Ob.Gyn. News

More than 40 value-based payment models – from direct contracting to bundled payments – have been introduced into the Medicare program in the past 10 years, with the goal of improving care while lowering costs. Hopes were high that they would be successful.

But despite the new alternative payment models, costs have not declined. If this continues, Medicare won’t have sufficient funds to cover benefit costs after 2024. Physicians could suffer a huge blow to their income.

Many of the value-based care models simply did not work as expected, said Seema Verma, head of the Centers for Medicare & Medicaid Services, at a recent HLTH Conference. “They are not producing the types of savings the taxpayers deserve,” Ms. Verma said.

The Medicare Payment Advisory Commission (MedPac) concluded that, while dozens of payment models were tested, most failed to generate net savings for Medicare. Even the most successful of the models produced only modest savings. MedPac elaborated: “The track record raises the question of whether changes to particular models or CMMI’s [Center for Medicare & Medicaid Innovation’s] broader strategies might be warranted.”

What will happen now, as government officials admit that their value-based programs haven’t worked? The value-based programs could become more stringent. Here’s what physicians will have to contend with.

More risk. Experts agree that risk – financial risk – will be a component of future programs. Two-sided risk is likely to be the norm. This means that both parties – the provider and the insurer – are at financial risk for the patients covered by the program.

For example, a plan with 50,000 beneficiary patients would estimate the cost of caring for those patients on the basis of multiple variables. If the actual cost is lower than anticipated, both parties share in the savings. However, both share in the loss if the cost of caring for their patient population exceeds expectations.

This may compel physicians to enhance efficiency and potentially limit the services provided to patients. Typically, however, the strategy is to make efforts to prevent services like ED visits and admissions by focusing on health maintenance.

In contrast to most current value-based models, which feature little to no downside risk for physicians, double-sided risk means physicians could lose money. The loss may incorporate a cap – 5%, for example – but programs may differ. Experts concur that double-sided risk will be a hallmark of future programs.

Better data. The majority of health care services are rendered via fee-for-service: Patients receive services and physicians are paid, yet little or no information about outcomes is exchanged between insurers and physicians.

Penny Noyes, president of Health Business Navigators and contract negotiator for physicians, is not a fan of the current crop of value-based programs and feels that data transparency is positive. Sound metrics can lead to improvement, she said, adding: “It’s not money that drives physicians to make decisions; it’s what’s in the best interest of their patients and their patients’ long-term care.”

Value-based programs can work but only if applicable data are developed and given to physicians so that they can better understand their current performance and how to improve.

Mandated participation. Participation in value-based programs has been voluntary, but that may have skewed the results, which were better than what typical practice would have shown. Acknowledging this may lead CMS to call for mandated participation as a component of future programs. Physicians may be brought into programs, if only to determine whether the models really work. To date, participation in the programs has been voluntary, but that may change in the future.

Innovation. The private insurance market may end up as a key player. Over the past 6 months, health insurers have either consolidated partnerships with telemedicine companies to provide no-cost care to beneficiaries or have launched their own initiatives.

Others are focused on bringing together patients and providers operating outside of the traditional health care system, such as Aetna’s merger with CVS which now offers retail-based acute care (MinuteClinic) and chronic care (HealthHUB). Still other payers are gambling with physician practice ownership, as in the case of United Healthcare’s OptumHealth, which now boasts around 50,000 physicians throughout the country.

New practice models are emerging in private practices as well. Physicians are embracing remote care, proactively managing care transitions, and seeking out more methods to keep patients healthy and at home.
 

Not much was expected from value-based plans 

Many are not surprised that the value-based models did not produce impressive results. Ms. Noyes doubted that positive outcomes will be achieved for physicians in comparison with what could have been attained under fee-for-service arrangements with lower administrative costs.

While the Affordable Care Act attempted to encourage alternative reimbursement, it limits the maximum medical loss ratio (MLR) a payer could achieve. For many plans, that maximum was 85%. Simply put, at least $0.85 of each premium collected had to be paid in claims; the remaining $0.15 went to margin, claims, and other administrative costs. A payer with an 82% MLR then would have to rebate the 3% difference to enrollees.

But that’s not what occurred, according to Ms. Noyes. Because value-based payments to providers are considered a claims expense, an MLR ratio of 82% allowed the payer to distribute the 3% difference to providers as value-based payments. Ms. Noyes said: “That may sound good for the provider, but the result was essentially a freeze on the provider’s fee-for-service reimbursement with the prospect of getting value-based payments like ‘shared savings.’ 

“When the providers tried to increase their base fee-for-service rates just to match inflation, payers often advised that any future raises had to be earned through value-based programs,” Ms. Noyes added. The value-based formulas confuse providers because payments are often made for periods as far back as 18 months, and providers do not have data systems to reconcile their payer report cards retrospectively. The result is that providers tended to accept whatever amount the payer distributed.

Executives at Lumeris, a company that helps health systems participate successfully in value-based care, see potential in a newer approach to alternative payments, such as CMS’ Direct Contracting initiative. This voluntary payment model offers options tailored to several types of organizations that aim to reduce costs while preserving or enhancing the quality of care for Medicare fee-for-service beneficiaries.

Jeff Smith, chief commercial officer for population health at Lumeris, explained that the Direct Contracting initiative can provide physicians with a more attractive option than prior value-based models because it adjusts for the complexity and fragility of patients with complex and chronic conditions. By allowing providers to participate in the savings generated, the initiative stands in stark contrast to what Mr. Smith described as the “shared savings to nothingness” experienced by providers in earlier-stage alternative payment models.

Physicians engaged with value-based programs like Direct Contracting are investing in nurses to aid with initiatives regarding health promotion and transitions of care. When a patient is discharged, for example, the nurse contacts the patient to discuss medications, schedule follow-up appointments, and so forth – tasks typically left to the patient (or caregiver) to navigate in the traditional system.

The initiative recognizes the importance of managing high-risk patients, those whom physicians identify as having an extraordinary number of ED visits and admissions. These patients, as well as so-called “rising-risk” patients, are targeted by nurses who proactively communicate with patients (and caregivers) to address patient’s needs, including social determinants of health.

Physicians who have a large load of patients in value-based programs are hiring social workers, pharmacists, and behavioral health experts to help. Of course, these personnel are costly, but that’s what the value-based programs aim to reimburse.

Still, the road ahead to value based is rocky and may not gain momentum for some time. Johns Hopkins University’s Doug Hough, PhD, an economist, recounts a government research study that sought to assess the university’s health system participation in a value-based payment program. While there were positive impacts on the program’s target population, Hough and his team discovered that the returns achieved by the optional model didn’t justify the health system’s financial support for it. The increasingly indebted health system ultimately decided to drop the optional program.

Dr. Hough indicated that the health system – Johns Hopkins Medicine – likely would have  continued its support for the program had the government at least allowed it to break even. Although the payment program under study was a 3-year project, the bigger challenge, declared Dr. Hough, is that “we can’t turn an aircraft carrier that quickly.”

“Three years won’t show whether value-based care is really working,” Dr. Hough said.

Robert Zipper, MD, a hospitalist and senior policy advisor for Sound Physicians, a company that works to improve outcomes in acute care, agreed with Dr. Hough that performance tends to improve with time. Yet, Dr. Zipper doesn’t see much change in the near term, because “after all, there is nothing to replace them [the programs].”

The problem gets even stickier for private payers because patients may be on an insurance panel for as little as a year or 2. Thanks to this rapid churn of beneficiaries, even the best-designed value-based program will have little time to prove its worth.

Dr. Zipper is among the many who don’t expect significant changes in the near term, asserting that “President Biden will want to get a few policy wins first, and health care is not the easiest place to start.”

But it’s likely that payers and others will want to see more emphasis on value-based programs despite these programs’ possible value to patients, physicians, and health systems alike.

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

More than 40 value-based payment models – from direct contracting to bundled payments – have been introduced into the Medicare program in the past 10 years, with the goal of improving care while lowering costs. Hopes were high that they would be successful.

But despite the new alternative payment models, costs have not declined. If this continues, Medicare won’t have sufficient funds to cover benefit costs after 2024. Physicians could suffer a huge blow to their income.

Many of the value-based care models simply did not work as expected, said Seema Verma, head of the Centers for Medicare & Medicaid Services, at a recent HLTH Conference. “They are not producing the types of savings the taxpayers deserve,” Ms. Verma said.

The Medicare Payment Advisory Commission (MedPac) concluded that, while dozens of payment models were tested, most failed to generate net savings for Medicare. Even the most successful of the models produced only modest savings. MedPac elaborated: “The track record raises the question of whether changes to particular models or CMMI’s [Center for Medicare & Medicaid Innovation’s] broader strategies might be warranted.”

What will happen now, as government officials admit that their value-based programs haven’t worked? The value-based programs could become more stringent. Here’s what physicians will have to contend with.

More risk. Experts agree that risk – financial risk – will be a component of future programs. Two-sided risk is likely to be the norm. This means that both parties – the provider and the insurer – are at financial risk for the patients covered by the program.

For example, a plan with 50,000 beneficiary patients would estimate the cost of caring for those patients on the basis of multiple variables. If the actual cost is lower than anticipated, both parties share in the savings. However, both share in the loss if the cost of caring for their patient population exceeds expectations.

This may compel physicians to enhance efficiency and potentially limit the services provided to patients. Typically, however, the strategy is to make efforts to prevent services like ED visits and admissions by focusing on health maintenance.

In contrast to most current value-based models, which feature little to no downside risk for physicians, double-sided risk means physicians could lose money. The loss may incorporate a cap – 5%, for example – but programs may differ. Experts concur that double-sided risk will be a hallmark of future programs.

Better data. The majority of health care services are rendered via fee-for-service: Patients receive services and physicians are paid, yet little or no information about outcomes is exchanged between insurers and physicians.

Penny Noyes, president of Health Business Navigators and contract negotiator for physicians, is not a fan of the current crop of value-based programs and feels that data transparency is positive. Sound metrics can lead to improvement, she said, adding: “It’s not money that drives physicians to make decisions; it’s what’s in the best interest of their patients and their patients’ long-term care.”

Value-based programs can work but only if applicable data are developed and given to physicians so that they can better understand their current performance and how to improve.

Mandated participation. Participation in value-based programs has been voluntary, but that may have skewed the results, which were better than what typical practice would have shown. Acknowledging this may lead CMS to call for mandated participation as a component of future programs. Physicians may be brought into programs, if only to determine whether the models really work. To date, participation in the programs has been voluntary, but that may change in the future.

Innovation. The private insurance market may end up as a key player. Over the past 6 months, health insurers have either consolidated partnerships with telemedicine companies to provide no-cost care to beneficiaries or have launched their own initiatives.

Others are focused on bringing together patients and providers operating outside of the traditional health care system, such as Aetna’s merger with CVS which now offers retail-based acute care (MinuteClinic) and chronic care (HealthHUB). Still other payers are gambling with physician practice ownership, as in the case of United Healthcare’s OptumHealth, which now boasts around 50,000 physicians throughout the country.

New practice models are emerging in private practices as well. Physicians are embracing remote care, proactively managing care transitions, and seeking out more methods to keep patients healthy and at home.
 

Not much was expected from value-based plans 

Many are not surprised that the value-based models did not produce impressive results. Ms. Noyes doubted that positive outcomes will be achieved for physicians in comparison with what could have been attained under fee-for-service arrangements with lower administrative costs.

While the Affordable Care Act attempted to encourage alternative reimbursement, it limits the maximum medical loss ratio (MLR) a payer could achieve. For many plans, that maximum was 85%. Simply put, at least $0.85 of each premium collected had to be paid in claims; the remaining $0.15 went to margin, claims, and other administrative costs. A payer with an 82% MLR then would have to rebate the 3% difference to enrollees.

But that’s not what occurred, according to Ms. Noyes. Because value-based payments to providers are considered a claims expense, an MLR ratio of 82% allowed the payer to distribute the 3% difference to providers as value-based payments. Ms. Noyes said: “That may sound good for the provider, but the result was essentially a freeze on the provider’s fee-for-service reimbursement with the prospect of getting value-based payments like ‘shared savings.’ 

“When the providers tried to increase their base fee-for-service rates just to match inflation, payers often advised that any future raises had to be earned through value-based programs,” Ms. Noyes added. The value-based formulas confuse providers because payments are often made for periods as far back as 18 months, and providers do not have data systems to reconcile their payer report cards retrospectively. The result is that providers tended to accept whatever amount the payer distributed.

Executives at Lumeris, a company that helps health systems participate successfully in value-based care, see potential in a newer approach to alternative payments, such as CMS’ Direct Contracting initiative. This voluntary payment model offers options tailored to several types of organizations that aim to reduce costs while preserving or enhancing the quality of care for Medicare fee-for-service beneficiaries.

Jeff Smith, chief commercial officer for population health at Lumeris, explained that the Direct Contracting initiative can provide physicians with a more attractive option than prior value-based models because it adjusts for the complexity and fragility of patients with complex and chronic conditions. By allowing providers to participate in the savings generated, the initiative stands in stark contrast to what Mr. Smith described as the “shared savings to nothingness” experienced by providers in earlier-stage alternative payment models.

Physicians engaged with value-based programs like Direct Contracting are investing in nurses to aid with initiatives regarding health promotion and transitions of care. When a patient is discharged, for example, the nurse contacts the patient to discuss medications, schedule follow-up appointments, and so forth – tasks typically left to the patient (or caregiver) to navigate in the traditional system.

The initiative recognizes the importance of managing high-risk patients, those whom physicians identify as having an extraordinary number of ED visits and admissions. These patients, as well as so-called “rising-risk” patients, are targeted by nurses who proactively communicate with patients (and caregivers) to address patient’s needs, including social determinants of health.

Physicians who have a large load of patients in value-based programs are hiring social workers, pharmacists, and behavioral health experts to help. Of course, these personnel are costly, but that’s what the value-based programs aim to reimburse.

Still, the road ahead to value based is rocky and may not gain momentum for some time. Johns Hopkins University’s Doug Hough, PhD, an economist, recounts a government research study that sought to assess the university’s health system participation in a value-based payment program. While there were positive impacts on the program’s target population, Hough and his team discovered that the returns achieved by the optional model didn’t justify the health system’s financial support for it. The increasingly indebted health system ultimately decided to drop the optional program.

Dr. Hough indicated that the health system – Johns Hopkins Medicine – likely would have  continued its support for the program had the government at least allowed it to break even. Although the payment program under study was a 3-year project, the bigger challenge, declared Dr. Hough, is that “we can’t turn an aircraft carrier that quickly.”

“Three years won’t show whether value-based care is really working,” Dr. Hough said.

Robert Zipper, MD, a hospitalist and senior policy advisor for Sound Physicians, a company that works to improve outcomes in acute care, agreed with Dr. Hough that performance tends to improve with time. Yet, Dr. Zipper doesn’t see much change in the near term, because “after all, there is nothing to replace them [the programs].”

The problem gets even stickier for private payers because patients may be on an insurance panel for as little as a year or 2. Thanks to this rapid churn of beneficiaries, even the best-designed value-based program will have little time to prove its worth.

Dr. Zipper is among the many who don’t expect significant changes in the near term, asserting that “President Biden will want to get a few policy wins first, and health care is not the easiest place to start.”

But it’s likely that payers and others will want to see more emphasis on value-based programs despite these programs’ possible value to patients, physicians, and health systems alike.

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

More than 40 value-based payment models – from direct contracting to bundled payments – have been introduced into the Medicare program in the past 10 years, with the goal of improving care while lowering costs. Hopes were high that they would be successful.

But despite the new alternative payment models, costs have not declined. If this continues, Medicare won’t have sufficient funds to cover benefit costs after 2024. Physicians could suffer a huge blow to their income.

Many of the value-based care models simply did not work as expected, said Seema Verma, head of the Centers for Medicare & Medicaid Services, at a recent HLTH Conference. “They are not producing the types of savings the taxpayers deserve,” Ms. Verma said.

The Medicare Payment Advisory Commission (MedPac) concluded that, while dozens of payment models were tested, most failed to generate net savings for Medicare. Even the most successful of the models produced only modest savings. MedPac elaborated: “The track record raises the question of whether changes to particular models or CMMI’s [Center for Medicare & Medicaid Innovation’s] broader strategies might be warranted.”

What will happen now, as government officials admit that their value-based programs haven’t worked? The value-based programs could become more stringent. Here’s what physicians will have to contend with.

More risk. Experts agree that risk – financial risk – will be a component of future programs. Two-sided risk is likely to be the norm. This means that both parties – the provider and the insurer – are at financial risk for the patients covered by the program.

For example, a plan with 50,000 beneficiary patients would estimate the cost of caring for those patients on the basis of multiple variables. If the actual cost is lower than anticipated, both parties share in the savings. However, both share in the loss if the cost of caring for their patient population exceeds expectations.

This may compel physicians to enhance efficiency and potentially limit the services provided to patients. Typically, however, the strategy is to make efforts to prevent services like ED visits and admissions by focusing on health maintenance.

In contrast to most current value-based models, which feature little to no downside risk for physicians, double-sided risk means physicians could lose money. The loss may incorporate a cap – 5%, for example – but programs may differ. Experts concur that double-sided risk will be a hallmark of future programs.

Better data. The majority of health care services are rendered via fee-for-service: Patients receive services and physicians are paid, yet little or no information about outcomes is exchanged between insurers and physicians.

Penny Noyes, president of Health Business Navigators and contract negotiator for physicians, is not a fan of the current crop of value-based programs and feels that data transparency is positive. Sound metrics can lead to improvement, she said, adding: “It’s not money that drives physicians to make decisions; it’s what’s in the best interest of their patients and their patients’ long-term care.”

Value-based programs can work but only if applicable data are developed and given to physicians so that they can better understand their current performance and how to improve.

Mandated participation. Participation in value-based programs has been voluntary, but that may have skewed the results, which were better than what typical practice would have shown. Acknowledging this may lead CMS to call for mandated participation as a component of future programs. Physicians may be brought into programs, if only to determine whether the models really work. To date, participation in the programs has been voluntary, but that may change in the future.

Innovation. The private insurance market may end up as a key player. Over the past 6 months, health insurers have either consolidated partnerships with telemedicine companies to provide no-cost care to beneficiaries or have launched their own initiatives.

Others are focused on bringing together patients and providers operating outside of the traditional health care system, such as Aetna’s merger with CVS which now offers retail-based acute care (MinuteClinic) and chronic care (HealthHUB). Still other payers are gambling with physician practice ownership, as in the case of United Healthcare’s OptumHealth, which now boasts around 50,000 physicians throughout the country.

New practice models are emerging in private practices as well. Physicians are embracing remote care, proactively managing care transitions, and seeking out more methods to keep patients healthy and at home.
 

Not much was expected from value-based plans 

Many are not surprised that the value-based models did not produce impressive results. Ms. Noyes doubted that positive outcomes will be achieved for physicians in comparison with what could have been attained under fee-for-service arrangements with lower administrative costs.

While the Affordable Care Act attempted to encourage alternative reimbursement, it limits the maximum medical loss ratio (MLR) a payer could achieve. For many plans, that maximum was 85%. Simply put, at least $0.85 of each premium collected had to be paid in claims; the remaining $0.15 went to margin, claims, and other administrative costs. A payer with an 82% MLR then would have to rebate the 3% difference to enrollees.

But that’s not what occurred, according to Ms. Noyes. Because value-based payments to providers are considered a claims expense, an MLR ratio of 82% allowed the payer to distribute the 3% difference to providers as value-based payments. Ms. Noyes said: “That may sound good for the provider, but the result was essentially a freeze on the provider’s fee-for-service reimbursement with the prospect of getting value-based payments like ‘shared savings.’ 

“When the providers tried to increase their base fee-for-service rates just to match inflation, payers often advised that any future raises had to be earned through value-based programs,” Ms. Noyes added. The value-based formulas confuse providers because payments are often made for periods as far back as 18 months, and providers do not have data systems to reconcile their payer report cards retrospectively. The result is that providers tended to accept whatever amount the payer distributed.

Executives at Lumeris, a company that helps health systems participate successfully in value-based care, see potential in a newer approach to alternative payments, such as CMS’ Direct Contracting initiative. This voluntary payment model offers options tailored to several types of organizations that aim to reduce costs while preserving or enhancing the quality of care for Medicare fee-for-service beneficiaries.

Jeff Smith, chief commercial officer for population health at Lumeris, explained that the Direct Contracting initiative can provide physicians with a more attractive option than prior value-based models because it adjusts for the complexity and fragility of patients with complex and chronic conditions. By allowing providers to participate in the savings generated, the initiative stands in stark contrast to what Mr. Smith described as the “shared savings to nothingness” experienced by providers in earlier-stage alternative payment models.

Physicians engaged with value-based programs like Direct Contracting are investing in nurses to aid with initiatives regarding health promotion and transitions of care. When a patient is discharged, for example, the nurse contacts the patient to discuss medications, schedule follow-up appointments, and so forth – tasks typically left to the patient (or caregiver) to navigate in the traditional system.

The initiative recognizes the importance of managing high-risk patients, those whom physicians identify as having an extraordinary number of ED visits and admissions. These patients, as well as so-called “rising-risk” patients, are targeted by nurses who proactively communicate with patients (and caregivers) to address patient’s needs, including social determinants of health.

Physicians who have a large load of patients in value-based programs are hiring social workers, pharmacists, and behavioral health experts to help. Of course, these personnel are costly, but that’s what the value-based programs aim to reimburse.

Still, the road ahead to value based is rocky and may not gain momentum for some time. Johns Hopkins University’s Doug Hough, PhD, an economist, recounts a government research study that sought to assess the university’s health system participation in a value-based payment program. While there were positive impacts on the program’s target population, Hough and his team discovered that the returns achieved by the optional model didn’t justify the health system’s financial support for it. The increasingly indebted health system ultimately decided to drop the optional program.

Dr. Hough indicated that the health system – Johns Hopkins Medicine – likely would have  continued its support for the program had the government at least allowed it to break even. Although the payment program under study was a 3-year project, the bigger challenge, declared Dr. Hough, is that “we can’t turn an aircraft carrier that quickly.”

“Three years won’t show whether value-based care is really working,” Dr. Hough said.

Robert Zipper, MD, a hospitalist and senior policy advisor for Sound Physicians, a company that works to improve outcomes in acute care, agreed with Dr. Hough that performance tends to improve with time. Yet, Dr. Zipper doesn’t see much change in the near term, because “after all, there is nothing to replace them [the programs].”

The problem gets even stickier for private payers because patients may be on an insurance panel for as little as a year or 2. Thanks to this rapid churn of beneficiaries, even the best-designed value-based program will have little time to prove its worth.

Dr. Zipper is among the many who don’t expect significant changes in the near term, asserting that “President Biden will want to get a few policy wins first, and health care is not the easiest place to start.”

But it’s likely that payers and others will want to see more emphasis on value-based programs despite these programs’ possible value to patients, physicians, and health systems alike.

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

The Food and Drug Administration has clarified its guidance on administration of the Pfizer/BioNTech COVID-19 vaccine, stating that it is safe for people with any history of allergies, but not for those who might have a known history of severe allergic reaction to any component of the vaccine.

The warning is included in the FDA’s information sheet for health care providers, but questions are arising as to whether the vaccine – which was authorized for emergency use by the FDA on Friday – should not be given to anyone with a history of allergies.

Sara Oliver, MD, an epidemic intelligence service officer with the Centers for Disease Control and Prevention reported at a Dec. 11 meeting of the agency’s Advisory Committee on Immunization Practices that two U.K. health care workers with a history of significant allergic reactions had a reaction to the Pfizer vaccine. A third health care worker with no history of allergies developed tachycardia, Dr. Oliver said.

“I want to reassure the public that although there were these few reactions in Great Britain, these were not seen in the larger clinical trial datasets,” said Peter Marks, MD, PhD, director of the Center for Biologics Evaluation and Research at the FDA, during a press briefing on Dec. 12.

The Pfizer vaccine “is one that we’re comfortable giving to patients who have had other allergic reactions besides those other than severe allergic reactions to a vaccine or one of its components,” he said.

Dr. Marks suggested that individuals let their physicians know about any history of allergic reactions. He also noted that the federal government will be supplying vaccine administration sites, at least initially, with epinephrine, diphenhydramine, hydrocortisone, and other medications needed to manage allergic reactions.

The FDA is going to monitor side effects such as allergic reactions very closely, “but I think we still need to learn more and that’s why we’re going to be taking precautions. We may have to modify things as we move forward,” said Dr. Marks.

Dr. Oliver said that on Dec. 12 the CDC convened an external panel with experience in vaccine safety, immunology, and allergies “to collate expert knowledge regarding possible cases,” and that the FDA is getting more data from U.K. regulatory authorities.
 

Pregnancy concerns

Agency officials had little to say, however, about the safety or efficacy of the vaccine for pregnant or breastfeeding women.

The FDA’s information to health care professionals noted that “available data on Pfizer-BioNTech COVID-19 vaccine administered to pregnant women are insufficient to inform vaccine-associated risks in pregnancy.”

Additionally, the agency stated, “data are not available to assess the effects of Pfizer-BioNTech COVID-19 vaccine on the breastfed infant or on milk production/excretion.”

Dr. Marks said that, for pregnant women and people who are immunocompromised, “it will be something that providers will need to consider on an individual basis.” He suggested that individuals consult with physicians to weigh the potential benefits and potential risks.

“Certainly, COVID-19 in a pregnant woman is not a good thing,” Dr. Marks said.

An individual might decide to go ahead with vaccination. “But that’s not something we’re recommending, that’s something we’re leaving up to the individual,” he said.

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

The Food and Drug Administration has clarified its guidance on administration of the Pfizer/BioNTech COVID-19 vaccine, stating that it is safe for people with any history of allergies, but not for those who might have a known history of severe allergic reaction to any component of the vaccine.

The warning is included in the FDA’s information sheet for health care providers, but questions are arising as to whether the vaccine – which was authorized for emergency use by the FDA on Friday – should not be given to anyone with a history of allergies.

Sara Oliver, MD, an epidemic intelligence service officer with the Centers for Disease Control and Prevention reported at a Dec. 11 meeting of the agency’s Advisory Committee on Immunization Practices that two U.K. health care workers with a history of significant allergic reactions had a reaction to the Pfizer vaccine. A third health care worker with no history of allergies developed tachycardia, Dr. Oliver said.

“I want to reassure the public that although there were these few reactions in Great Britain, these were not seen in the larger clinical trial datasets,” said Peter Marks, MD, PhD, director of the Center for Biologics Evaluation and Research at the FDA, during a press briefing on Dec. 12.

The Pfizer vaccine “is one that we’re comfortable giving to patients who have had other allergic reactions besides those other than severe allergic reactions to a vaccine or one of its components,” he said.

Dr. Marks suggested that individuals let their physicians know about any history of allergic reactions. He also noted that the federal government will be supplying vaccine administration sites, at least initially, with epinephrine, diphenhydramine, hydrocortisone, and other medications needed to manage allergic reactions.

The FDA is going to monitor side effects such as allergic reactions very closely, “but I think we still need to learn more and that’s why we’re going to be taking precautions. We may have to modify things as we move forward,” said Dr. Marks.

Dr. Oliver said that on Dec. 12 the CDC convened an external panel with experience in vaccine safety, immunology, and allergies “to collate expert knowledge regarding possible cases,” and that the FDA is getting more data from U.K. regulatory authorities.
 

Pregnancy concerns

Agency officials had little to say, however, about the safety or efficacy of the vaccine for pregnant or breastfeeding women.

The FDA’s information to health care professionals noted that “available data on Pfizer-BioNTech COVID-19 vaccine administered to pregnant women are insufficient to inform vaccine-associated risks in pregnancy.”

Additionally, the agency stated, “data are not available to assess the effects of Pfizer-BioNTech COVID-19 vaccine on the breastfed infant or on milk production/excretion.”

Dr. Marks said that, for pregnant women and people who are immunocompromised, “it will be something that providers will need to consider on an individual basis.” He suggested that individuals consult with physicians to weigh the potential benefits and potential risks.

“Certainly, COVID-19 in a pregnant woman is not a good thing,” Dr. Marks said.

An individual might decide to go ahead with vaccination. “But that’s not something we’re recommending, that’s something we’re leaving up to the individual,” he said.

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

The Food and Drug Administration has clarified its guidance on administration of the Pfizer/BioNTech COVID-19 vaccine, stating that it is safe for people with any history of allergies, but not for those who might have a known history of severe allergic reaction to any component of the vaccine.

The warning is included in the FDA’s information sheet for health care providers, but questions are arising as to whether the vaccine – which was authorized for emergency use by the FDA on Friday – should not be given to anyone with a history of allergies.

Sara Oliver, MD, an epidemic intelligence service officer with the Centers for Disease Control and Prevention reported at a Dec. 11 meeting of the agency’s Advisory Committee on Immunization Practices that two U.K. health care workers with a history of significant allergic reactions had a reaction to the Pfizer vaccine. A third health care worker with no history of allergies developed tachycardia, Dr. Oliver said.

“I want to reassure the public that although there were these few reactions in Great Britain, these were not seen in the larger clinical trial datasets,” said Peter Marks, MD, PhD, director of the Center for Biologics Evaluation and Research at the FDA, during a press briefing on Dec. 12.

The Pfizer vaccine “is one that we’re comfortable giving to patients who have had other allergic reactions besides those other than severe allergic reactions to a vaccine or one of its components,” he said.

Dr. Marks suggested that individuals let their physicians know about any history of allergic reactions. He also noted that the federal government will be supplying vaccine administration sites, at least initially, with epinephrine, diphenhydramine, hydrocortisone, and other medications needed to manage allergic reactions.

The FDA is going to monitor side effects such as allergic reactions very closely, “but I think we still need to learn more and that’s why we’re going to be taking precautions. We may have to modify things as we move forward,” said Dr. Marks.

Dr. Oliver said that on Dec. 12 the CDC convened an external panel with experience in vaccine safety, immunology, and allergies “to collate expert knowledge regarding possible cases,” and that the FDA is getting more data from U.K. regulatory authorities.
 

Pregnancy concerns

Agency officials had little to say, however, about the safety or efficacy of the vaccine for pregnant or breastfeeding women.

The FDA’s information to health care professionals noted that “available data on Pfizer-BioNTech COVID-19 vaccine administered to pregnant women are insufficient to inform vaccine-associated risks in pregnancy.”

Additionally, the agency stated, “data are not available to assess the effects of Pfizer-BioNTech COVID-19 vaccine on the breastfed infant or on milk production/excretion.”

Dr. Marks said that, for pregnant women and people who are immunocompromised, “it will be something that providers will need to consider on an individual basis.” He suggested that individuals consult with physicians to weigh the potential benefits and potential risks.

“Certainly, COVID-19 in a pregnant woman is not a good thing,” Dr. Marks said.

An individual might decide to go ahead with vaccination. “But that’s not something we’re recommending, that’s something we’re leaving up to the individual,” he said.

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

In mid-November, Pfizer/BioNTech were the first with surprising positive protection interim data for their coronavirus vaccine, BNT162b2. A week later, Moderna released interim efficacy results showing its coronavirus vaccine, mRNA-1273, also protected patients from developing SARS-CoV-2 infections. Both studies included mostly healthy adults. A diverse ethnic and racial vaccinated population was included. A reasonable number of persons aged over 65 years, and persons with stable compromising medical conditions were included. Adolescents aged 16 years and over were included. Younger adolescents have been vaccinated or such studies are in the planning or early implementation stage as 2020 came to a close.

These are new and revolutionary vaccines, although the ability to inject mRNA into animals dates back to 1990, technological advances today make it a reality.¹ Traditional vaccines typically involve injection with antigens such as purified proteins or polysaccharides or inactivated/attenuated viruses. mRNA vaccines work differently. They do not contain antigens. Instead, they contain a blueprint for the antigen in the form of genetic material, mRNA. In the case of Pfizer’s and Moderna’s vaccines, the mRNA provides the genetic information to synthesize the spike protein that the SARS-CoV-2 virus uses to attach to and infect human cells. Each type of vaccine is packaged in proprietary lipid nanoparticles to protect the mRNA from rapid degradation, and the nanoparticles serve as an adjuvant to attract immune cells to the site of injection. (The properties of the respective lipid nanoparticle packaging may be the factor that impacts storage requirements discussed below.) When injected into muscle (myocyte), the lipid nanoparticles containing the mRNA inside are taken into muscle cells, where the cytoplasmic ribosomes detect and decode the mRNA resulting in the production of the spike protein antigen. It should be noted that the mRNA does not enter the nucleus, where the genetic information (DNA) of a cell is located, and can’t be reproduced or integrated into the DNA. The antigen is exported to the myocyte cell surface where the immune system’s antigen presenting cells detect the protein, ingest it, and take it to regional lymph nodes where interactions with T cells and B cells results in antibodies, T cell–mediated immunity, and generation of immune memory T cells and B cells. A particular subset of T cells – cytotoxic or killer T cells – destroy cells that have been infected by a pathogen. The SARS-CoV-2 mRNA vaccine from Pfizer was reported to induce powerful cytotoxic T-cell responses. Results for Moderna’s vaccine had not been reported at the time this column was prepared, but I anticipate the same positive results.

The revolutionary aspect of mRNA vaccines is the speed at which they can be designed and produced. This is why they lead the pack among the SARS-CoV-2 vaccine candidates and why the National Institute of Allergy and Infectious Diseases provided financial, technical, and/or clinical support. Indeed, once the amino acid sequence of a protein can be determined (a relatively easy task these days) it’s straightforward to synthesize mRNA in the lab – and it can be done incredibly fast. It is reported that the mRNA code for the vaccine by Moderna was made in 2 days and production development was completed in about 2 months.²

A 2007 World Health Organization report noted that infectious diseases are emerging at “the historically unprecedented rate of one per year.”³ Severe acute respiratory syndrome (SARS), Zika, Ebola, and avian and swine flu are recent examples. For most vaccines against emerging diseases, the challenge is about speed: developing and manufacturing a vaccine and getting it to persons who need it as quickly as possible. The current seasonal flu vaccine takes about 6 months to develop; it takes years for most of the traditional vaccines. That’s why once the infrastructure is in place, mRNA vaccines may prove to offer a big advantage as vaccines against emerging pathogens.
 

Early efficacy results have been surprising

Both vaccines were reported to produce about 95% efficacy in the final analysis. That was unexpectedly high because most vaccines for respiratory illness achieve efficacy of 60%-80%, e.g., flu vaccines. However, the efficacy rate may drop as time goes by because stimulation of short-term immunity would be in the earliest reported results.

Preventing SARS-CoV-2 cases is an important aspect of a coronavirus vaccine, but preventing severe illness is especially important considering that severe cases can result in prolonged intubation/artificial ventilation, prolonged disability and death. Pfizer/BioNTech had not released any data on the breakdown of severe cases as this column was finalized. In Moderna’s clinical trial, a secondary endpoint analyzed severe cases of COVID-19 and included 30 severe cases (as defined in the study protocol) in this analysis. All 30 cases occurred in the placebo group and none in the mRNA-1273–vaccinated group. In the Pfizer/BioNTech trial there were too few cases of severe illness to calculate efficacy.

Duration of immunity and need to revaccinate after initial primary vaccination are unknowns. Study of induction of B- and T-cell memory and levels of long-term protection have not been reported thus far.
 

Could mRNA COVID-19 vaccines be dangerous in the long term?

These will be the first-ever mRNA vaccines brought to market for humans. In order to receive Food and Drug Administration approval, the companies had to prove there were no immediate or short-term negative adverse effects from the vaccines. The companies reported that their independent data-monitoring committees hadn’t “reported any serious safety concerns.” However, fairly significant local reactions at the site of injection, fever, malaise, and fatigue occur with modest frequency following vaccinations with these products, reportedly in 10%-15% of vaccinees. Overall, the immediate reaction profile appears to be more severe than what occurs following seasonal influenza vaccination. When mass inoculations with these completely new and revolutionary vaccines begins, we will know virtually nothing about their long-term side effects. The possibility of systemic inflammatory responses that could lead to autoimmune conditions, persistence of the induced immunogen expression, development of autoreactive antibodies, and toxic effects of delivery components have been raised as theoretical concerns.^4-6 None of these theoretical risks have been observed to date and postmarketing phase 4 safety monitoring studies are in place from the Centers for Disease Control and Prevention and the companies that produce the vaccines. This is a risk public health authorities are willing to take because the risk to benefit calculation strongly favors taking theoretical risks, compared with clear benefits in preventing severe illnesses and death.

What about availability?

Pfizer/BioNTech expects to be able to produce up to 50 million vaccine doses in 2020 and up to 1.3 billion doses in 2021. Moderna expects to produce 20 million doses by the end of 2020, and 500 million to 1 billion doses in 2021. Storage requirements are inherent to the composition of the vaccines with their differing lipid nanoparticle delivery systems. Pfizer/BioNTech’s BNT162b2 has to be stored and transported at –80° C, which requires specialized freezers, which most doctors’ offices and pharmacies are unlikely to have on site, or dry ice containers. Once the vaccine is thawed, it can only remain in the refrigerator for 24 hours. Moderna’s mRNA-1273 will be much easier to distribute. The vaccine is stable in a standard freezer at –20° C for up to 6 months, in a refrigerator for up to 30 days within that 6-month shelf life, and at room temperature for up to 12 hours.

Timelines and testing other vaccines

Strong efficacy data from the two leading SARS-CoV-2 vaccines and emergency-use authorization Food and Drug Administration approval suggest the window for testing additional vaccine candidates in the United States could soon start to close. Of the more than 200 vaccines in development for SARS-CoV-2, at least 7 have a chance of gathering pivotal data before the front-runners become broadly available.

Testing diverse vaccine candidates, based on different technologies, is important for ensuring sufficient supply and could lead to products with tolerability and safety profiles that make them better suited, or more attractive, to subsets of the population. Different vaccine antigens and technologies also may yield different durations of protection, a question that will not be answered until long after the first products are on the market.

AstraZeneca enrolled about 23,000 subjects into its two phase 3 trials of AZD1222 (ChAdOx1 nCoV-19): a 40,000-subject U.S. trial and a 10,000-subject study in Brazil. AstraZeneca’s AZD1222, developed with the University of Oxford (England), uses a replication defective simian adenovirus vector called ChAdOx1.AZD1222 which encodes the SARS-CoV-2 spike protein. After injection, the viral vector delivers recombinant DNA that is decoded to mRNA, followed by mRNA decoding to become a protein. A serendipitous manufacturing error for the first 3,000 doses resulted in a half dose for those subjects before the error was discovered. Full doses were given to those subjects on second injections and those subjects showed 90% efficacy. Subjects who received 2 full doses showed 62% efficacy. A vaccine cannot be licensed based on 3,000 subjects so AstraZeneca has started a new phase 3 trial involving many more subjects to receive the combination lower dose followed by the full dose.

Johnson and Johnson (J&J) started its phase 3 trial evaluating a single dose of JNJ-78436735 in September. Phase 3 data may be reported by the end of2020. In November, J&J announced it was starting a second phase 3 trial to test two doses of the candidate. J&J’s JNJ-78436735 encodes the SARS-CoV-2 spike protein in an adenovirus serotype 26 (Ad26) vector, which is one of the two adenovirus vectors used in Sputnik V, the Russian vaccine reported to have 90% efficacy at an early interim analysis.

Sanofi and Novavax are both developing protein-based vaccines, a proven modality. Sanofi, in partnership with GlaxoSmithKline started a phase 1/2 clinical trial in the Fall 2020 with plans to commence a phase 3 trial in late December. Sanofi developed the protein ingredients and GlaxoSmithKline added one of their novel adjuvants. Novavax expects data from a U.K. phase 3 trial of NVX-CoV2373 in early 2021 and began a U.S. phase 3 study in late November. NVX-CoV2373 was created using Novavax’ recombinant nanoparticle technology to generate antigen derived from the coronavirus spike protein and contains Novavax’s patented saponin-based Matrix-M adjuvant.

Inovio Pharmaceuticals was gearing up to start a U.S. phase 2/3 trial of DNA vaccine INO-4800 by the end of 2020.

After Moderna and Pfizer-BioNTech, CureVac has the next most advanced mRNA vaccine. It was planned that a phase 2b/3 trial of CVnCoV would be conducted in Europe, Latin America, Africa, and Asia. Sanofi is also developing a mRNA vaccine as a second product in addition to its protein vaccine.

Vaxxinity planned to begin phase 3 testing of UB-612, a multitope peptide–based vaccine, in Brazil by the end of 2020.

However, emergency-use authorizations for the Pfizer and Moderna vaccines could hinder trial recruitment in at least two ways. Given the gravity of the pandemic, some stakeholders believe it would be ethical to unblind ongoing trials to give subjects the opportunity to switch to a vaccine proven to be effective. Even if unblinding doesn’t occur, as the two authorized vaccines start to become widely available, volunteering for clinical trials may become less attractive.
 

Dr. Pichichero is a specialist in pediatric infectious diseases, and director of the Research Institute at Rochester (N.Y.) General Hospital. He said he has no relevant financial disclosures. Email Dr. Pichichero at [email protected].

References

1. Wolff JA et al. Science. 1990 Mar 23. doi: 10.1126/science.1690918.

2. Jackson LA et al. N Engl J Med. 2020 Nov 12. doi: 10.1056/NEJMoa2022483.

3. Prentice T and Reinders LT. The world health report 2007. (Geneva Switzerland: World Health Organization, 2007).

4. Peck KM and Lauring AS. J Virol. 2018. doi: 10.1128/JVI.01031-17.

5. Pepini T et al. J Immunol. 2017 May 15. doi: 10.4049/jimmunol.1601877.

6. Theofilopoulos AN et al. Annu Rev Immunol. 2005. doi: 10.1146/annurev.immunol.23.021704.115843.

In mid-November, Pfizer/BioNTech were the first with surprising positive protection interim data for their coronavirus vaccine, BNT162b2. A week later, Moderna released interim efficacy results showing its coronavirus vaccine, mRNA-1273, also protected patients from developing SARS-CoV-2 infections. Both studies included mostly healthy adults. A diverse ethnic and racial vaccinated population was included. A reasonable number of persons aged over 65 years, and persons with stable compromising medical conditions were included. Adolescents aged 16 years and over were included. Younger adolescents have been vaccinated or such studies are in the planning or early implementation stage as 2020 came to a close.

These are new and revolutionary vaccines, although the ability to inject mRNA into animals dates back to 1990, technological advances today make it a reality.¹ Traditional vaccines typically involve injection with antigens such as purified proteins or polysaccharides or inactivated/attenuated viruses. mRNA vaccines work differently. They do not contain antigens. Instead, they contain a blueprint for the antigen in the form of genetic material, mRNA. In the case of Pfizer’s and Moderna’s vaccines, the mRNA provides the genetic information to synthesize the spike protein that the SARS-CoV-2 virus uses to attach to and infect human cells. Each type of vaccine is packaged in proprietary lipid nanoparticles to protect the mRNA from rapid degradation, and the nanoparticles serve as an adjuvant to attract immune cells to the site of injection. (The properties of the respective lipid nanoparticle packaging may be the factor that impacts storage requirements discussed below.) When injected into muscle (myocyte), the lipid nanoparticles containing the mRNA inside are taken into muscle cells, where the cytoplasmic ribosomes detect and decode the mRNA resulting in the production of the spike protein antigen. It should be noted that the mRNA does not enter the nucleus, where the genetic information (DNA) of a cell is located, and can’t be reproduced or integrated into the DNA. The antigen is exported to the myocyte cell surface where the immune system’s antigen presenting cells detect the protein, ingest it, and take it to regional lymph nodes where interactions with T cells and B cells results in antibodies, T cell–mediated immunity, and generation of immune memory T cells and B cells. A particular subset of T cells – cytotoxic or killer T cells – destroy cells that have been infected by a pathogen. The SARS-CoV-2 mRNA vaccine from Pfizer was reported to induce powerful cytotoxic T-cell responses. Results for Moderna’s vaccine had not been reported at the time this column was prepared, but I anticipate the same positive results.

The revolutionary aspect of mRNA vaccines is the speed at which they can be designed and produced. This is why they lead the pack among the SARS-CoV-2 vaccine candidates and why the National Institute of Allergy and Infectious Diseases provided financial, technical, and/or clinical support. Indeed, once the amino acid sequence of a protein can be determined (a relatively easy task these days) it’s straightforward to synthesize mRNA in the lab – and it can be done incredibly fast. It is reported that the mRNA code for the vaccine by Moderna was made in 2 days and production development was completed in about 2 months.²

A 2007 World Health Organization report noted that infectious diseases are emerging at “the historically unprecedented rate of one per year.”³ Severe acute respiratory syndrome (SARS), Zika, Ebola, and avian and swine flu are recent examples. For most vaccines against emerging diseases, the challenge is about speed: developing and manufacturing a vaccine and getting it to persons who need it as quickly as possible. The current seasonal flu vaccine takes about 6 months to develop; it takes years for most of the traditional vaccines. That’s why once the infrastructure is in place, mRNA vaccines may prove to offer a big advantage as vaccines against emerging pathogens.
 

Early efficacy results have been surprising

Both vaccines were reported to produce about 95% efficacy in the final analysis. That was unexpectedly high because most vaccines for respiratory illness achieve efficacy of 60%-80%, e.g., flu vaccines. However, the efficacy rate may drop as time goes by because stimulation of short-term immunity would be in the earliest reported results.

Preventing SARS-CoV-2 cases is an important aspect of a coronavirus vaccine, but preventing severe illness is especially important considering that severe cases can result in prolonged intubation/artificial ventilation, prolonged disability and death. Pfizer/BioNTech had not released any data on the breakdown of severe cases as this column was finalized. In Moderna’s clinical trial, a secondary endpoint analyzed severe cases of COVID-19 and included 30 severe cases (as defined in the study protocol) in this analysis. All 30 cases occurred in the placebo group and none in the mRNA-1273–vaccinated group. In the Pfizer/BioNTech trial there were too few cases of severe illness to calculate efficacy.

Duration of immunity and need to revaccinate after initial primary vaccination are unknowns. Study of induction of B- and T-cell memory and levels of long-term protection have not been reported thus far.
 

Could mRNA COVID-19 vaccines be dangerous in the long term?

These will be the first-ever mRNA vaccines brought to market for humans. In order to receive Food and Drug Administration approval, the companies had to prove there were no immediate or short-term negative adverse effects from the vaccines. The companies reported that their independent data-monitoring committees hadn’t “reported any serious safety concerns.” However, fairly significant local reactions at the site of injection, fever, malaise, and fatigue occur with modest frequency following vaccinations with these products, reportedly in 10%-15% of vaccinees. Overall, the immediate reaction profile appears to be more severe than what occurs following seasonal influenza vaccination. When mass inoculations with these completely new and revolutionary vaccines begins, we will know virtually nothing about their long-term side effects. The possibility of systemic inflammatory responses that could lead to autoimmune conditions, persistence of the induced immunogen expression, development of autoreactive antibodies, and toxic effects of delivery components have been raised as theoretical concerns.^4-6 None of these theoretical risks have been observed to date and postmarketing phase 4 safety monitoring studies are in place from the Centers for Disease Control and Prevention and the companies that produce the vaccines. This is a risk public health authorities are willing to take because the risk to benefit calculation strongly favors taking theoretical risks, compared with clear benefits in preventing severe illnesses and death.

What about availability?

Pfizer/BioNTech expects to be able to produce up to 50 million vaccine doses in 2020 and up to 1.3 billion doses in 2021. Moderna expects to produce 20 million doses by the end of 2020, and 500 million to 1 billion doses in 2021. Storage requirements are inherent to the composition of the vaccines with their differing lipid nanoparticle delivery systems. Pfizer/BioNTech’s BNT162b2 has to be stored and transported at –80° C, which requires specialized freezers, which most doctors’ offices and pharmacies are unlikely to have on site, or dry ice containers. Once the vaccine is thawed, it can only remain in the refrigerator for 24 hours. Moderna’s mRNA-1273 will be much easier to distribute. The vaccine is stable in a standard freezer at –20° C for up to 6 months, in a refrigerator for up to 30 days within that 6-month shelf life, and at room temperature for up to 12 hours.

Timelines and testing other vaccines

Strong efficacy data from the two leading SARS-CoV-2 vaccines and emergency-use authorization Food and Drug Administration approval suggest the window for testing additional vaccine candidates in the United States could soon start to close. Of the more than 200 vaccines in development for SARS-CoV-2, at least 7 have a chance of gathering pivotal data before the front-runners become broadly available.

Testing diverse vaccine candidates, based on different technologies, is important for ensuring sufficient supply and could lead to products with tolerability and safety profiles that make them better suited, or more attractive, to subsets of the population. Different vaccine antigens and technologies also may yield different durations of protection, a question that will not be answered until long after the first products are on the market.

AstraZeneca enrolled about 23,000 subjects into its two phase 3 trials of AZD1222 (ChAdOx1 nCoV-19): a 40,000-subject U.S. trial and a 10,000-subject study in Brazil. AstraZeneca’s AZD1222, developed with the University of Oxford (England), uses a replication defective simian adenovirus vector called ChAdOx1.AZD1222 which encodes the SARS-CoV-2 spike protein. After injection, the viral vector delivers recombinant DNA that is decoded to mRNA, followed by mRNA decoding to become a protein. A serendipitous manufacturing error for the first 3,000 doses resulted in a half dose for those subjects before the error was discovered. Full doses were given to those subjects on second injections and those subjects showed 90% efficacy. Subjects who received 2 full doses showed 62% efficacy. A vaccine cannot be licensed based on 3,000 subjects so AstraZeneca has started a new phase 3 trial involving many more subjects to receive the combination lower dose followed by the full dose.

Johnson and Johnson (J&J) started its phase 3 trial evaluating a single dose of JNJ-78436735 in September. Phase 3 data may be reported by the end of2020. In November, J&J announced it was starting a second phase 3 trial to test two doses of the candidate. J&J’s JNJ-78436735 encodes the SARS-CoV-2 spike protein in an adenovirus serotype 26 (Ad26) vector, which is one of the two adenovirus vectors used in Sputnik V, the Russian vaccine reported to have 90% efficacy at an early interim analysis.

Sanofi and Novavax are both developing protein-based vaccines, a proven modality. Sanofi, in partnership with GlaxoSmithKline started a phase 1/2 clinical trial in the Fall 2020 with plans to commence a phase 3 trial in late December. Sanofi developed the protein ingredients and GlaxoSmithKline added one of their novel adjuvants. Novavax expects data from a U.K. phase 3 trial of NVX-CoV2373 in early 2021 and began a U.S. phase 3 study in late November. NVX-CoV2373 was created using Novavax’ recombinant nanoparticle technology to generate antigen derived from the coronavirus spike protein and contains Novavax’s patented saponin-based Matrix-M adjuvant.

Inovio Pharmaceuticals was gearing up to start a U.S. phase 2/3 trial of DNA vaccine INO-4800 by the end of 2020.

After Moderna and Pfizer-BioNTech, CureVac has the next most advanced mRNA vaccine. It was planned that a phase 2b/3 trial of CVnCoV would be conducted in Europe, Latin America, Africa, and Asia. Sanofi is also developing a mRNA vaccine as a second product in addition to its protein vaccine.

Vaxxinity planned to begin phase 3 testing of UB-612, a multitope peptide–based vaccine, in Brazil by the end of 2020.

However, emergency-use authorizations for the Pfizer and Moderna vaccines could hinder trial recruitment in at least two ways. Given the gravity of the pandemic, some stakeholders believe it would be ethical to unblind ongoing trials to give subjects the opportunity to switch to a vaccine proven to be effective. Even if unblinding doesn’t occur, as the two authorized vaccines start to become widely available, volunteering for clinical trials may become less attractive.
 

Dr. Pichichero is a specialist in pediatric infectious diseases, and director of the Research Institute at Rochester (N.Y.) General Hospital. He said he has no relevant financial disclosures. Email Dr. Pichichero at [email protected].

References

1. Wolff JA et al. Science. 1990 Mar 23. doi: 10.1126/science.1690918.

2. Jackson LA et al. N Engl J Med. 2020 Nov 12. doi: 10.1056/NEJMoa2022483.

3. Prentice T and Reinders LT. The world health report 2007. (Geneva Switzerland: World Health Organization, 2007).

4. Peck KM and Lauring AS. J Virol. 2018. doi: 10.1128/JVI.01031-17.

5. Pepini T et al. J Immunol. 2017 May 15. doi: 10.4049/jimmunol.1601877.

6. Theofilopoulos AN et al. Annu Rev Immunol. 2005. doi: 10.1146/annurev.immunol.23.021704.115843.

In mid-November, Pfizer/BioNTech were the first with surprising positive protection interim data for their coronavirus vaccine, BNT162b2. A week later, Moderna released interim efficacy results showing its coronavirus vaccine, mRNA-1273, also protected patients from developing SARS-CoV-2 infections. Both studies included mostly healthy adults. A diverse ethnic and racial vaccinated population was included. A reasonable number of persons aged over 65 years, and persons with stable compromising medical conditions were included. Adolescents aged 16 years and over were included. Younger adolescents have been vaccinated or such studies are in the planning or early implementation stage as 2020 came to a close.

These are new and revolutionary vaccines, although the ability to inject mRNA into animals dates back to 1990, technological advances today make it a reality.¹ Traditional vaccines typically involve injection with antigens such as purified proteins or polysaccharides or inactivated/attenuated viruses. mRNA vaccines work differently. They do not contain antigens. Instead, they contain a blueprint for the antigen in the form of genetic material, mRNA. In the case of Pfizer’s and Moderna’s vaccines, the mRNA provides the genetic information to synthesize the spike protein that the SARS-CoV-2 virus uses to attach to and infect human cells. Each type of vaccine is packaged in proprietary lipid nanoparticles to protect the mRNA from rapid degradation, and the nanoparticles serve as an adjuvant to attract immune cells to the site of injection. (The properties of the respective lipid nanoparticle packaging may be the factor that impacts storage requirements discussed below.) When injected into muscle (myocyte), the lipid nanoparticles containing the mRNA inside are taken into muscle cells, where the cytoplasmic ribosomes detect and decode the mRNA resulting in the production of the spike protein antigen. It should be noted that the mRNA does not enter the nucleus, where the genetic information (DNA) of a cell is located, and can’t be reproduced or integrated into the DNA. The antigen is exported to the myocyte cell surface where the immune system’s antigen presenting cells detect the protein, ingest it, and take it to regional lymph nodes where interactions with T cells and B cells results in antibodies, T cell–mediated immunity, and generation of immune memory T cells and B cells. A particular subset of T cells – cytotoxic or killer T cells – destroy cells that have been infected by a pathogen. The SARS-CoV-2 mRNA vaccine from Pfizer was reported to induce powerful cytotoxic T-cell responses. Results for Moderna’s vaccine had not been reported at the time this column was prepared, but I anticipate the same positive results.

The revolutionary aspect of mRNA vaccines is the speed at which they can be designed and produced. This is why they lead the pack among the SARS-CoV-2 vaccine candidates and why the National Institute of Allergy and Infectious Diseases provided financial, technical, and/or clinical support. Indeed, once the amino acid sequence of a protein can be determined (a relatively easy task these days) it’s straightforward to synthesize mRNA in the lab – and it can be done incredibly fast. It is reported that the mRNA code for the vaccine by Moderna was made in 2 days and production development was completed in about 2 months.²

A 2007 World Health Organization report noted that infectious diseases are emerging at “the historically unprecedented rate of one per year.”³ Severe acute respiratory syndrome (SARS), Zika, Ebola, and avian and swine flu are recent examples. For most vaccines against emerging diseases, the challenge is about speed: developing and manufacturing a vaccine and getting it to persons who need it as quickly as possible. The current seasonal flu vaccine takes about 6 months to develop; it takes years for most of the traditional vaccines. That’s why once the infrastructure is in place, mRNA vaccines may prove to offer a big advantage as vaccines against emerging pathogens.
 

Early efficacy results have been surprising

Both vaccines were reported to produce about 95% efficacy in the final analysis. That was unexpectedly high because most vaccines for respiratory illness achieve efficacy of 60%-80%, e.g., flu vaccines. However, the efficacy rate may drop as time goes by because stimulation of short-term immunity would be in the earliest reported results.

Preventing SARS-CoV-2 cases is an important aspect of a coronavirus vaccine, but preventing severe illness is especially important considering that severe cases can result in prolonged intubation/artificial ventilation, prolonged disability and death. Pfizer/BioNTech had not released any data on the breakdown of severe cases as this column was finalized. In Moderna’s clinical trial, a secondary endpoint analyzed severe cases of COVID-19 and included 30 severe cases (as defined in the study protocol) in this analysis. All 30 cases occurred in the placebo group and none in the mRNA-1273–vaccinated group. In the Pfizer/BioNTech trial there were too few cases of severe illness to calculate efficacy.

Duration of immunity and need to revaccinate after initial primary vaccination are unknowns. Study of induction of B- and T-cell memory and levels of long-term protection have not been reported thus far.
 

Could mRNA COVID-19 vaccines be dangerous in the long term?

These will be the first-ever mRNA vaccines brought to market for humans. In order to receive Food and Drug Administration approval, the companies had to prove there were no immediate or short-term negative adverse effects from the vaccines. The companies reported that their independent data-monitoring committees hadn’t “reported any serious safety concerns.” However, fairly significant local reactions at the site of injection, fever, malaise, and fatigue occur with modest frequency following vaccinations with these products, reportedly in 10%-15% of vaccinees. Overall, the immediate reaction profile appears to be more severe than what occurs following seasonal influenza vaccination. When mass inoculations with these completely new and revolutionary vaccines begins, we will know virtually nothing about their long-term side effects. The possibility of systemic inflammatory responses that could lead to autoimmune conditions, persistence of the induced immunogen expression, development of autoreactive antibodies, and toxic effects of delivery components have been raised as theoretical concerns.^4-6 None of these theoretical risks have been observed to date and postmarketing phase 4 safety monitoring studies are in place from the Centers for Disease Control and Prevention and the companies that produce the vaccines. This is a risk public health authorities are willing to take because the risk to benefit calculation strongly favors taking theoretical risks, compared with clear benefits in preventing severe illnesses and death.

What about availability?

Pfizer/BioNTech expects to be able to produce up to 50 million vaccine doses in 2020 and up to 1.3 billion doses in 2021. Moderna expects to produce 20 million doses by the end of 2020, and 500 million to 1 billion doses in 2021. Storage requirements are inherent to the composition of the vaccines with their differing lipid nanoparticle delivery systems. Pfizer/BioNTech’s BNT162b2 has to be stored and transported at –80° C, which requires specialized freezers, which most doctors’ offices and pharmacies are unlikely to have on site, or dry ice containers. Once the vaccine is thawed, it can only remain in the refrigerator for 24 hours. Moderna’s mRNA-1273 will be much easier to distribute. The vaccine is stable in a standard freezer at –20° C for up to 6 months, in a refrigerator for up to 30 days within that 6-month shelf life, and at room temperature for up to 12 hours.

Timelines and testing other vaccines

Strong efficacy data from the two leading SARS-CoV-2 vaccines and emergency-use authorization Food and Drug Administration approval suggest the window for testing additional vaccine candidates in the United States could soon start to close. Of the more than 200 vaccines in development for SARS-CoV-2, at least 7 have a chance of gathering pivotal data before the front-runners become broadly available.

Testing diverse vaccine candidates, based on different technologies, is important for ensuring sufficient supply and could lead to products with tolerability and safety profiles that make them better suited, or more attractive, to subsets of the population. Different vaccine antigens and technologies also may yield different durations of protection, a question that will not be answered until long after the first products are on the market.

AstraZeneca enrolled about 23,000 subjects into its two phase 3 trials of AZD1222 (ChAdOx1 nCoV-19): a 40,000-subject U.S. trial and a 10,000-subject study in Brazil. AstraZeneca’s AZD1222, developed with the University of Oxford (England), uses a replication defective simian adenovirus vector called ChAdOx1.AZD1222 which encodes the SARS-CoV-2 spike protein. After injection, the viral vector delivers recombinant DNA that is decoded to mRNA, followed by mRNA decoding to become a protein. A serendipitous manufacturing error for the first 3,000 doses resulted in a half dose for those subjects before the error was discovered. Full doses were given to those subjects on second injections and those subjects showed 90% efficacy. Subjects who received 2 full doses showed 62% efficacy. A vaccine cannot be licensed based on 3,000 subjects so AstraZeneca has started a new phase 3 trial involving many more subjects to receive the combination lower dose followed by the full dose.

Johnson and Johnson (J&J) started its phase 3 trial evaluating a single dose of JNJ-78436735 in September. Phase 3 data may be reported by the end of2020. In November, J&J announced it was starting a second phase 3 trial to test two doses of the candidate. J&J’s JNJ-78436735 encodes the SARS-CoV-2 spike protein in an adenovirus serotype 26 (Ad26) vector, which is one of the two adenovirus vectors used in Sputnik V, the Russian vaccine reported to have 90% efficacy at an early interim analysis.

Sanofi and Novavax are both developing protein-based vaccines, a proven modality. Sanofi, in partnership with GlaxoSmithKline started a phase 1/2 clinical trial in the Fall 2020 with plans to commence a phase 3 trial in late December. Sanofi developed the protein ingredients and GlaxoSmithKline added one of their novel adjuvants. Novavax expects data from a U.K. phase 3 trial of NVX-CoV2373 in early 2021 and began a U.S. phase 3 study in late November. NVX-CoV2373 was created using Novavax’ recombinant nanoparticle technology to generate antigen derived from the coronavirus spike protein and contains Novavax’s patented saponin-based Matrix-M adjuvant.

Inovio Pharmaceuticals was gearing up to start a U.S. phase 2/3 trial of DNA vaccine INO-4800 by the end of 2020.

After Moderna and Pfizer-BioNTech, CureVac has the next most advanced mRNA vaccine. It was planned that a phase 2b/3 trial of CVnCoV would be conducted in Europe, Latin America, Africa, and Asia. Sanofi is also developing a mRNA vaccine as a second product in addition to its protein vaccine.

Vaxxinity planned to begin phase 3 testing of UB-612, a multitope peptide–based vaccine, in Brazil by the end of 2020.

However, emergency-use authorizations for the Pfizer and Moderna vaccines could hinder trial recruitment in at least two ways. Given the gravity of the pandemic, some stakeholders believe it would be ethical to unblind ongoing trials to give subjects the opportunity to switch to a vaccine proven to be effective. Even if unblinding doesn’t occur, as the two authorized vaccines start to become widely available, volunteering for clinical trials may become less attractive.
 

Dr. Pichichero is a specialist in pediatric infectious diseases, and director of the Research Institute at Rochester (N.Y.) General Hospital. He said he has no relevant financial disclosures. Email Dr. Pichichero at [email protected].

References

1. Wolff JA et al. Science. 1990 Mar 23. doi: 10.1126/science.1690918.

2. Jackson LA et al. N Engl J Med. 2020 Nov 12. doi: 10.1056/NEJMoa2022483.

3. Prentice T and Reinders LT. The world health report 2007. (Geneva Switzerland: World Health Organization, 2007).

4. Peck KM and Lauring AS. J Virol. 2018. doi: 10.1128/JVI.01031-17.

5. Pepini T et al. J Immunol. 2017 May 15. doi: 10.4049/jimmunol.1601877.

6. Theofilopoulos AN et al. Annu Rev Immunol. 2005. doi: 10.1146/annurev.immunol.23.021704.115843.

The Centers for Disease Control and Prevention (CDC) advisory committee recommended on December 12 the recently authorized Pfizer-BioNTech COVID-19 vaccine for people age 16 and over in the United States, stating they found it was safe and effective.

The agency said it will quickly issue guidance to clinicians so they can determine when and when not to give the vaccine, and to help them communicate the risks and benefits to patients.

CDC staff gave a preview of those clinical considerations at the agency’s Advisory Committee on Immunization Practices (ACIP) meeting on December 12 and said it would be holding calls with clinicians on December 13 and 14.

The CDC will also issue guidance December 13 on how organizations can handle the workforce problems that might arise as health care workers experience side effects from vaccination.

ACIP voted 11-0, with three recusals, to recommend use of the Pfizer-BioNTech mRNA vaccine in individuals 16 years or older according to the guidelines of the Food and Drug Administration’s (FDA’s) emergency use authorization issued December 11.

The panel also voted unanimously to include the vaccine in 2021 immunization schedules. All panel members said the recommendation should go hand-in-hand with ACIP’s previous recommendation on December 1 that allocation of the vaccine be phased-in, with health care workers and residents and staff of long-term care facilities in phase 1a.

Allergies, pregnant women?

ACIP panelists said clinicians need more guidance on whether to use the vaccine in pregnant or breastfeeding women, the immunocompromised, or those who have a history of allergies.

The FDA health care provider information sheet said there is not enough data to recommend vaccinating those women or the immunocompromised, and also advises against giving the vaccine to individuals who have a history of serious allergic reaction to any component of the vaccine.

Peter Marks, MD, PhD, director of the FDA’s Center for Biologic Evaluation and Research (CBER) clarified this in a briefing on December 12, noting that women who are pregnant or lactating can make the decision in consultation with their physician. And, he said, patients with any other history of allergy should be able to safely get the vaccine.

The CDC — in its soon-to-be-released guidance — will make the same recommendations. For any woman considering vaccination, she should consider the level of COVID-19 in the community, her personal risk of contracting the virus, the risks to her or her fetus of developing the disease, and the vaccine’s known side effects, Sarah Mbaeyi, MD, MPH, a medical officer at the agency, said during the panel meeting December 12.

She added that the CDC will also urge physicians to advise women to take acetaminophen if they develop a fever after vaccination — to protect the developing fetus from fever.

Sandra Fryhofer, MD, representing the American Medical Association, commended the CDC for these recommendations. But she also called on Pfizer, the FDA, and the CDC to make data from the developmental and reproductive toxicity (DART) studies public as soon as possible.

“We really need to put those results on warp speed and get them out there to give our physicians and pregnant women more information,” said Fryhofer, an adjunct associate professor of medicine at Emory University School of Medicine in Atlanta, Georgia.

The American College of Obstetricians and Gynecologists (ACOG) will also soon release guidance for vaccinating pregnant and breastfeeding women, said Linda Eckert, MD, FACOG, an ACOG representative on the panel.

ACOG and the CDC met the morning of December 12 to discuss risks and benefits with experts in immunology, placental pathology, and vaccine kinetics, she said.

“The overall complete consensus was that we don’t see biological plausibility at this time for placental transfer of the mRNA and that we see that direct fetal exposure or the possibility of fetal inflammatory response is extremely unlikely,” said Eckert, professor of obstetrics and gynecology at the University of Washington, Seattle. “Clearly we are waiting on the data.”

A Pfizer official told the ACIP panel that preliminary data “show no indication of either developmental or reproductive toxicity,” and that the company plans to send the final DART data to the FDA at the end of December.

On the potential for allergic reactions, the CDC concurred with the FDA that the vaccine should not be given to people with a history of serious reactions. The agency added that the category should include anyone who has had a reaction to any vaccine or injectable drug product because injectables may contain the same ingredients as the Pfizer vaccine, said Mbaeyi.

The CDC will also urge clinicians to observe patients with a history of anaphylaxis for 30 minutes after vaccination and all patients for at least 15 minutes afterward.

Should teens be a special population?

At least one ACIP panel member — Henry Bernstein, DO, MHCM, FAAP — said he was concerned that backing use of the vaccine in 16- and 17-year-olds was a leap of faith, given that Pfizer had extremely limited data on this cohort.

Bernstein, professor of pediatrics at the Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York, also said that systemic reactions were more common in that age group.

He argued for making the 16- and 17-year-olds a “special population” that would get specific attention and guidance for vaccination from the federal agencies and professional societies.

Bernstein said he did not want to sow any more doubts in parents’ minds about vaccination, noting that hesitancy was a growing concern. “A successful pediatric vaccination program depends on creating and sustaining parental confidence in both the safety and effectiveness of this vaccine,” he said.

Many panelists, however, noted that there has been no evidence to suggest that the vaccine is not safe or less effective in that younger age group.

Yvonne Maldonado, MD, the American Academy of Pediatrics representative on the panel, said that this age group should not be denied the vaccine as they often have essential or front-line jobs that put them at higher risk for infection.

“I am very concerned about this message being sent out that this vaccine will not be safe in children,” said Maldonado, professor of pediatrics and health research and policy at Stanford University School of Medicine in California.

“We currently have no evidence that that is the case,” she said, adding there is also no indication younger children are biologically or physiologically different in their response or safety risk than 18-year-olds.

Vaccine = hope

Committee members breathed a sigh of relief at the end of the 2-day meeting, saying that although the Pfizer vaccine is not perfect, it represents a scientific milestone and a significant advance against the continuing march of the SARS-CoV-2 pandemic.

“This vaccine and future vaccines do provide a promise for a lot of progress in the future,” said panelist Beth P. Bell, MD, MPH, clinical professor of global health at the University of Washington School of Public Health in Seattle.

Peter Szilagyi, MD, MPH, executive vice-chair and vice-chair for research at the University of California, Los Angeles pediatrics department, said, “I’m really hopeful that this is the beginning of the end of the coronavirus pandemic.”

“The need for this vaccine is profound,” said Veronica McNally, president and CEO of the Franny Strong Foundation in West Bloomfield, Michigan.

The ACIP panel also made the argument that while the at least $10 billion spent on vaccine development by the federal government’s Operation Warp Speed alone has been a good investment, more spending is needed to actually get Americans vaccinated.

The imbalance between the two is “shocking and needs to be corrected,” said Bell. “We are not going to be able to protect the American public if we don’t have a way to deliver the vaccine to them.”

This article first appeared on Medscape.com.

The Centers for Disease Control and Prevention (CDC) advisory committee recommended on December 12 the recently authorized Pfizer-BioNTech COVID-19 vaccine for people age 16 and over in the United States, stating they found it was safe and effective.

The agency said it will quickly issue guidance to clinicians so they can determine when and when not to give the vaccine, and to help them communicate the risks and benefits to patients.

CDC staff gave a preview of those clinical considerations at the agency’s Advisory Committee on Immunization Practices (ACIP) meeting on December 12 and said it would be holding calls with clinicians on December 13 and 14.

The CDC will also issue guidance December 13 on how organizations can handle the workforce problems that might arise as health care workers experience side effects from vaccination.

ACIP voted 11-0, with three recusals, to recommend use of the Pfizer-BioNTech mRNA vaccine in individuals 16 years or older according to the guidelines of the Food and Drug Administration’s (FDA’s) emergency use authorization issued December 11.

The panel also voted unanimously to include the vaccine in 2021 immunization schedules. All panel members said the recommendation should go hand-in-hand with ACIP’s previous recommendation on December 1 that allocation of the vaccine be phased-in, with health care workers and residents and staff of long-term care facilities in phase 1a.

Allergies, pregnant women?

ACIP panelists said clinicians need more guidance on whether to use the vaccine in pregnant or breastfeeding women, the immunocompromised, or those who have a history of allergies.

The FDA health care provider information sheet said there is not enough data to recommend vaccinating those women or the immunocompromised, and also advises against giving the vaccine to individuals who have a history of serious allergic reaction to any component of the vaccine.

Peter Marks, MD, PhD, director of the FDA’s Center for Biologic Evaluation and Research (CBER) clarified this in a briefing on December 12, noting that women who are pregnant or lactating can make the decision in consultation with their physician. And, he said, patients with any other history of allergy should be able to safely get the vaccine.

The CDC — in its soon-to-be-released guidance — will make the same recommendations. For any woman considering vaccination, she should consider the level of COVID-19 in the community, her personal risk of contracting the virus, the risks to her or her fetus of developing the disease, and the vaccine’s known side effects, Sarah Mbaeyi, MD, MPH, a medical officer at the agency, said during the panel meeting December 12.

She added that the CDC will also urge physicians to advise women to take acetaminophen if they develop a fever after vaccination — to protect the developing fetus from fever.

Sandra Fryhofer, MD, representing the American Medical Association, commended the CDC for these recommendations. But she also called on Pfizer, the FDA, and the CDC to make data from the developmental and reproductive toxicity (DART) studies public as soon as possible.

“We really need to put those results on warp speed and get them out there to give our physicians and pregnant women more information,” said Fryhofer, an adjunct associate professor of medicine at Emory University School of Medicine in Atlanta, Georgia.

The American College of Obstetricians and Gynecologists (ACOG) will also soon release guidance for vaccinating pregnant and breastfeeding women, said Linda Eckert, MD, FACOG, an ACOG representative on the panel.

ACOG and the CDC met the morning of December 12 to discuss risks and benefits with experts in immunology, placental pathology, and vaccine kinetics, she said.

“The overall complete consensus was that we don’t see biological plausibility at this time for placental transfer of the mRNA and that we see that direct fetal exposure or the possibility of fetal inflammatory response is extremely unlikely,” said Eckert, professor of obstetrics and gynecology at the University of Washington, Seattle. “Clearly we are waiting on the data.”

A Pfizer official told the ACIP panel that preliminary data “show no indication of either developmental or reproductive toxicity,” and that the company plans to send the final DART data to the FDA at the end of December.

On the potential for allergic reactions, the CDC concurred with the FDA that the vaccine should not be given to people with a history of serious reactions. The agency added that the category should include anyone who has had a reaction to any vaccine or injectable drug product because injectables may contain the same ingredients as the Pfizer vaccine, said Mbaeyi.

The CDC will also urge clinicians to observe patients with a history of anaphylaxis for 30 minutes after vaccination and all patients for at least 15 minutes afterward.

Should teens be a special population?

At least one ACIP panel member — Henry Bernstein, DO, MHCM, FAAP — said he was concerned that backing use of the vaccine in 16- and 17-year-olds was a leap of faith, given that Pfizer had extremely limited data on this cohort.

Bernstein, professor of pediatrics at the Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York, also said that systemic reactions were more common in that age group.

He argued for making the 16- and 17-year-olds a “special population” that would get specific attention and guidance for vaccination from the federal agencies and professional societies.

Bernstein said he did not want to sow any more doubts in parents’ minds about vaccination, noting that hesitancy was a growing concern. “A successful pediatric vaccination program depends on creating and sustaining parental confidence in both the safety and effectiveness of this vaccine,” he said.

Many panelists, however, noted that there has been no evidence to suggest that the vaccine is not safe or less effective in that younger age group.

Yvonne Maldonado, MD, the American Academy of Pediatrics representative on the panel, said that this age group should not be denied the vaccine as they often have essential or front-line jobs that put them at higher risk for infection.

“I am very concerned about this message being sent out that this vaccine will not be safe in children,” said Maldonado, professor of pediatrics and health research and policy at Stanford University School of Medicine in California.

“We currently have no evidence that that is the case,” she said, adding there is also no indication younger children are biologically or physiologically different in their response or safety risk than 18-year-olds.

Vaccine = hope

Committee members breathed a sigh of relief at the end of the 2-day meeting, saying that although the Pfizer vaccine is not perfect, it represents a scientific milestone and a significant advance against the continuing march of the SARS-CoV-2 pandemic.

“This vaccine and future vaccines do provide a promise for a lot of progress in the future,” said panelist Beth P. Bell, MD, MPH, clinical professor of global health at the University of Washington School of Public Health in Seattle.

Peter Szilagyi, MD, MPH, executive vice-chair and vice-chair for research at the University of California, Los Angeles pediatrics department, said, “I’m really hopeful that this is the beginning of the end of the coronavirus pandemic.”

“The need for this vaccine is profound,” said Veronica McNally, president and CEO of the Franny Strong Foundation in West Bloomfield, Michigan.

The ACIP panel also made the argument that while the at least $10 billion spent on vaccine development by the federal government’s Operation Warp Speed alone has been a good investment, more spending is needed to actually get Americans vaccinated.

The imbalance between the two is “shocking and needs to be corrected,” said Bell. “We are not going to be able to protect the American public if we don’t have a way to deliver the vaccine to them.”

This article first appeared on Medscape.com.

The Centers for Disease Control and Prevention (CDC) advisory committee recommended on December 12 the recently authorized Pfizer-BioNTech COVID-19 vaccine for people age 16 and over in the United States, stating they found it was safe and effective.

The agency said it will quickly issue guidance to clinicians so they can determine when and when not to give the vaccine, and to help them communicate the risks and benefits to patients.

CDC staff gave a preview of those clinical considerations at the agency’s Advisory Committee on Immunization Practices (ACIP) meeting on December 12 and said it would be holding calls with clinicians on December 13 and 14.

The CDC will also issue guidance December 13 on how organizations can handle the workforce problems that might arise as health care workers experience side effects from vaccination.

ACIP voted 11-0, with three recusals, to recommend use of the Pfizer-BioNTech mRNA vaccine in individuals 16 years or older according to the guidelines of the Food and Drug Administration’s (FDA’s) emergency use authorization issued December 11.

The panel also voted unanimously to include the vaccine in 2021 immunization schedules. All panel members said the recommendation should go hand-in-hand with ACIP’s previous recommendation on December 1 that allocation of the vaccine be phased-in, with health care workers and residents and staff of long-term care facilities in phase 1a.

Allergies, pregnant women?

ACIP panelists said clinicians need more guidance on whether to use the vaccine in pregnant or breastfeeding women, the immunocompromised, or those who have a history of allergies.

The FDA health care provider information sheet said there is not enough data to recommend vaccinating those women or the immunocompromised, and also advises against giving the vaccine to individuals who have a history of serious allergic reaction to any component of the vaccine.

Peter Marks, MD, PhD, director of the FDA’s Center for Biologic Evaluation and Research (CBER) clarified this in a briefing on December 12, noting that women who are pregnant or lactating can make the decision in consultation with their physician. And, he said, patients with any other history of allergy should be able to safely get the vaccine.

The CDC — in its soon-to-be-released guidance — will make the same recommendations. For any woman considering vaccination, she should consider the level of COVID-19 in the community, her personal risk of contracting the virus, the risks to her or her fetus of developing the disease, and the vaccine’s known side effects, Sarah Mbaeyi, MD, MPH, a medical officer at the agency, said during the panel meeting December 12.

She added that the CDC will also urge physicians to advise women to take acetaminophen if they develop a fever after vaccination — to protect the developing fetus from fever.

Sandra Fryhofer, MD, representing the American Medical Association, commended the CDC for these recommendations. But she also called on Pfizer, the FDA, and the CDC to make data from the developmental and reproductive toxicity (DART) studies public as soon as possible.

“We really need to put those results on warp speed and get them out there to give our physicians and pregnant women more information,” said Fryhofer, an adjunct associate professor of medicine at Emory University School of Medicine in Atlanta, Georgia.

The American College of Obstetricians and Gynecologists (ACOG) will also soon release guidance for vaccinating pregnant and breastfeeding women, said Linda Eckert, MD, FACOG, an ACOG representative on the panel.

ACOG and the CDC met the morning of December 12 to discuss risks and benefits with experts in immunology, placental pathology, and vaccine kinetics, she said.

“The overall complete consensus was that we don’t see biological plausibility at this time for placental transfer of the mRNA and that we see that direct fetal exposure or the possibility of fetal inflammatory response is extremely unlikely,” said Eckert, professor of obstetrics and gynecology at the University of Washington, Seattle. “Clearly we are waiting on the data.”

A Pfizer official told the ACIP panel that preliminary data “show no indication of either developmental or reproductive toxicity,” and that the company plans to send the final DART data to the FDA at the end of December.

On the potential for allergic reactions, the CDC concurred with the FDA that the vaccine should not be given to people with a history of serious reactions. The agency added that the category should include anyone who has had a reaction to any vaccine or injectable drug product because injectables may contain the same ingredients as the Pfizer vaccine, said Mbaeyi.

The CDC will also urge clinicians to observe patients with a history of anaphylaxis for 30 minutes after vaccination and all patients for at least 15 minutes afterward.

Should teens be a special population?

At least one ACIP panel member — Henry Bernstein, DO, MHCM, FAAP — said he was concerned that backing use of the vaccine in 16- and 17-year-olds was a leap of faith, given that Pfizer had extremely limited data on this cohort.

Bernstein, professor of pediatrics at the Zucker School of Medicine at Hofstra/Northwell in Hempstead, New York, also said that systemic reactions were more common in that age group.

He argued for making the 16- and 17-year-olds a “special population” that would get specific attention and guidance for vaccination from the federal agencies and professional societies.

Bernstein said he did not want to sow any more doubts in parents’ minds about vaccination, noting that hesitancy was a growing concern. “A successful pediatric vaccination program depends on creating and sustaining parental confidence in both the safety and effectiveness of this vaccine,” he said.

Many panelists, however, noted that there has been no evidence to suggest that the vaccine is not safe or less effective in that younger age group.

Yvonne Maldonado, MD, the American Academy of Pediatrics representative on the panel, said that this age group should not be denied the vaccine as they often have essential or front-line jobs that put them at higher risk for infection.

“I am very concerned about this message being sent out that this vaccine will not be safe in children,” said Maldonado, professor of pediatrics and health research and policy at Stanford University School of Medicine in California.

“We currently have no evidence that that is the case,” she said, adding there is also no indication younger children are biologically or physiologically different in their response or safety risk than 18-year-olds.

Vaccine = hope

Committee members breathed a sigh of relief at the end of the 2-day meeting, saying that although the Pfizer vaccine is not perfect, it represents a scientific milestone and a significant advance against the continuing march of the SARS-CoV-2 pandemic.

“This vaccine and future vaccines do provide a promise for a lot of progress in the future,” said panelist Beth P. Bell, MD, MPH, clinical professor of global health at the University of Washington School of Public Health in Seattle.

Peter Szilagyi, MD, MPH, executive vice-chair and vice-chair for research at the University of California, Los Angeles pediatrics department, said, “I’m really hopeful that this is the beginning of the end of the coronavirus pandemic.”

“The need for this vaccine is profound,” said Veronica McNally, president and CEO of the Franny Strong Foundation in West Bloomfield, Michigan.

The ACIP panel also made the argument that while the at least $10 billion spent on vaccine development by the federal government’s Operation Warp Speed alone has been a good investment, more spending is needed to actually get Americans vaccinated.

The imbalance between the two is “shocking and needs to be corrected,” said Bell. “We are not going to be able to protect the American public if we don’t have a way to deliver the vaccine to them.”

This article first appeared on Medscape.com.

The US Food and Drug Administration (FDA) has authorized Pfizer/BioNTech’s COVID-19 vaccine for emergency use in people 16 years of age and older. 

The much-anticipated emergency use authorization (EUA) of this vaccine — the first such approval in the United States — was greeted with optimism by infectious disease and pulmonary experts, although unanswered questions remain regarding use in people with allergic hypersensitivity, safety in pregnant women, and how smooth distribution will be.

“I am delighted. This is a first, firm step on a long path to getting this COVID pandemic under control,” William Schaffner, MD, professor of infectious diseases at the Vanderbilt University School of Medicine in Nashville, Tennessee, said in an interview.

The FDA gave the green light after the December 10 recommendation from the agency’s Vaccines and Related Biological Products Advisory Committee (VRBPAC) meeting. The committee voted 17-4 in favor of the emergency authorization.

Allergic reactions reported in the UK

After vaccinations with the Pfizer vaccine began in the UK on December 8, reports surfaced of two healthcare workers who experienced allergic reactions. They have since recovered, but officials warned that people with a history of severe allergic reactions should not receive the Pfizer vaccine at this time.

“For the moment, they are asking people who have had notable allergic reactions to step aside while this is investigated. It shows you that the system is working,” Schaffner said.

Both vaccine recipients who experienced anaphylaxis carried EpiPens, as they were at high risk for allergic reactions, Hewlett said. Also, if other COVID-19 vaccines are approved for use in the future, people allergic to the Pfizer vaccine might have another option, he added.

Reassuring role models

Schaffner supports the CDC Advisory Committee on Immunization Practices (ACIP) decision to start vaccinations with healthcare workers and residents of long-term care facilities.

“Vaccinating healthcare workers, in particular, will be a model for the general public,” said Schaffner, who is also a former member of the IDSA board of directors. “If they see those of us in white coats and blue scrubs lining up for the vaccine, that will provide confidence.”

To further increase acceptance of the COVID-19 vaccine, public health officials need to provide information and reassure the general public, Schaffner said.

Hewlett agreed. “I know there are a lot of people in the population who are very hesitant about vaccines. As infection disease specialists and people in public health, we are trying to allay a lot of concerns people have.”

Reassurance will be especially important in minority communities. “They have been disproportionately affected by the virus, and they have a traditional history of not being optimally vaccinated,” Schaffner said. “We need to reach them in particular with good information and reassurance…so they can make good decisions for themselves and their families.”

No vaccine is 100% effective or completely free of side effects. “There is always a chance there can be adverse reactions, but we think for the most part this is going to be a safe and effective vaccine,” said Hewlett, medical director at the Division of Disease Control and deputy to commissioner of health at the Westchester County Department of Health in White Plains, New York.

Distribution: Smooth or full of strife?

In addition to the concern that some people will not take advantage of vaccination against COVID-19, there could be vaccine supply issues down the road, Schaffner said.

Culver agreed. “In the early phases, I expect that there will be some kinks to work out, but because the numbers are relatively small, this should be okay,” he said.

“I think when we start to get into larger-scale vaccination programs — the supply chain, transport, and storage will be a Herculean undertaking,” Culver added. “It will take careful coordination between healthcare providers, distributors, suppliers, and public health officials to pull this off.”

Planning and distribution also should focus beyond US borders. Any issues in vaccine distribution or administration in the United States “will only be multiplied in several other parts of the world,” Culver said. Because COVID-19 is a pandemic, “we need to think about vaccinating globally.”

Investigating adverse events

Adverse events common to vaccinations in general — injection site pain, headaches, and fever — would not be unexpected with the COVID-19 vaccines. However, experts remain concerned that other, unrelated adverse events might be erroneously attributed to vaccination. For example, if a fall, heart attack, or death occurs within days of immunization, some might immediately blame the vaccine product.

“It’s important to remember that any new, highly touted medical therapy like this will receive a lot of scrutiny, so it would be unusual not to hear about something happening to somebody,” Culver said. Vaccine companies and health agencies will be carefully evaluating any reported adverse events to ensure no safety signal was missed in the trials.

“Fortunately, there are systems in place to investigate these events immediately,” Schaffner said.

Pregnancy recommendations pending

One question still looms: Is the COVID-19 vaccination safe for pregnant women? This isn’t just a question for the general public, either, Schaffner said. He estimated that about 70 percent of healthcare workers are women, and data suggests about 300,000 of these healthcare workers are pregnant.

“The CDC’s Advisory Committee on Immunization Practices will speak to that just as soon as the EUA is issued,” he added.

Patients are asking Culver about the priority order for vaccination. He said it’s difficult to provide firm guidance at this point.

People also have “lingering skepticism” about whether vaccine development was done in a prudent way, Culver said. Some people question whether the Pfizer vaccine and others were rushed to market. “So we try to spend time with the patients, reassuring them that all the usual safety evaluations were carefully done,” he said.

Another concern is whether mRNA vaccines can interact with human DNA. “The quick, short, and definitive answer is no,” Schaffner said. The m stands for messenger — the vaccines transmit information. "Once it gets into a cell, the mRNA does not go anywhere near the DNA, and once it transmits its information to the cell appropriately, it gets metabolized, and we excrete all the remnants."

Hewlett pointed out that investigations and surveillance will continue. Because this is an EUA and not full approval, “that essentially means they will still be obligated to collect a lot more data than they would ordinarily,” he said.

How long immunoprotection will last also remains an unknown. “The big question left on the table now is the durability,” Culver said. “Of course, we won’t know the answer to that for quite some time.”

Schaffner and Culver have disclosed no relevant financial relationships. Hewlett was an employee of Pfizer until mid-2019. His previous work as Pfizer’s senior medical director of global medical product evaluation was not associated with development of the COVID-19 vaccine.

This article first appeared on Medscape.com.

The US Food and Drug Administration (FDA) has authorized Pfizer/BioNTech’s COVID-19 vaccine for emergency use in people 16 years of age and older. 

The much-anticipated emergency use authorization (EUA) of this vaccine — the first such approval in the United States — was greeted with optimism by infectious disease and pulmonary experts, although unanswered questions remain regarding use in people with allergic hypersensitivity, safety in pregnant women, and how smooth distribution will be.

“I am delighted. This is a first, firm step on a long path to getting this COVID pandemic under control,” William Schaffner, MD, professor of infectious diseases at the Vanderbilt University School of Medicine in Nashville, Tennessee, said in an interview.

The FDA gave the green light after the December 10 recommendation from the agency’s Vaccines and Related Biological Products Advisory Committee (VRBPAC) meeting. The committee voted 17-4 in favor of the emergency authorization.

Allergic reactions reported in the UK

After vaccinations with the Pfizer vaccine began in the UK on December 8, reports surfaced of two healthcare workers who experienced allergic reactions. They have since recovered, but officials warned that people with a history of severe allergic reactions should not receive the Pfizer vaccine at this time.

“For the moment, they are asking people who have had notable allergic reactions to step aside while this is investigated. It shows you that the system is working,” Schaffner said.

Both vaccine recipients who experienced anaphylaxis carried EpiPens, as they were at high risk for allergic reactions, Hewlett said. Also, if other COVID-19 vaccines are approved for use in the future, people allergic to the Pfizer vaccine might have another option, he added.

Reassuring role models

Schaffner supports the CDC Advisory Committee on Immunization Practices (ACIP) decision to start vaccinations with healthcare workers and residents of long-term care facilities.

“Vaccinating healthcare workers, in particular, will be a model for the general public,” said Schaffner, who is also a former member of the IDSA board of directors. “If they see those of us in white coats and blue scrubs lining up for the vaccine, that will provide confidence.”

To further increase acceptance of the COVID-19 vaccine, public health officials need to provide information and reassure the general public, Schaffner said.

Hewlett agreed. “I know there are a lot of people in the population who are very hesitant about vaccines. As infection disease specialists and people in public health, we are trying to allay a lot of concerns people have.”

Reassurance will be especially important in minority communities. “They have been disproportionately affected by the virus, and they have a traditional history of not being optimally vaccinated,” Schaffner said. “We need to reach them in particular with good information and reassurance…so they can make good decisions for themselves and their families.”

No vaccine is 100% effective or completely free of side effects. “There is always a chance there can be adverse reactions, but we think for the most part this is going to be a safe and effective vaccine,” said Hewlett, medical director at the Division of Disease Control and deputy to commissioner of health at the Westchester County Department of Health in White Plains, New York.

Distribution: Smooth or full of strife?

In addition to the concern that some people will not take advantage of vaccination against COVID-19, there could be vaccine supply issues down the road, Schaffner said.

Culver agreed. “In the early phases, I expect that there will be some kinks to work out, but because the numbers are relatively small, this should be okay,” he said.

“I think when we start to get into larger-scale vaccination programs — the supply chain, transport, and storage will be a Herculean undertaking,” Culver added. “It will take careful coordination between healthcare providers, distributors, suppliers, and public health officials to pull this off.”

Planning and distribution also should focus beyond US borders. Any issues in vaccine distribution or administration in the United States “will only be multiplied in several other parts of the world,” Culver said. Because COVID-19 is a pandemic, “we need to think about vaccinating globally.”

Investigating adverse events

Adverse events common to vaccinations in general — injection site pain, headaches, and fever — would not be unexpected with the COVID-19 vaccines. However, experts remain concerned that other, unrelated adverse events might be erroneously attributed to vaccination. For example, if a fall, heart attack, or death occurs within days of immunization, some might immediately blame the vaccine product.

“It’s important to remember that any new, highly touted medical therapy like this will receive a lot of scrutiny, so it would be unusual not to hear about something happening to somebody,” Culver said. Vaccine companies and health agencies will be carefully evaluating any reported adverse events to ensure no safety signal was missed in the trials.

“Fortunately, there are systems in place to investigate these events immediately,” Schaffner said.

Pregnancy recommendations pending

One question still looms: Is the COVID-19 vaccination safe for pregnant women? This isn’t just a question for the general public, either, Schaffner said. He estimated that about 70 percent of healthcare workers are women, and data suggests about 300,000 of these healthcare workers are pregnant.

“The CDC’s Advisory Committee on Immunization Practices will speak to that just as soon as the EUA is issued,” he added.

Patients are asking Culver about the priority order for vaccination. He said it’s difficult to provide firm guidance at this point.

People also have “lingering skepticism” about whether vaccine development was done in a prudent way, Culver said. Some people question whether the Pfizer vaccine and others were rushed to market. “So we try to spend time with the patients, reassuring them that all the usual safety evaluations were carefully done,” he said.

Another concern is whether mRNA vaccines can interact with human DNA. “The quick, short, and definitive answer is no,” Schaffner said. The m stands for messenger — the vaccines transmit information. "Once it gets into a cell, the mRNA does not go anywhere near the DNA, and once it transmits its information to the cell appropriately, it gets metabolized, and we excrete all the remnants."

Hewlett pointed out that investigations and surveillance will continue. Because this is an EUA and not full approval, “that essentially means they will still be obligated to collect a lot more data than they would ordinarily,” he said.

How long immunoprotection will last also remains an unknown. “The big question left on the table now is the durability,” Culver said. “Of course, we won’t know the answer to that for quite some time.”

Schaffner and Culver have disclosed no relevant financial relationships. Hewlett was an employee of Pfizer until mid-2019. His previous work as Pfizer’s senior medical director of global medical product evaluation was not associated with development of the COVID-19 vaccine.

This article first appeared on Medscape.com.

The US Food and Drug Administration (FDA) has authorized Pfizer/BioNTech’s COVID-19 vaccine for emergency use in people 16 years of age and older. 

The much-anticipated emergency use authorization (EUA) of this vaccine — the first such approval in the United States — was greeted with optimism by infectious disease and pulmonary experts, although unanswered questions remain regarding use in people with allergic hypersensitivity, safety in pregnant women, and how smooth distribution will be.

“I am delighted. This is a first, firm step on a long path to getting this COVID pandemic under control,” William Schaffner, MD, professor of infectious diseases at the Vanderbilt University School of Medicine in Nashville, Tennessee, said in an interview.

The FDA gave the green light after the December 10 recommendation from the agency’s Vaccines and Related Biological Products Advisory Committee (VRBPAC) meeting. The committee voted 17-4 in favor of the emergency authorization.

Allergic reactions reported in the UK

After vaccinations with the Pfizer vaccine began in the UK on December 8, reports surfaced of two healthcare workers who experienced allergic reactions. They have since recovered, but officials warned that people with a history of severe allergic reactions should not receive the Pfizer vaccine at this time.

“For the moment, they are asking people who have had notable allergic reactions to step aside while this is investigated. It shows you that the system is working,” Schaffner said.

Both vaccine recipients who experienced anaphylaxis carried EpiPens, as they were at high risk for allergic reactions, Hewlett said. Also, if other COVID-19 vaccines are approved for use in the future, people allergic to the Pfizer vaccine might have another option, he added.

Reassuring role models

Schaffner supports the CDC Advisory Committee on Immunization Practices (ACIP) decision to start vaccinations with healthcare workers and residents of long-term care facilities.

“Vaccinating healthcare workers, in particular, will be a model for the general public,” said Schaffner, who is also a former member of the IDSA board of directors. “If they see those of us in white coats and blue scrubs lining up for the vaccine, that will provide confidence.”

To further increase acceptance of the COVID-19 vaccine, public health officials need to provide information and reassure the general public, Schaffner said.

Hewlett agreed. “I know there are a lot of people in the population who are very hesitant about vaccines. As infection disease specialists and people in public health, we are trying to allay a lot of concerns people have.”

Reassurance will be especially important in minority communities. “They have been disproportionately affected by the virus, and they have a traditional history of not being optimally vaccinated,” Schaffner said. “We need to reach them in particular with good information and reassurance…so they can make good decisions for themselves and their families.”

No vaccine is 100% effective or completely free of side effects. “There is always a chance there can be adverse reactions, but we think for the most part this is going to be a safe and effective vaccine,” said Hewlett, medical director at the Division of Disease Control and deputy to commissioner of health at the Westchester County Department of Health in White Plains, New York.

Distribution: Smooth or full of strife?

In addition to the concern that some people will not take advantage of vaccination against COVID-19, there could be vaccine supply issues down the road, Schaffner said.

Culver agreed. “In the early phases, I expect that there will be some kinks to work out, but because the numbers are relatively small, this should be okay,” he said.

“I think when we start to get into larger-scale vaccination programs — the supply chain, transport, and storage will be a Herculean undertaking,” Culver added. “It will take careful coordination between healthcare providers, distributors, suppliers, and public health officials to pull this off.”

Planning and distribution also should focus beyond US borders. Any issues in vaccine distribution or administration in the United States “will only be multiplied in several other parts of the world,” Culver said. Because COVID-19 is a pandemic, “we need to think about vaccinating globally.”

Investigating adverse events

Adverse events common to vaccinations in general — injection site pain, headaches, and fever — would not be unexpected with the COVID-19 vaccines. However, experts remain concerned that other, unrelated adverse events might be erroneously attributed to vaccination. For example, if a fall, heart attack, or death occurs within days of immunization, some might immediately blame the vaccine product.

“It’s important to remember that any new, highly touted medical therapy like this will receive a lot of scrutiny, so it would be unusual not to hear about something happening to somebody,” Culver said. Vaccine companies and health agencies will be carefully evaluating any reported adverse events to ensure no safety signal was missed in the trials.

“Fortunately, there are systems in place to investigate these events immediately,” Schaffner said.

Pregnancy recommendations pending

One question still looms: Is the COVID-19 vaccination safe for pregnant women? This isn’t just a question for the general public, either, Schaffner said. He estimated that about 70 percent of healthcare workers are women, and data suggests about 300,000 of these healthcare workers are pregnant.

“The CDC’s Advisory Committee on Immunization Practices will speak to that just as soon as the EUA is issued,” he added.

Patients are asking Culver about the priority order for vaccination. He said it’s difficult to provide firm guidance at this point.

People also have “lingering skepticism” about whether vaccine development was done in a prudent way, Culver said. Some people question whether the Pfizer vaccine and others were rushed to market. “So we try to spend time with the patients, reassuring them that all the usual safety evaluations were carefully done,” he said.

Another concern is whether mRNA vaccines can interact with human DNA. “The quick, short, and definitive answer is no,” Schaffner said. The m stands for messenger — the vaccines transmit information. "Once it gets into a cell, the mRNA does not go anywhere near the DNA, and once it transmits its information to the cell appropriately, it gets metabolized, and we excrete all the remnants."

Hewlett pointed out that investigations and surveillance will continue. Because this is an EUA and not full approval, “that essentially means they will still be obligated to collect a lot more data than they would ordinarily,” he said.

How long immunoprotection will last also remains an unknown. “The big question left on the table now is the durability,” Culver said. “Of course, we won’t know the answer to that for quite some time.”

Schaffner and Culver have disclosed no relevant financial relationships. Hewlett was an employee of Pfizer until mid-2019. His previous work as Pfizer’s senior medical director of global medical product evaluation was not associated with development of the COVID-19 vaccine.

This article first appeared on Medscape.com.

Breast cancer survivors are less likely to get pregnant and have higher risks of some delivery and fetal complications, according to a meta-analysis reported at the 2020 San Antonio Breast Cancer Symposium.

However, the data also showed that pregnancy does not increase the risk of cancer recurrence.

“With the availability of more effective anticancer treatments, survivorship and addressing the treatments’ potential long-term toxicities has gained substantial attention,” said study investigator Matteo Lambertini, MD, PhD, of University of Genova (Italy) – IRCCS Policlinico San Martino Hospital.

“Returning to a normal life after cancer diagnosis and treatment should be considered, in the 21st century, as a crucial ambition in cancer care,” Dr. Lambertini added. “In patients diagnosed during their reproductive years, this includes the possibility to complete their family planning. Due to the constant rise in age at first pregnancy over the past years, many women are diagnosed with breast cancer before completing their reproductive plans.”

In that context, certain cancer treatments have the potential to reduce fertility. In addition, many women need prolonged hormone therapy, and conception is contraindicated while they are receiving it.

Study results

Dr. Lambertini and colleagues performed a meta-analysis using data from 39 studies that included a total of 114,573 breast cancer patients and 8,093,401 women from the general population.

Results showed that breast cancer survivors were much less likely than women in the general population to become pregnant (relative risk, 0.40; P < .001).

However, “the majority of the studies included in our meta-analysis did not capture the information on how many women tried to get pregnant,” Dr. Lambertini cautioned.

In the few studies that did, more than half of women trying to conceive did become pregnant, and most of them were able to do so naturally, without need for assisted reproductive technologies.

On the flip side, analyses also showed that pregnancies occurred in some women who did not want to conceive, underscoring the importance of comprehensive oncofertility counseling that addresses not only fertility preservation, but also contraception, Dr. Lambertini said.

Among women who became pregnant, breast cancer survivors did not have higher odds of spontaneous abortion or complications such as preeclampsia, and their infants were not significantly more likely to have congenital abnormalities.

However, the breast cancer survivor group did have higher odds of cesarean birth (odds ratio, 1.14; P = .007), low birth weight (OR, 1.50; P < .001), preterm birth (OR, 1.45; P = .006), and infants small for gestational age (OR, 1.16; P = .039).

In stratified analysis, the higher risk of having an infant with low birth weight was significant only for women who had received chemotherapy, and the higher risk of having an infant small for gestational age was significant only for women who had received chemotherapy or who had a late pregnancy (more than 2 years to 5 years after cancer diagnosis).

Among breast cancer survivors, those who became pregnant actually had lower risks of disease-free survival events (hazard ratio, 0.73; P = .016) and death (HR, 0.56; P < .001). Findings were similar in the subset of studies that adjusted for the so-called healthy mother effect.

Pregnancy did not significantly affect disease-free survival among women with hormone receptor–positive disease and appeared protective among women with hormone receptor–negative disease (HR, 0.72).

Pregnancy also appeared safe in terms of overall survival, irrespective of survivors’ BRCA status, nodal status, receipt of chemotherapy, pregnancy outcome (completed vs. abortion), and pregnancy interval.

This study was limited by the lack of patient-level data and by the fact that most of the included studies had a retrospective design, Dr. Lambertini acknowledged.

Close monitoring, early discussions are key

“Results of this meta-analysis provide reassuring, updated evidence on the feasibility and safety of conceiving in young women with prior breast cancer diagnosis. They provide crucial information for improving the oncofertility counseling of young breast cancer patients, helping them and their treating physicians in making evidence-based decisions on future family planning,” Dr. Lambertini commented.

“The higher risk of delivery and fetal complications … calls for ensuring a closer monitoring of these pregnancies,” he added. “The lack of detrimental prognostic effect of pregnancy after breast cancer following appropriate treatment and follow-up strongly voices the need for a deeper consideration of patients’ pregnancy desire as a crucial component of their survivorship care plan and wish to return to a normal life.”

“The findings provide further support regarding the safety of pregnancy following a breast cancer diagnosis,” agreed Halle Moore, MD, of Cleveland Clinic Taussig Cancer Institute in Ohio, who was not involved in this study.

“I would add that we still have a lot to learn about optimal timing of pregnancy with respect to breast cancer treatment for women with hormone-sensitive breast cancer treated with endocrine therapy,” she said.

The study’s results serve as a reminder that providers should be routinely discussing future pregnancy wishes and fertility preservation options with breast cancer patients at the time of initial diagnosis, Dr. Moore said.

“The earlier we identify an interest in future fertility, the more we can do to improve the chances for a successful pregnancy outcome,” she elaborated. “It is important to assess interest in future pregnancy as soon as possible when a young woman is diagnosed with breast cancer, as fertility preservation options are most likely to be successful when applied prior to chemotherapy or hormonal treatment for breast cancer.”

“The findings also suggest that involvement of a high-risk obstetrics team should be considered for pregnant breast cancer survivors,” Dr. Moore noted.

This research was funded by the Italian Ministry of Health and the Italian Association for Cancer Research. Dr. Lambertini and Dr. Moore disclosed no conflicts of interest. Eva Blondeaux, MD, of University of Genova – IRCCS Policlinico San Martino Hospital, who presented this research at the meeting, disclosed no conflicts as well.
 

SOURCE: Blondeaux e et al. SABCS 2020, Abstract GS3-09.

Breast cancer survivors are less likely to get pregnant and have higher risks of some delivery and fetal complications, according to a meta-analysis reported at the 2020 San Antonio Breast Cancer Symposium.

However, the data also showed that pregnancy does not increase the risk of cancer recurrence.

“With the availability of more effective anticancer treatments, survivorship and addressing the treatments’ potential long-term toxicities has gained substantial attention,” said study investigator Matteo Lambertini, MD, PhD, of University of Genova (Italy) – IRCCS Policlinico San Martino Hospital.

“Returning to a normal life after cancer diagnosis and treatment should be considered, in the 21st century, as a crucial ambition in cancer care,” Dr. Lambertini added. “In patients diagnosed during their reproductive years, this includes the possibility to complete their family planning. Due to the constant rise in age at first pregnancy over the past years, many women are diagnosed with breast cancer before completing their reproductive plans.”

In that context, certain cancer treatments have the potential to reduce fertility. In addition, many women need prolonged hormone therapy, and conception is contraindicated while they are receiving it.

Study results

Dr. Lambertini and colleagues performed a meta-analysis using data from 39 studies that included a total of 114,573 breast cancer patients and 8,093,401 women from the general population.

Results showed that breast cancer survivors were much less likely than women in the general population to become pregnant (relative risk, 0.40; P < .001).

However, “the majority of the studies included in our meta-analysis did not capture the information on how many women tried to get pregnant,” Dr. Lambertini cautioned.

In the few studies that did, more than half of women trying to conceive did become pregnant, and most of them were able to do so naturally, without need for assisted reproductive technologies.

On the flip side, analyses also showed that pregnancies occurred in some women who did not want to conceive, underscoring the importance of comprehensive oncofertility counseling that addresses not only fertility preservation, but also contraception, Dr. Lambertini said.

Among women who became pregnant, breast cancer survivors did not have higher odds of spontaneous abortion or complications such as preeclampsia, and their infants were not significantly more likely to have congenital abnormalities.

However, the breast cancer survivor group did have higher odds of cesarean birth (odds ratio, 1.14; P = .007), low birth weight (OR, 1.50; P < .001), preterm birth (OR, 1.45; P = .006), and infants small for gestational age (OR, 1.16; P = .039).

In stratified analysis, the higher risk of having an infant with low birth weight was significant only for women who had received chemotherapy, and the higher risk of having an infant small for gestational age was significant only for women who had received chemotherapy or who had a late pregnancy (more than 2 years to 5 years after cancer diagnosis).

Among breast cancer survivors, those who became pregnant actually had lower risks of disease-free survival events (hazard ratio, 0.73; P = .016) and death (HR, 0.56; P < .001). Findings were similar in the subset of studies that adjusted for the so-called healthy mother effect.

Pregnancy did not significantly affect disease-free survival among women with hormone receptor–positive disease and appeared protective among women with hormone receptor–negative disease (HR, 0.72).

Pregnancy also appeared safe in terms of overall survival, irrespective of survivors’ BRCA status, nodal status, receipt of chemotherapy, pregnancy outcome (completed vs. abortion), and pregnancy interval.

This study was limited by the lack of patient-level data and by the fact that most of the included studies had a retrospective design, Dr. Lambertini acknowledged.

Close monitoring, early discussions are key

“Results of this meta-analysis provide reassuring, updated evidence on the feasibility and safety of conceiving in young women with prior breast cancer diagnosis. They provide crucial information for improving the oncofertility counseling of young breast cancer patients, helping them and their treating physicians in making evidence-based decisions on future family planning,” Dr. Lambertini commented.

“The higher risk of delivery and fetal complications … calls for ensuring a closer monitoring of these pregnancies,” he added. “The lack of detrimental prognostic effect of pregnancy after breast cancer following appropriate treatment and follow-up strongly voices the need for a deeper consideration of patients’ pregnancy desire as a crucial component of their survivorship care plan and wish to return to a normal life.”

“The findings provide further support regarding the safety of pregnancy following a breast cancer diagnosis,” agreed Halle Moore, MD, of Cleveland Clinic Taussig Cancer Institute in Ohio, who was not involved in this study.

“I would add that we still have a lot to learn about optimal timing of pregnancy with respect to breast cancer treatment for women with hormone-sensitive breast cancer treated with endocrine therapy,” she said.

The study’s results serve as a reminder that providers should be routinely discussing future pregnancy wishes and fertility preservation options with breast cancer patients at the time of initial diagnosis, Dr. Moore said.

“The earlier we identify an interest in future fertility, the more we can do to improve the chances for a successful pregnancy outcome,” she elaborated. “It is important to assess interest in future pregnancy as soon as possible when a young woman is diagnosed with breast cancer, as fertility preservation options are most likely to be successful when applied prior to chemotherapy or hormonal treatment for breast cancer.”

“The findings also suggest that involvement of a high-risk obstetrics team should be considered for pregnant breast cancer survivors,” Dr. Moore noted.

This research was funded by the Italian Ministry of Health and the Italian Association for Cancer Research. Dr. Lambertini and Dr. Moore disclosed no conflicts of interest. Eva Blondeaux, MD, of University of Genova – IRCCS Policlinico San Martino Hospital, who presented this research at the meeting, disclosed no conflicts as well.
 

SOURCE: Blondeaux e et al. SABCS 2020, Abstract GS3-09.

Breast cancer survivors are less likely to get pregnant and have higher risks of some delivery and fetal complications, according to a meta-analysis reported at the 2020 San Antonio Breast Cancer Symposium.

However, the data also showed that pregnancy does not increase the risk of cancer recurrence.

“With the availability of more effective anticancer treatments, survivorship and addressing the treatments’ potential long-term toxicities has gained substantial attention,” said study investigator Matteo Lambertini, MD, PhD, of University of Genova (Italy) – IRCCS Policlinico San Martino Hospital.

“Returning to a normal life after cancer diagnosis and treatment should be considered, in the 21st century, as a crucial ambition in cancer care,” Dr. Lambertini added. “In patients diagnosed during their reproductive years, this includes the possibility to complete their family planning. Due to the constant rise in age at first pregnancy over the past years, many women are diagnosed with breast cancer before completing their reproductive plans.”

In that context, certain cancer treatments have the potential to reduce fertility. In addition, many women need prolonged hormone therapy, and conception is contraindicated while they are receiving it.

Study results

Dr. Lambertini and colleagues performed a meta-analysis using data from 39 studies that included a total of 114,573 breast cancer patients and 8,093,401 women from the general population.

Results showed that breast cancer survivors were much less likely than women in the general population to become pregnant (relative risk, 0.40; P < .001).

However, “the majority of the studies included in our meta-analysis did not capture the information on how many women tried to get pregnant,” Dr. Lambertini cautioned.

In the few studies that did, more than half of women trying to conceive did become pregnant, and most of them were able to do so naturally, without need for assisted reproductive technologies.

On the flip side, analyses also showed that pregnancies occurred in some women who did not want to conceive, underscoring the importance of comprehensive oncofertility counseling that addresses not only fertility preservation, but also contraception, Dr. Lambertini said.

Among women who became pregnant, breast cancer survivors did not have higher odds of spontaneous abortion or complications such as preeclampsia, and their infants were not significantly more likely to have congenital abnormalities.

However, the breast cancer survivor group did have higher odds of cesarean birth (odds ratio, 1.14; P = .007), low birth weight (OR, 1.50; P < .001), preterm birth (OR, 1.45; P = .006), and infants small for gestational age (OR, 1.16; P = .039).

In stratified analysis, the higher risk of having an infant with low birth weight was significant only for women who had received chemotherapy, and the higher risk of having an infant small for gestational age was significant only for women who had received chemotherapy or who had a late pregnancy (more than 2 years to 5 years after cancer diagnosis).

Among breast cancer survivors, those who became pregnant actually had lower risks of disease-free survival events (hazard ratio, 0.73; P = .016) and death (HR, 0.56; P < .001). Findings were similar in the subset of studies that adjusted for the so-called healthy mother effect.

Pregnancy did not significantly affect disease-free survival among women with hormone receptor–positive disease and appeared protective among women with hormone receptor–negative disease (HR, 0.72).

Pregnancy also appeared safe in terms of overall survival, irrespective of survivors’ BRCA status, nodal status, receipt of chemotherapy, pregnancy outcome (completed vs. abortion), and pregnancy interval.

This study was limited by the lack of patient-level data and by the fact that most of the included studies had a retrospective design, Dr. Lambertini acknowledged.

Close monitoring, early discussions are key

“Results of this meta-analysis provide reassuring, updated evidence on the feasibility and safety of conceiving in young women with prior breast cancer diagnosis. They provide crucial information for improving the oncofertility counseling of young breast cancer patients, helping them and their treating physicians in making evidence-based decisions on future family planning,” Dr. Lambertini commented.

“The higher risk of delivery and fetal complications … calls for ensuring a closer monitoring of these pregnancies,” he added. “The lack of detrimental prognostic effect of pregnancy after breast cancer following appropriate treatment and follow-up strongly voices the need for a deeper consideration of patients’ pregnancy desire as a crucial component of their survivorship care plan and wish to return to a normal life.”

“The findings provide further support regarding the safety of pregnancy following a breast cancer diagnosis,” agreed Halle Moore, MD, of Cleveland Clinic Taussig Cancer Institute in Ohio, who was not involved in this study.

“I would add that we still have a lot to learn about optimal timing of pregnancy with respect to breast cancer treatment for women with hormone-sensitive breast cancer treated with endocrine therapy,” she said.

The study’s results serve as a reminder that providers should be routinely discussing future pregnancy wishes and fertility preservation options with breast cancer patients at the time of initial diagnosis, Dr. Moore said.

“The earlier we identify an interest in future fertility, the more we can do to improve the chances for a successful pregnancy outcome,” she elaborated. “It is important to assess interest in future pregnancy as soon as possible when a young woman is diagnosed with breast cancer, as fertility preservation options are most likely to be successful when applied prior to chemotherapy or hormonal treatment for breast cancer.”

“The findings also suggest that involvement of a high-risk obstetrics team should be considered for pregnant breast cancer survivors,” Dr. Moore noted.

This research was funded by the Italian Ministry of Health and the Italian Association for Cancer Research. Dr. Lambertini and Dr. Moore disclosed no conflicts of interest. Eva Blondeaux, MD, of University of Genova – IRCCS Policlinico San Martino Hospital, who presented this research at the meeting, disclosed no conflicts as well.
 

SOURCE: Blondeaux e et al. SABCS 2020, Abstract GS3-09.

With U.S. approval of one coronavirus vaccine likely imminent and approval of a second one expected soon after, physicians will likely be deluged with questions. Public attitudes about the vaccines vary by demographics, with a recent poll showing that men and older adults are more likely to choose vaccination, and women and people of color evincing more wariness.

Although the reasons for reluctance may vary, questions from patient will likely be similar. Some are related to the “warp speed” language about the vaccines. Other concerns arise from the fact that the platform – mRNA – has not been used in human vaccines before. And as with any vaccine, there are rumors and false claims making the rounds on social media.

In anticipation of the most common questions physicians may encounter, two experts, Krutika Kuppalli, MD, assistant professor of medicine in the division of infectious diseases at the Medical University of South Carolina, Charleston, and Angela Rasmussen, PhD, virologist and nonresident affiliate at Georgetown University’s Center for Global Health Science and Security, Washington, talked in an interview about what clinicians can expect and what evidence-based – as well as compassionate – answers might look like.
 

Q: Will this vaccine give me COVID-19?

“There is not an intact virus in there,” Dr. Rasmussen said. The mRNA-based vaccines cannot cause COVID-19 because they don’t use any part of the coronavirus itself. Instead, the Moderna and Pfizer vaccines contain manufactured mRNA molecules that carry the instructions for building the virus’ spike protein. After vaccine administration, the recipient’s own cells take up this mRNA, use it to build this bit of protein, and display it on their surfaces. The foreign protein flag triggers the immune system response.

The mRNA does not enter the cell nucleus or interact with the recipient’s DNA. And because it’s so fragile, it degrades quite quickly. To keep that from happening before cell entry, the mRNAs are cushioned in protective fats.

Q: Was this vaccine made too quickly?

“People have been working on this platform for 30 years, so it’s not that this is brand new,” Dr. Kuppalli said.

Researchers began working on mRNA vaccines in the 1990s. Technological developments in the last decade have meant that their use has become feasible, and they have been tested in animals against many viral diseases. The mRNA vaccines are attractive because they’re expected to be safe and easily manufactured from common materials. That’s what we’ve seen in the COVID-19 pandemic, the  Centers for Disease Control and Prevention says on its website. Design of the spike protein mRNA component began as soon as the viral genome became available in January.

Usually, rolling out a vaccine takes years, so less than a year under a program called Operation Warp Speed can seem like moving too fast, Dr. Rasmussen acknowledged. “The name has given people the impression that by going at warp speed, we’re cutting all the corners. [But] the reality is that Operation Warp Speed is mostly for manufacturing and distribution.”

What underlies the speed is a restructuring of the normal vaccine development process, Dr. Kuppalli said. The same phases of development – animal testing, a small initial human phase, a second for safety testing, a third large phase for efficacy – were all conducted as for any vaccine. But in this case, some phases were completed in parallel, rather than sequentially. This approach has proved so successful that there is already talk about making it the model for developing future vaccines.

Two other factors contributed to the speed, said Dr. Kuppalli and Dr. Rasmussen. First, gearing up production can slow a rollout, but with these vaccines, companies ramped up production even before anyone knew if the vaccines would work – the “warp speed” part. The second factor has been the large number of cases, making exposures more likely and thus accelerating the results of the efficacy trials. “There is so much COVID being transmitted everywhere in the United States that it did not take long to hit the threshold of events to read out phase 3,” Dr. Rasmussen said.

Q: This vaccine has never been used in humans. How do we know it’s safe?

The Pfizer phase 3 trial included more than 43,000 people, and Moderna’s had more than 30,000. The first humans received mRNA-based COVID-19 vaccines in March. The most common adverse events emerge right after a vaccination, Dr. Kuppalli said.

As with any vaccine that gains approval, monitoring will continue.

UK health officials have reported that two health care workers vaccinated in the initial rollout of the Pfizer vaccine had what seems to have been a severe allergic response. Both recipients had a history of anaphylactic allergic responses and carried EpiPens, and both recovered. During the trial, allergic reaction rates were 0.63% in the vaccine group and 0.51% in the placebo group.

As a result of the two reactions, UK regulators are now recommending that patients with a history of severe allergies not receive the vaccine at the current time.

Q: What are the likely side effects?

So far, the most common side effects are pain at the injection site and an achy, flu-like feeling, Dr. Kuppalli said. More severe reactions have been reported, but were not common in the trials.

Dr. Rasmussen noted that the common side effects are a good sign, and signal that the recipient is generating “a robust immune response.”

“Everybody I’ve talked to who’s had the response has said they would go through it again,” Dr. Kruppalli said. “I definitely plan on lining up and being one of the first people to get the vaccine.”

Q: I already had COVID-19 or had a positive antibody test. Do I still need to get the vaccine?

Dr. Rasmussen said that there are “too many unknowns” to say if a history of COVID-19 would make a difference. “We don’t know how long neutralizing antibodies last” after infection, she said. “What we know is that the vaccine tends to produce antibody titers towards the higher end of the spectrum,” suggesting better immunity with vaccination than after natural infection.

Q: Can patients of color feel safe getting the vaccine?

“People of color might be understandably reluctant to take a vaccine that was developed in a way that appears to be faster [than past development],” said Dr. Rasmussen. She said physicians should acknowledge and understand the history that has led them to feel that way, “everything from Tuskegee to Henrietta Lacks to today.”

Empathy is key, and “providers should meet patients where they are and not condescend to them.”

Dr. Kuppalli agreed. “Clinicians really need to work on trying to strip away their biases.”

Thus far there are no safety signals that differ by race or ethnicity, according to the companies. The Pfizer phase 3 trial enrolled just over 9% Black participants, 0.5% Native American/Alaska Native, 0.2% Native Hawaiian/Pacific Islander, 2.3% multiracial participants, and 28% Hispanic/Latinx. For its part, Moderna says that approximately 37% of participants in its phase 3 trial come from communities of color.

Q: What about children and pregnant women?

Although the trials included participants from many different age groups and backgrounds, children and pregnant or lactating women were not among them. Pfizer gained approval in October to include participants as young as age 12 years, and a Moderna spokesperson said in an interview that the company planned pediatric inclusion at the end of 2020, pending approval.

“Unfortunately, we don’t have data on pregnant and lactating women,” Dr. Kuppalli said. She said she hopes that public health organizations such as the CDC will address that in the coming weeks. Dr. Rasmussen called the lack of data in pregnant women and children “a big oversight.”

Dr. Rasmussen has disclosed no relevant financial relationships. Dr. Kuppalli is a consultant with GlaxoSmithKline.

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

With U.S. approval of one coronavirus vaccine likely imminent and approval of a second one expected soon after, physicians will likely be deluged with questions. Public attitudes about the vaccines vary by demographics, with a recent poll showing that men and older adults are more likely to choose vaccination, and women and people of color evincing more wariness.

Although the reasons for reluctance may vary, questions from patient will likely be similar. Some are related to the “warp speed” language about the vaccines. Other concerns arise from the fact that the platform – mRNA – has not been used in human vaccines before. And as with any vaccine, there are rumors and false claims making the rounds on social media.

In anticipation of the most common questions physicians may encounter, two experts, Krutika Kuppalli, MD, assistant professor of medicine in the division of infectious diseases at the Medical University of South Carolina, Charleston, and Angela Rasmussen, PhD, virologist and nonresident affiliate at Georgetown University’s Center for Global Health Science and Security, Washington, talked in an interview about what clinicians can expect and what evidence-based – as well as compassionate – answers might look like.
 

Q: Will this vaccine give me COVID-19?

“There is not an intact virus in there,” Dr. Rasmussen said. The mRNA-based vaccines cannot cause COVID-19 because they don’t use any part of the coronavirus itself. Instead, the Moderna and Pfizer vaccines contain manufactured mRNA molecules that carry the instructions for building the virus’ spike protein. After vaccine administration, the recipient’s own cells take up this mRNA, use it to build this bit of protein, and display it on their surfaces. The foreign protein flag triggers the immune system response.

The mRNA does not enter the cell nucleus or interact with the recipient’s DNA. And because it’s so fragile, it degrades quite quickly. To keep that from happening before cell entry, the mRNAs are cushioned in protective fats.

Q: Was this vaccine made too quickly?

“People have been working on this platform for 30 years, so it’s not that this is brand new,” Dr. Kuppalli said.

Researchers began working on mRNA vaccines in the 1990s. Technological developments in the last decade have meant that their use has become feasible, and they have been tested in animals against many viral diseases. The mRNA vaccines are attractive because they’re expected to be safe and easily manufactured from common materials. That’s what we’ve seen in the COVID-19 pandemic, the  Centers for Disease Control and Prevention says on its website. Design of the spike protein mRNA component began as soon as the viral genome became available in January.

Usually, rolling out a vaccine takes years, so less than a year under a program called Operation Warp Speed can seem like moving too fast, Dr. Rasmussen acknowledged. “The name has given people the impression that by going at warp speed, we’re cutting all the corners. [But] the reality is that Operation Warp Speed is mostly for manufacturing and distribution.”

What underlies the speed is a restructuring of the normal vaccine development process, Dr. Kuppalli said. The same phases of development – animal testing, a small initial human phase, a second for safety testing, a third large phase for efficacy – were all conducted as for any vaccine. But in this case, some phases were completed in parallel, rather than sequentially. This approach has proved so successful that there is already talk about making it the model for developing future vaccines.

Two other factors contributed to the speed, said Dr. Kuppalli and Dr. Rasmussen. First, gearing up production can slow a rollout, but with these vaccines, companies ramped up production even before anyone knew if the vaccines would work – the “warp speed” part. The second factor has been the large number of cases, making exposures more likely and thus accelerating the results of the efficacy trials. “There is so much COVID being transmitted everywhere in the United States that it did not take long to hit the threshold of events to read out phase 3,” Dr. Rasmussen said.

Q: This vaccine has never been used in humans. How do we know it’s safe?

The Pfizer phase 3 trial included more than 43,000 people, and Moderna’s had more than 30,000. The first humans received mRNA-based COVID-19 vaccines in March. The most common adverse events emerge right after a vaccination, Dr. Kuppalli said.

As with any vaccine that gains approval, monitoring will continue.

UK health officials have reported that two health care workers vaccinated in the initial rollout of the Pfizer vaccine had what seems to have been a severe allergic response. Both recipients had a history of anaphylactic allergic responses and carried EpiPens, and both recovered. During the trial, allergic reaction rates were 0.63% in the vaccine group and 0.51% in the placebo group.

As a result of the two reactions, UK regulators are now recommending that patients with a history of severe allergies not receive the vaccine at the current time.

Q: What are the likely side effects?

So far, the most common side effects are pain at the injection site and an achy, flu-like feeling, Dr. Kuppalli said. More severe reactions have been reported, but were not common in the trials.

Dr. Rasmussen noted that the common side effects are a good sign, and signal that the recipient is generating “a robust immune response.”

“Everybody I’ve talked to who’s had the response has said they would go through it again,” Dr. Kruppalli said. “I definitely plan on lining up and being one of the first people to get the vaccine.”

Q: I already had COVID-19 or had a positive antibody test. Do I still need to get the vaccine?

Dr. Rasmussen said that there are “too many unknowns” to say if a history of COVID-19 would make a difference. “We don’t know how long neutralizing antibodies last” after infection, she said. “What we know is that the vaccine tends to produce antibody titers towards the higher end of the spectrum,” suggesting better immunity with vaccination than after natural infection.

Q: Can patients of color feel safe getting the vaccine?

“People of color might be understandably reluctant to take a vaccine that was developed in a way that appears to be faster [than past development],” said Dr. Rasmussen. She said physicians should acknowledge and understand the history that has led them to feel that way, “everything from Tuskegee to Henrietta Lacks to today.”

Empathy is key, and “providers should meet patients where they are and not condescend to them.”

Dr. Kuppalli agreed. “Clinicians really need to work on trying to strip away their biases.”

Thus far there are no safety signals that differ by race or ethnicity, according to the companies. The Pfizer phase 3 trial enrolled just over 9% Black participants, 0.5% Native American/Alaska Native, 0.2% Native Hawaiian/Pacific Islander, 2.3% multiracial participants, and 28% Hispanic/Latinx. For its part, Moderna says that approximately 37% of participants in its phase 3 trial come from communities of color.

Q: What about children and pregnant women?

Although the trials included participants from many different age groups and backgrounds, children and pregnant or lactating women were not among them. Pfizer gained approval in October to include participants as young as age 12 years, and a Moderna spokesperson said in an interview that the company planned pediatric inclusion at the end of 2020, pending approval.

“Unfortunately, we don’t have data on pregnant and lactating women,” Dr. Kuppalli said. She said she hopes that public health organizations such as the CDC will address that in the coming weeks. Dr. Rasmussen called the lack of data in pregnant women and children “a big oversight.”

Dr. Rasmussen has disclosed no relevant financial relationships. Dr. Kuppalli is a consultant with GlaxoSmithKline.

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

With U.S. approval of one coronavirus vaccine likely imminent and approval of a second one expected soon after, physicians will likely be deluged with questions. Public attitudes about the vaccines vary by demographics, with a recent poll showing that men and older adults are more likely to choose vaccination, and women and people of color evincing more wariness.

Although the reasons for reluctance may vary, questions from patient will likely be similar. Some are related to the “warp speed” language about the vaccines. Other concerns arise from the fact that the platform – mRNA – has not been used in human vaccines before. And as with any vaccine, there are rumors and false claims making the rounds on social media.

In anticipation of the most common questions physicians may encounter, two experts, Krutika Kuppalli, MD, assistant professor of medicine in the division of infectious diseases at the Medical University of South Carolina, Charleston, and Angela Rasmussen, PhD, virologist and nonresident affiliate at Georgetown University’s Center for Global Health Science and Security, Washington, talked in an interview about what clinicians can expect and what evidence-based – as well as compassionate – answers might look like.
 

Q: Will this vaccine give me COVID-19?

“There is not an intact virus in there,” Dr. Rasmussen said. The mRNA-based vaccines cannot cause COVID-19 because they don’t use any part of the coronavirus itself. Instead, the Moderna and Pfizer vaccines contain manufactured mRNA molecules that carry the instructions for building the virus’ spike protein. After vaccine administration, the recipient’s own cells take up this mRNA, use it to build this bit of protein, and display it on their surfaces. The foreign protein flag triggers the immune system response.

The mRNA does not enter the cell nucleus or interact with the recipient’s DNA. And because it’s so fragile, it degrades quite quickly. To keep that from happening before cell entry, the mRNAs are cushioned in protective fats.

Q: Was this vaccine made too quickly?

“People have been working on this platform for 30 years, so it’s not that this is brand new,” Dr. Kuppalli said.

Researchers began working on mRNA vaccines in the 1990s. Technological developments in the last decade have meant that their use has become feasible, and they have been tested in animals against many viral diseases. The mRNA vaccines are attractive because they’re expected to be safe and easily manufactured from common materials. That’s what we’ve seen in the COVID-19 pandemic, the  Centers for Disease Control and Prevention says on its website. Design of the spike protein mRNA component began as soon as the viral genome became available in January.

Usually, rolling out a vaccine takes years, so less than a year under a program called Operation Warp Speed can seem like moving too fast, Dr. Rasmussen acknowledged. “The name has given people the impression that by going at warp speed, we’re cutting all the corners. [But] the reality is that Operation Warp Speed is mostly for manufacturing and distribution.”

What underlies the speed is a restructuring of the normal vaccine development process, Dr. Kuppalli said. The same phases of development – animal testing, a small initial human phase, a second for safety testing, a third large phase for efficacy – were all conducted as for any vaccine. But in this case, some phases were completed in parallel, rather than sequentially. This approach has proved so successful that there is already talk about making it the model for developing future vaccines.

Two other factors contributed to the speed, said Dr. Kuppalli and Dr. Rasmussen. First, gearing up production can slow a rollout, but with these vaccines, companies ramped up production even before anyone knew if the vaccines would work – the “warp speed” part. The second factor has been the large number of cases, making exposures more likely and thus accelerating the results of the efficacy trials. “There is so much COVID being transmitted everywhere in the United States that it did not take long to hit the threshold of events to read out phase 3,” Dr. Rasmussen said.

Q: This vaccine has never been used in humans. How do we know it’s safe?

The Pfizer phase 3 trial included more than 43,000 people, and Moderna’s had more than 30,000. The first humans received mRNA-based COVID-19 vaccines in March. The most common adverse events emerge right after a vaccination, Dr. Kuppalli said.

As with any vaccine that gains approval, monitoring will continue.

UK health officials have reported that two health care workers vaccinated in the initial rollout of the Pfizer vaccine had what seems to have been a severe allergic response. Both recipients had a history of anaphylactic allergic responses and carried EpiPens, and both recovered. During the trial, allergic reaction rates were 0.63% in the vaccine group and 0.51% in the placebo group.

As a result of the two reactions, UK regulators are now recommending that patients with a history of severe allergies not receive the vaccine at the current time.

Q: What are the likely side effects?

So far, the most common side effects are pain at the injection site and an achy, flu-like feeling, Dr. Kuppalli said. More severe reactions have been reported, but were not common in the trials.

Dr. Rasmussen noted that the common side effects are a good sign, and signal that the recipient is generating “a robust immune response.”

“Everybody I’ve talked to who’s had the response has said they would go through it again,” Dr. Kruppalli said. “I definitely plan on lining up and being one of the first people to get the vaccine.”

Q: I already had COVID-19 or had a positive antibody test. Do I still need to get the vaccine?

Dr. Rasmussen said that there are “too many unknowns” to say if a history of COVID-19 would make a difference. “We don’t know how long neutralizing antibodies last” after infection, she said. “What we know is that the vaccine tends to produce antibody titers towards the higher end of the spectrum,” suggesting better immunity with vaccination than after natural infection.

Q: Can patients of color feel safe getting the vaccine?

“People of color might be understandably reluctant to take a vaccine that was developed in a way that appears to be faster [than past development],” said Dr. Rasmussen. She said physicians should acknowledge and understand the history that has led them to feel that way, “everything from Tuskegee to Henrietta Lacks to today.”

Empathy is key, and “providers should meet patients where they are and not condescend to them.”

Dr. Kuppalli agreed. “Clinicians really need to work on trying to strip away their biases.”

Thus far there are no safety signals that differ by race or ethnicity, according to the companies. The Pfizer phase 3 trial enrolled just over 9% Black participants, 0.5% Native American/Alaska Native, 0.2% Native Hawaiian/Pacific Islander, 2.3% multiracial participants, and 28% Hispanic/Latinx. For its part, Moderna says that approximately 37% of participants in its phase 3 trial come from communities of color.

Q: What about children and pregnant women?

Although the trials included participants from many different age groups and backgrounds, children and pregnant or lactating women were not among them. Pfizer gained approval in October to include participants as young as age 12 years, and a Moderna spokesperson said in an interview that the company planned pediatric inclusion at the end of 2020, pending approval.

“Unfortunately, we don’t have data on pregnant and lactating women,” Dr. Kuppalli said. She said she hopes that public health organizations such as the CDC will address that in the coming weeks. Dr. Rasmussen called the lack of data in pregnant women and children “a big oversight.”

Dr. Rasmussen has disclosed no relevant financial relationships. Dr. Kuppalli is a consultant with GlaxoSmithKline.

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