Vaccines

Some 30% of health care personnel who worked at the thousands of hospitals in the United States were still not fully vaccinated against COVID-19 as of mid-September, according to a new survey by the Centers for Disease Control and Prevention.

The snapshot in time – Jan. 20, 2021 to Sept. 15, 2021 – is based on voluntary weekly reports from hospitals. Only about 48% of the 5,085 hospitals in the U.S. Health and Human Services department’s Unified Hospital Data Surveillance System reported data on vaccination coverage during the period, and, after validation checks, the study included reports from 2,086 facilities, or just 41% of all hospitals, covering 3.35 million workers.

Overall, the number who were fully vaccinated rose from 36.1% in Jan. 2021 to 60.2% in April 2021, and then crept slowly up to 70% by Sept. 15, the CDC researchers reported in the American Journal of Infection Control.

The slowdown among hospital workers seems to mirror the same decline as in the general population.  

Arjun Srinivasan, MD, associate director for health care–associated infection prevention programs at the CDC, said the decline in part may be the result of misinformation.

Health care personnel “are not fully immune from vaccine misinformation,” he said, adding that such misinformation “is contributing to decreased vaccine uptake among non–health care personnel.”

“The take-home message is that there is a lot of work to do in health care settings in order to get all of our health care personnel vaccinated,” Dr. Srinivasan told this news organization. “We need them to be vaccinated to protect themselves. It is also really important that we as health care personnel get vaccinated to protect our patients.”
 

Vaccine mandates

The analysis shows that workers were more likely to be vaccinated if they worked at a children’s hospital (77%), lived in metropolitan counties (71%), or worked in a hospital with lower cumulative admissions of COVID-19 patients, or lower cumulative COVID-19 cases.

The odds of being fully vaccinated were lower if the surrounding community had lower vaccination coverage. Workers in non-metropolitan counties (63.3%) and in rural counties (65.1%) were also less likely to be fully vaccinated, as well as those who were in critical access hospitals (64%) or long-term acute care hospitals (68.8%).

Surveys have shown that health care personnel who are vaccine-hesitant cited concerns they had about vaccine efficacy, adverse effects, the speed of vaccine development, and lack of full Food and Drug Administration approval, the study authors noted. In addition, many reported low trust in the government.

A Medscape survey this past April found that 25% of health care workers said they did not plan to be fully vaccinated. Some 40% of the 9,349 workers who responded said that employers should never require a COVID-19 vaccine for clinicians.

But the Centers for Medicare & Medicaid Services is attempting to require all health care facilities that receive Medicare or Medicaid payment to vaccinate workers. All eligible staff must receive the first dose of a two-dose COVID-19 vaccine or a one-dose vaccine by Dec. 6, and a second dose by Jan. 4, 2022. The policy allows exemptions based on recognized medical conditions or religious beliefs.

Some hospitals and health systems and various states and cities have already begun implementing vaccine mandates. Northwell Health in New York, for instance, lost 1,400 workers (evenly split between clinical and nonclinical staff), or 2% of its 77,000 employees, as a result of the state’s mandate.

Northwell’s workforce is now considered 100% vaccinated, a hospital spokesman said in an interview. In addition, “we have allowed for team members who changed their minds and presented proof of vaccination to return,” said the spokesman, adding that “a couple of hundred employees have done just that.”

Ten states sued the Biden administration recently, aiming to stop the health care worker vaccine mandate. Other challenges to vaccine mandates have generally been unsuccessful. The U.S. Supreme Court, for example, in October declined to hear a challenge to Maine’s mandate for health care workers, even though it did not allow religious exemptions, according to the Washington Post.

“The courts seem to agree that health care personnel are different, and could be subject to these mandates,” said Dr. Srinivasan.

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

Some 30% of health care personnel who worked at the thousands of hospitals in the United States were still not fully vaccinated against COVID-19 as of mid-September, according to a new survey by the Centers for Disease Control and Prevention.

The snapshot in time – Jan. 20, 2021 to Sept. 15, 2021 – is based on voluntary weekly reports from hospitals. Only about 48% of the 5,085 hospitals in the U.S. Health and Human Services department’s Unified Hospital Data Surveillance System reported data on vaccination coverage during the period, and, after validation checks, the study included reports from 2,086 facilities, or just 41% of all hospitals, covering 3.35 million workers.

Overall, the number who were fully vaccinated rose from 36.1% in Jan. 2021 to 60.2% in April 2021, and then crept slowly up to 70% by Sept. 15, the CDC researchers reported in the American Journal of Infection Control.

The slowdown among hospital workers seems to mirror the same decline as in the general population.  

Arjun Srinivasan, MD, associate director for health care–associated infection prevention programs at the CDC, said the decline in part may be the result of misinformation.

Health care personnel “are not fully immune from vaccine misinformation,” he said, adding that such misinformation “is contributing to decreased vaccine uptake among non–health care personnel.”

“The take-home message is that there is a lot of work to do in health care settings in order to get all of our health care personnel vaccinated,” Dr. Srinivasan told this news organization. “We need them to be vaccinated to protect themselves. It is also really important that we as health care personnel get vaccinated to protect our patients.”
 

Vaccine mandates

The analysis shows that workers were more likely to be vaccinated if they worked at a children’s hospital (77%), lived in metropolitan counties (71%), or worked in a hospital with lower cumulative admissions of COVID-19 patients, or lower cumulative COVID-19 cases.

The odds of being fully vaccinated were lower if the surrounding community had lower vaccination coverage. Workers in non-metropolitan counties (63.3%) and in rural counties (65.1%) were also less likely to be fully vaccinated, as well as those who were in critical access hospitals (64%) or long-term acute care hospitals (68.8%).

Surveys have shown that health care personnel who are vaccine-hesitant cited concerns they had about vaccine efficacy, adverse effects, the speed of vaccine development, and lack of full Food and Drug Administration approval, the study authors noted. In addition, many reported low trust in the government.

A Medscape survey this past April found that 25% of health care workers said they did not plan to be fully vaccinated. Some 40% of the 9,349 workers who responded said that employers should never require a COVID-19 vaccine for clinicians.

But the Centers for Medicare & Medicaid Services is attempting to require all health care facilities that receive Medicare or Medicaid payment to vaccinate workers. All eligible staff must receive the first dose of a two-dose COVID-19 vaccine or a one-dose vaccine by Dec. 6, and a second dose by Jan. 4, 2022. The policy allows exemptions based on recognized medical conditions or religious beliefs.

Some hospitals and health systems and various states and cities have already begun implementing vaccine mandates. Northwell Health in New York, for instance, lost 1,400 workers (evenly split between clinical and nonclinical staff), or 2% of its 77,000 employees, as a result of the state’s mandate.

Northwell’s workforce is now considered 100% vaccinated, a hospital spokesman said in an interview. In addition, “we have allowed for team members who changed their minds and presented proof of vaccination to return,” said the spokesman, adding that “a couple of hundred employees have done just that.”

Ten states sued the Biden administration recently, aiming to stop the health care worker vaccine mandate. Other challenges to vaccine mandates have generally been unsuccessful. The U.S. Supreme Court, for example, in October declined to hear a challenge to Maine’s mandate for health care workers, even though it did not allow religious exemptions, according to the Washington Post.

“The courts seem to agree that health care personnel are different, and could be subject to these mandates,” said Dr. Srinivasan.

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

Some 30% of health care personnel who worked at the thousands of hospitals in the United States were still not fully vaccinated against COVID-19 as of mid-September, according to a new survey by the Centers for Disease Control and Prevention.

The snapshot in time – Jan. 20, 2021 to Sept. 15, 2021 – is based on voluntary weekly reports from hospitals. Only about 48% of the 5,085 hospitals in the U.S. Health and Human Services department’s Unified Hospital Data Surveillance System reported data on vaccination coverage during the period, and, after validation checks, the study included reports from 2,086 facilities, or just 41% of all hospitals, covering 3.35 million workers.

Overall, the number who were fully vaccinated rose from 36.1% in Jan. 2021 to 60.2% in April 2021, and then crept slowly up to 70% by Sept. 15, the CDC researchers reported in the American Journal of Infection Control.

The slowdown among hospital workers seems to mirror the same decline as in the general population.  

Arjun Srinivasan, MD, associate director for health care–associated infection prevention programs at the CDC, said the decline in part may be the result of misinformation.

Health care personnel “are not fully immune from vaccine misinformation,” he said, adding that such misinformation “is contributing to decreased vaccine uptake among non–health care personnel.”

“The take-home message is that there is a lot of work to do in health care settings in order to get all of our health care personnel vaccinated,” Dr. Srinivasan told this news organization. “We need them to be vaccinated to protect themselves. It is also really important that we as health care personnel get vaccinated to protect our patients.”
 

Vaccine mandates

The analysis shows that workers were more likely to be vaccinated if they worked at a children’s hospital (77%), lived in metropolitan counties (71%), or worked in a hospital with lower cumulative admissions of COVID-19 patients, or lower cumulative COVID-19 cases.

The odds of being fully vaccinated were lower if the surrounding community had lower vaccination coverage. Workers in non-metropolitan counties (63.3%) and in rural counties (65.1%) were also less likely to be fully vaccinated, as well as those who were in critical access hospitals (64%) or long-term acute care hospitals (68.8%).

Surveys have shown that health care personnel who are vaccine-hesitant cited concerns they had about vaccine efficacy, adverse effects, the speed of vaccine development, and lack of full Food and Drug Administration approval, the study authors noted. In addition, many reported low trust in the government.

A Medscape survey this past April found that 25% of health care workers said they did not plan to be fully vaccinated. Some 40% of the 9,349 workers who responded said that employers should never require a COVID-19 vaccine for clinicians.

But the Centers for Medicare & Medicaid Services is attempting to require all health care facilities that receive Medicare or Medicaid payment to vaccinate workers. All eligible staff must receive the first dose of a two-dose COVID-19 vaccine or a one-dose vaccine by Dec. 6, and a second dose by Jan. 4, 2022. The policy allows exemptions based on recognized medical conditions or religious beliefs.

Some hospitals and health systems and various states and cities have already begun implementing vaccine mandates. Northwell Health in New York, for instance, lost 1,400 workers (evenly split between clinical and nonclinical staff), or 2% of its 77,000 employees, as a result of the state’s mandate.

Northwell’s workforce is now considered 100% vaccinated, a hospital spokesman said in an interview. In addition, “we have allowed for team members who changed their minds and presented proof of vaccination to return,” said the spokesman, adding that “a couple of hundred employees have done just that.”

Ten states sued the Biden administration recently, aiming to stop the health care worker vaccine mandate. Other challenges to vaccine mandates have generally been unsuccessful. The U.S. Supreme Court, for example, in October declined to hear a challenge to Maine’s mandate for health care workers, even though it did not allow religious exemptions, according to the Washington Post.

“The courts seem to agree that health care personnel are different, and could be subject to these mandates,” said Dr. Srinivasan.

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

The Food and Drug Administration has given the green light to third, or booster doses of the Pfizer and Moderna vaccines for everyone over the age of 18, ahead of the busy winter holiday season.

“Authorizing the use of a single booster dose of either the Moderna or Pfizer-BioNTech COVID-19 vaccine for individuals 18 years of age and older helps to provide continued protection against COVID-19, including the serious consequences that can occur, such as hospitalization and death,” said acting FDA Commissioner Janet Woodcock, MD, in an FDA press statement.

The Center for Disease Control and Prevention’s Advisory Committee on Immunization Practices will meet on Nov. 19 to review the science supporting a more widespread need for booster doses, and is expected to vote on official recommendations for their use in the United States. The CDC director must then sign off on the panel’s recommendations.

“As soon as the FDA reviews those data and provides an authorization, we at CDC will act swiftly,” Rochelle P. Walensky, MD, MPH, said at a recent White House briefing.

Several states – including Louisiana, Maine, and Colorado – have already authorized boosters for all adults as cases rise in Europe and across the Western and Northeastern regions of the United States.

FDA officials said they hoped that widening eligibility for boosters would cut down on confusion for people and hopefully speed uptake of the shots.

“Streamlining the eligibility criteria and making booster doses available to all individuals 18 years of age and older will also help to eliminate confusion about who may receive a booster dose and ensure booster doses are available to all who may need one,” said Peter Marks, MD, PhD, who heads the FDA’s Center for Biologics Evaluation and Research.

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

The Food and Drug Administration has given the green light to third, or booster doses of the Pfizer and Moderna vaccines for everyone over the age of 18, ahead of the busy winter holiday season.

“Authorizing the use of a single booster dose of either the Moderna or Pfizer-BioNTech COVID-19 vaccine for individuals 18 years of age and older helps to provide continued protection against COVID-19, including the serious consequences that can occur, such as hospitalization and death,” said acting FDA Commissioner Janet Woodcock, MD, in an FDA press statement.

The Center for Disease Control and Prevention’s Advisory Committee on Immunization Practices will meet on Nov. 19 to review the science supporting a more widespread need for booster doses, and is expected to vote on official recommendations for their use in the United States. The CDC director must then sign off on the panel’s recommendations.

“As soon as the FDA reviews those data and provides an authorization, we at CDC will act swiftly,” Rochelle P. Walensky, MD, MPH, said at a recent White House briefing.

Several states – including Louisiana, Maine, and Colorado – have already authorized boosters for all adults as cases rise in Europe and across the Western and Northeastern regions of the United States.

FDA officials said they hoped that widening eligibility for boosters would cut down on confusion for people and hopefully speed uptake of the shots.

“Streamlining the eligibility criteria and making booster doses available to all individuals 18 years of age and older will also help to eliminate confusion about who may receive a booster dose and ensure booster doses are available to all who may need one,” said Peter Marks, MD, PhD, who heads the FDA’s Center for Biologics Evaluation and Research.

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

The Food and Drug Administration has given the green light to third, or booster doses of the Pfizer and Moderna vaccines for everyone over the age of 18, ahead of the busy winter holiday season.

“Authorizing the use of a single booster dose of either the Moderna or Pfizer-BioNTech COVID-19 vaccine for individuals 18 years of age and older helps to provide continued protection against COVID-19, including the serious consequences that can occur, such as hospitalization and death,” said acting FDA Commissioner Janet Woodcock, MD, in an FDA press statement.

The Center for Disease Control and Prevention’s Advisory Committee on Immunization Practices will meet on Nov. 19 to review the science supporting a more widespread need for booster doses, and is expected to vote on official recommendations for their use in the United States. The CDC director must then sign off on the panel’s recommendations.

“As soon as the FDA reviews those data and provides an authorization, we at CDC will act swiftly,” Rochelle P. Walensky, MD, MPH, said at a recent White House briefing.

Several states – including Louisiana, Maine, and Colorado – have already authorized boosters for all adults as cases rise in Europe and across the Western and Northeastern regions of the United States.

FDA officials said they hoped that widening eligibility for boosters would cut down on confusion for people and hopefully speed uptake of the shots.

“Streamlining the eligibility criteria and making booster doses available to all individuals 18 years of age and older will also help to eliminate confusion about who may receive a booster dose and ensure booster doses are available to all who may need one,” said Peter Marks, MD, PhD, who heads the FDA’s Center for Biologics Evaluation and Research.

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

REFERENCES

1. Weng MK. Universal adult hepatitis B vaccinations: work group considerations. Presented to the Advisory Committee on Immunization Practices on November 3, 2021. Accessed November 17, 2021. www.cdc.gov/vaccines/acip/meetings/downloads/slides-2021-11-2-3/02-HepWG-weng-508.pdf
2. Kovayashi M. Considerations for age-based and risk-based use of PCV15 and PCV20 among US adults and proposed policy options. Presented to the Advisory Committee on Immunization Practices on October 20, 2021. Accessed November 17, 2021. www.cdc.gov/vaccines/acip/meetings/downloads/slides-2021-10-20-21/02-Pneumococcal-Kobayashi-508.pdf
3. Schillie S, Vellozzi C, Reingold A, et al. Prevention of hepatitis B virus in the United States: recommendations of the Advisory Committee on Immunization Practices. MMWR Recomm Rep. 2018;67:1-31.
4. Matanock A, Lee G, Gierke R, et al. Use of 13-valent pneumococcal conjugate vaccine and 23-valent pneumococcal polysaccharide vaccine among adults aged ≥65 years: updated recommendations of the Advisory Committee on Immunization Practices. MMWR Morbid Mortal Wkly Rep. 2019;68:1069-1075.

REFERENCES

1. Weng MK. Universal adult hepatitis B vaccinations: work group considerations. Presented to the Advisory Committee on Immunization Practices on November 3, 2021. Accessed November 17, 2021. www.cdc.gov/vaccines/acip/meetings/downloads/slides-2021-11-2-3/02-HepWG-weng-508.pdf
2. Kovayashi M. Considerations for age-based and risk-based use of PCV15 and PCV20 among US adults and proposed policy options. Presented to the Advisory Committee on Immunization Practices on October 20, 2021. Accessed November 17, 2021. www.cdc.gov/vaccines/acip/meetings/downloads/slides-2021-10-20-21/02-Pneumococcal-Kobayashi-508.pdf
3. Schillie S, Vellozzi C, Reingold A, et al. Prevention of hepatitis B virus in the United States: recommendations of the Advisory Committee on Immunization Practices. MMWR Recomm Rep. 2018;67:1-31.
4. Matanock A, Lee G, Gierke R, et al. Use of 13-valent pneumococcal conjugate vaccine and 23-valent pneumococcal polysaccharide vaccine among adults aged ≥65 years: updated recommendations of the Advisory Committee on Immunization Practices. MMWR Morbid Mortal Wkly Rep. 2019;68:1069-1075.

REFERENCES

1. Weng MK. Universal adult hepatitis B vaccinations: work group considerations. Presented to the Advisory Committee on Immunization Practices on November 3, 2021. Accessed November 17, 2021. www.cdc.gov/vaccines/acip/meetings/downloads/slides-2021-11-2-3/02-HepWG-weng-508.pdf
2. Kovayashi M. Considerations for age-based and risk-based use of PCV15 and PCV20 among US adults and proposed policy options. Presented to the Advisory Committee on Immunization Practices on October 20, 2021. Accessed November 17, 2021. www.cdc.gov/vaccines/acip/meetings/downloads/slides-2021-10-20-21/02-Pneumococcal-Kobayashi-508.pdf
3. Schillie S, Vellozzi C, Reingold A, et al. Prevention of hepatitis B virus in the United States: recommendations of the Advisory Committee on Immunization Practices. MMWR Recomm Rep. 2018;67:1-31.
4. Matanock A, Lee G, Gierke R, et al. Use of 13-valent pneumococcal conjugate vaccine and 23-valent pneumococcal polysaccharide vaccine among adults aged ≥65 years: updated recommendations of the Advisory Committee on Immunization Practices. MMWR Morbid Mortal Wkly Rep. 2019;68:1069-1075.

Immunosuppressed patients with autoimmune diseases who received the Moderna mRNA-1273 SARS-CoV-2 two-dose vaccine series had a frequency of adverse events similar to the general population albeit with a somewhat reduced, but still significant, antibody response with no severe vaccine-related disease flares, results of a prospective, nonrandomized open-label comparative trial in Canada demonstrated.

At the same time, patients with RA who were taking rituximab and patients with systemic lupus erythematosus (SLE) who were taking mycophenolate mofetil seemed to have reduced humoral responses after receiving the vaccine, said Ines Colmegna, MD, reporting results of the COVID-19 Vaccine in Immunosuppressed Adults with Autoimmune Disease (COVIAAD) study as a late-breaking poster abstract at the virtual annual meeting of the American College of Rheumatology. Dr. Colmegna is an associate professor of rheumatology in the division of experimental medicine at McGill University, Montreal.

“The frequency of adverse events, specifically the reactogenicity in people with comorbid conditions regardless of their diagnosis, was similar to healthy controls in this study, and their frequency was similar also the initial studies in the general population,” Dr. Colmegna said.

COVIAAD prospectively enrolled 220 fully vaccinated patients, 162 with rheumatic disease (131 with RA, 23 with SLE, and 8 with other diseases) and 58 controls. Adverse events a week and a month after each dose was the primary outcome. The postvaccine presence of the IgG antibody against the SARS-CoV-2 spike protein and the receptor binding domain (IgG-RBD) was the secondary outcome. Dr. Colmegna said that the study will continue evaluating participants after they get a third dose.

The Canadian trial appears to validate the ACR’s COVID-19 vaccine guidance, the fourth version of which was issued in October, said Jeffrey Curtis, MD, MS, MPH, professor of immunology and rheumatology at the University of Alabama at Birmingham and lead of the ACR COVID-19 Vaccine Guidance Task Force. Specifically, the guidance recommends that patients on rituximab or other anti-CD20 B-cell–depleting agents discuss vaccine timing with their rheumatologist.

“A few things changed over time when there was a paucity of evidence for any vaccine, but as time has gone on, mostly we were more correct than we weren’t,” Dr. Curtis said of the task force’s work. “The evidence that now is in this poster with regard to systemic lupus erythematosus and mycophenolate mofetil is [that] you have impaired vaccine response. If you’re on a B-cell drug like rituximab, you really have impaired vaccine response.”

In the study, 100% of controls had immunogenicity in terms of anti-spike and anti-RBD levels after the first and second dose. The rate of immunogenicity after the first and second dose were 67% and 88% in all patients with RA, and 35% and 78% in patients with SLE who were taking mycophenolate mofetil. The subset of patients with RA on rituximab (n = 17) had rates of immunogenicity of 5.9% and 17.6%, respectively.

“Measured antibody response is not the only way in which people develop a response to a vaccine, and there are also similar responses that occur even in people who are on rituximab and have not developed antibodies,” Dr. Colmegna said. “That’s a very important message also that we need to convey to patients: The immune response really extends beyond antibody protection.”

Overall, disease activity in both patients with RA and SLE did not appreciably change from baseline within 7 days and 28 days of each vaccine dose.

The study raises important questions about the timing of the vaccine, particularly in patients on rituximab, Dr. Colmegna said in an interview. “In theory, there is no element to suggest that, if you would schedule the vaccine a month prior to the next dose of rituximab, the effect of the drug would have decreased the number of B cells, and that the possibility of developing antibodies in response to the vaccine might be better if you give rituximab a month later when the amount of the drug and the effect of the drug is maximal,” she said. The average interval between patients receiving rituximab and vaccines was 4.5 months, Dr. Colmegna said in answering a question after her presentation.

Dr. Curtis said that the effect of holding rituximab or the vaccine to boost antibodies “is somewhat yet unknown. We think it will help, but that’s not a guarantee,” he said. “We don’t have direct evidence that just because the drug impairs vaccine response, that holding that drug for a week or 2 is going to take care of the problem.”

The study does arm rheumatologists with more information for discussing COVID vaccines with vaccine-hesitant patients with autoimmune diseases, Dr. Curtis said.

“It gives them evidence that for most of our immunomodulatory drugs the vaccine works pretty well,” he said. “The poster provides evidence that, compared to healthy controls, the vaccine doesn’t work quite as well in some patients, but for most people it actually did work pretty well. That reinforces the message: Go get vaccinated because [you] will mount [an immune] response, even, if that response isn’t quite as brisk as it is in healthy people.”

Dr. Colmegna and Dr. Curtis have no relevant relationships to disclose. The study received funding from Health and Social Services Quebec.

Immunosuppressed patients with autoimmune diseases who received the Moderna mRNA-1273 SARS-CoV-2 two-dose vaccine series had a frequency of adverse events similar to the general population albeit with a somewhat reduced, but still significant, antibody response with no severe vaccine-related disease flares, results of a prospective, nonrandomized open-label comparative trial in Canada demonstrated.

At the same time, patients with RA who were taking rituximab and patients with systemic lupus erythematosus (SLE) who were taking mycophenolate mofetil seemed to have reduced humoral responses after receiving the vaccine, said Ines Colmegna, MD, reporting results of the COVID-19 Vaccine in Immunosuppressed Adults with Autoimmune Disease (COVIAAD) study as a late-breaking poster abstract at the virtual annual meeting of the American College of Rheumatology. Dr. Colmegna is an associate professor of rheumatology in the division of experimental medicine at McGill University, Montreal.

“The frequency of adverse events, specifically the reactogenicity in people with comorbid conditions regardless of their diagnosis, was similar to healthy controls in this study, and their frequency was similar also the initial studies in the general population,” Dr. Colmegna said.

COVIAAD prospectively enrolled 220 fully vaccinated patients, 162 with rheumatic disease (131 with RA, 23 with SLE, and 8 with other diseases) and 58 controls. Adverse events a week and a month after each dose was the primary outcome. The postvaccine presence of the IgG antibody against the SARS-CoV-2 spike protein and the receptor binding domain (IgG-RBD) was the secondary outcome. Dr. Colmegna said that the study will continue evaluating participants after they get a third dose.

The Canadian trial appears to validate the ACR’s COVID-19 vaccine guidance, the fourth version of which was issued in October, said Jeffrey Curtis, MD, MS, MPH, professor of immunology and rheumatology at the University of Alabama at Birmingham and lead of the ACR COVID-19 Vaccine Guidance Task Force. Specifically, the guidance recommends that patients on rituximab or other anti-CD20 B-cell–depleting agents discuss vaccine timing with their rheumatologist.

“A few things changed over time when there was a paucity of evidence for any vaccine, but as time has gone on, mostly we were more correct than we weren’t,” Dr. Curtis said of the task force’s work. “The evidence that now is in this poster with regard to systemic lupus erythematosus and mycophenolate mofetil is [that] you have impaired vaccine response. If you’re on a B-cell drug like rituximab, you really have impaired vaccine response.”

In the study, 100% of controls had immunogenicity in terms of anti-spike and anti-RBD levels after the first and second dose. The rate of immunogenicity after the first and second dose were 67% and 88% in all patients with RA, and 35% and 78% in patients with SLE who were taking mycophenolate mofetil. The subset of patients with RA on rituximab (n = 17) had rates of immunogenicity of 5.9% and 17.6%, respectively.

“Measured antibody response is not the only way in which people develop a response to a vaccine, and there are also similar responses that occur even in people who are on rituximab and have not developed antibodies,” Dr. Colmegna said. “That’s a very important message also that we need to convey to patients: The immune response really extends beyond antibody protection.”

Overall, disease activity in both patients with RA and SLE did not appreciably change from baseline within 7 days and 28 days of each vaccine dose.

The study raises important questions about the timing of the vaccine, particularly in patients on rituximab, Dr. Colmegna said in an interview. “In theory, there is no element to suggest that, if you would schedule the vaccine a month prior to the next dose of rituximab, the effect of the drug would have decreased the number of B cells, and that the possibility of developing antibodies in response to the vaccine might be better if you give rituximab a month later when the amount of the drug and the effect of the drug is maximal,” she said. The average interval between patients receiving rituximab and vaccines was 4.5 months, Dr. Colmegna said in answering a question after her presentation.

Dr. Curtis said that the effect of holding rituximab or the vaccine to boost antibodies “is somewhat yet unknown. We think it will help, but that’s not a guarantee,” he said. “We don’t have direct evidence that just because the drug impairs vaccine response, that holding that drug for a week or 2 is going to take care of the problem.”

The study does arm rheumatologists with more information for discussing COVID vaccines with vaccine-hesitant patients with autoimmune diseases, Dr. Curtis said.

“It gives them evidence that for most of our immunomodulatory drugs the vaccine works pretty well,” he said. “The poster provides evidence that, compared to healthy controls, the vaccine doesn’t work quite as well in some patients, but for most people it actually did work pretty well. That reinforces the message: Go get vaccinated because [you] will mount [an immune] response, even, if that response isn’t quite as brisk as it is in healthy people.”

Dr. Colmegna and Dr. Curtis have no relevant relationships to disclose. The study received funding from Health and Social Services Quebec.

Immunosuppressed patients with autoimmune diseases who received the Moderna mRNA-1273 SARS-CoV-2 two-dose vaccine series had a frequency of adverse events similar to the general population albeit with a somewhat reduced, but still significant, antibody response with no severe vaccine-related disease flares, results of a prospective, nonrandomized open-label comparative trial in Canada demonstrated.

At the same time, patients with RA who were taking rituximab and patients with systemic lupus erythematosus (SLE) who were taking mycophenolate mofetil seemed to have reduced humoral responses after receiving the vaccine, said Ines Colmegna, MD, reporting results of the COVID-19 Vaccine in Immunosuppressed Adults with Autoimmune Disease (COVIAAD) study as a late-breaking poster abstract at the virtual annual meeting of the American College of Rheumatology. Dr. Colmegna is an associate professor of rheumatology in the division of experimental medicine at McGill University, Montreal.

“The frequency of adverse events, specifically the reactogenicity in people with comorbid conditions regardless of their diagnosis, was similar to healthy controls in this study, and their frequency was similar also the initial studies in the general population,” Dr. Colmegna said.

COVIAAD prospectively enrolled 220 fully vaccinated patients, 162 with rheumatic disease (131 with RA, 23 with SLE, and 8 with other diseases) and 58 controls. Adverse events a week and a month after each dose was the primary outcome. The postvaccine presence of the IgG antibody against the SARS-CoV-2 spike protein and the receptor binding domain (IgG-RBD) was the secondary outcome. Dr. Colmegna said that the study will continue evaluating participants after they get a third dose.

The Canadian trial appears to validate the ACR’s COVID-19 vaccine guidance, the fourth version of which was issued in October, said Jeffrey Curtis, MD, MS, MPH, professor of immunology and rheumatology at the University of Alabama at Birmingham and lead of the ACR COVID-19 Vaccine Guidance Task Force. Specifically, the guidance recommends that patients on rituximab or other anti-CD20 B-cell–depleting agents discuss vaccine timing with their rheumatologist.

“A few things changed over time when there was a paucity of evidence for any vaccine, but as time has gone on, mostly we were more correct than we weren’t,” Dr. Curtis said of the task force’s work. “The evidence that now is in this poster with regard to systemic lupus erythematosus and mycophenolate mofetil is [that] you have impaired vaccine response. If you’re on a B-cell drug like rituximab, you really have impaired vaccine response.”

In the study, 100% of controls had immunogenicity in terms of anti-spike and anti-RBD levels after the first and second dose. The rate of immunogenicity after the first and second dose were 67% and 88% in all patients with RA, and 35% and 78% in patients with SLE who were taking mycophenolate mofetil. The subset of patients with RA on rituximab (n = 17) had rates of immunogenicity of 5.9% and 17.6%, respectively.

“Measured antibody response is not the only way in which people develop a response to a vaccine, and there are also similar responses that occur even in people who are on rituximab and have not developed antibodies,” Dr. Colmegna said. “That’s a very important message also that we need to convey to patients: The immune response really extends beyond antibody protection.”

Overall, disease activity in both patients with RA and SLE did not appreciably change from baseline within 7 days and 28 days of each vaccine dose.

The study raises important questions about the timing of the vaccine, particularly in patients on rituximab, Dr. Colmegna said in an interview. “In theory, there is no element to suggest that, if you would schedule the vaccine a month prior to the next dose of rituximab, the effect of the drug would have decreased the number of B cells, and that the possibility of developing antibodies in response to the vaccine might be better if you give rituximab a month later when the amount of the drug and the effect of the drug is maximal,” she said. The average interval between patients receiving rituximab and vaccines was 4.5 months, Dr. Colmegna said in answering a question after her presentation.

Dr. Curtis said that the effect of holding rituximab or the vaccine to boost antibodies “is somewhat yet unknown. We think it will help, but that’s not a guarantee,” he said. “We don’t have direct evidence that just because the drug impairs vaccine response, that holding that drug for a week or 2 is going to take care of the problem.”

The study does arm rheumatologists with more information for discussing COVID vaccines with vaccine-hesitant patients with autoimmune diseases, Dr. Curtis said.

“It gives them evidence that for most of our immunomodulatory drugs the vaccine works pretty well,” he said. “The poster provides evidence that, compared to healthy controls, the vaccine doesn’t work quite as well in some patients, but for most people it actually did work pretty well. That reinforces the message: Go get vaccinated because [you] will mount [an immune] response, even, if that response isn’t quite as brisk as it is in healthy people.”

Dr. Colmegna and Dr. Curtis have no relevant relationships to disclose. The study received funding from Health and Social Services Quebec.

Pfizer and its European partner BioNTech on Nov. 9 asked the U.S. government to expand emergency use authorization (EUA) to allow everybody over 18 to receive their COVID-19 booster shots.

If the request is approved, the broader use of Pfizer boosters would be a step toward President Biden’s goal of boosters for all adults. He announced the goal last August but backed off after some scientists said younger people may not need boosters, especially with large parts of the world unvaccinated.

Pfizer is submitting a study of booster effects on 10,000 people to make its case, according to The Associated Press.

This would be Pfizer’s second attempt. In September, a Food and Drug Administration advisory panel turned down Pfizer’s idea of booster shots for everybody over 18.

However, the committee recommended Pfizer booster shots for people 65 and over, essential workers, and people with underlying health conditions.

The FDA and the Centers for Disease Control and Prevention authorized the Pfizer booster for those other groups and later authorization was granted for the same groups with Moderna and Johnson & Johnson boosters. People who got the two-shot Pfizer or Moderna vaccines should get a booster 6 months after the second dose and people who got the one-dose J&J vaccine should get a booster 2 months later.

The pro-booster argument has strengthened because new data have come in from Israel that confirm boosters provide protection as vaccine effectiveness wanes over time, The Washington Post reported. Also, health officials are worried about a post-holiday surge and because COVID-19 case counts and deaths are not dropping in every part of the country, though they are declining overall, according to the The Post report.

The regulatory path for a booster-for-all application is unclear. The Post, citing two unnamed officials, said the FDA probably won’t send the Pfizer application to the FDA advisory committee this time because the committee has already had extensive discussions about boosters. If the FDA gives the green light, CDC Director Rochelle Walensky, MD, would have to make updated recommendations on boosters, The Post article noted.
 

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

Pfizer and its European partner BioNTech on Nov. 9 asked the U.S. government to expand emergency use authorization (EUA) to allow everybody over 18 to receive their COVID-19 booster shots.

If the request is approved, the broader use of Pfizer boosters would be a step toward President Biden’s goal of boosters for all adults. He announced the goal last August but backed off after some scientists said younger people may not need boosters, especially with large parts of the world unvaccinated.

Pfizer is submitting a study of booster effects on 10,000 people to make its case, according to The Associated Press.

This would be Pfizer’s second attempt. In September, a Food and Drug Administration advisory panel turned down Pfizer’s idea of booster shots for everybody over 18.

However, the committee recommended Pfizer booster shots for people 65 and over, essential workers, and people with underlying health conditions.

The FDA and the Centers for Disease Control and Prevention authorized the Pfizer booster for those other groups and later authorization was granted for the same groups with Moderna and Johnson & Johnson boosters. People who got the two-shot Pfizer or Moderna vaccines should get a booster 6 months after the second dose and people who got the one-dose J&J vaccine should get a booster 2 months later.

The pro-booster argument has strengthened because new data have come in from Israel that confirm boosters provide protection as vaccine effectiveness wanes over time, The Washington Post reported. Also, health officials are worried about a post-holiday surge and because COVID-19 case counts and deaths are not dropping in every part of the country, though they are declining overall, according to the The Post report.

The regulatory path for a booster-for-all application is unclear. The Post, citing two unnamed officials, said the FDA probably won’t send the Pfizer application to the FDA advisory committee this time because the committee has already had extensive discussions about boosters. If the FDA gives the green light, CDC Director Rochelle Walensky, MD, would have to make updated recommendations on boosters, The Post article noted.
 

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

Pfizer and its European partner BioNTech on Nov. 9 asked the U.S. government to expand emergency use authorization (EUA) to allow everybody over 18 to receive their COVID-19 booster shots.

If the request is approved, the broader use of Pfizer boosters would be a step toward President Biden’s goal of boosters for all adults. He announced the goal last August but backed off after some scientists said younger people may not need boosters, especially with large parts of the world unvaccinated.

Pfizer is submitting a study of booster effects on 10,000 people to make its case, according to The Associated Press.

This would be Pfizer’s second attempt. In September, a Food and Drug Administration advisory panel turned down Pfizer’s idea of booster shots for everybody over 18.

However, the committee recommended Pfizer booster shots for people 65 and over, essential workers, and people with underlying health conditions.

The FDA and the Centers for Disease Control and Prevention authorized the Pfizer booster for those other groups and later authorization was granted for the same groups with Moderna and Johnson & Johnson boosters. People who got the two-shot Pfizer or Moderna vaccines should get a booster 6 months after the second dose and people who got the one-dose J&J vaccine should get a booster 2 months later.

The pro-booster argument has strengthened because new data have come in from Israel that confirm boosters provide protection as vaccine effectiveness wanes over time, The Washington Post reported. Also, health officials are worried about a post-holiday surge and because COVID-19 case counts and deaths are not dropping in every part of the country, though they are declining overall, according to the The Post report.

The regulatory path for a booster-for-all application is unclear. The Post, citing two unnamed officials, said the FDA probably won’t send the Pfizer application to the FDA advisory committee this time because the committee has already had extensive discussions about boosters. If the FDA gives the green light, CDC Director Rochelle Walensky, MD, would have to make updated recommendations on boosters, The Post article noted.
 

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

The United States of America are not united. Politics have polarized the competing monologues and the policy making around vaccines, masks, children returning to school, what children are taught in school, and whether the federal government (or the National Football League) can or should create universal mandates enforcing one extreme of any of those policy disputes. Public health and health care have become so entangled in polarized politics that the role of science has often been pushed aside.

Polarization is not a novel event in the history of governments. The partition of India in 1947 divided most of its Hindu and Muslim inhabitants into separate countries, but that hasn’t stopped the recent resurgence of Hindu nationalism in India. The Thirty Years’ War in Europe sought to decide whether Catholics or Protestants would dominate Western Christianity. Those two sides decided in 1648 that coexistence was wiser than continuing into the abyss of mutual annihilation. Current conflicts between Israelis and Palestinians, between Shia and Sunni Arab states, between China and the Uyghurs, and within Sudan and Ethiopia together demonstrate that polarization to the point of genocide can occur regardless of religion, race, and nationality.

Abraham Lincoln, a lawyer in Illinois with a habit of losing elections, was nominated in 1858 to be the Republican nominee in the U.S. Senate race. His speech accepting the nomination spoke a truth that resonated across the nation and across time. It is known as the House Divided speech. He said: “A house divided against itself cannot stand. I believe this government cannot endure, permanently half slave and half free. I do not expect the Union to be dissolved – I do not expect the house to fall – but I do expect it will cease to be divided. It will become all one thing or all the other.”

The Republican Lincoln, supported by antislavery groups, lost that election to the Democrat Stephen A. Douglas, whose party espoused popular sovereignty and local decision-making about slavery. Lincoln’s acceptance speech propelled him 2 years later to be nominated for and elected President of the United States. Lincoln’s first inaugural address as the President of the United States on March 4, 1861, focused on the issue of division and secession. This time, Lincoln placed much more emphasis on preserving the Union. He specifically renounced any federal efforts to use force to abolish slavery in the states that permitted it. He declared: “I have no purpose, directly or indirectly, to interfere with the institution of slavery in the States where it exists. I believe I have no lawful right to do so, and I have no inclination to do so.”

President Lincoln’s approach might not meet muster in today’s cancel culture. He was facing a precariously divided nation not unlike the current day, so his speech contains insights and wisdom important for today. Lincoln saw government as “a majority held in restraint by constitutional checks and limitations.” I am loath to further quote out of context or paraphrase his masterful words. Go read the original, in its balanced entirety.

I have written previous columns about the importance of taking time to reflect on one’s life and one’s career. Reflection is both a wellness check and a moral compass check. Some call it mindfulness. I lean toward calling it thankfulness and gratitude. Hence, November is a convenient time for pediatricians if flu and respiratory syncytial virus seasons haven’t started.

The Gettysburg Address extols the virtue of dedication. Lincoln’s second inaugural address promotes mercy and forgiveness. His Farewell Address to Springfield in 1861 in a single paragraph captures grief, faith, and hope. Those speeches are my perennial favorites. But this year it is the two aforementioned addresses that must be mined for wisdom.

I advocate vaccine and mask mandates, but I am not enamored with the idea of President Biden using the unchecked power of the executive branch to promulgate a single federal regulation that overreaches into every moderate-size business nationwide. The 1861 inaugural address concurs. Lincoln’s prophecy that division will be solved when one side ultimately wins is not the model I seek. It hasn’t worked for gun control. It hasn’t worked for abortion as we approach the 50th anniversary of Roe v. Wade. The present 50+1 vote majority in the U.S. Senate does not have a mandate to overhaul society, especially when those majorities are transient. One should have the courage to seek change, but beware of creating large divisions with small majorities.

Facebook profits when you meditate in the echo chambers of large, outraged groups. Avoid that. Hebrew tradition has some reflection occurring in groups of two or three, rather than solo. Truth is revealed in community. Voltaire said: “Cherish those who seek the truth but beware of those who find it.” As a scientist, my experience is that humility, skepticism, and a dedication to finding truth have served me well for a lifetime.
 

Dr. Powell is a retired pediatric hospitalist and clinical ethics consultant living in St. Louis. Email him at [email protected].

The United States of America are not united. Politics have polarized the competing monologues and the policy making around vaccines, masks, children returning to school, what children are taught in school, and whether the federal government (or the National Football League) can or should create universal mandates enforcing one extreme of any of those policy disputes. Public health and health care have become so entangled in polarized politics that the role of science has often been pushed aside.

Polarization is not a novel event in the history of governments. The partition of India in 1947 divided most of its Hindu and Muslim inhabitants into separate countries, but that hasn’t stopped the recent resurgence of Hindu nationalism in India. The Thirty Years’ War in Europe sought to decide whether Catholics or Protestants would dominate Western Christianity. Those two sides decided in 1648 that coexistence was wiser than continuing into the abyss of mutual annihilation. Current conflicts between Israelis and Palestinians, between Shia and Sunni Arab states, between China and the Uyghurs, and within Sudan and Ethiopia together demonstrate that polarization to the point of genocide can occur regardless of religion, race, and nationality.

Abraham Lincoln, a lawyer in Illinois with a habit of losing elections, was nominated in 1858 to be the Republican nominee in the U.S. Senate race. His speech accepting the nomination spoke a truth that resonated across the nation and across time. It is known as the House Divided speech. He said: “A house divided against itself cannot stand. I believe this government cannot endure, permanently half slave and half free. I do not expect the Union to be dissolved – I do not expect the house to fall – but I do expect it will cease to be divided. It will become all one thing or all the other.”

The Republican Lincoln, supported by antislavery groups, lost that election to the Democrat Stephen A. Douglas, whose party espoused popular sovereignty and local decision-making about slavery. Lincoln’s acceptance speech propelled him 2 years later to be nominated for and elected President of the United States. Lincoln’s first inaugural address as the President of the United States on March 4, 1861, focused on the issue of division and secession. This time, Lincoln placed much more emphasis on preserving the Union. He specifically renounced any federal efforts to use force to abolish slavery in the states that permitted it. He declared: “I have no purpose, directly or indirectly, to interfere with the institution of slavery in the States where it exists. I believe I have no lawful right to do so, and I have no inclination to do so.”

President Lincoln’s approach might not meet muster in today’s cancel culture. He was facing a precariously divided nation not unlike the current day, so his speech contains insights and wisdom important for today. Lincoln saw government as “a majority held in restraint by constitutional checks and limitations.” I am loath to further quote out of context or paraphrase his masterful words. Go read the original, in its balanced entirety.

I have written previous columns about the importance of taking time to reflect on one’s life and one’s career. Reflection is both a wellness check and a moral compass check. Some call it mindfulness. I lean toward calling it thankfulness and gratitude. Hence, November is a convenient time for pediatricians if flu and respiratory syncytial virus seasons haven’t started.

The Gettysburg Address extols the virtue of dedication. Lincoln’s second inaugural address promotes mercy and forgiveness. His Farewell Address to Springfield in 1861 in a single paragraph captures grief, faith, and hope. Those speeches are my perennial favorites. But this year it is the two aforementioned addresses that must be mined for wisdom.

I advocate vaccine and mask mandates, but I am not enamored with the idea of President Biden using the unchecked power of the executive branch to promulgate a single federal regulation that overreaches into every moderate-size business nationwide. The 1861 inaugural address concurs. Lincoln’s prophecy that division will be solved when one side ultimately wins is not the model I seek. It hasn’t worked for gun control. It hasn’t worked for abortion as we approach the 50th anniversary of Roe v. Wade. The present 50+1 vote majority in the U.S. Senate does not have a mandate to overhaul society, especially when those majorities are transient. One should have the courage to seek change, but beware of creating large divisions with small majorities.

Facebook profits when you meditate in the echo chambers of large, outraged groups. Avoid that. Hebrew tradition has some reflection occurring in groups of two or three, rather than solo. Truth is revealed in community. Voltaire said: “Cherish those who seek the truth but beware of those who find it.” As a scientist, my experience is that humility, skepticism, and a dedication to finding truth have served me well for a lifetime.
 

Dr. Powell is a retired pediatric hospitalist and clinical ethics consultant living in St. Louis. Email him at [email protected].

The United States of America are not united. Politics have polarized the competing monologues and the policy making around vaccines, masks, children returning to school, what children are taught in school, and whether the federal government (or the National Football League) can or should create universal mandates enforcing one extreme of any of those policy disputes. Public health and health care have become so entangled in polarized politics that the role of science has often been pushed aside.

Polarization is not a novel event in the history of governments. The partition of India in 1947 divided most of its Hindu and Muslim inhabitants into separate countries, but that hasn’t stopped the recent resurgence of Hindu nationalism in India. The Thirty Years’ War in Europe sought to decide whether Catholics or Protestants would dominate Western Christianity. Those two sides decided in 1648 that coexistence was wiser than continuing into the abyss of mutual annihilation. Current conflicts between Israelis and Palestinians, between Shia and Sunni Arab states, between China and the Uyghurs, and within Sudan and Ethiopia together demonstrate that polarization to the point of genocide can occur regardless of religion, race, and nationality.

Abraham Lincoln, a lawyer in Illinois with a habit of losing elections, was nominated in 1858 to be the Republican nominee in the U.S. Senate race. His speech accepting the nomination spoke a truth that resonated across the nation and across time. It is known as the House Divided speech. He said: “A house divided against itself cannot stand. I believe this government cannot endure, permanently half slave and half free. I do not expect the Union to be dissolved – I do not expect the house to fall – but I do expect it will cease to be divided. It will become all one thing or all the other.”

The Republican Lincoln, supported by antislavery groups, lost that election to the Democrat Stephen A. Douglas, whose party espoused popular sovereignty and local decision-making about slavery. Lincoln’s acceptance speech propelled him 2 years later to be nominated for and elected President of the United States. Lincoln’s first inaugural address as the President of the United States on March 4, 1861, focused on the issue of division and secession. This time, Lincoln placed much more emphasis on preserving the Union. He specifically renounced any federal efforts to use force to abolish slavery in the states that permitted it. He declared: “I have no purpose, directly or indirectly, to interfere with the institution of slavery in the States where it exists. I believe I have no lawful right to do so, and I have no inclination to do so.”

President Lincoln’s approach might not meet muster in today’s cancel culture. He was facing a precariously divided nation not unlike the current day, so his speech contains insights and wisdom important for today. Lincoln saw government as “a majority held in restraint by constitutional checks and limitations.” I am loath to further quote out of context or paraphrase his masterful words. Go read the original, in its balanced entirety.

I have written previous columns about the importance of taking time to reflect on one’s life and one’s career. Reflection is both a wellness check and a moral compass check. Some call it mindfulness. I lean toward calling it thankfulness and gratitude. Hence, November is a convenient time for pediatricians if flu and respiratory syncytial virus seasons haven’t started.

The Gettysburg Address extols the virtue of dedication. Lincoln’s second inaugural address promotes mercy and forgiveness. His Farewell Address to Springfield in 1861 in a single paragraph captures grief, faith, and hope. Those speeches are my perennial favorites. But this year it is the two aforementioned addresses that must be mined for wisdom.

I advocate vaccine and mask mandates, but I am not enamored with the idea of President Biden using the unchecked power of the executive branch to promulgate a single federal regulation that overreaches into every moderate-size business nationwide. The 1861 inaugural address concurs. Lincoln’s prophecy that division will be solved when one side ultimately wins is not the model I seek. It hasn’t worked for gun control. It hasn’t worked for abortion as we approach the 50th anniversary of Roe v. Wade. The present 50+1 vote majority in the U.S. Senate does not have a mandate to overhaul society, especially when those majorities are transient. One should have the courage to seek change, but beware of creating large divisions with small majorities.

Facebook profits when you meditate in the echo chambers of large, outraged groups. Avoid that. Hebrew tradition has some reflection occurring in groups of two or three, rather than solo. Truth is revealed in community. Voltaire said: “Cherish those who seek the truth but beware of those who find it.” As a scientist, my experience is that humility, skepticism, and a dedication to finding truth have served me well for a lifetime.
 

Dr. Powell is a retired pediatric hospitalist and clinical ethics consultant living in St. Louis. Email him at [email protected].

The effectiveness of COVID-19 vaccines produced by Pfizer/BioNTech, Moderna, and Johnson & Johnson dropped dramatically as the Delta variant swept the United States, a study of almost 800,000 veterans found.

The study, published in the journal Science ., says the three vaccines offered about the same protection against the virus in March, when the Delta variant was first detected in the United States, but that changed 6 months later.

The Moderna two-dose vaccine went from being 89% effective in March to 58% effective in September, according to a story about the study in theLos Angeles Times.

Meanwhile, the Pfizer/BioNTech vaccine went from being 87% effective to 45% effective over the same time period.

The Johnson & Johnson vaccine showed the biggest drop -- from 86% effectiveness to 13% over those 6 months.

“In summary, although vaccination remains protective against SARS-CoV-2 infection, protection waned as the Delta variant emerged in the U.S., and this decline did not differ by age,” the study said.

The three vaccines also lost effectiveness in the ability to protect against death in veterans 65 and over after only 3 months, the Los Angeles Times reported.

Compared to unvaccinated veterans in that age group, veterans who got the Moderna vaccine and had a breakthrough case were 76% less likely to die of COVID-19 by July.

The protection was 70% for Pfizer/BioNTech vaccine recipients and 52% for J&J vaccine recipients for the same age group, compared to unvaccinated veterans, according to the newspaper.

For veterans under 65, the protectiveness against a fatal case of COVID was 84% for Pfizer/BioNTech recipients, 82% for Moderna recipients, and 73% for J&J recipients, compared to unvaccinated veterans in that age group.

The study confirms the need for booster vaccines and protective measures such as vaccine passports, vaccine mandates, masking, hand-washing, and social distancing, the researchers said.

Of the veterans studied, about 500,000 were vaccinated and 300,000 were not. Researchers noted that the study population had 6 times as many men as women. About 48% of the study group was 65 or older, 29% was 50-64, while 24% was under 50.

Researchers from the Public Health Institute in Oakland, the Veterans Affairs Medical Center in San Francisco, and the University of Texas Health Science Center conducted the study.

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

The effectiveness of COVID-19 vaccines produced by Pfizer/BioNTech, Moderna, and Johnson & Johnson dropped dramatically as the Delta variant swept the United States, a study of almost 800,000 veterans found.

The study, published in the journal Science ., says the three vaccines offered about the same protection against the virus in March, when the Delta variant was first detected in the United States, but that changed 6 months later.

The Moderna two-dose vaccine went from being 89% effective in March to 58% effective in September, according to a story about the study in theLos Angeles Times.

Meanwhile, the Pfizer/BioNTech vaccine went from being 87% effective to 45% effective over the same time period.

The Johnson & Johnson vaccine showed the biggest drop -- from 86% effectiveness to 13% over those 6 months.

“In summary, although vaccination remains protective against SARS-CoV-2 infection, protection waned as the Delta variant emerged in the U.S., and this decline did not differ by age,” the study said.

The three vaccines also lost effectiveness in the ability to protect against death in veterans 65 and over after only 3 months, the Los Angeles Times reported.

Compared to unvaccinated veterans in that age group, veterans who got the Moderna vaccine and had a breakthrough case were 76% less likely to die of COVID-19 by July.

The protection was 70% for Pfizer/BioNTech vaccine recipients and 52% for J&J vaccine recipients for the same age group, compared to unvaccinated veterans, according to the newspaper.

For veterans under 65, the protectiveness against a fatal case of COVID was 84% for Pfizer/BioNTech recipients, 82% for Moderna recipients, and 73% for J&J recipients, compared to unvaccinated veterans in that age group.

The study confirms the need for booster vaccines and protective measures such as vaccine passports, vaccine mandates, masking, hand-washing, and social distancing, the researchers said.

Of the veterans studied, about 500,000 were vaccinated and 300,000 were not. Researchers noted that the study population had 6 times as many men as women. About 48% of the study group was 65 or older, 29% was 50-64, while 24% was under 50.

Researchers from the Public Health Institute in Oakland, the Veterans Affairs Medical Center in San Francisco, and the University of Texas Health Science Center conducted the study.

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

The effectiveness of COVID-19 vaccines produced by Pfizer/BioNTech, Moderna, and Johnson & Johnson dropped dramatically as the Delta variant swept the United States, a study of almost 800,000 veterans found.

The study, published in the journal Science ., says the three vaccines offered about the same protection against the virus in March, when the Delta variant was first detected in the United States, but that changed 6 months later.

The Moderna two-dose vaccine went from being 89% effective in March to 58% effective in September, according to a story about the study in theLos Angeles Times.

Meanwhile, the Pfizer/BioNTech vaccine went from being 87% effective to 45% effective over the same time period.

The Johnson & Johnson vaccine showed the biggest drop -- from 86% effectiveness to 13% over those 6 months.

“In summary, although vaccination remains protective against SARS-CoV-2 infection, protection waned as the Delta variant emerged in the U.S., and this decline did not differ by age,” the study said.

The three vaccines also lost effectiveness in the ability to protect against death in veterans 65 and over after only 3 months, the Los Angeles Times reported.

Compared to unvaccinated veterans in that age group, veterans who got the Moderna vaccine and had a breakthrough case were 76% less likely to die of COVID-19 by July.

The protection was 70% for Pfizer/BioNTech vaccine recipients and 52% for J&J vaccine recipients for the same age group, compared to unvaccinated veterans, according to the newspaper.

For veterans under 65, the protectiveness against a fatal case of COVID was 84% for Pfizer/BioNTech recipients, 82% for Moderna recipients, and 73% for J&J recipients, compared to unvaccinated veterans in that age group.

The study confirms the need for booster vaccines and protective measures such as vaccine passports, vaccine mandates, masking, hand-washing, and social distancing, the researchers said.

Of the veterans studied, about 500,000 were vaccinated and 300,000 were not. Researchers noted that the study population had 6 times as many men as women. About 48% of the study group was 65 or older, 29% was 50-64, while 24% was under 50.

Researchers from the Public Health Institute in Oakland, the Veterans Affairs Medical Center in San Francisco, and the University of Texas Health Science Center conducted the study.

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

The Advisory Committee on Immunization Practices of the Centers for Disease Control and Prevention has unanimously voted to recommend universal hepatitis B (HBV) immunization in all unvaccinated adults aged 59 years or younger. The group also voted to expand recommendations for vaccinating people at risk for occupational exposure to Ebola and to recommend Jynneos, a smallpox and monkeypox vaccine, for at-risk populations.

The recommendations were approved Nov. 3.

Previously, ACIP recommended HBV vaccination for unvaccinated adults at increased risk for infection because of sexual exposure, percutaneous or mucosal exposure to blood, hepatitis C infection, chronic liver disease, end-stage renal disease, HIV infection, and travel to areas with high to intermediate levels of HBV infection. But experts agreed a new strategy was needed, as previously falling rates of HBV have plateaued. “The past decade has illustrated that risk-based screening has got us as far as it can take us,” Mark Weng, MD, a lieutenant commander in the U.S. Public Health Service and lead of the ACIP Hepatitis Vaccine Working Group, said during the meeting.

There are 1.9 million people living with chronic HBV in the United States, with over 20,000 new acute infections every year. Rates are highest among those in their 40s and 50s, Dr. Weng noted.

The group debated whether to apply the universal recommendation to all ages, but in a close vote (eight yes, seven no), ACIP included an age cutoff of 59. The majority argued that adults 60 and older are at lower risk for infection and vaccination efforts targeting younger adults would be more effective. Those 60 and older would continue to follow the risk-based guidelines, but anyone, regardless of age, can receive the vaccine if they wish to be protected, the group added.

The CDC director as well as several professional societies need to approve the recommendation before it becomes public policy.

ACIP also voted to recommend the following:

• Adding updated recommendations to the 2022 immunization schedules for children, adolescents, and adults, including dengue vaccination for children aged 9-16 years in endemic areas and in adults over 65 and those aged 19-64 with certain chronic conditions.
• The use of Jynneos, a smallpox and monkeypox vaccine, as an alternative to ACAM2000 for those at risk for occupational exposure.
• Pre-exposure vaccination of health care personnel involved in the transport and treatment of suspected Ebola patients at special treatment centers, or lab and support staff working with or handling specimens that may contain the Ebola virus.

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

The Advisory Committee on Immunization Practices of the Centers for Disease Control and Prevention has unanimously voted to recommend universal hepatitis B (HBV) immunization in all unvaccinated adults aged 59 years or younger. The group also voted to expand recommendations for vaccinating people at risk for occupational exposure to Ebola and to recommend Jynneos, a smallpox and monkeypox vaccine, for at-risk populations.

The recommendations were approved Nov. 3.

Previously, ACIP recommended HBV vaccination for unvaccinated adults at increased risk for infection because of sexual exposure, percutaneous or mucosal exposure to blood, hepatitis C infection, chronic liver disease, end-stage renal disease, HIV infection, and travel to areas with high to intermediate levels of HBV infection. But experts agreed a new strategy was needed, as previously falling rates of HBV have plateaued. “The past decade has illustrated that risk-based screening has got us as far as it can take us,” Mark Weng, MD, a lieutenant commander in the U.S. Public Health Service and lead of the ACIP Hepatitis Vaccine Working Group, said during the meeting.

There are 1.9 million people living with chronic HBV in the United States, with over 20,000 new acute infections every year. Rates are highest among those in their 40s and 50s, Dr. Weng noted.

The group debated whether to apply the universal recommendation to all ages, but in a close vote (eight yes, seven no), ACIP included an age cutoff of 59. The majority argued that adults 60 and older are at lower risk for infection and vaccination efforts targeting younger adults would be more effective. Those 60 and older would continue to follow the risk-based guidelines, but anyone, regardless of age, can receive the vaccine if they wish to be protected, the group added.

The CDC director as well as several professional societies need to approve the recommendation before it becomes public policy.

ACIP also voted to recommend the following:

• Adding updated recommendations to the 2022 immunization schedules for children, adolescents, and adults, including dengue vaccination for children aged 9-16 years in endemic areas and in adults over 65 and those aged 19-64 with certain chronic conditions.
• The use of Jynneos, a smallpox and monkeypox vaccine, as an alternative to ACAM2000 for those at risk for occupational exposure.
• Pre-exposure vaccination of health care personnel involved in the transport and treatment of suspected Ebola patients at special treatment centers, or lab and support staff working with or handling specimens that may contain the Ebola virus.

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

The Advisory Committee on Immunization Practices of the Centers for Disease Control and Prevention has unanimously voted to recommend universal hepatitis B (HBV) immunization in all unvaccinated adults aged 59 years or younger. The group also voted to expand recommendations for vaccinating people at risk for occupational exposure to Ebola and to recommend Jynneos, a smallpox and monkeypox vaccine, for at-risk populations.

The recommendations were approved Nov. 3.

Previously, ACIP recommended HBV vaccination for unvaccinated adults at increased risk for infection because of sexual exposure, percutaneous or mucosal exposure to blood, hepatitis C infection, chronic liver disease, end-stage renal disease, HIV infection, and travel to areas with high to intermediate levels of HBV infection. But experts agreed a new strategy was needed, as previously falling rates of HBV have plateaued. “The past decade has illustrated that risk-based screening has got us as far as it can take us,” Mark Weng, MD, a lieutenant commander in the U.S. Public Health Service and lead of the ACIP Hepatitis Vaccine Working Group, said during the meeting.

There are 1.9 million people living with chronic HBV in the United States, with over 20,000 new acute infections every year. Rates are highest among those in their 40s and 50s, Dr. Weng noted.

The group debated whether to apply the universal recommendation to all ages, but in a close vote (eight yes, seven no), ACIP included an age cutoff of 59. The majority argued that adults 60 and older are at lower risk for infection and vaccination efforts targeting younger adults would be more effective. Those 60 and older would continue to follow the risk-based guidelines, but anyone, regardless of age, can receive the vaccine if they wish to be protected, the group added.

The CDC director as well as several professional societies need to approve the recommendation before it becomes public policy.

ACIP also voted to recommend the following:

• Adding updated recommendations to the 2022 immunization schedules for children, adolescents, and adults, including dengue vaccination for children aged 9-16 years in endemic areas and in adults over 65 and those aged 19-64 with certain chronic conditions.
• The use of Jynneos, a smallpox and monkeypox vaccine, as an alternative to ACAM2000 for those at risk for occupational exposure.
• Pre-exposure vaccination of health care personnel involved in the transport and treatment of suspected Ebola patients at special treatment centers, or lab and support staff working with or handling specimens that may contain the Ebola virus.

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

New data from England show the success of the national program for vaccinating girls against human papillomavirus (HPV) to prevent cervical cancer.

Among young women who received the HPV vaccine when they were 12-13 years old (before their sexual debut), cervical cancer rates are 87% lower than among previous nonvaccinated generations.

“It’s been incredible to see the impact of HPV vaccination, and now we can prove it prevented hundreds of women from developing cancer in England,” senior author Peter Sasieni, MD, King’s College London, said in a statement. “To see the real-life impact of the vaccine has been truly rewarding.”

“This study provides the first direct evidence of the impact of the UK HPV vaccination campaign on cervical cancer incidence, showing a large reduction in cervical cancer rates in vaccinated cohorts,” Kate Soldan, MD, U.K. Health Security Agency, London, commented in a statement.

Vanessa Saliba, MD, a consultant epidemiologist for the U.K. Health Security Agency, agreed, saying that “these remarkable findings confirm that the HPV vaccine saves lives by dramatically reducing cervical cancer rates among women.

“This reminds us that vaccines are one of the most important tools we have to help us live longer, healthier lives,” she added.

The study was published online Nov. 3, 2021, in The Lancet.

Approached for comment on the new study, Maurice Markman, MD, president, Medicine and Science Cancer Treatment Centers of America, noted that the results of the English study are very similar to those of a Swedish study of the quadrivalent vaccine alone.

“You can put any superlatives you want in here, but these are stunningly positive results,” Dr. Markman said in an interview. He said that, as an oncologist who has been treating cervical cancer for 40 years, particularly patients with advanced cervical cancer, “I can tell you this is one of the most devastating diseases to women, and the ability to eliminate this cancer with something as simple as a vaccine is the goal of cancer therapy, and it’s been remarkably successful.

“I can only emphasize the critical importance of all parents to see that their children who are eligible for the vaccine receive it. This is a cancer prevention strategy that is unbelievably, remarkably effective and safe,” Dr. Markman added.
 

National vaccination program

The national HPV vaccination program in England began in 2008. Initially, the bivalent Cervarix vaccine against HPV 16 and 18 was used. HPV 16 and 18 are responsible for 70% to 80% of all cervical cancers in England, the researchers note in their article.

In 2012, the program switched to the quadrivalent HPV vaccine (Gardasil), which is effective against two additional HPV types, HPV 6 and 11. Those strains cause genital warts.

The prevention program originally recommended a three-dose regimen in which both HPV vaccines were used. Currently, two doses are given to girls younger than 15 years. In addition, a single dose of the HPV vaccine provides good protection against persistent infection. The efficacy rate of a single dose is similar to that of three doses, the authors comment.
 

Population-based registry

The new data come from a population-based cancer registry that shows the incidence of cervical cancer and noninvasive cervical carcinoma (CIN3) in England between January 2006 and June 2019.

The study included seven cohorts of women who were aged 20-64 years at the end of 2019. Three of these cohorts composed the vaccinated population.

The team reports that overall, from January 2006 to June 2019, there were 27,946 cases of cervical cancer and 318,058 cases of CIN3.

In the three vaccinated cohorts, there were around 450 fewer cases of cervical cancer and 17,200 fewer cases of CIN3 than would be expected in a nonvaccinated population.

The three vaccinated cohorts had been eligible to receive Cervarix when they were aged 12-13 years. A catch-up scheme aimed at 14- to 16-year-olds and 16- to 18-year-olds. Most of these persons were vaccinated through a school vaccination program.

The team analyzed the data for each of these cohorts.

Among the cohort eligible for vaccination at 12-13 years of age, 89% received at least one dose of the HPV vaccine; 85% received three shots and were fully vaccinated. Among these persons, the rate of cervical cancer was 87% lower than expected in a nonvaccinated population, and the rate of CIN3 was 97% lower than expected.

For the cohort that was eligible to be vaccinated between the ages of 14 and 16 years, the corresponding reductions were 62% for cervical cancer and 75% for CIN3.

For the cohort eligible for vaccination between the ages of 16 and 18 years (of whom 60% had received at least one dose and 45% were fully vaccinated), the corresponding reduction were 34% for cervical cancer and 39% for CIN3.

The authors acknowledge some limitations with the study, principally that cervical cancer is rare in young women, and these vaccinated populations are still young. The youngest would have been vaccinated at age 12 in 2008 and so would be only 23 years old in 2019, when the follow-up in this current study ended. The authors emphasize that because the vaccinated populations are still young, it is too early to assess the full impact of HPV vaccination on cervical cancer rates.
 

Editorial commentary

“The relative reductions in cervical cancer, expected as a result of the HPV vaccination program, support the anticipated vaccine effectiveness,” commented two authors of an accompanying editorial, Maggie Cruickshank, MD, University of Aberdeen (Scotland), and Mihaela Grigore, MD, University of Medicine and Pharmacy, Lasi, Romania.

“The scale of the HPV vaccination effect reported by this study should also stimulate vaccination programs in low-income and middle-income countries where the problem of cervical cancer is a far greater public health issue than in those with well established systems of vaccination and screening,” they comment.

“The most important issue, besides the availability of the vaccine ... is the education of the population to accept the vaccination because a high rate of immunization is a key element of success,” they emphasize. “Even in a wealthy country, such as England with free access to HPV immunization, uptake has not reached the 90% vaccination target of girls aged 15 years set by WHO [World Health Organization].”

The authors and editorialists disclosed no relevant financial relationships. Dr. Markman is a regular contributor to Medscape Oncology. He has received income of $250 or more from Genentech, AstraZeneca, Celgene, Clovis, and Amgen.

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

New data from England show the success of the national program for vaccinating girls against human papillomavirus (HPV) to prevent cervical cancer.

Among young women who received the HPV vaccine when they were 12-13 years old (before their sexual debut), cervical cancer rates are 87% lower than among previous nonvaccinated generations.

“It’s been incredible to see the impact of HPV vaccination, and now we can prove it prevented hundreds of women from developing cancer in England,” senior author Peter Sasieni, MD, King’s College London, said in a statement. “To see the real-life impact of the vaccine has been truly rewarding.”

“This study provides the first direct evidence of the impact of the UK HPV vaccination campaign on cervical cancer incidence, showing a large reduction in cervical cancer rates in vaccinated cohorts,” Kate Soldan, MD, U.K. Health Security Agency, London, commented in a statement.

Vanessa Saliba, MD, a consultant epidemiologist for the U.K. Health Security Agency, agreed, saying that “these remarkable findings confirm that the HPV vaccine saves lives by dramatically reducing cervical cancer rates among women.

“This reminds us that vaccines are one of the most important tools we have to help us live longer, healthier lives,” she added.

The study was published online Nov. 3, 2021, in The Lancet.

Approached for comment on the new study, Maurice Markman, MD, president, Medicine and Science Cancer Treatment Centers of America, noted that the results of the English study are very similar to those of a Swedish study of the quadrivalent vaccine alone.

“You can put any superlatives you want in here, but these are stunningly positive results,” Dr. Markman said in an interview. He said that, as an oncologist who has been treating cervical cancer for 40 years, particularly patients with advanced cervical cancer, “I can tell you this is one of the most devastating diseases to women, and the ability to eliminate this cancer with something as simple as a vaccine is the goal of cancer therapy, and it’s been remarkably successful.

“I can only emphasize the critical importance of all parents to see that their children who are eligible for the vaccine receive it. This is a cancer prevention strategy that is unbelievably, remarkably effective and safe,” Dr. Markman added.
 

National vaccination program

The national HPV vaccination program in England began in 2008. Initially, the bivalent Cervarix vaccine against HPV 16 and 18 was used. HPV 16 and 18 are responsible for 70% to 80% of all cervical cancers in England, the researchers note in their article.

In 2012, the program switched to the quadrivalent HPV vaccine (Gardasil), which is effective against two additional HPV types, HPV 6 and 11. Those strains cause genital warts.

The prevention program originally recommended a three-dose regimen in which both HPV vaccines were used. Currently, two doses are given to girls younger than 15 years. In addition, a single dose of the HPV vaccine provides good protection against persistent infection. The efficacy rate of a single dose is similar to that of three doses, the authors comment.
 

Population-based registry

The new data come from a population-based cancer registry that shows the incidence of cervical cancer and noninvasive cervical carcinoma (CIN3) in England between January 2006 and June 2019.

The study included seven cohorts of women who were aged 20-64 years at the end of 2019. Three of these cohorts composed the vaccinated population.

The team reports that overall, from January 2006 to June 2019, there were 27,946 cases of cervical cancer and 318,058 cases of CIN3.

In the three vaccinated cohorts, there were around 450 fewer cases of cervical cancer and 17,200 fewer cases of CIN3 than would be expected in a nonvaccinated population.

The three vaccinated cohorts had been eligible to receive Cervarix when they were aged 12-13 years. A catch-up scheme aimed at 14- to 16-year-olds and 16- to 18-year-olds. Most of these persons were vaccinated through a school vaccination program.

The team analyzed the data for each of these cohorts.

Among the cohort eligible for vaccination at 12-13 years of age, 89% received at least one dose of the HPV vaccine; 85% received three shots and were fully vaccinated. Among these persons, the rate of cervical cancer was 87% lower than expected in a nonvaccinated population, and the rate of CIN3 was 97% lower than expected.

For the cohort that was eligible to be vaccinated between the ages of 14 and 16 years, the corresponding reductions were 62% for cervical cancer and 75% for CIN3.

For the cohort eligible for vaccination between the ages of 16 and 18 years (of whom 60% had received at least one dose and 45% were fully vaccinated), the corresponding reduction were 34% for cervical cancer and 39% for CIN3.

The authors acknowledge some limitations with the study, principally that cervical cancer is rare in young women, and these vaccinated populations are still young. The youngest would have been vaccinated at age 12 in 2008 and so would be only 23 years old in 2019, when the follow-up in this current study ended. The authors emphasize that because the vaccinated populations are still young, it is too early to assess the full impact of HPV vaccination on cervical cancer rates.
 

Editorial commentary

“The relative reductions in cervical cancer, expected as a result of the HPV vaccination program, support the anticipated vaccine effectiveness,” commented two authors of an accompanying editorial, Maggie Cruickshank, MD, University of Aberdeen (Scotland), and Mihaela Grigore, MD, University of Medicine and Pharmacy, Lasi, Romania.

“The scale of the HPV vaccination effect reported by this study should also stimulate vaccination programs in low-income and middle-income countries where the problem of cervical cancer is a far greater public health issue than in those with well established systems of vaccination and screening,” they comment.

“The most important issue, besides the availability of the vaccine ... is the education of the population to accept the vaccination because a high rate of immunization is a key element of success,” they emphasize. “Even in a wealthy country, such as England with free access to HPV immunization, uptake has not reached the 90% vaccination target of girls aged 15 years set by WHO [World Health Organization].”

The authors and editorialists disclosed no relevant financial relationships. Dr. Markman is a regular contributor to Medscape Oncology. He has received income of $250 or more from Genentech, AstraZeneca, Celgene, Clovis, and Amgen.

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

New data from England show the success of the national program for vaccinating girls against human papillomavirus (HPV) to prevent cervical cancer.

Among young women who received the HPV vaccine when they were 12-13 years old (before their sexual debut), cervical cancer rates are 87% lower than among previous nonvaccinated generations.

“It’s been incredible to see the impact of HPV vaccination, and now we can prove it prevented hundreds of women from developing cancer in England,” senior author Peter Sasieni, MD, King’s College London, said in a statement. “To see the real-life impact of the vaccine has been truly rewarding.”

“This study provides the first direct evidence of the impact of the UK HPV vaccination campaign on cervical cancer incidence, showing a large reduction in cervical cancer rates in vaccinated cohorts,” Kate Soldan, MD, U.K. Health Security Agency, London, commented in a statement.

Vanessa Saliba, MD, a consultant epidemiologist for the U.K. Health Security Agency, agreed, saying that “these remarkable findings confirm that the HPV vaccine saves lives by dramatically reducing cervical cancer rates among women.

“This reminds us that vaccines are one of the most important tools we have to help us live longer, healthier lives,” she added.

The study was published online Nov. 3, 2021, in The Lancet.

Approached for comment on the new study, Maurice Markman, MD, president, Medicine and Science Cancer Treatment Centers of America, noted that the results of the English study are very similar to those of a Swedish study of the quadrivalent vaccine alone.

“You can put any superlatives you want in here, but these are stunningly positive results,” Dr. Markman said in an interview. He said that, as an oncologist who has been treating cervical cancer for 40 years, particularly patients with advanced cervical cancer, “I can tell you this is one of the most devastating diseases to women, and the ability to eliminate this cancer with something as simple as a vaccine is the goal of cancer therapy, and it’s been remarkably successful.

“I can only emphasize the critical importance of all parents to see that their children who are eligible for the vaccine receive it. This is a cancer prevention strategy that is unbelievably, remarkably effective and safe,” Dr. Markman added.
 

National vaccination program

The national HPV vaccination program in England began in 2008. Initially, the bivalent Cervarix vaccine against HPV 16 and 18 was used. HPV 16 and 18 are responsible for 70% to 80% of all cervical cancers in England, the researchers note in their article.

In 2012, the program switched to the quadrivalent HPV vaccine (Gardasil), which is effective against two additional HPV types, HPV 6 and 11. Those strains cause genital warts.

The prevention program originally recommended a three-dose regimen in which both HPV vaccines were used. Currently, two doses are given to girls younger than 15 years. In addition, a single dose of the HPV vaccine provides good protection against persistent infection. The efficacy rate of a single dose is similar to that of three doses, the authors comment.
 

Population-based registry

The new data come from a population-based cancer registry that shows the incidence of cervical cancer and noninvasive cervical carcinoma (CIN3) in England between January 2006 and June 2019.

The study included seven cohorts of women who were aged 20-64 years at the end of 2019. Three of these cohorts composed the vaccinated population.

The team reports that overall, from January 2006 to June 2019, there were 27,946 cases of cervical cancer and 318,058 cases of CIN3.

In the three vaccinated cohorts, there were around 450 fewer cases of cervical cancer and 17,200 fewer cases of CIN3 than would be expected in a nonvaccinated population.

The three vaccinated cohorts had been eligible to receive Cervarix when they were aged 12-13 years. A catch-up scheme aimed at 14- to 16-year-olds and 16- to 18-year-olds. Most of these persons were vaccinated through a school vaccination program.

The team analyzed the data for each of these cohorts.

Among the cohort eligible for vaccination at 12-13 years of age, 89% received at least one dose of the HPV vaccine; 85% received three shots and were fully vaccinated. Among these persons, the rate of cervical cancer was 87% lower than expected in a nonvaccinated population, and the rate of CIN3 was 97% lower than expected.

For the cohort that was eligible to be vaccinated between the ages of 14 and 16 years, the corresponding reductions were 62% for cervical cancer and 75% for CIN3.

For the cohort eligible for vaccination between the ages of 16 and 18 years (of whom 60% had received at least one dose and 45% were fully vaccinated), the corresponding reduction were 34% for cervical cancer and 39% for CIN3.

The authors acknowledge some limitations with the study, principally that cervical cancer is rare in young women, and these vaccinated populations are still young. The youngest would have been vaccinated at age 12 in 2008 and so would be only 23 years old in 2019, when the follow-up in this current study ended. The authors emphasize that because the vaccinated populations are still young, it is too early to assess the full impact of HPV vaccination on cervical cancer rates.
 

Editorial commentary

“The relative reductions in cervical cancer, expected as a result of the HPV vaccination program, support the anticipated vaccine effectiveness,” commented two authors of an accompanying editorial, Maggie Cruickshank, MD, University of Aberdeen (Scotland), and Mihaela Grigore, MD, University of Medicine and Pharmacy, Lasi, Romania.

“The scale of the HPV vaccination effect reported by this study should also stimulate vaccination programs in low-income and middle-income countries where the problem of cervical cancer is a far greater public health issue than in those with well established systems of vaccination and screening,” they comment.

“The most important issue, besides the availability of the vaccine ... is the education of the population to accept the vaccination because a high rate of immunization is a key element of success,” they emphasize. “Even in a wealthy country, such as England with free access to HPV immunization, uptake has not reached the 90% vaccination target of girls aged 15 years set by WHO [World Health Organization].”

The authors and editorialists disclosed no relevant financial relationships. Dr. Markman is a regular contributor to Medscape Oncology. He has received income of $250 or more from Genentech, AstraZeneca, Celgene, Clovis, and Amgen.

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

On Nov. 2, the Centers for Disease Control and Prevention endorsed vaccination with the Pfizer/BioNTech COVID-19 vaccine for children aged 5-11 years. What are some best practices for meeting the challenges of immunizing this younger age group?

This news organization spoke to several pediatric experts to get answers.

More than 6 million children and adolescents (up to age 18 years) in the United States have been infected with SARS-CoV-2. Children represent about 17% of all cases, and an estimated 0.1%-2% of infected children end up hospitalized, according to Oct. 28 data from the American Academy of Pediatrics.

Physicians and other health care practitioners are gearing up for what could be an influx of patients. “Pediatricians are standing by to talk with families about the vaccine and to administer the vaccine to children as soon as possible,” Lee Savio Beers, MD, FAAP, president of the AAP, said in a statement.

In this Q&A, this news organization asked for additional advice from Sara “Sally” Goza, MD, a pediatrician in Fayetteville, Georgia, and immediate past president of the AAP; Peter Hotez, MD, PhD, dean of the National School of Tropical Medicine at Baylor College of Medicine and codirector of the Texas Children’s Hospital Center for Vaccine Development, both in Houston; and Danielle M. Zerr, MD, professor and chief of the division of pediatric infectious disease at the University of Washington, Seattle, and medical director of infection prevention at Seattle Children’s Hospital.
 

Q: How are smaller pediatric practices and solo practitioners going to handle the additional vaccinations?

Dr. Goza: It’s a scheduling challenge with this rollout and all the people who want it and want it right now. They’re going to want it this week.

I’ve actually had some children asking their moms: “When can I get it? When can I get it?” It’s been very interesting – they are chomping at the bit.

If I give the vaccine to a patient this week, in 3 weeks the second dose will be right around Thanksgiving. No one in my office is going to want to be here to give the shot on Thanksgiving, and no patient is going to want to come in on Thanksgiving weekend. So I’m trying to delay those parents – saying, let’s do it next week. That way we’re not messing up a holiday.

Children are going to need two doses, and they won’t be fully protected until 2 weeks after their second dose. So they won’t get full protection for Thanksgiving, but they will have full protection for Christmas.

I know there are a lot of pediatricians who have preordered the vaccine. I know in our office they sent us an email ... to let us know our vaccines are being shipped. So I think a lot of pediatricians are going to have the vaccine.
 

Q: How should pediatricians counsel parents who are fearful or hesitant?

Dr. Hotez: It’s important to emphasize the severity of the 2021 summer Delta epidemic in children. We need to get beyond this false narrative that COVID only produces a mild disease in children. It’s caused thousands of pediatric hospitalizations, not to mention long COVID.

Dr. Zerr: It is key to find out what concerns parents have and then focus on answering their specific questions. It is helpful to emphasize the safety and efficacy of the vaccine and to explain the rigorous processes that the vaccine went through to receive Food and Drug Administration approval.
 

Q: How should pediatricians counter any misinformation/disinformation out there about the COVID-19 vaccines?

Dr. Goza: The most important thing is not to discount what they are saying. Don’t say: “That’s crazy” or “That’s not true.” Don’t roll your eyes and say: “Really, you’re going to believe all that?”

Instead, have a conversation with them about why we think that is not true, or why we know that’s not true. We really have to have that relationship and ask: “Well, what are your concerns?” And then really counter (any misinformation) with facts, with science, and based on your experience.
 

Q: Do the data presented to the FDA and the CDC about the safety and effectiveness of the COVID-19 vaccine for 5- to 11-year-olds seem robust to you?

Dr. Zerr: Yes, and data collection will be ongoing.

Dr. Hotez: I’ve only seen what’s publicly available so far, and it seems to support moving forward with emergency use authorization. The only shortfall is the size, roughly 2,200 children, which would not be of sufficient size to detect a rare safety signal.
 

Q: Do previous controversies around pediatric vaccines (for example, the MMR vaccine and autism) give pediatricians some background and experience so they can address any pushback on the COVID-19 vaccines?

Dr. Goza: Pediatricians have been dealing with vaccine hesitancy for a while now, ever since the MMR and autism controversy started. Even before then, there were certain groups of people who didn’t want vaccines.

We’ve really worked hard at helping teach pediatricians how to deal with the misinformation, how to counter it, and how to help parents understand the vaccines are safe and effective – and that they save lives.

That (experience) will help us in some ways. Unfortunately, there is more misinformation out there – there is almost a concerted effort on misinformation. It’s big.

Pediatricians will do everything we can, but we need help countering it. We need the misinformation to quit getting spread on social media. We can talk one on one with patients and families, but if all they are hearing on social media is the misinformation, it’s really hard.
 

Q: Are pediatricians, especially solo practitioners or pediatricians at smaller practices, going to face challenges with multidose vials and not wasting vaccine product?

Dr. Goza: I’m at a small practice. We have 3.5 FTEs (full-time equivalents) of MDs and three FTEs of nurse practitioners. So we’re not that big – about six providers.

You know, it is a challenge. We’re not going to buy the super-duper freezer, and we’re not going to be able to store these vaccines for a long period of time.

So when we order, we need smaller amounts. For the 12- to 18-year-olds, [maximum storage] was 45 days. Now for the 5- to 11-year-olds, we’re going to be able to store the vaccine in the refrigerator for 10 weeks, which gives us more leeway there.

We try to do all of vaccinations on 1 day, so we know how many people are coming in, and we are not going to waste too many doses.

Our Department of Public Health in Georgia has said: “We want these vaccines in the arms of kids, and if you have to waste some doses, don’t worry about it.” But it’s a 10-dose vial. It’s going to be hard for me to open it up for one child. I just don’t like wasting anything like this.

Our main goal is to get this vaccine in to the arms of children whose parents want it.
 

Q: What are some additional sources of information for pediatricians?

Dr. Zerr: There are a lot of great resources on vaccine hesitancy from reputable sources, including these from the CDC and from the National Academies of Sciences, Engineering, and Medicine:

• Building Confidence With OVID-19 Vaccines
• How to Talk With Parents About COVID-19 Vaccination
• Strategies for Building Confidence in the COVID-19 Vaccines
• Communication Strategies for Building Confidence in COVID-19 Vaccines: Addressing Variants and Childhood Vaccinations

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

On Nov. 2, the Centers for Disease Control and Prevention endorsed vaccination with the Pfizer/BioNTech COVID-19 vaccine for children aged 5-11 years. What are some best practices for meeting the challenges of immunizing this younger age group?

This news organization spoke to several pediatric experts to get answers.

More than 6 million children and adolescents (up to age 18 years) in the United States have been infected with SARS-CoV-2. Children represent about 17% of all cases, and an estimated 0.1%-2% of infected children end up hospitalized, according to Oct. 28 data from the American Academy of Pediatrics.

Physicians and other health care practitioners are gearing up for what could be an influx of patients. “Pediatricians are standing by to talk with families about the vaccine and to administer the vaccine to children as soon as possible,” Lee Savio Beers, MD, FAAP, president of the AAP, said in a statement.

In this Q&A, this news organization asked for additional advice from Sara “Sally” Goza, MD, a pediatrician in Fayetteville, Georgia, and immediate past president of the AAP; Peter Hotez, MD, PhD, dean of the National School of Tropical Medicine at Baylor College of Medicine and codirector of the Texas Children’s Hospital Center for Vaccine Development, both in Houston; and Danielle M. Zerr, MD, professor and chief of the division of pediatric infectious disease at the University of Washington, Seattle, and medical director of infection prevention at Seattle Children’s Hospital.
 

Q: How are smaller pediatric practices and solo practitioners going to handle the additional vaccinations?

Dr. Goza: It’s a scheduling challenge with this rollout and all the people who want it and want it right now. They’re going to want it this week.

I’ve actually had some children asking their moms: “When can I get it? When can I get it?” It’s been very interesting – they are chomping at the bit.

If I give the vaccine to a patient this week, in 3 weeks the second dose will be right around Thanksgiving. No one in my office is going to want to be here to give the shot on Thanksgiving, and no patient is going to want to come in on Thanksgiving weekend. So I’m trying to delay those parents – saying, let’s do it next week. That way we’re not messing up a holiday.

Children are going to need two doses, and they won’t be fully protected until 2 weeks after their second dose. So they won’t get full protection for Thanksgiving, but they will have full protection for Christmas.

I know there are a lot of pediatricians who have preordered the vaccine. I know in our office they sent us an email ... to let us know our vaccines are being shipped. So I think a lot of pediatricians are going to have the vaccine.
 

Q: How should pediatricians counsel parents who are fearful or hesitant?

Dr. Hotez: It’s important to emphasize the severity of the 2021 summer Delta epidemic in children. We need to get beyond this false narrative that COVID only produces a mild disease in children. It’s caused thousands of pediatric hospitalizations, not to mention long COVID.

Dr. Zerr: It is key to find out what concerns parents have and then focus on answering their specific questions. It is helpful to emphasize the safety and efficacy of the vaccine and to explain the rigorous processes that the vaccine went through to receive Food and Drug Administration approval.
 

Q: How should pediatricians counter any misinformation/disinformation out there about the COVID-19 vaccines?

Dr. Goza: The most important thing is not to discount what they are saying. Don’t say: “That’s crazy” or “That’s not true.” Don’t roll your eyes and say: “Really, you’re going to believe all that?”

Instead, have a conversation with them about why we think that is not true, or why we know that’s not true. We really have to have that relationship and ask: “Well, what are your concerns?” And then really counter (any misinformation) with facts, with science, and based on your experience.
 

Q: Do the data presented to the FDA and the CDC about the safety and effectiveness of the COVID-19 vaccine for 5- to 11-year-olds seem robust to you?

Dr. Zerr: Yes, and data collection will be ongoing.

Dr. Hotez: I’ve only seen what’s publicly available so far, and it seems to support moving forward with emergency use authorization. The only shortfall is the size, roughly 2,200 children, which would not be of sufficient size to detect a rare safety signal.
 

Q: Do previous controversies around pediatric vaccines (for example, the MMR vaccine and autism) give pediatricians some background and experience so they can address any pushback on the COVID-19 vaccines?

Dr. Goza: Pediatricians have been dealing with vaccine hesitancy for a while now, ever since the MMR and autism controversy started. Even before then, there were certain groups of people who didn’t want vaccines.

We’ve really worked hard at helping teach pediatricians how to deal with the misinformation, how to counter it, and how to help parents understand the vaccines are safe and effective – and that they save lives.

That (experience) will help us in some ways. Unfortunately, there is more misinformation out there – there is almost a concerted effort on misinformation. It’s big.

Pediatricians will do everything we can, but we need help countering it. We need the misinformation to quit getting spread on social media. We can talk one on one with patients and families, but if all they are hearing on social media is the misinformation, it’s really hard.
 

Q: Are pediatricians, especially solo practitioners or pediatricians at smaller practices, going to face challenges with multidose vials and not wasting vaccine product?

Dr. Goza: I’m at a small practice. We have 3.5 FTEs (full-time equivalents) of MDs and three FTEs of nurse practitioners. So we’re not that big – about six providers.

You know, it is a challenge. We’re not going to buy the super-duper freezer, and we’re not going to be able to store these vaccines for a long period of time.

So when we order, we need smaller amounts. For the 12- to 18-year-olds, [maximum storage] was 45 days. Now for the 5- to 11-year-olds, we’re going to be able to store the vaccine in the refrigerator for 10 weeks, which gives us more leeway there.

We try to do all of vaccinations on 1 day, so we know how many people are coming in, and we are not going to waste too many doses.

Our Department of Public Health in Georgia has said: “We want these vaccines in the arms of kids, and if you have to waste some doses, don’t worry about it.” But it’s a 10-dose vial. It’s going to be hard for me to open it up for one child. I just don’t like wasting anything like this.

Our main goal is to get this vaccine in to the arms of children whose parents want it.
 

Q: What are some additional sources of information for pediatricians?

Dr. Zerr: There are a lot of great resources on vaccine hesitancy from reputable sources, including these from the CDC and from the National Academies of Sciences, Engineering, and Medicine:

• Building Confidence With OVID-19 Vaccines
• How to Talk With Parents About COVID-19 Vaccination
• Strategies for Building Confidence in the COVID-19 Vaccines
• Communication Strategies for Building Confidence in COVID-19 Vaccines: Addressing Variants and Childhood Vaccinations

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

On Nov. 2, the Centers for Disease Control and Prevention endorsed vaccination with the Pfizer/BioNTech COVID-19 vaccine for children aged 5-11 years. What are some best practices for meeting the challenges of immunizing this younger age group?

This news organization spoke to several pediatric experts to get answers.

More than 6 million children and adolescents (up to age 18 years) in the United States have been infected with SARS-CoV-2. Children represent about 17% of all cases, and an estimated 0.1%-2% of infected children end up hospitalized, according to Oct. 28 data from the American Academy of Pediatrics.

Physicians and other health care practitioners are gearing up for what could be an influx of patients. “Pediatricians are standing by to talk with families about the vaccine and to administer the vaccine to children as soon as possible,” Lee Savio Beers, MD, FAAP, president of the AAP, said in a statement.

In this Q&A, this news organization asked for additional advice from Sara “Sally” Goza, MD, a pediatrician in Fayetteville, Georgia, and immediate past president of the AAP; Peter Hotez, MD, PhD, dean of the National School of Tropical Medicine at Baylor College of Medicine and codirector of the Texas Children’s Hospital Center for Vaccine Development, both in Houston; and Danielle M. Zerr, MD, professor and chief of the division of pediatric infectious disease at the University of Washington, Seattle, and medical director of infection prevention at Seattle Children’s Hospital.
 

Q: How are smaller pediatric practices and solo practitioners going to handle the additional vaccinations?

Dr. Goza: It’s a scheduling challenge with this rollout and all the people who want it and want it right now. They’re going to want it this week.

I’ve actually had some children asking their moms: “When can I get it? When can I get it?” It’s been very interesting – they are chomping at the bit.

If I give the vaccine to a patient this week, in 3 weeks the second dose will be right around Thanksgiving. No one in my office is going to want to be here to give the shot on Thanksgiving, and no patient is going to want to come in on Thanksgiving weekend. So I’m trying to delay those parents – saying, let’s do it next week. That way we’re not messing up a holiday.

Children are going to need two doses, and they won’t be fully protected until 2 weeks after their second dose. So they won’t get full protection for Thanksgiving, but they will have full protection for Christmas.

I know there are a lot of pediatricians who have preordered the vaccine. I know in our office they sent us an email ... to let us know our vaccines are being shipped. So I think a lot of pediatricians are going to have the vaccine.
 

Q: How should pediatricians counsel parents who are fearful or hesitant?

Dr. Hotez: It’s important to emphasize the severity of the 2021 summer Delta epidemic in children. We need to get beyond this false narrative that COVID only produces a mild disease in children. It’s caused thousands of pediatric hospitalizations, not to mention long COVID.

Dr. Zerr: It is key to find out what concerns parents have and then focus on answering their specific questions. It is helpful to emphasize the safety and efficacy of the vaccine and to explain the rigorous processes that the vaccine went through to receive Food and Drug Administration approval.
 

Q: How should pediatricians counter any misinformation/disinformation out there about the COVID-19 vaccines?

Dr. Goza: The most important thing is not to discount what they are saying. Don’t say: “That’s crazy” or “That’s not true.” Don’t roll your eyes and say: “Really, you’re going to believe all that?”

Instead, have a conversation with them about why we think that is not true, or why we know that’s not true. We really have to have that relationship and ask: “Well, what are your concerns?” And then really counter (any misinformation) with facts, with science, and based on your experience.
 

Q: Do the data presented to the FDA and the CDC about the safety and effectiveness of the COVID-19 vaccine for 5- to 11-year-olds seem robust to you?

Dr. Zerr: Yes, and data collection will be ongoing.

Dr. Hotez: I’ve only seen what’s publicly available so far, and it seems to support moving forward with emergency use authorization. The only shortfall is the size, roughly 2,200 children, which would not be of sufficient size to detect a rare safety signal.
 

Q: Do previous controversies around pediatric vaccines (for example, the MMR vaccine and autism) give pediatricians some background and experience so they can address any pushback on the COVID-19 vaccines?

Dr. Goza: Pediatricians have been dealing with vaccine hesitancy for a while now, ever since the MMR and autism controversy started. Even before then, there were certain groups of people who didn’t want vaccines.

We’ve really worked hard at helping teach pediatricians how to deal with the misinformation, how to counter it, and how to help parents understand the vaccines are safe and effective – and that they save lives.

That (experience) will help us in some ways. Unfortunately, there is more misinformation out there – there is almost a concerted effort on misinformation. It’s big.

Pediatricians will do everything we can, but we need help countering it. We need the misinformation to quit getting spread on social media. We can talk one on one with patients and families, but if all they are hearing on social media is the misinformation, it’s really hard.
 

Q: Are pediatricians, especially solo practitioners or pediatricians at smaller practices, going to face challenges with multidose vials and not wasting vaccine product?

Dr. Goza: I’m at a small practice. We have 3.5 FTEs (full-time equivalents) of MDs and three FTEs of nurse practitioners. So we’re not that big – about six providers.

You know, it is a challenge. We’re not going to buy the super-duper freezer, and we’re not going to be able to store these vaccines for a long period of time.

So when we order, we need smaller amounts. For the 12- to 18-year-olds, [maximum storage] was 45 days. Now for the 5- to 11-year-olds, we’re going to be able to store the vaccine in the refrigerator for 10 weeks, which gives us more leeway there.

We try to do all of vaccinations on 1 day, so we know how many people are coming in, and we are not going to waste too many doses.

Our Department of Public Health in Georgia has said: “We want these vaccines in the arms of kids, and if you have to waste some doses, don’t worry about it.” But it’s a 10-dose vial. It’s going to be hard for me to open it up for one child. I just don’t like wasting anything like this.

Our main goal is to get this vaccine in to the arms of children whose parents want it.
 

Q: What are some additional sources of information for pediatricians?

Dr. Zerr: There are a lot of great resources on vaccine hesitancy from reputable sources, including these from the CDC and from the National Academies of Sciences, Engineering, and Medicine:

• Building Confidence With OVID-19 Vaccines
• How to Talk With Parents About COVID-19 Vaccination
• Strategies for Building Confidence in the COVID-19 Vaccines
• Communication Strategies for Building Confidence in COVID-19 Vaccines: Addressing Variants and Childhood Vaccinations

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