Vaccines

Moderna and Merck have presented promising results from their phase 2b clinical trial that investigated a combination of a messenger RNA (mRNA) vaccine and a cancer drug for the treatment of melanoma.

Is mRNA set to shake up the world of cancer treatment? This is certainly what Moderna seems to think; the pharmaceutical company has published the results of a phase 2b trial combining its mRNA vaccine (mRNA-4157 [V940]) with Merck’s cancer drug KEYTRUDA. While these are not the final results but rather mid-term data from the 3-year follow-up, they are somewhat promising. The randomized KEYNOTE-942/mRNA-4157-P201 clinical trial involves patients with high-risk (stage III/IV) melanoma following complete resection.

Relapse Risk Halved

Treatment with mRNA-4157 (V940) in combination with pembrolizumab led to a clinically meaningful improvement in recurrence-free survival, reducing the risk for recurrence or death by 49%, compared with pembrolizumab alone. The combination of mRNA-4157 (V940) with pembrolizumab also continued to demonstrate a meaningful improvement in distant metastasis-free survival compared with pembrolizumab alone, reducing the risk of developing distant metastasis or death by 62%. “The KEYNOTE-942/mRNA-4157-P201 study was the first demonstration of efficacy for an investigational mRNA cancer treatment in a randomized clinical trial and the first combination therapy to show a significant benefit over pembrolizumab alone in adjuvant melanoma,” said Kyle Holen, MD, Moderna’s senior vice president, after presenting these results. 

Side Effects

The combined treatment also did not demonstrate more significant side effects than pembrolizumab alone. The number of patients reporting treatment-related adverse events of grade 3 or greater was similar between the arms (25% for mRNA-4157 [V940] with pembrolizumab vs 20% for KEYTRUDA alone). The most common adverse events of any grade attributed to mRNA-4157 (V940) were fatigue (60.6%), injection site pain (56.7%), and chills (49%). Based on data from the phase 2b KEYNOTE-942/mRNA-4157-P201 study, the US Food and Drug Administration and European Medicines Agency granted breakthrough therapy designation and recognition under the the Priority Medicines scheme, respectively, for mRNA-4157 (V940) in combination with KEYTRUDA for the adjuvant treatment of patients with high-risk melanoma.

Phase 3 Trial

In July, Moderna and Merck announced the launch of a phase 3 trial, assessing “mRNA-4157 [V940] in combination with pembrolizumab as adjuvant treatment in patients with high-risk resected melanoma [stages IIB-IV].” Stéphane Bancel, Moderna’s director general, believes that an mRNA vaccine for melanoma could be available in 2025.

Other Cancer Vaccines

Moderna is not the only laboratory to set its sights on developing a vaccine for cancer. In May, BioNTech, in partnership with Roche, proposed a phase 1 clinical trial of a vaccine targeting pancreatic cancer in Nature. In June, at the American Society of Clinical Oncology›s conference, Transgene presented its conclusions concerning its viral vector vaccines against ENT and papillomavirus-linked cancers. And in September, Ose Immunotherapeutics made headlines with its vaccine for advanced lung cancer.

This article was translated from Univadis France, which is part of the Medscape Professional Network.

Moderna and Merck have presented promising results from their phase 2b clinical trial that investigated a combination of a messenger RNA (mRNA) vaccine and a cancer drug for the treatment of melanoma.

Is mRNA set to shake up the world of cancer treatment? This is certainly what Moderna seems to think; the pharmaceutical company has published the results of a phase 2b trial combining its mRNA vaccine (mRNA-4157 [V940]) with Merck’s cancer drug KEYTRUDA. While these are not the final results but rather mid-term data from the 3-year follow-up, they are somewhat promising. The randomized KEYNOTE-942/mRNA-4157-P201 clinical trial involves patients with high-risk (stage III/IV) melanoma following complete resection.

Relapse Risk Halved

Treatment with mRNA-4157 (V940) in combination with pembrolizumab led to a clinically meaningful improvement in recurrence-free survival, reducing the risk for recurrence or death by 49%, compared with pembrolizumab alone. The combination of mRNA-4157 (V940) with pembrolizumab also continued to demonstrate a meaningful improvement in distant metastasis-free survival compared with pembrolizumab alone, reducing the risk of developing distant metastasis or death by 62%. “The KEYNOTE-942/mRNA-4157-P201 study was the first demonstration of efficacy for an investigational mRNA cancer treatment in a randomized clinical trial and the first combination therapy to show a significant benefit over pembrolizumab alone in adjuvant melanoma,” said Kyle Holen, MD, Moderna’s senior vice president, after presenting these results. 

Side Effects

The combined treatment also did not demonstrate more significant side effects than pembrolizumab alone. The number of patients reporting treatment-related adverse events of grade 3 or greater was similar between the arms (25% for mRNA-4157 [V940] with pembrolizumab vs 20% for KEYTRUDA alone). The most common adverse events of any grade attributed to mRNA-4157 (V940) were fatigue (60.6%), injection site pain (56.7%), and chills (49%). Based on data from the phase 2b KEYNOTE-942/mRNA-4157-P201 study, the US Food and Drug Administration and European Medicines Agency granted breakthrough therapy designation and recognition under the the Priority Medicines scheme, respectively, for mRNA-4157 (V940) in combination with KEYTRUDA for the adjuvant treatment of patients with high-risk melanoma.

Phase 3 Trial

In July, Moderna and Merck announced the launch of a phase 3 trial, assessing “mRNA-4157 [V940] in combination with pembrolizumab as adjuvant treatment in patients with high-risk resected melanoma [stages IIB-IV].” Stéphane Bancel, Moderna’s director general, believes that an mRNA vaccine for melanoma could be available in 2025.

Other Cancer Vaccines

Moderna is not the only laboratory to set its sights on developing a vaccine for cancer. In May, BioNTech, in partnership with Roche, proposed a phase 1 clinical trial of a vaccine targeting pancreatic cancer in Nature. In June, at the American Society of Clinical Oncology›s conference, Transgene presented its conclusions concerning its viral vector vaccines against ENT and papillomavirus-linked cancers. And in September, Ose Immunotherapeutics made headlines with its vaccine for advanced lung cancer.

This article was translated from Univadis France, which is part of the Medscape Professional Network.

Moderna and Merck have presented promising results from their phase 2b clinical trial that investigated a combination of a messenger RNA (mRNA) vaccine and a cancer drug for the treatment of melanoma.

Is mRNA set to shake up the world of cancer treatment? This is certainly what Moderna seems to think; the pharmaceutical company has published the results of a phase 2b trial combining its mRNA vaccine (mRNA-4157 [V940]) with Merck’s cancer drug KEYTRUDA. While these are not the final results but rather mid-term data from the 3-year follow-up, they are somewhat promising. The randomized KEYNOTE-942/mRNA-4157-P201 clinical trial involves patients with high-risk (stage III/IV) melanoma following complete resection.

Relapse Risk Halved

Treatment with mRNA-4157 (V940) in combination with pembrolizumab led to a clinically meaningful improvement in recurrence-free survival, reducing the risk for recurrence or death by 49%, compared with pembrolizumab alone. The combination of mRNA-4157 (V940) with pembrolizumab also continued to demonstrate a meaningful improvement in distant metastasis-free survival compared with pembrolizumab alone, reducing the risk of developing distant metastasis or death by 62%. “The KEYNOTE-942/mRNA-4157-P201 study was the first demonstration of efficacy for an investigational mRNA cancer treatment in a randomized clinical trial and the first combination therapy to show a significant benefit over pembrolizumab alone in adjuvant melanoma,” said Kyle Holen, MD, Moderna’s senior vice president, after presenting these results. 

Side Effects

The combined treatment also did not demonstrate more significant side effects than pembrolizumab alone. The number of patients reporting treatment-related adverse events of grade 3 or greater was similar between the arms (25% for mRNA-4157 [V940] with pembrolizumab vs 20% for KEYTRUDA alone). The most common adverse events of any grade attributed to mRNA-4157 (V940) were fatigue (60.6%), injection site pain (56.7%), and chills (49%). Based on data from the phase 2b KEYNOTE-942/mRNA-4157-P201 study, the US Food and Drug Administration and European Medicines Agency granted breakthrough therapy designation and recognition under the the Priority Medicines scheme, respectively, for mRNA-4157 (V940) in combination with KEYTRUDA for the adjuvant treatment of patients with high-risk melanoma.

Phase 3 Trial

In July, Moderna and Merck announced the launch of a phase 3 trial, assessing “mRNA-4157 [V940] in combination with pembrolizumab as adjuvant treatment in patients with high-risk resected melanoma [stages IIB-IV].” Stéphane Bancel, Moderna’s director general, believes that an mRNA vaccine for melanoma could be available in 2025.

Other Cancer Vaccines

Moderna is not the only laboratory to set its sights on developing a vaccine for cancer. In May, BioNTech, in partnership with Roche, proposed a phase 1 clinical trial of a vaccine targeting pancreatic cancer in Nature. In June, at the American Society of Clinical Oncology›s conference, Transgene presented its conclusions concerning its viral vector vaccines against ENT and papillomavirus-linked cancers. And in September, Ose Immunotherapeutics made headlines with its vaccine for advanced lung cancer.

This article was translated from Univadis France, which is part of the Medscape Professional Network.

Two doses of the recombinant zoster vaccine (RZV) are effective against herpes zoster (HZ) for 4 years after vaccination, according to a new study published in Annals of Internal Medicine.

Findings from the prospective cohort study showed that people who received two doses of the vaccine, regardless of when they received their second dose, experienced 79% vaccine effectiveness (VE) during the first year, with effectiveness decreasing to 73% by year 4. By contrast, the rate of effectiveness during the first year was 70% for people who received a single dose, falling to 52% effectiveness by year 4.

The findings also showed that the rate of effectiveness was 65% for those taking corticosteroids.

The study was conducted between 2018 and 2022 using data from the Vaccine Safety Datalink, a collaboration between the US Centers for Disease Control and Prevention (CDC) and nine healthcare systems across the country.

Researchers evaluated the incidence of HZ, as determined by a diagnosis and prescription for antiviral medication within 7 days of diagnosis, and monitored RZV status over time.

The findings may quell fears that waiting too long for the second dose reduces the effectiveness of the herpes vaccine, according to Nicola Klein, MD, PhD, director of the Vaccine Study Center at Kaiser Permanente in Oakland, California, who led the study.

The long-term efficacy of the vaccine is especially important because older adults are now living much longer than in previous years, according to Alexandra Tien, MD, a family physician at Medical Associates of Rhode Island in Providence.

“People live these days into their 80s and even 90s,” Dr. Tien said. “That’s a large number of years to need protection for, so it’s really important to have a long-lasting vaccine.”

The CDC currently recommends two doses of RZV separated by 2-6 months for patients aged 50 years and older. Adults older than 19 years who are immunocompromised should receive two doses of RZV separated by 1-2 months, the agency said.

According to Dr. Klein, research does not show whether VE for RZV wanes after 4 years. But interim findings from another study following people in clinical trials found VE levels remained high after 7 years.

The risk for HZ increases with age, reaching a lifetime risk of 50% among adults aged 85 years. Complications like postherpetic neuralgia (PHN) — characterized by long-term tingling, numbness, and disabling pain at the site of the rash — can interfere with the quality of life and ability to function in older adults. The CDC estimates that up to 18% of people with shingles experience PHN, and the risk increases with age.

Just like with any other vaccine, patients sometimes have concerns about the potential side effects of RZV, said Dr. Tien. But those effects, such as muscle pain, nausea, and fever, are mild compared to shingles.

“I always tell patients, with any vaccine, immunization is one of the biggest bangs for your buck in healthcare because you’re preventing a problem,” Dr. Tien said.

This study was funded by the CDC through contracts with participating sites. Study authors reported no disclosures. Dr. Tien reported no disclosures.

A version of this article appeared on Medscape.com.

Two doses of the recombinant zoster vaccine (RZV) are effective against herpes zoster (HZ) for 4 years after vaccination, according to a new study published in Annals of Internal Medicine.

Findings from the prospective cohort study showed that people who received two doses of the vaccine, regardless of when they received their second dose, experienced 79% vaccine effectiveness (VE) during the first year, with effectiveness decreasing to 73% by year 4. By contrast, the rate of effectiveness during the first year was 70% for people who received a single dose, falling to 52% effectiveness by year 4.

The findings also showed that the rate of effectiveness was 65% for those taking corticosteroids.

The study was conducted between 2018 and 2022 using data from the Vaccine Safety Datalink, a collaboration between the US Centers for Disease Control and Prevention (CDC) and nine healthcare systems across the country.

Researchers evaluated the incidence of HZ, as determined by a diagnosis and prescription for antiviral medication within 7 days of diagnosis, and monitored RZV status over time.

The findings may quell fears that waiting too long for the second dose reduces the effectiveness of the herpes vaccine, according to Nicola Klein, MD, PhD, director of the Vaccine Study Center at Kaiser Permanente in Oakland, California, who led the study.

The long-term efficacy of the vaccine is especially important because older adults are now living much longer than in previous years, according to Alexandra Tien, MD, a family physician at Medical Associates of Rhode Island in Providence.

“People live these days into their 80s and even 90s,” Dr. Tien said. “That’s a large number of years to need protection for, so it’s really important to have a long-lasting vaccine.”

The CDC currently recommends two doses of RZV separated by 2-6 months for patients aged 50 years and older. Adults older than 19 years who are immunocompromised should receive two doses of RZV separated by 1-2 months, the agency said.

According to Dr. Klein, research does not show whether VE for RZV wanes after 4 years. But interim findings from another study following people in clinical trials found VE levels remained high after 7 years.

The risk for HZ increases with age, reaching a lifetime risk of 50% among adults aged 85 years. Complications like postherpetic neuralgia (PHN) — characterized by long-term tingling, numbness, and disabling pain at the site of the rash — can interfere with the quality of life and ability to function in older adults. The CDC estimates that up to 18% of people with shingles experience PHN, and the risk increases with age.

Just like with any other vaccine, patients sometimes have concerns about the potential side effects of RZV, said Dr. Tien. But those effects, such as muscle pain, nausea, and fever, are mild compared to shingles.

“I always tell patients, with any vaccine, immunization is one of the biggest bangs for your buck in healthcare because you’re preventing a problem,” Dr. Tien said.

This study was funded by the CDC through contracts with participating sites. Study authors reported no disclosures. Dr. Tien reported no disclosures.

A version of this article appeared on Medscape.com.

Two doses of the recombinant zoster vaccine (RZV) are effective against herpes zoster (HZ) for 4 years after vaccination, according to a new study published in Annals of Internal Medicine.

Findings from the prospective cohort study showed that people who received two doses of the vaccine, regardless of when they received their second dose, experienced 79% vaccine effectiveness (VE) during the first year, with effectiveness decreasing to 73% by year 4. By contrast, the rate of effectiveness during the first year was 70% for people who received a single dose, falling to 52% effectiveness by year 4.

The findings also showed that the rate of effectiveness was 65% for those taking corticosteroids.

The study was conducted between 2018 and 2022 using data from the Vaccine Safety Datalink, a collaboration between the US Centers for Disease Control and Prevention (CDC) and nine healthcare systems across the country.

Researchers evaluated the incidence of HZ, as determined by a diagnosis and prescription for antiviral medication within 7 days of diagnosis, and monitored RZV status over time.

The findings may quell fears that waiting too long for the second dose reduces the effectiveness of the herpes vaccine, according to Nicola Klein, MD, PhD, director of the Vaccine Study Center at Kaiser Permanente in Oakland, California, who led the study.

The long-term efficacy of the vaccine is especially important because older adults are now living much longer than in previous years, according to Alexandra Tien, MD, a family physician at Medical Associates of Rhode Island in Providence.

“People live these days into their 80s and even 90s,” Dr. Tien said. “That’s a large number of years to need protection for, so it’s really important to have a long-lasting vaccine.”

The CDC currently recommends two doses of RZV separated by 2-6 months for patients aged 50 years and older. Adults older than 19 years who are immunocompromised should receive two doses of RZV separated by 1-2 months, the agency said.

According to Dr. Klein, research does not show whether VE for RZV wanes after 4 years. But interim findings from another study following people in clinical trials found VE levels remained high after 7 years.

The risk for HZ increases with age, reaching a lifetime risk of 50% among adults aged 85 years. Complications like postherpetic neuralgia (PHN) — characterized by long-term tingling, numbness, and disabling pain at the site of the rash — can interfere with the quality of life and ability to function in older adults. The CDC estimates that up to 18% of people with shingles experience PHN, and the risk increases with age.

Just like with any other vaccine, patients sometimes have concerns about the potential side effects of RZV, said Dr. Tien. But those effects, such as muscle pain, nausea, and fever, are mild compared to shingles.

“I always tell patients, with any vaccine, immunization is one of the biggest bangs for your buck in healthcare because you’re preventing a problem,” Dr. Tien said.

This study was funded by the CDC through contracts with participating sites. Study authors reported no disclosures. Dr. Tien reported no disclosures.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity.

Sandra Fryhofer, MD, highlights updates in the 2024 Advisory Committee on Immunization Practices (ACIP) Adult Immunization Schedule.

The biggest change for 2024 is that you don’t need to wait till January 1, 2024, for these schedules go into effect. Both schedules were published and became available in November 2023 and became effective immediately. They include ACIP recommendations approved by the Centers for Disease Control and Prevention (CDC) director through October 23, 2023.

Subsequent recommendations (before publication of the 2025 schedule) will be added to the addendum, a new Step 5, Section 5 in the schedule. The addendum should make Affordable Care Act (ACA)–compliant insurance plans cover ACIP-recommended immunizations sooner.

This year’s schedule includes more vaccines with new recommendations and new color code keys for the schedule’s vaccine tables. The newest vaccine additions to the 2024 schedule include respiratory syncytial virus (RSV) vaccines, the mpox vaccine (Jynneos), a new MenACWY-MenB combo vaccine (Penbraya), and the new 2023-2024 formulation of the updated COVID vaccine (both mRNA and protein-based adjuvanted versions).

These are listed on the cover page (in alphabetical order) by name, abbreviation, and trade name. Vaccine-specific details can be found in the (Step 3) Notes section, also organized alphabetically.
 

The Tables

Step 1 is Table 1: Vaccinations by Age. Step 2 is Table 2: Vaccinations by Medical Conditions or Other Indications. The table names haven’t changed. However, their color code legends have been adjusted and refined. Also, the legends for the some of the same colors are not the same for both tables.

The order of and conditions covered in the columns on Table 2 have been reorganized.

Even for vaccines whose recommendations have not changed, the color code keys reflecting the recommendations have changed. For this reason, the 2024 version of Table 2 looks very different from the 2023 version. Also, much of the wording on overlays has been removed, which means you have to rely more heavily on the Notes section.

The color brown has been introduced on Table 2 to spotlight groups and conditions that require recurrent revaccination:

• Give Tdap in each and every pregnancy at 27-36 weeks.
• Revaccinate people living with HIV with MenACWY every 5 years.
• Revaccinate those with asplenia and/or complement deficiency with MenACWY every 5 years and MenB every 2-3 years.
• Stem cell transplant recipients need three doses of Hib.

Vaccine order is the same on both tables.

The rows for 2023-2024 formulations of COVID and flu vaccines are at the top of both tables are coded yellow, meaning everyone needs a dose of both vaccines.

Both tables have added a row for RSV vaccines and mpox vaccines.
 

Notes Section

The notes have been edited for clarity and reveal who needs what and when and include special vaccine-specific sections for special circumstances.

COVID vaccines. The COVID vaccine note embraces the updated 2023-2024 formula. Everyone aged 6 months or older needs a dose of the updated COVID vaccine. Specifics of who needs what (and when) depend on what they have already received, as well as their immune status. Detailed recommendations for both mRNA and protein-based adjuvanted versions are included in the notes.

RSV vaccines. The notes also give vital details about RSV vaccines for pregnant people and for older adults. There are two RSV vaccines. Both are preF RSV vaccines. They’re identified by trade names for clarity. Arexvy contains an adjuvant. Abrysvo does not contain an adjuvant. The RSV vaccine note explains that only Abyrsvo (the vaccine without the adjuvant) can be given to pregnant people, only at 32-36 weeks, and only to those whose baby would be born during RSV season.

ACIP recommends a dose of either vaccine for adults aged 60 or older, under shared clinical decision-making (meaning you and your patients have to discuss and decide). The notes link to additional guidance for making that decision.

Mpox vaccines. For the mpox vaccine, all adults in any age group at increased risk of getting mpox should get a two-dose series of the vaccine. The mpox vaccine notes include a list of mpox risk factors.
 

Other Features of the 2024 Adult Immunization Schedule

The schedule has useful links to helpful information:

• Vaccine information statements
• Complete ACIP recommendations
• CDC’s General Best Practice Guidelines for Immunizations.
• VAERS (CDC’s Vaccine Adverse Event Reporting System)

A new “Additional Information” section in the Notes links to:

• Travel vaccination requirements
• Best practices guidelines for vaccinating persons with immunodeficiency
• The National Vaccine Injury Compensation program (for resolving any vaccine injury claims)

The cover page has links to:

• CDC’s vaccine app
• QR code to access the schedule online.

With all these tools literally at your fingertips, there’s no reason not to know which vaccines your patients need and when. The challenge now is making it happen: getting those needed vaccines into arms.

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

This transcript has been edited for clarity.

Sandra Fryhofer, MD, highlights updates in the 2024 Advisory Committee on Immunization Practices (ACIP) Adult Immunization Schedule.

The biggest change for 2024 is that you don’t need to wait till January 1, 2024, for these schedules go into effect. Both schedules were published and became available in November 2023 and became effective immediately. They include ACIP recommendations approved by the Centers for Disease Control and Prevention (CDC) director through October 23, 2023.

Subsequent recommendations (before publication of the 2025 schedule) will be added to the addendum, a new Step 5, Section 5 in the schedule. The addendum should make Affordable Care Act (ACA)–compliant insurance plans cover ACIP-recommended immunizations sooner.

This year’s schedule includes more vaccines with new recommendations and new color code keys for the schedule’s vaccine tables. The newest vaccine additions to the 2024 schedule include respiratory syncytial virus (RSV) vaccines, the mpox vaccine (Jynneos), a new MenACWY-MenB combo vaccine (Penbraya), and the new 2023-2024 formulation of the updated COVID vaccine (both mRNA and protein-based adjuvanted versions).

These are listed on the cover page (in alphabetical order) by name, abbreviation, and trade name. Vaccine-specific details can be found in the (Step 3) Notes section, also organized alphabetically.
 

The Tables

Step 1 is Table 1: Vaccinations by Age. Step 2 is Table 2: Vaccinations by Medical Conditions or Other Indications. The table names haven’t changed. However, their color code legends have been adjusted and refined. Also, the legends for the some of the same colors are not the same for both tables.

The order of and conditions covered in the columns on Table 2 have been reorganized.

Even for vaccines whose recommendations have not changed, the color code keys reflecting the recommendations have changed. For this reason, the 2024 version of Table 2 looks very different from the 2023 version. Also, much of the wording on overlays has been removed, which means you have to rely more heavily on the Notes section.

The color brown has been introduced on Table 2 to spotlight groups and conditions that require recurrent revaccination:

• Give Tdap in each and every pregnancy at 27-36 weeks.
• Revaccinate people living with HIV with MenACWY every 5 years.
• Revaccinate those with asplenia and/or complement deficiency with MenACWY every 5 years and MenB every 2-3 years.
• Stem cell transplant recipients need three doses of Hib.

Vaccine order is the same on both tables.

The rows for 2023-2024 formulations of COVID and flu vaccines are at the top of both tables are coded yellow, meaning everyone needs a dose of both vaccines.

Both tables have added a row for RSV vaccines and mpox vaccines.
 

Notes Section

The notes have been edited for clarity and reveal who needs what and when and include special vaccine-specific sections for special circumstances.

COVID vaccines. The COVID vaccine note embraces the updated 2023-2024 formula. Everyone aged 6 months or older needs a dose of the updated COVID vaccine. Specifics of who needs what (and when) depend on what they have already received, as well as their immune status. Detailed recommendations for both mRNA and protein-based adjuvanted versions are included in the notes.

RSV vaccines. The notes also give vital details about RSV vaccines for pregnant people and for older adults. There are two RSV vaccines. Both are preF RSV vaccines. They’re identified by trade names for clarity. Arexvy contains an adjuvant. Abrysvo does not contain an adjuvant. The RSV vaccine note explains that only Abyrsvo (the vaccine without the adjuvant) can be given to pregnant people, only at 32-36 weeks, and only to those whose baby would be born during RSV season.

ACIP recommends a dose of either vaccine for adults aged 60 or older, under shared clinical decision-making (meaning you and your patients have to discuss and decide). The notes link to additional guidance for making that decision.

Mpox vaccines. For the mpox vaccine, all adults in any age group at increased risk of getting mpox should get a two-dose series of the vaccine. The mpox vaccine notes include a list of mpox risk factors.
 

Other Features of the 2024 Adult Immunization Schedule

The schedule has useful links to helpful information:

• Vaccine information statements
• Complete ACIP recommendations
• CDC’s General Best Practice Guidelines for Immunizations.
• VAERS (CDC’s Vaccine Adverse Event Reporting System)

A new “Additional Information” section in the Notes links to:

• Travel vaccination requirements
• Best practices guidelines for vaccinating persons with immunodeficiency
• The National Vaccine Injury Compensation program (for resolving any vaccine injury claims)

The cover page has links to:

• CDC’s vaccine app
• QR code to access the schedule online.

With all these tools literally at your fingertips, there’s no reason not to know which vaccines your patients need and when. The challenge now is making it happen: getting those needed vaccines into arms.

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

This transcript has been edited for clarity.

Sandra Fryhofer, MD, highlights updates in the 2024 Advisory Committee on Immunization Practices (ACIP) Adult Immunization Schedule.

The biggest change for 2024 is that you don’t need to wait till January 1, 2024, for these schedules go into effect. Both schedules were published and became available in November 2023 and became effective immediately. They include ACIP recommendations approved by the Centers for Disease Control and Prevention (CDC) director through October 23, 2023.

Subsequent recommendations (before publication of the 2025 schedule) will be added to the addendum, a new Step 5, Section 5 in the schedule. The addendum should make Affordable Care Act (ACA)–compliant insurance plans cover ACIP-recommended immunizations sooner.

This year’s schedule includes more vaccines with new recommendations and new color code keys for the schedule’s vaccine tables. The newest vaccine additions to the 2024 schedule include respiratory syncytial virus (RSV) vaccines, the mpox vaccine (Jynneos), a new MenACWY-MenB combo vaccine (Penbraya), and the new 2023-2024 formulation of the updated COVID vaccine (both mRNA and protein-based adjuvanted versions).

These are listed on the cover page (in alphabetical order) by name, abbreviation, and trade name. Vaccine-specific details can be found in the (Step 3) Notes section, also organized alphabetically.
 

The Tables

Step 1 is Table 1: Vaccinations by Age. Step 2 is Table 2: Vaccinations by Medical Conditions or Other Indications. The table names haven’t changed. However, their color code legends have been adjusted and refined. Also, the legends for the some of the same colors are not the same for both tables.

The order of and conditions covered in the columns on Table 2 have been reorganized.

Even for vaccines whose recommendations have not changed, the color code keys reflecting the recommendations have changed. For this reason, the 2024 version of Table 2 looks very different from the 2023 version. Also, much of the wording on overlays has been removed, which means you have to rely more heavily on the Notes section.

The color brown has been introduced on Table 2 to spotlight groups and conditions that require recurrent revaccination:

• Give Tdap in each and every pregnancy at 27-36 weeks.
• Revaccinate people living with HIV with MenACWY every 5 years.
• Revaccinate those with asplenia and/or complement deficiency with MenACWY every 5 years and MenB every 2-3 years.
• Stem cell transplant recipients need three doses of Hib.

Vaccine order is the same on both tables.

The rows for 2023-2024 formulations of COVID and flu vaccines are at the top of both tables are coded yellow, meaning everyone needs a dose of both vaccines.

Both tables have added a row for RSV vaccines and mpox vaccines.
 

Notes Section

The notes have been edited for clarity and reveal who needs what and when and include special vaccine-specific sections for special circumstances.

COVID vaccines. The COVID vaccine note embraces the updated 2023-2024 formula. Everyone aged 6 months or older needs a dose of the updated COVID vaccine. Specifics of who needs what (and when) depend on what they have already received, as well as their immune status. Detailed recommendations for both mRNA and protein-based adjuvanted versions are included in the notes.

RSV vaccines. The notes also give vital details about RSV vaccines for pregnant people and for older adults. There are two RSV vaccines. Both are preF RSV vaccines. They’re identified by trade names for clarity. Arexvy contains an adjuvant. Abrysvo does not contain an adjuvant. The RSV vaccine note explains that only Abyrsvo (the vaccine without the adjuvant) can be given to pregnant people, only at 32-36 weeks, and only to those whose baby would be born during RSV season.

ACIP recommends a dose of either vaccine for adults aged 60 or older, under shared clinical decision-making (meaning you and your patients have to discuss and decide). The notes link to additional guidance for making that decision.

Mpox vaccines. For the mpox vaccine, all adults in any age group at increased risk of getting mpox should get a two-dose series of the vaccine. The mpox vaccine notes include a list of mpox risk factors.
 

Other Features of the 2024 Adult Immunization Schedule

The schedule has useful links to helpful information:

• Vaccine information statements
• Complete ACIP recommendations
• CDC’s General Best Practice Guidelines for Immunizations.
• VAERS (CDC’s Vaccine Adverse Event Reporting System)

A new “Additional Information” section in the Notes links to:

• Travel vaccination requirements
• Best practices guidelines for vaccinating persons with immunodeficiency
• The National Vaccine Injury Compensation program (for resolving any vaccine injury claims)

The cover page has links to:

• CDC’s vaccine app
• QR code to access the schedule online.

With all these tools literally at your fingertips, there’s no reason not to know which vaccines your patients need and when. The challenge now is making it happen: getting those needed vaccines into arms.

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

Though many people remain on the fence about getting the latest COVID vaccine booster, new research suggests a strong argument for getting the shot this winter: It sharply reduces the risk for COVID. 

Researchers found that getting vaccinated led to a 69% reduction in long-COVID risk among adults who received three vaccines before being infected. The risk reduction was 37% for those who received two doses. Experts say the research provides a strong argument for getting the vaccine, noting that about 10% of people infected with COVID go on to have long COVID, which can be debilitating for one quarter of those with long-lasting symptoms.

The data come from a systematic literature review and meta-analysis published in October in Antimicrobial Stewardship & Epidemiology. Researchers examined 32 studies published between December 2019 and June 2023, involving 775,931 adults. Twenty-four studies, encompassing 620,221 individuals, were included in the meta-analysis. 

“The body of evidence from all these different studies converge on one single reality — that vaccines reduce the risk of long COVID, and people who keep up to date on their vaccinations also fared better than people who got it once or twice and didn’t follow up,” said Ziyad Al-Aly, MD, a clinical epidemiologist at Washington University in St Louis. 

Researchers have reported similar results for children. The National Institutes of Health RECOVER Initiative team found that vaccines are up to 42% effective in preventing long COVID in children, said Dr. Carlos Oliveira, MD, a pediatric infectious diseases specialist and Yale researcher who contributed to the study, which is in preprint. 

Vaccines also protect children from multisystem inflammatory syndrome, a condition that can happen after COVID, as well as protect against other COVID-related problems, such as missed school days, Oliveira said. “Even if the vaccine doesn’t completely stop long COVID, it’s still good for kids to get vaccinated for all these other reasons.” 

However, uptake for the latest boosters has been slow: the Centers for Disease Control and Prevention reported that by mid-November, less than 16% of people aged 18 years or older had received a shot. For children, the number was closer to 6%. A recent Kaiser Family Foundation survey found that booster rates for adults are similar to what it was 1 year ago. 

The survey results suggest that people are no longer as worried about COVID, which is why there is less concerned about keeping up with boosters. Though the current mutation of the virus is not as debilitating as its predecessors, long COVID continues to be a problem: as of January 2023, 28% of people who had contracted the virus had experienced long-COVID symptoms. And though the mechanisms are still not fully understood, and researchers have yet to agree on a definition of long COVID, they are certain about this much: The best way to avoid it is to avoid getting infected to begin with. 

The lack of a diagnostic test for long COVID and the fact that the symptoms mimic those of other diseases lead to inconsistency that can make studies hard to replicate. In the papers reviewed for the Antimicrobial Stewardship & Epidemiology study, long COVID was defined as having symptoms lasting from more than 4 weeks to more than 6 months. Alexandre Marra, MD, the lead author and a researcher at the Hospital Israelita Albert Einstein, in São Paulo, Brazil, and at the University of Iowa, said that a clear standard definition is needed to better understand the actual prevalence and evaluate vaccine effectiveness. 

Al-Aly noted that there is a logical explanation for one finding in the paper: The percentage of individuals who had COVID and reported that long-COVID symptoms declined from 19% in June 2022 to 11% in January 2023. 

Because a pandemic is a dynamic event, constantly producing different variants with different phenotypes, the prevalence of disease is naturally going to be affected. “People who got infected early in the pandemic may have a different long COVID profile and long COVID risk than people who got infected in the second or third year of the pandemic,” Al-Aly said. 

Most of the studies reported data from before the Omicron-variant era. Only eight reported data during that era. Omicron was not as lethal as previous variants, and consequently, fewer patients developed long COVID during that time. 

One of those who did is Yeng Chang, age 40 years, a family doctor who lives in Sherwood Park, Alberta, Canada. Chang developed long COVID during fall 2022 after getting the virus in June. By then, she’d been vaccinated three times, but she isn’t surprised that she got sick because each vaccine she had was developed before Omicron.

“When I had COVID I was really sick, but I was well enough to stay home,” she said. “I think if I didn’t have my immunizations, I might have been hospitalized, and I don’t know what would have happened.” 

Long COVID has left Chang with brain fog, fatigue, and a lack of physical stamina that forced her to pause her medical practice. For the past year and a half, she’s spent more time as a patient than a physician. 

Chang had her fifth COVID vaccination in the fall and recommends that others do the same. “The booster you got however many years ago was effective for the COVID of that time but there is a new COVID now. You can’t just say, ‘I had one and I’m fine forever.’” 
 

A version of this article appeared on Medscape.com.

Though many people remain on the fence about getting the latest COVID vaccine booster, new research suggests a strong argument for getting the shot this winter: It sharply reduces the risk for COVID. 

Researchers found that getting vaccinated led to a 69% reduction in long-COVID risk among adults who received three vaccines before being infected. The risk reduction was 37% for those who received two doses. Experts say the research provides a strong argument for getting the vaccine, noting that about 10% of people infected with COVID go on to have long COVID, which can be debilitating for one quarter of those with long-lasting symptoms.

The data come from a systematic literature review and meta-analysis published in October in Antimicrobial Stewardship & Epidemiology. Researchers examined 32 studies published between December 2019 and June 2023, involving 775,931 adults. Twenty-four studies, encompassing 620,221 individuals, were included in the meta-analysis. 

“The body of evidence from all these different studies converge on one single reality — that vaccines reduce the risk of long COVID, and people who keep up to date on their vaccinations also fared better than people who got it once or twice and didn’t follow up,” said Ziyad Al-Aly, MD, a clinical epidemiologist at Washington University in St Louis. 

Researchers have reported similar results for children. The National Institutes of Health RECOVER Initiative team found that vaccines are up to 42% effective in preventing long COVID in children, said Dr. Carlos Oliveira, MD, a pediatric infectious diseases specialist and Yale researcher who contributed to the study, which is in preprint. 

Vaccines also protect children from multisystem inflammatory syndrome, a condition that can happen after COVID, as well as protect against other COVID-related problems, such as missed school days, Oliveira said. “Even if the vaccine doesn’t completely stop long COVID, it’s still good for kids to get vaccinated for all these other reasons.” 

However, uptake for the latest boosters has been slow: the Centers for Disease Control and Prevention reported that by mid-November, less than 16% of people aged 18 years or older had received a shot. For children, the number was closer to 6%. A recent Kaiser Family Foundation survey found that booster rates for adults are similar to what it was 1 year ago. 

The survey results suggest that people are no longer as worried about COVID, which is why there is less concerned about keeping up with boosters. Though the current mutation of the virus is not as debilitating as its predecessors, long COVID continues to be a problem: as of January 2023, 28% of people who had contracted the virus had experienced long-COVID symptoms. And though the mechanisms are still not fully understood, and researchers have yet to agree on a definition of long COVID, they are certain about this much: The best way to avoid it is to avoid getting infected to begin with. 

The lack of a diagnostic test for long COVID and the fact that the symptoms mimic those of other diseases lead to inconsistency that can make studies hard to replicate. In the papers reviewed for the Antimicrobial Stewardship & Epidemiology study, long COVID was defined as having symptoms lasting from more than 4 weeks to more than 6 months. Alexandre Marra, MD, the lead author and a researcher at the Hospital Israelita Albert Einstein, in São Paulo, Brazil, and at the University of Iowa, said that a clear standard definition is needed to better understand the actual prevalence and evaluate vaccine effectiveness. 

Al-Aly noted that there is a logical explanation for one finding in the paper: The percentage of individuals who had COVID and reported that long-COVID symptoms declined from 19% in June 2022 to 11% in January 2023. 

Because a pandemic is a dynamic event, constantly producing different variants with different phenotypes, the prevalence of disease is naturally going to be affected. “People who got infected early in the pandemic may have a different long COVID profile and long COVID risk than people who got infected in the second or third year of the pandemic,” Al-Aly said. 

Most of the studies reported data from before the Omicron-variant era. Only eight reported data during that era. Omicron was not as lethal as previous variants, and consequently, fewer patients developed long COVID during that time. 

One of those who did is Yeng Chang, age 40 years, a family doctor who lives in Sherwood Park, Alberta, Canada. Chang developed long COVID during fall 2022 after getting the virus in June. By then, she’d been vaccinated three times, but she isn’t surprised that she got sick because each vaccine she had was developed before Omicron.

“When I had COVID I was really sick, but I was well enough to stay home,” she said. “I think if I didn’t have my immunizations, I might have been hospitalized, and I don’t know what would have happened.” 

Long COVID has left Chang with brain fog, fatigue, and a lack of physical stamina that forced her to pause her medical practice. For the past year and a half, she’s spent more time as a patient than a physician. 

Chang had her fifth COVID vaccination in the fall and recommends that others do the same. “The booster you got however many years ago was effective for the COVID of that time but there is a new COVID now. You can’t just say, ‘I had one and I’m fine forever.’” 
 

A version of this article appeared on Medscape.com.

Though many people remain on the fence about getting the latest COVID vaccine booster, new research suggests a strong argument for getting the shot this winter: It sharply reduces the risk for COVID. 

Researchers found that getting vaccinated led to a 69% reduction in long-COVID risk among adults who received three vaccines before being infected. The risk reduction was 37% for those who received two doses. Experts say the research provides a strong argument for getting the vaccine, noting that about 10% of people infected with COVID go on to have long COVID, which can be debilitating for one quarter of those with long-lasting symptoms.

The data come from a systematic literature review and meta-analysis published in October in Antimicrobial Stewardship & Epidemiology. Researchers examined 32 studies published between December 2019 and June 2023, involving 775,931 adults. Twenty-four studies, encompassing 620,221 individuals, were included in the meta-analysis. 

“The body of evidence from all these different studies converge on one single reality — that vaccines reduce the risk of long COVID, and people who keep up to date on their vaccinations also fared better than people who got it once or twice and didn’t follow up,” said Ziyad Al-Aly, MD, a clinical epidemiologist at Washington University in St Louis. 

Researchers have reported similar results for children. The National Institutes of Health RECOVER Initiative team found that vaccines are up to 42% effective in preventing long COVID in children, said Dr. Carlos Oliveira, MD, a pediatric infectious diseases specialist and Yale researcher who contributed to the study, which is in preprint. 

Vaccines also protect children from multisystem inflammatory syndrome, a condition that can happen after COVID, as well as protect against other COVID-related problems, such as missed school days, Oliveira said. “Even if the vaccine doesn’t completely stop long COVID, it’s still good for kids to get vaccinated for all these other reasons.” 

However, uptake for the latest boosters has been slow: the Centers for Disease Control and Prevention reported that by mid-November, less than 16% of people aged 18 years or older had received a shot. For children, the number was closer to 6%. A recent Kaiser Family Foundation survey found that booster rates for adults are similar to what it was 1 year ago. 

The survey results suggest that people are no longer as worried about COVID, which is why there is less concerned about keeping up with boosters. Though the current mutation of the virus is not as debilitating as its predecessors, long COVID continues to be a problem: as of January 2023, 28% of people who had contracted the virus had experienced long-COVID symptoms. And though the mechanisms are still not fully understood, and researchers have yet to agree on a definition of long COVID, they are certain about this much: The best way to avoid it is to avoid getting infected to begin with. 

The lack of a diagnostic test for long COVID and the fact that the symptoms mimic those of other diseases lead to inconsistency that can make studies hard to replicate. In the papers reviewed for the Antimicrobial Stewardship & Epidemiology study, long COVID was defined as having symptoms lasting from more than 4 weeks to more than 6 months. Alexandre Marra, MD, the lead author and a researcher at the Hospital Israelita Albert Einstein, in São Paulo, Brazil, and at the University of Iowa, said that a clear standard definition is needed to better understand the actual prevalence and evaluate vaccine effectiveness. 

Al-Aly noted that there is a logical explanation for one finding in the paper: The percentage of individuals who had COVID and reported that long-COVID symptoms declined from 19% in June 2022 to 11% in January 2023. 

Because a pandemic is a dynamic event, constantly producing different variants with different phenotypes, the prevalence of disease is naturally going to be affected. “People who got infected early in the pandemic may have a different long COVID profile and long COVID risk than people who got infected in the second or third year of the pandemic,” Al-Aly said. 

Most of the studies reported data from before the Omicron-variant era. Only eight reported data during that era. Omicron was not as lethal as previous variants, and consequently, fewer patients developed long COVID during that time. 

One of those who did is Yeng Chang, age 40 years, a family doctor who lives in Sherwood Park, Alberta, Canada. Chang developed long COVID during fall 2022 after getting the virus in June. By then, she’d been vaccinated three times, but she isn’t surprised that she got sick because each vaccine she had was developed before Omicron.

“When I had COVID I was really sick, but I was well enough to stay home,” she said. “I think if I didn’t have my immunizations, I might have been hospitalized, and I don’t know what would have happened.” 

Long COVID has left Chang with brain fog, fatigue, and a lack of physical stamina that forced her to pause her medical practice. For the past year and a half, she’s spent more time as a patient than a physician. 

Chang had her fifth COVID vaccination in the fall and recommends that others do the same. “The booster you got however many years ago was effective for the COVID of that time but there is a new COVID now. You can’t just say, ‘I had one and I’m fine forever.’” 
 

A version of this article appeared on Medscape.com.

After years of declining vaccination coverage worldwide, measles deaths increased by 43% in 2022, compared with 2021. The number of total reported cases rose by 18% over the same period, accounting for approximately 9 million cases and 136,000 deaths globally, mostly among children. This information comes from a new report by the World Health Organization (WHO), published in partnership with the US Centers for Disease Control and Prevention (CDC).

More Measles Outbreaks

The report also notes an increase in the number of countries experiencing significant measles outbreaks. There were 37 such countries in 2022, compared with 22 the previous year. The most affected continents were Africa and Asia.

“The rise in measles outbreaks and deaths is impressive but, unfortunately, not surprising, given the decline in vaccination rates in recent years,” said John Vertefeuille, PhD, director of the CDC’s Global Immunization Division.

Vertefeuille emphasized that measles cases anywhere in the world pose a risk to “countries and communities where people are undervaccinated.” In recent years, several regions have fallen short of their immunization targets.

Vaccination Trends

In 2022, there was a slight increase in measles vaccination after a decline exacerbated by the COVID-19 pandemic and its impact on global healthcare systems. However, 33 million children did not receive at least one dose of the vaccine last year: 22 million missed the first dose, and 11 million missed the second.

For communities to be considered protected against outbreaks, immunization coverage with the full vaccine cycle should be at least 95%. The global coverage rate for the first dose was 83%, and for the second, it was 74%.

Nevertheless, immunization recovery has not reached the poorest countries, where the immunization rate stands at 66%. Brazil is among the top 10 countries where more children missed the first dose in 2022. These nations account for over half of the 22 million unadministered vaccines. According to the report, half a million children did not receive the vaccine in Brazil.

Measles in Brazil

Brazil’s results highlight setbacks in vaccination efforts. In 2016, the country was certified to have eliminated measles, but after experiencing outbreaks in 2018, the certification was lost in 2019. In 2018, Brazil confirmed 9325 cases. The situation worsened in 2019 with 20,901 diagnoses. Since then, numbers have been decreasing: 8100 in 2020, 676 in 2021, and 44 in 2022.

Last year, four Brazilian states reported confirmed virus cases: Rio de Janeiro, Pará, São Paulo, and Amapá. Ministry of Health data indicated no confirmed measles cases in Brazil as of June 15, 2023.

Vaccination in Brazil

Vaccination coverage in Brazil, which once reached 95%, has sharply declined in recent years. The rate of patients receiving the full immunization scheme was 59% in 2021.

Globally, although the COVID-19 pandemic affected measles vaccination, measures like social isolation and mask use potentially contributed to reducing measles cases. The incidence of the disease decreased in 2020 and 2021 but is now rising again.

“From 2021 to 2022, reported measles cases increased by 67% worldwide, and the number of countries experiencing large or disruptive outbreaks increased by 68%,” the report stated.

Because of these data, the WHO and the CDC urge increased efforts for vaccination, along with improvements in epidemiological surveillance systems, especially in developing nations. “Children everywhere have the right to be protected by the lifesaving measles vaccine, no matter where they live,” said Kate O’Brien, MD, director of immunization, vaccines, and biologicals at the WHO.

“Measles is called the virus of inequality for a good reason. It is the disease that will find and attack those who are not protected.”
 

This article was translated from the Medscape Portuguese edition.

After years of declining vaccination coverage worldwide, measles deaths increased by 43% in 2022, compared with 2021. The number of total reported cases rose by 18% over the same period, accounting for approximately 9 million cases and 136,000 deaths globally, mostly among children. This information comes from a new report by the World Health Organization (WHO), published in partnership with the US Centers for Disease Control and Prevention (CDC).

More Measles Outbreaks

The report also notes an increase in the number of countries experiencing significant measles outbreaks. There were 37 such countries in 2022, compared with 22 the previous year. The most affected continents were Africa and Asia.

“The rise in measles outbreaks and deaths is impressive but, unfortunately, not surprising, given the decline in vaccination rates in recent years,” said John Vertefeuille, PhD, director of the CDC’s Global Immunization Division.

Vertefeuille emphasized that measles cases anywhere in the world pose a risk to “countries and communities where people are undervaccinated.” In recent years, several regions have fallen short of their immunization targets.

Vaccination Trends

In 2022, there was a slight increase in measles vaccination after a decline exacerbated by the COVID-19 pandemic and its impact on global healthcare systems. However, 33 million children did not receive at least one dose of the vaccine last year: 22 million missed the first dose, and 11 million missed the second.

For communities to be considered protected against outbreaks, immunization coverage with the full vaccine cycle should be at least 95%. The global coverage rate for the first dose was 83%, and for the second, it was 74%.

Nevertheless, immunization recovery has not reached the poorest countries, where the immunization rate stands at 66%. Brazil is among the top 10 countries where more children missed the first dose in 2022. These nations account for over half of the 22 million unadministered vaccines. According to the report, half a million children did not receive the vaccine in Brazil.

Measles in Brazil

Brazil’s results highlight setbacks in vaccination efforts. In 2016, the country was certified to have eliminated measles, but after experiencing outbreaks in 2018, the certification was lost in 2019. In 2018, Brazil confirmed 9325 cases. The situation worsened in 2019 with 20,901 diagnoses. Since then, numbers have been decreasing: 8100 in 2020, 676 in 2021, and 44 in 2022.

Last year, four Brazilian states reported confirmed virus cases: Rio de Janeiro, Pará, São Paulo, and Amapá. Ministry of Health data indicated no confirmed measles cases in Brazil as of June 15, 2023.

Vaccination in Brazil

Vaccination coverage in Brazil, which once reached 95%, has sharply declined in recent years. The rate of patients receiving the full immunization scheme was 59% in 2021.

Globally, although the COVID-19 pandemic affected measles vaccination, measures like social isolation and mask use potentially contributed to reducing measles cases. The incidence of the disease decreased in 2020 and 2021 but is now rising again.

“From 2021 to 2022, reported measles cases increased by 67% worldwide, and the number of countries experiencing large or disruptive outbreaks increased by 68%,” the report stated.

Because of these data, the WHO and the CDC urge increased efforts for vaccination, along with improvements in epidemiological surveillance systems, especially in developing nations. “Children everywhere have the right to be protected by the lifesaving measles vaccine, no matter where they live,” said Kate O’Brien, MD, director of immunization, vaccines, and biologicals at the WHO.

“Measles is called the virus of inequality for a good reason. It is the disease that will find and attack those who are not protected.”
 

This article was translated from the Medscape Portuguese edition.

After years of declining vaccination coverage worldwide, measles deaths increased by 43% in 2022, compared with 2021. The number of total reported cases rose by 18% over the same period, accounting for approximately 9 million cases and 136,000 deaths globally, mostly among children. This information comes from a new report by the World Health Organization (WHO), published in partnership with the US Centers for Disease Control and Prevention (CDC).

More Measles Outbreaks

The report also notes an increase in the number of countries experiencing significant measles outbreaks. There were 37 such countries in 2022, compared with 22 the previous year. The most affected continents were Africa and Asia.

“The rise in measles outbreaks and deaths is impressive but, unfortunately, not surprising, given the decline in vaccination rates in recent years,” said John Vertefeuille, PhD, director of the CDC’s Global Immunization Division.

Vertefeuille emphasized that measles cases anywhere in the world pose a risk to “countries and communities where people are undervaccinated.” In recent years, several regions have fallen short of their immunization targets.

Vaccination Trends

In 2022, there was a slight increase in measles vaccination after a decline exacerbated by the COVID-19 pandemic and its impact on global healthcare systems. However, 33 million children did not receive at least one dose of the vaccine last year: 22 million missed the first dose, and 11 million missed the second.

For communities to be considered protected against outbreaks, immunization coverage with the full vaccine cycle should be at least 95%. The global coverage rate for the first dose was 83%, and for the second, it was 74%.

Nevertheless, immunization recovery has not reached the poorest countries, where the immunization rate stands at 66%. Brazil is among the top 10 countries where more children missed the first dose in 2022. These nations account for over half of the 22 million unadministered vaccines. According to the report, half a million children did not receive the vaccine in Brazil.

Measles in Brazil

Brazil’s results highlight setbacks in vaccination efforts. In 2016, the country was certified to have eliminated measles, but after experiencing outbreaks in 2018, the certification was lost in 2019. In 2018, Brazil confirmed 9325 cases. The situation worsened in 2019 with 20,901 diagnoses. Since then, numbers have been decreasing: 8100 in 2020, 676 in 2021, and 44 in 2022.

Last year, four Brazilian states reported confirmed virus cases: Rio de Janeiro, Pará, São Paulo, and Amapá. Ministry of Health data indicated no confirmed measles cases in Brazil as of June 15, 2023.

Vaccination in Brazil

Vaccination coverage in Brazil, which once reached 95%, has sharply declined in recent years. The rate of patients receiving the full immunization scheme was 59% in 2021.

Globally, although the COVID-19 pandemic affected measles vaccination, measures like social isolation and mask use potentially contributed to reducing measles cases. The incidence of the disease decreased in 2020 and 2021 but is now rising again.

“From 2021 to 2022, reported measles cases increased by 67% worldwide, and the number of countries experiencing large or disruptive outbreaks increased by 68%,” the report stated.

Because of these data, the WHO and the CDC urge increased efforts for vaccination, along with improvements in epidemiological surveillance systems, especially in developing nations. “Children everywhere have the right to be protected by the lifesaving measles vaccine, no matter where they live,” said Kate O’Brien, MD, director of immunization, vaccines, and biologicals at the WHO.

“Measles is called the virus of inequality for a good reason. It is the disease that will find and attack those who are not protected.”
 

This article was translated from the Medscape Portuguese edition.

TOPLINE:

Two doses of an mRNA COVID-19 vaccine slashes COVID-19-related hospitalizations and emergency department (ED) visits in children aged 6 months to 4 years by 40%, according to a new study by the Centers for Disease Control and Prevention (CDC).

METHODOLOGY:

• SARS-CoV-2 infection can severely affect children who have certain chronic conditions.
• Researchers assessed the effectiveness of COVID-19 vaccines in preventing emergency ED visits and hospitalizations associated with the illness from July 2022 to September 2023.
• They drew data from the New Vaccine Surveillance Network, which conducts population-based, prospective surveillance for acute respiratory illness in children at seven pediatric medical centers.
• The period assessed was the first year vaccines were authorized for children aged 6 months to 4 years; during that period, several Omicron subvariants arose.
• Researchers used data from 7,434 infants and children; data included patients’ vaccine status and their test results for SARS-CoV-2.

TAKEAWAY:

• Of the 7,434 infants and children who had an acute respiratory illness and were hospitalized or visited the ED, 387 had COVID-19.
• Children who received two doses of a COVID-19 vaccine were 40% less likely to have a COVID-19-associated hospitalization or ED visit compared with unvaccinated youth.
• One dose of a COVID-19 vaccine reduced ED visits and hospitalizations by 31%.

IN PRACTICE:

“The findings in this report support the recommendation for COVID-19 vaccination for all children aged ≥6 months and highlight the importance of completion of a primary series for young children,” the researchers reported.

SOURCE:

The study was led by Heidi L. Moline, MD, of the CDC.

LIMITATIONS:

Because the number of children with antibodies and immunity against SARS-CoV-2 has grown, vaccine effectiveness rates in the study may no longer be as relevant. Children with preexisting chronic conditions may be more likely to be vaccinated and receive medical attention. The low rates of vaccination may have prevented researchers from conducting a more detailed analysis. The Pfizer-BioNTech vaccine requires three doses, whereas Moderna’s requires two doses; this may have skewed the estimated efficacy of the Pfizer-BioNTech vaccine.

DISCLOSURES:

The authors report a variety of potential conflicts of interest, which are detailed in the article.

A version of this article appeared on Medscape.com.

TOPLINE:

Two doses of an mRNA COVID-19 vaccine slashes COVID-19-related hospitalizations and emergency department (ED) visits in children aged 6 months to 4 years by 40%, according to a new study by the Centers for Disease Control and Prevention (CDC).

METHODOLOGY:

• SARS-CoV-2 infection can severely affect children who have certain chronic conditions.
• Researchers assessed the effectiveness of COVID-19 vaccines in preventing emergency ED visits and hospitalizations associated with the illness from July 2022 to September 2023.
• They drew data from the New Vaccine Surveillance Network, which conducts population-based, prospective surveillance for acute respiratory illness in children at seven pediatric medical centers.
• The period assessed was the first year vaccines were authorized for children aged 6 months to 4 years; during that period, several Omicron subvariants arose.
• Researchers used data from 7,434 infants and children; data included patients’ vaccine status and their test results for SARS-CoV-2.

TAKEAWAY:

• Of the 7,434 infants and children who had an acute respiratory illness and were hospitalized or visited the ED, 387 had COVID-19.
• Children who received two doses of a COVID-19 vaccine were 40% less likely to have a COVID-19-associated hospitalization or ED visit compared with unvaccinated youth.
• One dose of a COVID-19 vaccine reduced ED visits and hospitalizations by 31%.

IN PRACTICE:

“The findings in this report support the recommendation for COVID-19 vaccination for all children aged ≥6 months and highlight the importance of completion of a primary series for young children,” the researchers reported.

SOURCE:

The study was led by Heidi L. Moline, MD, of the CDC.

LIMITATIONS:

Because the number of children with antibodies and immunity against SARS-CoV-2 has grown, vaccine effectiveness rates in the study may no longer be as relevant. Children with preexisting chronic conditions may be more likely to be vaccinated and receive medical attention. The low rates of vaccination may have prevented researchers from conducting a more detailed analysis. The Pfizer-BioNTech vaccine requires three doses, whereas Moderna’s requires two doses; this may have skewed the estimated efficacy of the Pfizer-BioNTech vaccine.

DISCLOSURES:

The authors report a variety of potential conflicts of interest, which are detailed in the article.

A version of this article appeared on Medscape.com.

TOPLINE:

Two doses of an mRNA COVID-19 vaccine slashes COVID-19-related hospitalizations and emergency department (ED) visits in children aged 6 months to 4 years by 40%, according to a new study by the Centers for Disease Control and Prevention (CDC).

METHODOLOGY:

• SARS-CoV-2 infection can severely affect children who have certain chronic conditions.
• Researchers assessed the effectiveness of COVID-19 vaccines in preventing emergency ED visits and hospitalizations associated with the illness from July 2022 to September 2023.
• They drew data from the New Vaccine Surveillance Network, which conducts population-based, prospective surveillance for acute respiratory illness in children at seven pediatric medical centers.
• The period assessed was the first year vaccines were authorized for children aged 6 months to 4 years; during that period, several Omicron subvariants arose.
• Researchers used data from 7,434 infants and children; data included patients’ vaccine status and their test results for SARS-CoV-2.

TAKEAWAY:

• Of the 7,434 infants and children who had an acute respiratory illness and were hospitalized or visited the ED, 387 had COVID-19.
• Children who received two doses of a COVID-19 vaccine were 40% less likely to have a COVID-19-associated hospitalization or ED visit compared with unvaccinated youth.
• One dose of a COVID-19 vaccine reduced ED visits and hospitalizations by 31%.

IN PRACTICE:

“The findings in this report support the recommendation for COVID-19 vaccination for all children aged ≥6 months and highlight the importance of completion of a primary series for young children,” the researchers reported.

SOURCE:

The study was led by Heidi L. Moline, MD, of the CDC.

LIMITATIONS:

Because the number of children with antibodies and immunity against SARS-CoV-2 has grown, vaccine effectiveness rates in the study may no longer be as relevant. Children with preexisting chronic conditions may be more likely to be vaccinated and receive medical attention. The low rates of vaccination may have prevented researchers from conducting a more detailed analysis. The Pfizer-BioNTech vaccine requires three doses, whereas Moderna’s requires two doses; this may have skewed the estimated efficacy of the Pfizer-BioNTech vaccine.

DISCLOSURES:

The authors report a variety of potential conflicts of interest, which are detailed in the article.

A version of this article appeared on Medscape.com.

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

The 2024 childhood and adolescent immunization schedule has been released and includes new recommendations for respiratory syncytial virus, mpox, COVID-19, influenza, pentavalent meningococcal, 20-valent pneumococcal, and poliovirus immunizations and vaccines.

The immunization schedule for children and adolescents, summarized as an American Academy of Pediatrics policy statement in the journal Pediatrics, contains new entries for the monoclonal antibody immunization nirsevimab for respiratory syncytial virus in infants, the maternal RSV vaccine RSVpreF for pregnant people, the mpox vaccine for adolescents, the 2023-2024 COVID-19 vaccine, the 20-valent pneumococcal conjugate vaccine (PCV20), and the pentavalent meningococcal vaccine (MenACWY-TT/MenB-FHbp).

A number of immunizations have been deleted from the 2024 schedule, including the pentavalent meningococcal vaccine MenABCWY because of a discontinuation in its distribution in the United States, the bivalent mRNA COVID-19 vaccines, the diphtheria and tetanus toxoids adsorbed vaccine, the 13-valent pneumococcal conjugate vaccine (PCV13), and the pneumococcal polysaccharide vaccine (PPSV23).

The 2024 childhood and adolescent immunization schedule, also approved by the Centers for Disease Control and Prevention, American Academy of Family Physicians, American College of Obstetricians and Gynecologists, American College of Nurse-Midwives, American Academy of Physician Associates, and National Association of Pediatric Nurse Practitioners, is published each year based on current recommendations that have been approved for use by the Food and Drug Administration.

In a press release, the AAP said the CDC decided to publish the recommendations early to ensure health providers are able to administer immunizations and that they are covered by insurance. They also referenced CDC reports that found vaccination rates for kindergarteners have not bounced back since the beginning of the COVID-19 pandemic, and vaccine exemptions for the 2022-2023 school year were at an “all-time high.”
 

RSV

New to the schedule are the recently approved RSV monoclonal antibody nirsevimab for infants and the RSV vaccine RSVpreF for pregnant people. According to the CDC’s combined immunization schedule for 2024, the timing of the infant RSV immunization is heavily dependent upon when and whether a RSV vaccine was administered during pregnancy. The RSV vaccine should be routinely given between 32 weeks and 36 weeks of gestation between September and January in most of the United States with the caveat that either the maternal vaccine or the infant immunization is recommended.

Infants born between October and March in most of the United States are eligible for the RSV immunization within 14 days of birth if the pregnant parent did not receive an RSV vaccine during pregnancy, or if the parent received the vaccine in the 14 days prior to birth. For infants born between April and September RSV immunization is recommended prior to the start of RSV season.

The immunization is also recommended for infants who were hospitalized for conditions such as prematurity after birth between October and March, infants aged 8-19 months who are undergoing medical support related to prematurity, infants aged 8-19 months who are severely immunocompromised, and infants aged 9-19 months who are American Indian or Alaska Native, and infants undergoing cardiac surgery with cardiopulmonary bypass.
 

Mpox

Another new addition to the schedule is mpox, which is recommended for adolescents 18 years or older who are at risk for mpox infection, including gay, bisexual, nonbinary, transgender, or other individuals who have developed a sexually transmitted disease within the last 6 months, had more than one sexual partner, or engaged in sex in a commercial sex venue or public space with confirmed mpox transmission.

Currently, mpox vaccination during pregnancy is not recommended due to a lack of safety data on the vaccine during pregnancy; however, the CDC noted pregnant persons who have been exposed to any of the risk factors above may receive the vaccine.
 

COVID, influenza, pneumococcal vaccines

The COVID-19 vaccine recommendations were updated to reflect the 2023-2023 formulation of the vaccine. Unvaccinated children between 6 months and 4 years of age will now receive the 2023-2024 formula mRNA vaccines, which includes the two-dose Moderna vaccine and three-dose Pfizer vaccine for use in that age group. Children with a previous history of COVID-19 vaccination are eligible to receive an age-appropriate COVID-19 vaccine from the 2023-2024 formulation, and children between 5-11 years old and 12-18 years old can receive a single dose of an mRNA vaccine regardless of vaccine history; unvaccinated children 12-18 years old are also eligible to receive the two-dose Novavax vaccine.

For influenza, the schedule refers to the Advisory Committee on Immunization Practices recommendations released in August, with a note indicating that individuals with an egg allergy can receive another vaccine recommended for their age group without concerns for safety.

The pneumococcal vaccine recommendations have removed PCV13 completely, with updates on the PCV15, PCV20, and PPSV23 in sections on routine vaccination, catch-up vaccination, and special situations. The poliovirus section has also seen its catch-up section revised with a recommendation to complete a vaccination series in adolescents 18 years old known or suspected to have an incomplete series, and to count trivalent oral poliovirus vaccines and OPV administered before April 2016 toward U.S. vaccination requirements.
 

‘Timely and necessary’ changes

Michael Pichichero, MD, director of the Rochester (N.Y.) General Hospital Research Institute, said in an interview that the committee that developed the immunization schedule was thorough in its recommendations for children and adolescents.

“The additions are timely and necessary as the landscape of vaccines for children changes,” he said.

Bonnie M. Word, MD, director of the Houston Travel Medicine Clinic, said that the immunization schedule “sets the standard and provides clarification and uniformity for administration of all recommended vaccines for U.S. children.”

The U.S. immunization program “is one of the best success stories in medicine,” Dr. Wood said. She noted it is important for providers to become familiar with these vaccines and their indications “to provide advice and be able to respond to questions of parents and/or patients.

“Often patients spend more time with office staff than the physician. It is helpful to make sure everyone in the office understands the importance of and the rationale for immunizing, so families hear consistent messaging,” she said.

Dr. Pichichero and Dr. Word reported no relevant conflicts of interest.

The 2024 childhood and adolescent immunization schedule has been released and includes new recommendations for respiratory syncytial virus, mpox, COVID-19, influenza, pentavalent meningococcal, 20-valent pneumococcal, and poliovirus immunizations and vaccines.

The immunization schedule for children and adolescents, summarized as an American Academy of Pediatrics policy statement in the journal Pediatrics, contains new entries for the monoclonal antibody immunization nirsevimab for respiratory syncytial virus in infants, the maternal RSV vaccine RSVpreF for pregnant people, the mpox vaccine for adolescents, the 2023-2024 COVID-19 vaccine, the 20-valent pneumococcal conjugate vaccine (PCV20), and the pentavalent meningococcal vaccine (MenACWY-TT/MenB-FHbp).

A number of immunizations have been deleted from the 2024 schedule, including the pentavalent meningococcal vaccine MenABCWY because of a discontinuation in its distribution in the United States, the bivalent mRNA COVID-19 vaccines, the diphtheria and tetanus toxoids adsorbed vaccine, the 13-valent pneumococcal conjugate vaccine (PCV13), and the pneumococcal polysaccharide vaccine (PPSV23).

The 2024 childhood and adolescent immunization schedule, also approved by the Centers for Disease Control and Prevention, American Academy of Family Physicians, American College of Obstetricians and Gynecologists, American College of Nurse-Midwives, American Academy of Physician Associates, and National Association of Pediatric Nurse Practitioners, is published each year based on current recommendations that have been approved for use by the Food and Drug Administration.

In a press release, the AAP said the CDC decided to publish the recommendations early to ensure health providers are able to administer immunizations and that they are covered by insurance. They also referenced CDC reports that found vaccination rates for kindergarteners have not bounced back since the beginning of the COVID-19 pandemic, and vaccine exemptions for the 2022-2023 school year were at an “all-time high.”
 

RSV

New to the schedule are the recently approved RSV monoclonal antibody nirsevimab for infants and the RSV vaccine RSVpreF for pregnant people. According to the CDC’s combined immunization schedule for 2024, the timing of the infant RSV immunization is heavily dependent upon when and whether a RSV vaccine was administered during pregnancy. The RSV vaccine should be routinely given between 32 weeks and 36 weeks of gestation between September and January in most of the United States with the caveat that either the maternal vaccine or the infant immunization is recommended.

Infants born between October and March in most of the United States are eligible for the RSV immunization within 14 days of birth if the pregnant parent did not receive an RSV vaccine during pregnancy, or if the parent received the vaccine in the 14 days prior to birth. For infants born between April and September RSV immunization is recommended prior to the start of RSV season.

The immunization is also recommended for infants who were hospitalized for conditions such as prematurity after birth between October and March, infants aged 8-19 months who are undergoing medical support related to prematurity, infants aged 8-19 months who are severely immunocompromised, and infants aged 9-19 months who are American Indian or Alaska Native, and infants undergoing cardiac surgery with cardiopulmonary bypass.
 

Mpox

Another new addition to the schedule is mpox, which is recommended for adolescents 18 years or older who are at risk for mpox infection, including gay, bisexual, nonbinary, transgender, or other individuals who have developed a sexually transmitted disease within the last 6 months, had more than one sexual partner, or engaged in sex in a commercial sex venue or public space with confirmed mpox transmission.

Currently, mpox vaccination during pregnancy is not recommended due to a lack of safety data on the vaccine during pregnancy; however, the CDC noted pregnant persons who have been exposed to any of the risk factors above may receive the vaccine.
 

COVID, influenza, pneumococcal vaccines

The COVID-19 vaccine recommendations were updated to reflect the 2023-2023 formulation of the vaccine. Unvaccinated children between 6 months and 4 years of age will now receive the 2023-2024 formula mRNA vaccines, which includes the two-dose Moderna vaccine and three-dose Pfizer vaccine for use in that age group. Children with a previous history of COVID-19 vaccination are eligible to receive an age-appropriate COVID-19 vaccine from the 2023-2024 formulation, and children between 5-11 years old and 12-18 years old can receive a single dose of an mRNA vaccine regardless of vaccine history; unvaccinated children 12-18 years old are also eligible to receive the two-dose Novavax vaccine.

For influenza, the schedule refers to the Advisory Committee on Immunization Practices recommendations released in August, with a note indicating that individuals with an egg allergy can receive another vaccine recommended for their age group without concerns for safety.

The pneumococcal vaccine recommendations have removed PCV13 completely, with updates on the PCV15, PCV20, and PPSV23 in sections on routine vaccination, catch-up vaccination, and special situations. The poliovirus section has also seen its catch-up section revised with a recommendation to complete a vaccination series in adolescents 18 years old known or suspected to have an incomplete series, and to count trivalent oral poliovirus vaccines and OPV administered before April 2016 toward U.S. vaccination requirements.
 

‘Timely and necessary’ changes

Michael Pichichero, MD, director of the Rochester (N.Y.) General Hospital Research Institute, said in an interview that the committee that developed the immunization schedule was thorough in its recommendations for children and adolescents.

“The additions are timely and necessary as the landscape of vaccines for children changes,” he said.

Bonnie M. Word, MD, director of the Houston Travel Medicine Clinic, said that the immunization schedule “sets the standard and provides clarification and uniformity for administration of all recommended vaccines for U.S. children.”

The U.S. immunization program “is one of the best success stories in medicine,” Dr. Wood said. She noted it is important for providers to become familiar with these vaccines and their indications “to provide advice and be able to respond to questions of parents and/or patients.

“Often patients spend more time with office staff than the physician. It is helpful to make sure everyone in the office understands the importance of and the rationale for immunizing, so families hear consistent messaging,” she said.

Dr. Pichichero and Dr. Word reported no relevant conflicts of interest.

The 2024 childhood and adolescent immunization schedule has been released and includes new recommendations for respiratory syncytial virus, mpox, COVID-19, influenza, pentavalent meningococcal, 20-valent pneumococcal, and poliovirus immunizations and vaccines.

The immunization schedule for children and adolescents, summarized as an American Academy of Pediatrics policy statement in the journal Pediatrics, contains new entries for the monoclonal antibody immunization nirsevimab for respiratory syncytial virus in infants, the maternal RSV vaccine RSVpreF for pregnant people, the mpox vaccine for adolescents, the 2023-2024 COVID-19 vaccine, the 20-valent pneumococcal conjugate vaccine (PCV20), and the pentavalent meningococcal vaccine (MenACWY-TT/MenB-FHbp).

A number of immunizations have been deleted from the 2024 schedule, including the pentavalent meningococcal vaccine MenABCWY because of a discontinuation in its distribution in the United States, the bivalent mRNA COVID-19 vaccines, the diphtheria and tetanus toxoids adsorbed vaccine, the 13-valent pneumococcal conjugate vaccine (PCV13), and the pneumococcal polysaccharide vaccine (PPSV23).

The 2024 childhood and adolescent immunization schedule, also approved by the Centers for Disease Control and Prevention, American Academy of Family Physicians, American College of Obstetricians and Gynecologists, American College of Nurse-Midwives, American Academy of Physician Associates, and National Association of Pediatric Nurse Practitioners, is published each year based on current recommendations that have been approved for use by the Food and Drug Administration.

In a press release, the AAP said the CDC decided to publish the recommendations early to ensure health providers are able to administer immunizations and that they are covered by insurance. They also referenced CDC reports that found vaccination rates for kindergarteners have not bounced back since the beginning of the COVID-19 pandemic, and vaccine exemptions for the 2022-2023 school year were at an “all-time high.”
 

RSV

New to the schedule are the recently approved RSV monoclonal antibody nirsevimab for infants and the RSV vaccine RSVpreF for pregnant people. According to the CDC’s combined immunization schedule for 2024, the timing of the infant RSV immunization is heavily dependent upon when and whether a RSV vaccine was administered during pregnancy. The RSV vaccine should be routinely given between 32 weeks and 36 weeks of gestation between September and January in most of the United States with the caveat that either the maternal vaccine or the infant immunization is recommended.

Infants born between October and March in most of the United States are eligible for the RSV immunization within 14 days of birth if the pregnant parent did not receive an RSV vaccine during pregnancy, or if the parent received the vaccine in the 14 days prior to birth. For infants born between April and September RSV immunization is recommended prior to the start of RSV season.

The immunization is also recommended for infants who were hospitalized for conditions such as prematurity after birth between October and March, infants aged 8-19 months who are undergoing medical support related to prematurity, infants aged 8-19 months who are severely immunocompromised, and infants aged 9-19 months who are American Indian or Alaska Native, and infants undergoing cardiac surgery with cardiopulmonary bypass.
 

Mpox

Another new addition to the schedule is mpox, which is recommended for adolescents 18 years or older who are at risk for mpox infection, including gay, bisexual, nonbinary, transgender, or other individuals who have developed a sexually transmitted disease within the last 6 months, had more than one sexual partner, or engaged in sex in a commercial sex venue or public space with confirmed mpox transmission.

Currently, mpox vaccination during pregnancy is not recommended due to a lack of safety data on the vaccine during pregnancy; however, the CDC noted pregnant persons who have been exposed to any of the risk factors above may receive the vaccine.
 

COVID, influenza, pneumococcal vaccines

The COVID-19 vaccine recommendations were updated to reflect the 2023-2023 formulation of the vaccine. Unvaccinated children between 6 months and 4 years of age will now receive the 2023-2024 formula mRNA vaccines, which includes the two-dose Moderna vaccine and three-dose Pfizer vaccine for use in that age group. Children with a previous history of COVID-19 vaccination are eligible to receive an age-appropriate COVID-19 vaccine from the 2023-2024 formulation, and children between 5-11 years old and 12-18 years old can receive a single dose of an mRNA vaccine regardless of vaccine history; unvaccinated children 12-18 years old are also eligible to receive the two-dose Novavax vaccine.

For influenza, the schedule refers to the Advisory Committee on Immunization Practices recommendations released in August, with a note indicating that individuals with an egg allergy can receive another vaccine recommended for their age group without concerns for safety.

The pneumococcal vaccine recommendations have removed PCV13 completely, with updates on the PCV15, PCV20, and PPSV23 in sections on routine vaccination, catch-up vaccination, and special situations. The poliovirus section has also seen its catch-up section revised with a recommendation to complete a vaccination series in adolescents 18 years old known or suspected to have an incomplete series, and to count trivalent oral poliovirus vaccines and OPV administered before April 2016 toward U.S. vaccination requirements.
 

‘Timely and necessary’ changes

Michael Pichichero, MD, director of the Rochester (N.Y.) General Hospital Research Institute, said in an interview that the committee that developed the immunization schedule was thorough in its recommendations for children and adolescents.

“The additions are timely and necessary as the landscape of vaccines for children changes,” he said.

Bonnie M. Word, MD, director of the Houston Travel Medicine Clinic, said that the immunization schedule “sets the standard and provides clarification and uniformity for administration of all recommended vaccines for U.S. children.”

The U.S. immunization program “is one of the best success stories in medicine,” Dr. Wood said. She noted it is important for providers to become familiar with these vaccines and their indications “to provide advice and be able to respond to questions of parents and/or patients.

“Often patients spend more time with office staff than the physician. It is helpful to make sure everyone in the office understands the importance of and the rationale for immunizing, so families hear consistent messaging,” she said.

Dr. Pichichero and Dr. Word reported no relevant conflicts of interest.

The Centers for Disease Control and Prevention said 3% of children starting kindergarten in the 2022-2023 school year received an exemption from one of the four key vaccines – the highest exemption rate ever reported in the United States.

Of the 3% of children who got exemptions, 0.2% were for medical reasons and 2.8% for nonmedical reasons, the CDC report said. The overall exemption rate was 2.6% for the previous school year. 

Though more children received exemptions, the overall national vaccination rate remained steady at 93% for children entering kindergarten for the 2022-2023 school year. Before the COVID-19 pandemic, the overall rate was 95%, the CDC said.

“The bad news is that it’s gone down since the pandemic and still hasn’t rebounded,” Sean O’Leary, MD, a University of Colorado pediatric infectious diseases specialist, told The Associated Press. “The good news is that the vast majority of parents are still vaccinating their kids according to the recommended schedule.”

The CDC report did not offer a specific reason for higher vaccine exemptions. But it did note that the increase could be caused by the COVID-19 pandemic and COVID vaccine hesitancy. 

“There is a rising distrust in the health care system,” Amna Husain, MD, a pediatrician in private practice in North Carolina and a spokesperson for the American Academy of Pediatrics, told NBC News. Vaccine exemptions “have unfortunately trended upward with it.”

Exemption rates varied across the nation. The CDC said 40 states reported a rise in exemptions and that the exemption rate went over 5% in 10 states: Alaska, Arizona, Hawaii, Idaho, Michigan, Nevada, North Dakota, Oregon, Utah, and Wisconsin. Idaho had the highest exemption rate in 2022 with 12%.

While requirements vary from state to state, most states require students entering kindergarten to receive four vaccines: MMR, DTaP, polio, and chickenpox.

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

The Centers for Disease Control and Prevention said 3% of children starting kindergarten in the 2022-2023 school year received an exemption from one of the four key vaccines – the highest exemption rate ever reported in the United States.

Of the 3% of children who got exemptions, 0.2% were for medical reasons and 2.8% for nonmedical reasons, the CDC report said. The overall exemption rate was 2.6% for the previous school year. 

Though more children received exemptions, the overall national vaccination rate remained steady at 93% for children entering kindergarten for the 2022-2023 school year. Before the COVID-19 pandemic, the overall rate was 95%, the CDC said.

“The bad news is that it’s gone down since the pandemic and still hasn’t rebounded,” Sean O’Leary, MD, a University of Colorado pediatric infectious diseases specialist, told The Associated Press. “The good news is that the vast majority of parents are still vaccinating their kids according to the recommended schedule.”

The CDC report did not offer a specific reason for higher vaccine exemptions. But it did note that the increase could be caused by the COVID-19 pandemic and COVID vaccine hesitancy. 

“There is a rising distrust in the health care system,” Amna Husain, MD, a pediatrician in private practice in North Carolina and a spokesperson for the American Academy of Pediatrics, told NBC News. Vaccine exemptions “have unfortunately trended upward with it.”

Exemption rates varied across the nation. The CDC said 40 states reported a rise in exemptions and that the exemption rate went over 5% in 10 states: Alaska, Arizona, Hawaii, Idaho, Michigan, Nevada, North Dakota, Oregon, Utah, and Wisconsin. Idaho had the highest exemption rate in 2022 with 12%.

While requirements vary from state to state, most states require students entering kindergarten to receive four vaccines: MMR, DTaP, polio, and chickenpox.

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

The Centers for Disease Control and Prevention said 3% of children starting kindergarten in the 2022-2023 school year received an exemption from one of the four key vaccines – the highest exemption rate ever reported in the United States.

Of the 3% of children who got exemptions, 0.2% were for medical reasons and 2.8% for nonmedical reasons, the CDC report said. The overall exemption rate was 2.6% for the previous school year. 

Though more children received exemptions, the overall national vaccination rate remained steady at 93% for children entering kindergarten for the 2022-2023 school year. Before the COVID-19 pandemic, the overall rate was 95%, the CDC said.

“The bad news is that it’s gone down since the pandemic and still hasn’t rebounded,” Sean O’Leary, MD, a University of Colorado pediatric infectious diseases specialist, told The Associated Press. “The good news is that the vast majority of parents are still vaccinating their kids according to the recommended schedule.”

The CDC report did not offer a specific reason for higher vaccine exemptions. But it did note that the increase could be caused by the COVID-19 pandemic and COVID vaccine hesitancy. 

“There is a rising distrust in the health care system,” Amna Husain, MD, a pediatrician in private practice in North Carolina and a spokesperson for the American Academy of Pediatrics, told NBC News. Vaccine exemptions “have unfortunately trended upward with it.”

Exemption rates varied across the nation. The CDC said 40 states reported a rise in exemptions and that the exemption rate went over 5% in 10 states: Alaska, Arizona, Hawaii, Idaho, Michigan, Nevada, North Dakota, Oregon, Utah, and Wisconsin. Idaho had the highest exemption rate in 2022 with 12%.

While requirements vary from state to state, most states require students entering kindergarten to receive four vaccines: MMR, DTaP, polio, and chickenpox.

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

In the past year, there has been significant progress in the availability of interventions to prevent respiratory syncytial virus (RSV) and its complications. Four products have been approved by the US Food and Drug Administration (FDA) and recommended by the Centers for Disease Control and Prevention’s (CDC) Advisory Committee on Immunization Practices (ACIP). They include 2 vaccines for adults ages 60 years and older, a monoclonal antibody for infants and high-risk children, and a maternal vaccine to prevent RSV infection in newborns.

RSV in adults

While there is some uncertainty about the total burden of RSV in adults in the United States, the CDC estimates that each year it causes 0.9 to 1.4 million medical encounters, 60,000 to 160,000 hospitalizations, and 6000 to 10,000 deaths.¹ The rate of RSV-caused hospitalization increases with age,² and the infection is more severe in those with certain chronic medical conditions (TABLE 1¹). The FIGURE² demonstrates the outcomes of adults who are hospitalized for RSV. Adults older than 65 years have a 5% mortality rate if hospitalized for RSV infection.²

Vaccine options for adults

Two vaccines were recently approved for the prevention of RSV-associated lower respiratory tract disease (LRTD) in those ages 60 years and older: RSVPreF3 (Arexvy, GSK), which is an adjuvanted recombinant F protein vaccine, and RSVpreF (Abrysvo, Pfizer), which is a recombinant stabilized vaccine. Both require only a single dose (0.5 mL IM), which provides protection for 2 years.

The efficacy of the GSK vaccine in preventing laboratory-confirmed, RSV-­associated LRTD was 82.6% during the first RSV season and 56.1% during the second season. The efficacy of the Pfizer vaccine in preventing symptomatic, laboratory-confirmed LRTD was 88.9% during the first RSV season and 78.6% during the second season.¹ However, the trials leading to licensure of both vaccines were underpowered to show efficacy in the oldest adults and those who are frail or to show efficacy against RSV-caused hospitalization.

Safety of the adult RSV vaccines. The safety trials for both vaccines had a total of 38,177 participants. There were a total of 6 neurologic inflammatory conditions that developed within 42 days of vaccination, including 2 cases of suspected Guillain-Barré syndrome (GBS), 2 cases of possible acute disseminated encephalomyelitis, and 1 case each of chronic inflammatory demyelinating polyneuropathy and undifferentiated motor-­sensory axonal polyneuropathy.¹ That is a rate of 1 case of a neurologic inflammatory condition for every 6363 people vaccinated. Since the trials were not powered to determine whether the small number of cases were due to chance, postmarketing surveillance will be needed to clarify the true risk for GBS or other neurologic inflammatory events from RSV vaccination.

The lack of efficacy data for the most vulnerable older adults and the lingering questions about safety prompted the ACIP to recommend that adults ages 60 years and older may receive a single dose of RSV vaccine, using shared clinical decision-­making—which is different from a routine or risk-based vaccine recommendation. For RSV vaccination, the decision to vaccinate should be based on a risk/benefit discussion between the clinician and the patient. Those most likely to benefit from the vaccine are listed in ­TABLE 1.¹

While data on coadministration of RSV vaccines with other adult vaccines are sparse, the ACIP states that co-administration with other vaccines is acceptable.¹ It is not known yet whether boosters will be needed after 2 years.

Continue to: RSV in infants and children

RSV in infants and children

RSV is the most common cause of hospitalization among infants and children in the United States. The CDC estimates that each year in children younger than 5 years, RSV is responsible for 1.5 million outpatient clinic visits, 520,000 emergency department visits, 58,000 to 80,000 hospitalizations, and 100 to 200 deaths.³ The risk for hospitalization from RSV is highest in the second and third months of life and decreases with increasing age.³

There are racial disparities in RSV severity: Intensive care unit admission rates are 1.2 to 1.6 times higher among non-Hispanic Black infants younger than 6 months than among non-Hispanic White infants, and hospitalization rates are up to 5 times higher in American Indian and Alaska Native populations.³

The months of highest RSV transmission in most locations are December through February, but this can vary. For practical purposes, RSV season runs from October through March.

Prevention in infants and children

The monoclonal antibody nirsevimab is now available for use in infants younger than 8 months born during or entering their first RSV season and children ages 8 to 19 months who are at increased risk for severe RSV disease and entering their second RSV season. Details regarding the use of this product were described in a recent Practice Alert Brief.⁴

Early studies on nirsevimab demonstrated 79% effectiveness in preventing ­medical-attended LRTD, 80.6% effectiveness in preventing hospitalization, and 90% effectiveness in preventing ICU admission. The number needed to immunize with nirsevimab to prevent an outpatient visit is estimated to be 17; to prevent an ED visit, 48; and to prevent an inpatient admission, 128. Due to the low RSV death rate, the studies were not able to demonstrate reduced mortality.⁵

Continue to: RSV vaccine in pregnancy

In August, the FDA approved Pfizer’s RSVpreF vaccine for use during pregnancy—as a single dose given at 32 to 36 weeks’ ­gestation—for the prevention of RSV LRTD in infants in the first 6 months of life. In the clinical trials, the vaccine was given at 24 to 36 weeks’ gestation. However, there was a statistically nonsignificant increase in preterm births in the RSVpreF group compared to the placebo group.⁶ While there were insufficient data to prove or rule out a causal relationship, the FDA advisory committee was more comfortable approving the vaccine for use only later in pregnancy, to avoid the possibility of very early preterm births after vaccination. The ACIP agreed.

From time of maternal vaccination, at least 14 days are needed to develop and transfer maternal antibodies across the placenta to protect the infant. Therefore, infants born less than 14 days after maternal vaccination should be considered unprotected.

Both maternal vaccination with RSVpreF and infant injection with nirsevimab are now options to protect newborns and infants from RSV. However, use of both products is not needed, since combined they do not offer significant added protection compared to either product alone (exceptions to be discussed shortly).⁶ When the estimated due date will occur in the RSV season, maternity clinicians should provide information on both products and assist the mother in deciding whether to be vaccinated or rely on administration of nirsevimab to the infant after birth. The benefits and risks of these 2 options are listed in TABLE 2.⁶

There are some rare situations in which use of both products is recommended, and they include⁶:

• When the baby is born less than 14 days from the time of maternal ­vaccination
• When the mother has a condition that could produce an inadequate response to the vaccine
• When the infant has had cardiopulmonary bypass, which would lead to loss of maternal antibodies
• When the infant has severe disease placing them at increased risk for ­severe RSV.

Conclusion

All of these new RSV preventive products should soon be widely available and covered with no out-of-pocket expense by commercial and government payers. The exception might be nirsevimab—because of the time needed to produce it, it might not be universally available in the 2023-2024 season.

In the past year, there has been significant progress in the availability of interventions to prevent respiratory syncytial virus (RSV) and its complications. Four products have been approved by the US Food and Drug Administration (FDA) and recommended by the Centers for Disease Control and Prevention’s (CDC) Advisory Committee on Immunization Practices (ACIP). They include 2 vaccines for adults ages 60 years and older, a monoclonal antibody for infants and high-risk children, and a maternal vaccine to prevent RSV infection in newborns.

RSV in adults

While there is some uncertainty about the total burden of RSV in adults in the United States, the CDC estimates that each year it causes 0.9 to 1.4 million medical encounters, 60,000 to 160,000 hospitalizations, and 6000 to 10,000 deaths.¹ The rate of RSV-caused hospitalization increases with age,² and the infection is more severe in those with certain chronic medical conditions (TABLE 1¹). The FIGURE² demonstrates the outcomes of adults who are hospitalized for RSV. Adults older than 65 years have a 5% mortality rate if hospitalized for RSV infection.²

Vaccine options for adults

Two vaccines were recently approved for the prevention of RSV-associated lower respiratory tract disease (LRTD) in those ages 60 years and older: RSVPreF3 (Arexvy, GSK), which is an adjuvanted recombinant F protein vaccine, and RSVpreF (Abrysvo, Pfizer), which is a recombinant stabilized vaccine. Both require only a single dose (0.5 mL IM), which provides protection for 2 years.

The efficacy of the GSK vaccine in preventing laboratory-confirmed, RSV-­associated LRTD was 82.6% during the first RSV season and 56.1% during the second season. The efficacy of the Pfizer vaccine in preventing symptomatic, laboratory-confirmed LRTD was 88.9% during the first RSV season and 78.6% during the second season.¹ However, the trials leading to licensure of both vaccines were underpowered to show efficacy in the oldest adults and those who are frail or to show efficacy against RSV-caused hospitalization.

Safety of the adult RSV vaccines. The safety trials for both vaccines had a total of 38,177 participants. There were a total of 6 neurologic inflammatory conditions that developed within 42 days of vaccination, including 2 cases of suspected Guillain-Barré syndrome (GBS), 2 cases of possible acute disseminated encephalomyelitis, and 1 case each of chronic inflammatory demyelinating polyneuropathy and undifferentiated motor-­sensory axonal polyneuropathy.¹ That is a rate of 1 case of a neurologic inflammatory condition for every 6363 people vaccinated. Since the trials were not powered to determine whether the small number of cases were due to chance, postmarketing surveillance will be needed to clarify the true risk for GBS or other neurologic inflammatory events from RSV vaccination.

The lack of efficacy data for the most vulnerable older adults and the lingering questions about safety prompted the ACIP to recommend that adults ages 60 years and older may receive a single dose of RSV vaccine, using shared clinical decision-­making—which is different from a routine or risk-based vaccine recommendation. For RSV vaccination, the decision to vaccinate should be based on a risk/benefit discussion between the clinician and the patient. Those most likely to benefit from the vaccine are listed in ­TABLE 1.¹

While data on coadministration of RSV vaccines with other adult vaccines are sparse, the ACIP states that co-administration with other vaccines is acceptable.¹ It is not known yet whether boosters will be needed after 2 years.

Continue to: RSV in infants and children

RSV in infants and children

RSV is the most common cause of hospitalization among infants and children in the United States. The CDC estimates that each year in children younger than 5 years, RSV is responsible for 1.5 million outpatient clinic visits, 520,000 emergency department visits, 58,000 to 80,000 hospitalizations, and 100 to 200 deaths.³ The risk for hospitalization from RSV is highest in the second and third months of life and decreases with increasing age.³

There are racial disparities in RSV severity: Intensive care unit admission rates are 1.2 to 1.6 times higher among non-Hispanic Black infants younger than 6 months than among non-Hispanic White infants, and hospitalization rates are up to 5 times higher in American Indian and Alaska Native populations.³

The months of highest RSV transmission in most locations are December through February, but this can vary. For practical purposes, RSV season runs from October through March.

Prevention in infants and children

The monoclonal antibody nirsevimab is now available for use in infants younger than 8 months born during or entering their first RSV season and children ages 8 to 19 months who are at increased risk for severe RSV disease and entering their second RSV season. Details regarding the use of this product were described in a recent Practice Alert Brief.⁴

Early studies on nirsevimab demonstrated 79% effectiveness in preventing ­medical-attended LRTD, 80.6% effectiveness in preventing hospitalization, and 90% effectiveness in preventing ICU admission. The number needed to immunize with nirsevimab to prevent an outpatient visit is estimated to be 17; to prevent an ED visit, 48; and to prevent an inpatient admission, 128. Due to the low RSV death rate, the studies were not able to demonstrate reduced mortality.⁵

Continue to: RSV vaccine in pregnancy

In August, the FDA approved Pfizer’s RSVpreF vaccine for use during pregnancy—as a single dose given at 32 to 36 weeks’ ­gestation—for the prevention of RSV LRTD in infants in the first 6 months of life. In the clinical trials, the vaccine was given at 24 to 36 weeks’ gestation. However, there was a statistically nonsignificant increase in preterm births in the RSVpreF group compared to the placebo group.⁶ While there were insufficient data to prove or rule out a causal relationship, the FDA advisory committee was more comfortable approving the vaccine for use only later in pregnancy, to avoid the possibility of very early preterm births after vaccination. The ACIP agreed.

From time of maternal vaccination, at least 14 days are needed to develop and transfer maternal antibodies across the placenta to protect the infant. Therefore, infants born less than 14 days after maternal vaccination should be considered unprotected.

Both maternal vaccination with RSVpreF and infant injection with nirsevimab are now options to protect newborns and infants from RSV. However, use of both products is not needed, since combined they do not offer significant added protection compared to either product alone (exceptions to be discussed shortly).⁶ When the estimated due date will occur in the RSV season, maternity clinicians should provide information on both products and assist the mother in deciding whether to be vaccinated or rely on administration of nirsevimab to the infant after birth. The benefits and risks of these 2 options are listed in TABLE 2.⁶

There are some rare situations in which use of both products is recommended, and they include⁶:

• When the baby is born less than 14 days from the time of maternal ­vaccination
• When the mother has a condition that could produce an inadequate response to the vaccine
• When the infant has had cardiopulmonary bypass, which would lead to loss of maternal antibodies
• When the infant has severe disease placing them at increased risk for ­severe RSV.

Conclusion

All of these new RSV preventive products should soon be widely available and covered with no out-of-pocket expense by commercial and government payers. The exception might be nirsevimab—because of the time needed to produce it, it might not be universally available in the 2023-2024 season.

In the past year, there has been significant progress in the availability of interventions to prevent respiratory syncytial virus (RSV) and its complications. Four products have been approved by the US Food and Drug Administration (FDA) and recommended by the Centers for Disease Control and Prevention’s (CDC) Advisory Committee on Immunization Practices (ACIP). They include 2 vaccines for adults ages 60 years and older, a monoclonal antibody for infants and high-risk children, and a maternal vaccine to prevent RSV infection in newborns.

RSV in adults

While there is some uncertainty about the total burden of RSV in adults in the United States, the CDC estimates that each year it causes 0.9 to 1.4 million medical encounters, 60,000 to 160,000 hospitalizations, and 6000 to 10,000 deaths.¹ The rate of RSV-caused hospitalization increases with age,² and the infection is more severe in those with certain chronic medical conditions (TABLE 1¹). The FIGURE² demonstrates the outcomes of adults who are hospitalized for RSV. Adults older than 65 years have a 5% mortality rate if hospitalized for RSV infection.²

Vaccine options for adults

Two vaccines were recently approved for the prevention of RSV-associated lower respiratory tract disease (LRTD) in those ages 60 years and older: RSVPreF3 (Arexvy, GSK), which is an adjuvanted recombinant F protein vaccine, and RSVpreF (Abrysvo, Pfizer), which is a recombinant stabilized vaccine. Both require only a single dose (0.5 mL IM), which provides protection for 2 years.

The efficacy of the GSK vaccine in preventing laboratory-confirmed, RSV-­associated LRTD was 82.6% during the first RSV season and 56.1% during the second season. The efficacy of the Pfizer vaccine in preventing symptomatic, laboratory-confirmed LRTD was 88.9% during the first RSV season and 78.6% during the second season.¹ However, the trials leading to licensure of both vaccines were underpowered to show efficacy in the oldest adults and those who are frail or to show efficacy against RSV-caused hospitalization.

Safety of the adult RSV vaccines. The safety trials for both vaccines had a total of 38,177 participants. There were a total of 6 neurologic inflammatory conditions that developed within 42 days of vaccination, including 2 cases of suspected Guillain-Barré syndrome (GBS), 2 cases of possible acute disseminated encephalomyelitis, and 1 case each of chronic inflammatory demyelinating polyneuropathy and undifferentiated motor-­sensory axonal polyneuropathy.¹ That is a rate of 1 case of a neurologic inflammatory condition for every 6363 people vaccinated. Since the trials were not powered to determine whether the small number of cases were due to chance, postmarketing surveillance will be needed to clarify the true risk for GBS or other neurologic inflammatory events from RSV vaccination.

The lack of efficacy data for the most vulnerable older adults and the lingering questions about safety prompted the ACIP to recommend that adults ages 60 years and older may receive a single dose of RSV vaccine, using shared clinical decision-­making—which is different from a routine or risk-based vaccine recommendation. For RSV vaccination, the decision to vaccinate should be based on a risk/benefit discussion between the clinician and the patient. Those most likely to benefit from the vaccine are listed in ­TABLE 1.¹

While data on coadministration of RSV vaccines with other adult vaccines are sparse, the ACIP states that co-administration with other vaccines is acceptable.¹ It is not known yet whether boosters will be needed after 2 years.

Continue to: RSV in infants and children

RSV in infants and children

RSV is the most common cause of hospitalization among infants and children in the United States. The CDC estimates that each year in children younger than 5 years, RSV is responsible for 1.5 million outpatient clinic visits, 520,000 emergency department visits, 58,000 to 80,000 hospitalizations, and 100 to 200 deaths.³ The risk for hospitalization from RSV is highest in the second and third months of life and decreases with increasing age.³

There are racial disparities in RSV severity: Intensive care unit admission rates are 1.2 to 1.6 times higher among non-Hispanic Black infants younger than 6 months than among non-Hispanic White infants, and hospitalization rates are up to 5 times higher in American Indian and Alaska Native populations.³

The months of highest RSV transmission in most locations are December through February, but this can vary. For practical purposes, RSV season runs from October through March.

Prevention in infants and children

The monoclonal antibody nirsevimab is now available for use in infants younger than 8 months born during or entering their first RSV season and children ages 8 to 19 months who are at increased risk for severe RSV disease and entering their second RSV season. Details regarding the use of this product were described in a recent Practice Alert Brief.⁴

Early studies on nirsevimab demonstrated 79% effectiveness in preventing ­medical-attended LRTD, 80.6% effectiveness in preventing hospitalization, and 90% effectiveness in preventing ICU admission. The number needed to immunize with nirsevimab to prevent an outpatient visit is estimated to be 17; to prevent an ED visit, 48; and to prevent an inpatient admission, 128. Due to the low RSV death rate, the studies were not able to demonstrate reduced mortality.⁵

Continue to: RSV vaccine in pregnancy

In August, the FDA approved Pfizer’s RSVpreF vaccine for use during pregnancy—as a single dose given at 32 to 36 weeks’ ­gestation—for the prevention of RSV LRTD in infants in the first 6 months of life. In the clinical trials, the vaccine was given at 24 to 36 weeks’ gestation. However, there was a statistically nonsignificant increase in preterm births in the RSVpreF group compared to the placebo group.⁶ While there were insufficient data to prove or rule out a causal relationship, the FDA advisory committee was more comfortable approving the vaccine for use only later in pregnancy, to avoid the possibility of very early preterm births after vaccination. The ACIP agreed.

From time of maternal vaccination, at least 14 days are needed to develop and transfer maternal antibodies across the placenta to protect the infant. Therefore, infants born less than 14 days after maternal vaccination should be considered unprotected.

Both maternal vaccination with RSVpreF and infant injection with nirsevimab are now options to protect newborns and infants from RSV. However, use of both products is not needed, since combined they do not offer significant added protection compared to either product alone (exceptions to be discussed shortly).⁶ When the estimated due date will occur in the RSV season, maternity clinicians should provide information on both products and assist the mother in deciding whether to be vaccinated or rely on administration of nirsevimab to the infant after birth. The benefits and risks of these 2 options are listed in TABLE 2.⁶

There are some rare situations in which use of both products is recommended, and they include⁶:

• When the baby is born less than 14 days from the time of maternal ­vaccination
• When the mother has a condition that could produce an inadequate response to the vaccine
• When the infant has had cardiopulmonary bypass, which would lead to loss of maternal antibodies
• When the infant has severe disease placing them at increased risk for ­severe RSV.

Conclusion

All of these new RSV preventive products should soon be widely available and covered with no out-of-pocket expense by commercial and government payers. The exception might be nirsevimab—because of the time needed to produce it, it might not be universally available in the 2023-2024 season.