continuing patient screening for signs and symptoms of COVID-19 infection, testing for asymptomatic infections, and requiring masking and social distancing in the clinics and hospitals, but we’re starting to slowly restore the number of patients at our clinics [virtual and face to face[ and infusion centers,” and the staff’s division into two teams ended. “The idea was to get past a surge and make sure our system was not overwhelmed. We anticipated a local surge in late April, but then it kept getting pushed back. Current projections are for the infection rate among LCI patients to remain low provided that community spread remains stable or, ideally, decreases.” The LCI infectious disease staff is closely monitoring infection rates for early recognition of an outbreak, with plans to follow any new cases with contact tracing. So far, the COVID-19 pandemic at LCI “has been very manageable,” Dr. Voorhees concluded.
“We’re now better positioned to deal with a case surge if it were to happen. We could resume the two-team approach, hospital-wide plans are now in place for a future surge, and we are now up and running with robust testing and inpatient and outpatient virtual technology. The first time, we were all learning on the fly.”
The LCI biostatistics team has been prospectively collecting the Institutes’s COVID-19 patient data, with plans to report their findings.
Dr. Voorhees has had financial relationships with Bristol-Myers Squibb/Celgene, Janssen, Novartis, and Oncopeptides, none of which are relevant to this article.
Keeping hematologic oncology patients on their treatment regimens and caring for inpatients with hematologic malignancies remained “manageable” during the first 2 months of the COVID-19 pandemic at Levine Cancer Institute in Charlotte, N.C.
That level of manageability has partly been because a surge in cases so far hasn’t arrived at Levine or in most of the surrounding North Carolina and South Carolina communities it serves. As of May 15, 2020, the total number of confirmed and reported COVID-19 cases had reached about 19,000 in North Carolina, and just under 9,000 in South Carolina, out of a total population in the two states of close to 16 million. What’s happened instead at Levine Cancer Institute (LCI) has been a steady but low drumbeat of cases that, by mid-May 2020, totaled fewer than 10 patients with hematologic malignancies diagnosed with COVID-19.
“For a large system with multiple sites throughout North and South Carolina that saw 17,200 new patients in 2019 – including solid tumor, benign hematology, and malignant hematology patients – with 198,000 total patient visits, it is safe to say that we are off to a good start. However, we remain in the early throes of the pandemic and we will need to remain vigilant going forward,” said Peter Voorhees, MD, professor of medicine and director of Medical Operations and Outreach Services in LCI’s Department of Hematologic Oncology and Blood Disorders.
The limited effects to date of COVID-19 at LCI has been thanks to a regimen of great caution for preventing infections that’s been consistently conveyed to LCI patients from before the pandemic’s onset, liberal testing that started early, a proactive plan to defer and temporarily replace infusion care when medically appropriate, a novel staffing approach designed to minimize and contain potential staff outbreaks, and an early pivot to virtual patient contact when feasible.
COVID-19 has had limited penetration into the LCI case load because patients have, in general, “been very careful,” said Dr. Voorhees.
“My impression is that the incidence has been low partly because our patients, especially those with hematologic malignancies including those on active chemotherapy, were already getting warned to be cautious even before the coronavirus using distancing, masking, and meticulous hand hygiene,” he said in an interview that reviewed the steps LCI took starting in March to confront and manage the effects of the then-nascent pandemic. “Since we started screening asymptomatic patients in the inpatient and outpatient settings we have identified only one patient with COVID-19 infection, which supports the low rate of infection in our patient population thus far.”
Another key step was the launch of “robust” testing for the COVID-19 virus starting on March 9, using an in-house assay from LCI’s parent health system, Atrium Health, that delivered results within 24 hours. Testing became available at LCI “earlier than at many other health systems.” At first, testing was limited to patients or staff presenting with symptoms, but in the following weeks, it expanded to more patients, including those without symptoms who were scheduled for treatment at the apheresis center, cell donors and cell recipients, patients arriving for inpatient chemotherapy or cellular therapy, patients arriving from a skilled nursing facility or similar environments, and more recently, outpatient chemotherapy patients. “We’re now doing a lot of screening,” Dr. Voorhees said. “In general, screening has been well received because patients recognize that it’s for their own safety.”
Another piece of COVID-19 preparedness was a move toward technology as an alternative to face-to-face encounters between patients and staff. “We adopted virtual technology early.” When medically appropriate, they provided either video consultations with more tech-savvy patients or telephone-based virtual visits for patients who preferred a more familiar interface. As LCI starts the process of reentry for patients whose face-to-face encounters were deferred, virtual visits will remain an important facet of maintaining care while limiting exposure for appropriate patients and facilitating adequate space for social distancing in the clinics and infusion centers.
Atrium Health also launched a “virtual hospital” geared to intensified remote management of COVID-19 patients who aren’t sick enough for hospitalization. “People who test positive automatically enter the virtual hospital and have regular interactions with their team of providers,” with LCI providing additional support for their patients who get infected. Patients receive an equipment kit that lets them monitor and transmit their vital signs. The virtual hospital program also helps expedite personal needs like delivery of prescriptions and food. “It helps patients manage at home, and has been incredibly useful,” said Dr. Voorhees.
Perhaps the most challenging step LCI clinicians took to preclude a potential COVID-19 case surge was to review all patients receiving infusional therapy or planned cellular therapy and triage those who could potentially tolerate a temporary change to either an oral, at-home regimen or to a brief hold on their treatment. Some patients on maintenance, outpatient infusion-therapy regimens “expressed concern about coming to the clinic. We looked at the patients scheduled to come for infusions and decided which visits were essential and which were deferrable without disrupting care by briefly using a noninfusional approach,” said Dr. Voorhees. The number of patients who had their regimens modified or held was “relatively small,” and with the recent recognition that a surge of infections has not occurred, “we’re now rolling out cautious reentry of those patients back to their originally prescribed chemotherapy.”
In addition to concerns of exposure at infusion clinics, there are concerns about the heightened susceptibility of immunosuppressed hematologic oncology patients to COVID-19 and their risk for more severe infection. “Our view is that, if patients tested positive, continuing immunosuppressive treatment would likely be detrimental,” so when possible treatment is temporarily suspended and then resumed when the infection has cleared. “When patients test positive for a prolonged period, a decision to resume treatment must be in the best interests of the patient and weigh the benefits of resuming therapy against the risks of incurring a more severe infection by restarting potentially immunosuppressive therapy,” Dr. Voorhees said.
The enhanced risk that cancer patients face if they develop COVID-19 was documented in a recent review of 218 cancer patients hospitalized for COVID-19 during parts of March and April in a large New York health system. The results showed an overall mortality rate of 28%, including a 37% rate among 54 patients with hematologic malignancies and a 25% rate among 164 patients with solid tumors. The mortality rate “may not be quite as high as they reported because that depends on how many patients you test, but there is no question that patients with more comorbidities are at higher risk. Patients with active cancer on chemotherapy are a particularly vulnerable population, and many have expressed concerns about their vulnerability,” he observed.
For the few LCI patients who developed COVID-19 infection, the medical staff has had several therapeutic options they could match to each patient’s needs, with help from the Atrium Health infectious disease team. LCI and Atrium Health are participating in several COVID-19 clinical treatment trials, including an investigational convalescent plasma protocol spearheaded by the Mayo Clinic. They have also opened a randomized, phase 2 trial evaluating the safety and efficacy of selinexor (Xpovio), an oral drug that’s Food and Drug Administration approved for patients with multiple myeloma, for treatment of moderate or severe COVID-19 infection. Additional studies evaluating blockade of granulocyte-macrophage colony-stimulating factor, as well as inhaled antiviral therapy, have recently launched, and several additional studies are poised to open in the coming weeks.
The LCI and Atrium Health team also has a supply of the antiviral agent remdesivir as part of the FDA’s expanded access protocol and emergency use authorization. They also have a supply of and experience administering the interleukin-6 receptor inhibitor tocilizumab (Actemra), which showed some suggestion of efficacy in limited experience treating patients with severe or critical COVID-19 infections . Clinicians at LCI have not used the investigational and unproven agents hydroxychloroquine, chloroquine, and azithromycin to either prevent or treat COVID-19.
LCI also instituted measures to try to minimize the risk that staff members could become infected and transmit the virus while asymptomatic. Following conversations held early on with COVID-19–experienced health authorities in China and Italy, the patient-facing LCI staff split into two teams starting on March 23 that alternated responsibility for direct patient interactions every 2 weeks. When one of these teams was off from direct patient contact they continued to care for patients remotely through virtual technologies. The concept was that, if a staffer became infected while remaining asymptomatic during their contact with patients, their status would either become diagnosable or resolve during their 2 weeks away from seeing any patients. Perhaps in part because of this approach infections among staff members “have not been a big issue. We’ve had an incredibly low infection rate among the LCI staff,” Dr. Voorhees noted.
By mid-May, with the imminent threat of a sudden CODIV-19 surge moderated, heme-onc operations at LCI began to cautiously revert to more normal operations. “We’re continuing patient screening for signs and symptoms of COVID-19 infection, testing for asymptomatic infections, and requiring masking and social distancing in the clinics and hospitals, but we’re starting to slowly restore the number of patients at our clinics [virtual and face to face[ and infusion centers,” and the staff’s division into two teams ended. “The idea was to get past a surge and make sure our system was not overwhelmed. We anticipated a local surge in late April, but then it kept getting pushed back. Current projections are for the infection rate among LCI patients to remain low provided that community spread remains stable or, ideally, decreases.” The LCI infectious disease staff is closely monitoring infection rates for early recognition of an outbreak, with plans to follow any new cases with contact tracing. So far, the COVID-19 pandemic at LCI “has been very manageable,” Dr. Voorhees concluded.
“We’re now better positioned to deal with a case surge if it were to happen. We could resume the two-team approach, hospital-wide plans are now in place for a future surge, and we are now up and running with robust testing and inpatient and outpatient virtual technology. The first time, we were all learning on the fly.”
The LCI biostatistics team has been prospectively collecting the Institutes’s COVID-19 patient data, with plans to report their findings.
Dr. Voorhees has had financial relationships with Bristol-Myers Squibb/Celgene, Janssen, Novartis, and Oncopeptides, none of which are relevant to this article.
Can convalescent plasma treat COVID-19 patients?
As an Episcopal priest, Father Robert Pace of Fort Worth, TX, is used to putting others first and reaching out to help. So when the pulmonologist who helped him through his ordeal with COVID-19 asked if he would like to donate blood to help other patients, he did not hesitate.
“I said, ‘Absolutely,’” Pace, 53, recalls. He says the idea was ‘very appealing.’ ” During his ordeal with COVID-19 in March, he had spent 3 days in the hospital, isolated and on IV fluids and oxygen. He was short of breath, with a heartbeat more rapid than usual.
Now, fully recovered, his blood was a precious commodity, antibody-rich and potentially life-saving.
As researchers scramble to test drugs to fight COVID-19, others are turning to an age-old treatment. They’re collecting the blood of survivors and giving it to patients in the throes of a severe infection, a treatment known as convalescent plasma therapy.
Doctors say the treatment will probably serve as a bridge until other drugs and a vaccine become available.
Although the FDA considers the treatment investigational, in late March, it eased access to it. Patients can get it as part of a clinical trial or through an expanded access program overseen by hospitals or universities. A doctor can also request permission to use the treatment for a single patient.
“It is considered an emergent, compassionate need,” says John Burk, MD, a pulmonologist at Texas Health Harris Methodist Hospital, Fort Worth, who treated Pace. “It is a way to bring it to the bedside.” And the approval can happen quickly. Burk says he got one from the FDA just 20 minutes after requesting it for a severely ill patient.
How it works
The premise of how it works is “quite straightforward,” says Michael Joyner, MD, a professor of anesthesiology at the Mayo Clinic, Rochester, MN. “When someone is recovered and no longer symptomatic, you can harvest those antibodies from their blood and give them to someone else, and hopefully alter the course of their disease.” Joyner is the principal investigator for the FDA’s national Expanded Access to Convalescent Plasma for the Treatment of Patients with COVID-19, with 1,000 sites already signed on.
Convalescent therapy has been used to fight many other viruses, including Ebola, severe acute respiratory syndrome (SARS), the “bird” flu, H1N1 flu, and during the 1918 flu pandemic. Joyner says the strongest evidence for it comes from the 1950s, when it was used to treat a rodent-borne illness called Argentine hemorrhagic fever. Using convalescent plasma therapy for this infection reduced the death rate from nearly 43% before the treatment became common in the late 1950s to about 3% after it was widely used, one report found.
Data about convalescent therapy specifically for COVID-19 is limited. Chinese researchers reported on five critically ill patients, all on mechanical ventilation, treated with convalescent plasma after they had received antiviral and anti-inflammatory medicines. Three could leave the hospital after 51-55 days, and two were in stable condition in the hospital 37 days after the transfusion.
In another study of 10 severely ill patients, symptoms went away or improved in all 10 within 1 to 3 days after the transfusion. Two of the three on ventilators were weaned off and put on oxygen instead. None died.
Chinese researchers also reported three cases of patients with COVID-19 given the convalescent therapy who had a satisfactory recovery.
Researchers who reviewed the track record of convalescent therapy for other conditions recently concluded that the treatment doesn’t appear to cause severe side effects and it should be studied for COVID-19.
Although information on side effects specific to this treatment is evolving, Joyner says they are “very, very low.”
According to the FDA, allergic reactions can occur with plasma therapies. Because the treatment for COVID-19 is new, it is not known if patients might have other types of reactions.
Who can donate?
Blood bank officials and researchers running the convalescent plasma programs say the desire to help is widespread, and they’ve been deluged with offers to donate. But requirements are strict.
Donors must have evidence of COVID-19 infection, documented in a variety of ways, such as a diagnostic test by nasal swab or a blood test showing antibodies. And they must be symptom-free for 14 days, with test results, or 28 days without.
The treatment involves collecting plasma, not whole blood. Plasma, the liquid part of the blood, helps with clotting and supports immunity. During the collection, a donor’s blood is put through a machine that collects the plasma only and sends the red blood cells and platelets back to the donor.
Clinical trials
Requirements may be more stringent for donors joining a formal clinical trial rather than an expanded access program. For instance, potential donors in a randomized clinical trial underway at Stony Brook University must have higher antibody levels than required by the FDA, says study leader Elliott Bennett-Guerrero, MD, medical director of perioperative quality and patient safety and professor at the Renaissance School of Medicine.
He hopes to enroll up to 500 patients from the Long Island, NY, area. While clinical trials typically have a 50-50 split, with half of subjects getting a treatment and half a placebo, Bennett-Guerrero’s study will give 80% of patients the convalescent plasma and 20% standard plasma.
Julia Sabia Motley, 57, of Merrick, NY, is hoping to become a donor for the Stony Brook study. She and her husband, Sean Motley, 59, tested positive in late March. She has to pass one more test to join the trial. Her husband is also planning to try to donate. “I can finally do something,” Sabia Motley says. Her son is in the MD-PhD program at Stony Brook and told her about the study.
Many questions remain
The treatment for COVID-19 is in its infancy. Burk has given the convalescent plasma to two patients. One is now recovering at home, and the other is on a ventilator but improving, he says.
About 200 nationwide have received the therapy, Joyner says. He expects blood supplies to increase as more people are eligible to donate.
Questions remain about how effective the convalescent therapy will be. While experts know that the COVID-19 antibodies “can be helpful in fighting the virus, we don’t know how long the antibodies in the plasma would stay in place,” Bennett-Guerrero says.
Nor do doctors know who the therapy might work best for, beyond people with a severe or life-threatening illness. When it’s been used for other infections, it’s generally given in early stages once someone has symptoms, Joyner says.
Joyner says he sees the treatment as a stopgap ‘’until concentrated antibodies are available.” Several drug companies are working to retrieve antibodies from donors and make concentrated antibody drugs.
“Typically we would think convalescent plasma might be a helpful bridge until therapies that are safe and effective and can be mass-produced are available, such as a vaccine or a drug,” Bennett-Guerrero says.
Even so, he says that he doesn’t think he will have a problem attracting donors, and that he will have repeat donors eager to help.
More information for potential donors
Blood banks, the American Red Cross, and others involved in convalescent plasma therapy have posted information online for potential donors. People who don’t meet the qualifications for COVID-19 plasma donations are welcomed as regular blood donors if they meet those criteria
According to the FDA, a donation could potentially help save the lives of up to four COVID-19 patients.
Father Pace is already planning another visit to the blood bank. To pass the time last time, he says, he prayed for the person who would eventually get his blood.
This article first appeared on WebMD.com.
As an Episcopal priest, Father Robert Pace of Fort Worth, TX, is used to putting others first and reaching out to help. So when the pulmonologist who helped him through his ordeal with COVID-19 asked if he would like to donate blood to help other patients, he did not hesitate.
“I said, ‘Absolutely,’” Pace, 53, recalls. He says the idea was ‘very appealing.’ ” During his ordeal with COVID-19 in March, he had spent 3 days in the hospital, isolated and on IV fluids and oxygen. He was short of breath, with a heartbeat more rapid than usual.
Now, fully recovered, his blood was a precious commodity, antibody-rich and potentially life-saving.
As researchers scramble to test drugs to fight COVID-19, others are turning to an age-old treatment. They’re collecting the blood of survivors and giving it to patients in the throes of a severe infection, a treatment known as convalescent plasma therapy.
Doctors say the treatment will probably serve as a bridge until other drugs and a vaccine become available.
Although the FDA considers the treatment investigational, in late March, it eased access to it. Patients can get it as part of a clinical trial or through an expanded access program overseen by hospitals or universities. A doctor can also request permission to use the treatment for a single patient.
“It is considered an emergent, compassionate need,” says John Burk, MD, a pulmonologist at Texas Health Harris Methodist Hospital, Fort Worth, who treated Pace. “It is a way to bring it to the bedside.” And the approval can happen quickly. Burk says he got one from the FDA just 20 minutes after requesting it for a severely ill patient.
How it works
The premise of how it works is “quite straightforward,” says Michael Joyner, MD, a professor of anesthesiology at the Mayo Clinic, Rochester, MN. “When someone is recovered and no longer symptomatic, you can harvest those antibodies from their blood and give them to someone else, and hopefully alter the course of their disease.” Joyner is the principal investigator for the FDA’s national Expanded Access to Convalescent Plasma for the Treatment of Patients with COVID-19, with 1,000 sites already signed on.
Convalescent therapy has been used to fight many other viruses, including Ebola, severe acute respiratory syndrome (SARS), the “bird” flu, H1N1 flu, and during the 1918 flu pandemic. Joyner says the strongest evidence for it comes from the 1950s, when it was used to treat a rodent-borne illness called Argentine hemorrhagic fever. Using convalescent plasma therapy for this infection reduced the death rate from nearly 43% before the treatment became common in the late 1950s to about 3% after it was widely used, one report found.
Data about convalescent therapy specifically for COVID-19 is limited. Chinese researchers reported on five critically ill patients, all on mechanical ventilation, treated with convalescent plasma after they had received antiviral and anti-inflammatory medicines. Three could leave the hospital after 51-55 days, and two were in stable condition in the hospital 37 days after the transfusion.
In another study of 10 severely ill patients, symptoms went away or improved in all 10 within 1 to 3 days after the transfusion. Two of the three on ventilators were weaned off and put on oxygen instead. None died.
Chinese researchers also reported three cases of patients with COVID-19 given the convalescent therapy who had a satisfactory recovery.
Researchers who reviewed the track record of convalescent therapy for other conditions recently concluded that the treatment doesn’t appear to cause severe side effects and it should be studied for COVID-19.
Although information on side effects specific to this treatment is evolving, Joyner says they are “very, very low.”
According to the FDA, allergic reactions can occur with plasma therapies. Because the treatment for COVID-19 is new, it is not known if patients might have other types of reactions.
Who can donate?
Blood bank officials and researchers running the convalescent plasma programs say the desire to help is widespread, and they’ve been deluged with offers to donate. But requirements are strict.
Donors must have evidence of COVID-19 infection, documented in a variety of ways, such as a diagnostic test by nasal swab or a blood test showing antibodies. And they must be symptom-free for 14 days, with test results, or 28 days without.
The treatment involves collecting plasma, not whole blood. Plasma, the liquid part of the blood, helps with clotting and supports immunity. During the collection, a donor’s blood is put through a machine that collects the plasma only and sends the red blood cells and platelets back to the donor.
Clinical trials
Requirements may be more stringent for donors joining a formal clinical trial rather than an expanded access program. For instance, potential donors in a randomized clinical trial underway at Stony Brook University must have higher antibody levels than required by the FDA, says study leader Elliott Bennett-Guerrero, MD, medical director of perioperative quality and patient safety and professor at the Renaissance School of Medicine.
He hopes to enroll up to 500 patients from the Long Island, NY, area. While clinical trials typically have a 50-50 split, with half of subjects getting a treatment and half a placebo, Bennett-Guerrero’s study will give 80% of patients the convalescent plasma and 20% standard plasma.
Julia Sabia Motley, 57, of Merrick, NY, is hoping to become a donor for the Stony Brook study. She and her husband, Sean Motley, 59, tested positive in late March. She has to pass one more test to join the trial. Her husband is also planning to try to donate. “I can finally do something,” Sabia Motley says. Her son is in the MD-PhD program at Stony Brook and told her about the study.
Many questions remain
The treatment for COVID-19 is in its infancy. Burk has given the convalescent plasma to two patients. One is now recovering at home, and the other is on a ventilator but improving, he says.
About 200 nationwide have received the therapy, Joyner says. He expects blood supplies to increase as more people are eligible to donate.
Questions remain about how effective the convalescent therapy will be. While experts know that the COVID-19 antibodies “can be helpful in fighting the virus, we don’t know how long the antibodies in the plasma would stay in place,” Bennett-Guerrero says.
Nor do doctors know who the therapy might work best for, beyond people with a severe or life-threatening illness. When it’s been used for other infections, it’s generally given in early stages once someone has symptoms, Joyner says.
Joyner says he sees the treatment as a stopgap ‘’until concentrated antibodies are available.” Several drug companies are working to retrieve antibodies from donors and make concentrated antibody drugs.
“Typically we would think convalescent plasma might be a helpful bridge until therapies that are safe and effective and can be mass-produced are available, such as a vaccine or a drug,” Bennett-Guerrero says.
Even so, he says that he doesn’t think he will have a problem attracting donors, and that he will have repeat donors eager to help.
More information for potential donors
Blood banks, the American Red Cross, and others involved in convalescent plasma therapy have posted information online for potential donors. People who don’t meet the qualifications for COVID-19 plasma donations are welcomed as regular blood donors if they meet those criteria
According to the FDA, a donation could potentially help save the lives of up to four COVID-19 patients.
Father Pace is already planning another visit to the blood bank. To pass the time last time, he says, he prayed for the person who would eventually get his blood.
This article first appeared on WebMD.com.
As an Episcopal priest, Father Robert Pace of Fort Worth, TX, is used to putting others first and reaching out to help. So when the pulmonologist who helped him through his ordeal with COVID-19 asked if he would like to donate blood to help other patients, he did not hesitate.
“I said, ‘Absolutely,’” Pace, 53, recalls. He says the idea was ‘very appealing.’ ” During his ordeal with COVID-19 in March, he had spent 3 days in the hospital, isolated and on IV fluids and oxygen. He was short of breath, with a heartbeat more rapid than usual.
Now, fully recovered, his blood was a precious commodity, antibody-rich and potentially life-saving.
As researchers scramble to test drugs to fight COVID-19, others are turning to an age-old treatment. They’re collecting the blood of survivors and giving it to patients in the throes of a severe infection, a treatment known as convalescent plasma therapy.
Doctors say the treatment will probably serve as a bridge until other drugs and a vaccine become available.
Although the FDA considers the treatment investigational, in late March, it eased access to it. Patients can get it as part of a clinical trial or through an expanded access program overseen by hospitals or universities. A doctor can also request permission to use the treatment for a single patient.
“It is considered an emergent, compassionate need,” says John Burk, MD, a pulmonologist at Texas Health Harris Methodist Hospital, Fort Worth, who treated Pace. “It is a way to bring it to the bedside.” And the approval can happen quickly. Burk says he got one from the FDA just 20 minutes after requesting it for a severely ill patient.
How it works
The premise of how it works is “quite straightforward,” says Michael Joyner, MD, a professor of anesthesiology at the Mayo Clinic, Rochester, MN. “When someone is recovered and no longer symptomatic, you can harvest those antibodies from their blood and give them to someone else, and hopefully alter the course of their disease.” Joyner is the principal investigator for the FDA’s national Expanded Access to Convalescent Plasma for the Treatment of Patients with COVID-19, with 1,000 sites already signed on.
Convalescent therapy has been used to fight many other viruses, including Ebola, severe acute respiratory syndrome (SARS), the “bird” flu, H1N1 flu, and during the 1918 flu pandemic. Joyner says the strongest evidence for it comes from the 1950s, when it was used to treat a rodent-borne illness called Argentine hemorrhagic fever. Using convalescent plasma therapy for this infection reduced the death rate from nearly 43% before the treatment became common in the late 1950s to about 3% after it was widely used, one report found.
Data about convalescent therapy specifically for COVID-19 is limited. Chinese researchers reported on five critically ill patients, all on mechanical ventilation, treated with convalescent plasma after they had received antiviral and anti-inflammatory medicines. Three could leave the hospital after 51-55 days, and two were in stable condition in the hospital 37 days after the transfusion.
In another study of 10 severely ill patients, symptoms went away or improved in all 10 within 1 to 3 days after the transfusion. Two of the three on ventilators were weaned off and put on oxygen instead. None died.
Chinese researchers also reported three cases of patients with COVID-19 given the convalescent therapy who had a satisfactory recovery.
Researchers who reviewed the track record of convalescent therapy for other conditions recently concluded that the treatment doesn’t appear to cause severe side effects and it should be studied for COVID-19.
Although information on side effects specific to this treatment is evolving, Joyner says they are “very, very low.”
According to the FDA, allergic reactions can occur with plasma therapies. Because the treatment for COVID-19 is new, it is not known if patients might have other types of reactions.
Who can donate?
Blood bank officials and researchers running the convalescent plasma programs say the desire to help is widespread, and they’ve been deluged with offers to donate. But requirements are strict.
Donors must have evidence of COVID-19 infection, documented in a variety of ways, such as a diagnostic test by nasal swab or a blood test showing antibodies. And they must be symptom-free for 14 days, with test results, or 28 days without.
The treatment involves collecting plasma, not whole blood. Plasma, the liquid part of the blood, helps with clotting and supports immunity. During the collection, a donor’s blood is put through a machine that collects the plasma only and sends the red blood cells and platelets back to the donor.
Clinical trials
Requirements may be more stringent for donors joining a formal clinical trial rather than an expanded access program. For instance, potential donors in a randomized clinical trial underway at Stony Brook University must have higher antibody levels than required by the FDA, says study leader Elliott Bennett-Guerrero, MD, medical director of perioperative quality and patient safety and professor at the Renaissance School of Medicine.
He hopes to enroll up to 500 patients from the Long Island, NY, area. While clinical trials typically have a 50-50 split, with half of subjects getting a treatment and half a placebo, Bennett-Guerrero’s study will give 80% of patients the convalescent plasma and 20% standard plasma.
Julia Sabia Motley, 57, of Merrick, NY, is hoping to become a donor for the Stony Brook study. She and her husband, Sean Motley, 59, tested positive in late March. She has to pass one more test to join the trial. Her husband is also planning to try to donate. “I can finally do something,” Sabia Motley says. Her son is in the MD-PhD program at Stony Brook and told her about the study.
Many questions remain
The treatment for COVID-19 is in its infancy. Burk has given the convalescent plasma to two patients. One is now recovering at home, and the other is on a ventilator but improving, he says.
About 200 nationwide have received the therapy, Joyner says. He expects blood supplies to increase as more people are eligible to donate.
Questions remain about how effective the convalescent therapy will be. While experts know that the COVID-19 antibodies “can be helpful in fighting the virus, we don’t know how long the antibodies in the plasma would stay in place,” Bennett-Guerrero says.
Nor do doctors know who the therapy might work best for, beyond people with a severe or life-threatening illness. When it’s been used for other infections, it’s generally given in early stages once someone has symptoms, Joyner says.
Joyner says he sees the treatment as a stopgap ‘’until concentrated antibodies are available.” Several drug companies are working to retrieve antibodies from donors and make concentrated antibody drugs.
“Typically we would think convalescent plasma might be a helpful bridge until therapies that are safe and effective and can be mass-produced are available, such as a vaccine or a drug,” Bennett-Guerrero says.
Even so, he says that he doesn’t think he will have a problem attracting donors, and that he will have repeat donors eager to help.
More information for potential donors
Blood banks, the American Red Cross, and others involved in convalescent plasma therapy have posted information online for potential donors. People who don’t meet the qualifications for COVID-19 plasma donations are welcomed as regular blood donors if they meet those criteria
According to the FDA, a donation could potentially help save the lives of up to four COVID-19 patients.
Father Pace is already planning another visit to the blood bank. To pass the time last time, he says, he prayed for the person who would eventually get his blood.
This article first appeared on WebMD.com.
Think twice: Choosing Wisely recommendations on testing to avoid in pediatric hematology
ORLANDO – There’s with some exceptions.
The list, which was produced by an expert panel with representatives from the American Society of Hematology and the American Society of Pediatric Hematology/Oncology (ASPHO), includes five tests or procedures that are considered unnecessary. The recommendations were released at the annual meeting of the American Society of Hematology.
The five recommendations are:
- Don’t perform routine preoperative hemostatic testing in an otherwise healthy child with no prior personal or family history of bleeding.
- Don’t transfuse platelets in a nonbleeding pediatric patient with a platelet count greater than 10,000/mcL, unless other signs of bleeding are present, or if the patient is set to undergo an invasive procedure.
- Don’t order thrombophilia testing on children with venous access-associated thrombosis in the absence of a positive family history.
- Don’t transfuse packed RBCs for iron-deficiency anemia in asymptomatic pediatric patients when there is no evidence of hemodynamic instability or active bleeding.
- Don’t routinely administer granulocyte colony–stimulating factor (G-CSF) for empiric treatment of pediatric patients with asymptomatic autoimmune neutropenia in the absence of recurrent or severe bacterial and/or fungal infections.
This is the third Choosing Wisely list produced by ASH. The group released the first list in 2013 and the second in 2014. But officials at both ASH and ASPHO have received feedback over the years that there should also be a pediatric-focused list in hematology, said Sarah O’Brien, MD, of Nationwide Children’s Hospital in Columbus, Ohio, and cochair of the expert panel that put together the recommendations.
Hemostatic testing
The panel recommended against preoperative hemostatic screening in healthy children with no personal or family history of excessive bleeding because the test does not effectively predict who will have unexpected surgical bleeding. The testing could instead identify artifacts or disorders unrelated to bleeding risk, such as factor XII deficiency or an infection-associated, transient lupus anticoagulant, according to Veronica H. Flood, MD, of the Medical College of Wisconsin, Milwaukee, and a member of the expert panel.
Performing this type of testing also adds cost and stress for families, and often delays surgery.
A look at the current literature reveals that there is little evidence to support coagulation testing in healthy children undergoing surgery. “Despite all this evidence, there remain practitioners who perform such screening on a regular basis,” Dr. Flood said.
For physicians concerned about bleeding risk, Dr. Flood said that existing guidelines support taking a bleeding history in preoperative patients. “This may take a little more time, but in the end will result in better results and less expense.”
Platelet transfusion
The panel recommended against platelet transfusion in nonbleeding pediatric patients with hypoproliferative thrombocytopenia and a platelet count greater than 10,000/mcL. The caveats for this recommendation are that it does not apply if there are other signs or symptoms of bleeding, if the patient is undergoing an invasive procedure, if the patient is aged 1 year or younger, or if the patient has immune-mediated thrombocytopenia, according to Rachel Bercovitz, MD, of the Ann & Robert H. Lurie Children’s Hospital of Chicago and a member of the expert panel.
Previous studies on the platelet transfusions in patients with hematologic malignancies have shown that 10,000/mcL is the appropriate threshold, with no difference in bleeding above that number and increased bleeding below it, Dr. Bercovitz said.
Additionally, while platelet transfusion is a safe procedure, Dr. Bercovitz said, it is not without acute and long-term risks.
Cost is also a factor. “Platelets are a limited and expensive resource,” she said.
Thrombophilia testing
Thrombophilia testing in children with a central venous catheter-associated thrombosis was once common practice but should be avoided, explained Leslie J. Raffini, MD, of the Children’s Hospital of Philadelphia and a member of the expert panel.
Thrombophilia does not influence the initial management of a first episode of provoked venous thrombosis, it does not inform the intensity of duration of anticoagulant therapy, and it does not predict recurrence of venous thrombosis in children, Dr. Raffini said.
In the 2013 Choosing Wisely list, ASH made the same recommendation against testing in adult patients with venous thromboembolism occurring in the setting of major transient risk factors. Thrombophilia testing is also expensive, often has to be repeated, and can be misinterpreted, Dr. Raffini said.
Packed RBC transfusion
The panel recommended against transfusion with packed RBCs for children with iron-deficiency anemia who have no symptoms and no evidence of hemodynamic instability or active bleeding. Transfusion is appropriate if children are symptomatic or are hemodynamically unstable, said Patrick T. McGann, MD, of Cincinnati Children’s Hospital and a member of the expert panel.
Rather than jump to transfusion, Dr. McGann said this group of asymptomatic and hemodynamically stable children should be treated for their iron deficiency through oral or intravenous iron. “This is not about ignoring iron deficiency.”
Both are effective treatments with multiple options available, he said. But sending a child to the hospital for transfusion is a costly option that is stressful for families and only provides a temporary solution to the issue, since treatment of the underlying iron deficiency still needs to be addressed, Dr. McGann said.
G-CSF treatment
The panel also recommended against routine administration of G-CSF in children with asymptomatic autoimmune neutropenia. Peter E. Newburger, MD, of Boston Children’s Hospital and a member of the expert guideline panel, said that there is limited evidence available and no published guidelines in this area, so the panel was guided by expert opinion.
In most cases, G-CSF is not necessary because autoimmune neutropenia resolves spontaneously by age 4-5 years and the risk of serious infection is extremely low. Appropriate management includes antibiotics for acute bacterial infection, good dental hygiene, and continued immunizations, Dr. Newburger said.
G-CSF may be appropriate in limited cases to improve quality of life, but it should be started at a low dose of 1-2 mcg/kg.
In cases of serious infection, Dr. Newburger said physicians should consider alternative diagnoses, such as congenital neutropenia or myelodysplastic syndromes.
ORLANDO – There’s with some exceptions.
The list, which was produced by an expert panel with representatives from the American Society of Hematology and the American Society of Pediatric Hematology/Oncology (ASPHO), includes five tests or procedures that are considered unnecessary. The recommendations were released at the annual meeting of the American Society of Hematology.
The five recommendations are:
- Don’t perform routine preoperative hemostatic testing in an otherwise healthy child with no prior personal or family history of bleeding.
- Don’t transfuse platelets in a nonbleeding pediatric patient with a platelet count greater than 10,000/mcL, unless other signs of bleeding are present, or if the patient is set to undergo an invasive procedure.
- Don’t order thrombophilia testing on children with venous access-associated thrombosis in the absence of a positive family history.
- Don’t transfuse packed RBCs for iron-deficiency anemia in asymptomatic pediatric patients when there is no evidence of hemodynamic instability or active bleeding.
- Don’t routinely administer granulocyte colony–stimulating factor (G-CSF) for empiric treatment of pediatric patients with asymptomatic autoimmune neutropenia in the absence of recurrent or severe bacterial and/or fungal infections.
This is the third Choosing Wisely list produced by ASH. The group released the first list in 2013 and the second in 2014. But officials at both ASH and ASPHO have received feedback over the years that there should also be a pediatric-focused list in hematology, said Sarah O’Brien, MD, of Nationwide Children’s Hospital in Columbus, Ohio, and cochair of the expert panel that put together the recommendations.
Hemostatic testing
The panel recommended against preoperative hemostatic screening in healthy children with no personal or family history of excessive bleeding because the test does not effectively predict who will have unexpected surgical bleeding. The testing could instead identify artifacts or disorders unrelated to bleeding risk, such as factor XII deficiency or an infection-associated, transient lupus anticoagulant, according to Veronica H. Flood, MD, of the Medical College of Wisconsin, Milwaukee, and a member of the expert panel.
Performing this type of testing also adds cost and stress for families, and often delays surgery.
A look at the current literature reveals that there is little evidence to support coagulation testing in healthy children undergoing surgery. “Despite all this evidence, there remain practitioners who perform such screening on a regular basis,” Dr. Flood said.
For physicians concerned about bleeding risk, Dr. Flood said that existing guidelines support taking a bleeding history in preoperative patients. “This may take a little more time, but in the end will result in better results and less expense.”
Platelet transfusion
The panel recommended against platelet transfusion in nonbleeding pediatric patients with hypoproliferative thrombocytopenia and a platelet count greater than 10,000/mcL. The caveats for this recommendation are that it does not apply if there are other signs or symptoms of bleeding, if the patient is undergoing an invasive procedure, if the patient is aged 1 year or younger, or if the patient has immune-mediated thrombocytopenia, according to Rachel Bercovitz, MD, of the Ann & Robert H. Lurie Children’s Hospital of Chicago and a member of the expert panel.
Previous studies on the platelet transfusions in patients with hematologic malignancies have shown that 10,000/mcL is the appropriate threshold, with no difference in bleeding above that number and increased bleeding below it, Dr. Bercovitz said.
Additionally, while platelet transfusion is a safe procedure, Dr. Bercovitz said, it is not without acute and long-term risks.
Cost is also a factor. “Platelets are a limited and expensive resource,” she said.
Thrombophilia testing
Thrombophilia testing in children with a central venous catheter-associated thrombosis was once common practice but should be avoided, explained Leslie J. Raffini, MD, of the Children’s Hospital of Philadelphia and a member of the expert panel.
Thrombophilia does not influence the initial management of a first episode of provoked venous thrombosis, it does not inform the intensity of duration of anticoagulant therapy, and it does not predict recurrence of venous thrombosis in children, Dr. Raffini said.
In the 2013 Choosing Wisely list, ASH made the same recommendation against testing in adult patients with venous thromboembolism occurring in the setting of major transient risk factors. Thrombophilia testing is also expensive, often has to be repeated, and can be misinterpreted, Dr. Raffini said.
Packed RBC transfusion
The panel recommended against transfusion with packed RBCs for children with iron-deficiency anemia who have no symptoms and no evidence of hemodynamic instability or active bleeding. Transfusion is appropriate if children are symptomatic or are hemodynamically unstable, said Patrick T. McGann, MD, of Cincinnati Children’s Hospital and a member of the expert panel.
Rather than jump to transfusion, Dr. McGann said this group of asymptomatic and hemodynamically stable children should be treated for their iron deficiency through oral or intravenous iron. “This is not about ignoring iron deficiency.”
Both are effective treatments with multiple options available, he said. But sending a child to the hospital for transfusion is a costly option that is stressful for families and only provides a temporary solution to the issue, since treatment of the underlying iron deficiency still needs to be addressed, Dr. McGann said.
G-CSF treatment
The panel also recommended against routine administration of G-CSF in children with asymptomatic autoimmune neutropenia. Peter E. Newburger, MD, of Boston Children’s Hospital and a member of the expert guideline panel, said that there is limited evidence available and no published guidelines in this area, so the panel was guided by expert opinion.
In most cases, G-CSF is not necessary because autoimmune neutropenia resolves spontaneously by age 4-5 years and the risk of serious infection is extremely low. Appropriate management includes antibiotics for acute bacterial infection, good dental hygiene, and continued immunizations, Dr. Newburger said.
G-CSF may be appropriate in limited cases to improve quality of life, but it should be started at a low dose of 1-2 mcg/kg.
In cases of serious infection, Dr. Newburger said physicians should consider alternative diagnoses, such as congenital neutropenia or myelodysplastic syndromes.
ORLANDO – There’s with some exceptions.
The list, which was produced by an expert panel with representatives from the American Society of Hematology and the American Society of Pediatric Hematology/Oncology (ASPHO), includes five tests or procedures that are considered unnecessary. The recommendations were released at the annual meeting of the American Society of Hematology.
The five recommendations are:
- Don’t perform routine preoperative hemostatic testing in an otherwise healthy child with no prior personal or family history of bleeding.
- Don’t transfuse platelets in a nonbleeding pediatric patient with a platelet count greater than 10,000/mcL, unless other signs of bleeding are present, or if the patient is set to undergo an invasive procedure.
- Don’t order thrombophilia testing on children with venous access-associated thrombosis in the absence of a positive family history.
- Don’t transfuse packed RBCs for iron-deficiency anemia in asymptomatic pediatric patients when there is no evidence of hemodynamic instability or active bleeding.
- Don’t routinely administer granulocyte colony–stimulating factor (G-CSF) for empiric treatment of pediatric patients with asymptomatic autoimmune neutropenia in the absence of recurrent or severe bacterial and/or fungal infections.
This is the third Choosing Wisely list produced by ASH. The group released the first list in 2013 and the second in 2014. But officials at both ASH and ASPHO have received feedback over the years that there should also be a pediatric-focused list in hematology, said Sarah O’Brien, MD, of Nationwide Children’s Hospital in Columbus, Ohio, and cochair of the expert panel that put together the recommendations.
Hemostatic testing
The panel recommended against preoperative hemostatic screening in healthy children with no personal or family history of excessive bleeding because the test does not effectively predict who will have unexpected surgical bleeding. The testing could instead identify artifacts or disorders unrelated to bleeding risk, such as factor XII deficiency or an infection-associated, transient lupus anticoagulant, according to Veronica H. Flood, MD, of the Medical College of Wisconsin, Milwaukee, and a member of the expert panel.
Performing this type of testing also adds cost and stress for families, and often delays surgery.
A look at the current literature reveals that there is little evidence to support coagulation testing in healthy children undergoing surgery. “Despite all this evidence, there remain practitioners who perform such screening on a regular basis,” Dr. Flood said.
For physicians concerned about bleeding risk, Dr. Flood said that existing guidelines support taking a bleeding history in preoperative patients. “This may take a little more time, but in the end will result in better results and less expense.”
Platelet transfusion
The panel recommended against platelet transfusion in nonbleeding pediatric patients with hypoproliferative thrombocytopenia and a platelet count greater than 10,000/mcL. The caveats for this recommendation are that it does not apply if there are other signs or symptoms of bleeding, if the patient is undergoing an invasive procedure, if the patient is aged 1 year or younger, or if the patient has immune-mediated thrombocytopenia, according to Rachel Bercovitz, MD, of the Ann & Robert H. Lurie Children’s Hospital of Chicago and a member of the expert panel.
Previous studies on the platelet transfusions in patients with hematologic malignancies have shown that 10,000/mcL is the appropriate threshold, with no difference in bleeding above that number and increased bleeding below it, Dr. Bercovitz said.
Additionally, while platelet transfusion is a safe procedure, Dr. Bercovitz said, it is not without acute and long-term risks.
Cost is also a factor. “Platelets are a limited and expensive resource,” she said.
Thrombophilia testing
Thrombophilia testing in children with a central venous catheter-associated thrombosis was once common practice but should be avoided, explained Leslie J. Raffini, MD, of the Children’s Hospital of Philadelphia and a member of the expert panel.
Thrombophilia does not influence the initial management of a first episode of provoked venous thrombosis, it does not inform the intensity of duration of anticoagulant therapy, and it does not predict recurrence of venous thrombosis in children, Dr. Raffini said.
In the 2013 Choosing Wisely list, ASH made the same recommendation against testing in adult patients with venous thromboembolism occurring in the setting of major transient risk factors. Thrombophilia testing is also expensive, often has to be repeated, and can be misinterpreted, Dr. Raffini said.
Packed RBC transfusion
The panel recommended against transfusion with packed RBCs for children with iron-deficiency anemia who have no symptoms and no evidence of hemodynamic instability or active bleeding. Transfusion is appropriate if children are symptomatic or are hemodynamically unstable, said Patrick T. McGann, MD, of Cincinnati Children’s Hospital and a member of the expert panel.
Rather than jump to transfusion, Dr. McGann said this group of asymptomatic and hemodynamically stable children should be treated for their iron deficiency through oral or intravenous iron. “This is not about ignoring iron deficiency.”
Both are effective treatments with multiple options available, he said. But sending a child to the hospital for transfusion is a costly option that is stressful for families and only provides a temporary solution to the issue, since treatment of the underlying iron deficiency still needs to be addressed, Dr. McGann said.
G-CSF treatment
The panel also recommended against routine administration of G-CSF in children with asymptomatic autoimmune neutropenia. Peter E. Newburger, MD, of Boston Children’s Hospital and a member of the expert guideline panel, said that there is limited evidence available and no published guidelines in this area, so the panel was guided by expert opinion.
In most cases, G-CSF is not necessary because autoimmune neutropenia resolves spontaneously by age 4-5 years and the risk of serious infection is extremely low. Appropriate management includes antibiotics for acute bacterial infection, good dental hygiene, and continued immunizations, Dr. Newburger said.
G-CSF may be appropriate in limited cases to improve quality of life, but it should be started at a low dose of 1-2 mcg/kg.
In cases of serious infection, Dr. Newburger said physicians should consider alternative diagnoses, such as congenital neutropenia or myelodysplastic syndromes.
REPORTING FROM ASH 2019