No Immunological Interference or Safety Concerns When Adjuvanted Recombinant Zoster Vaccine Is Coadministered With a Coronavirus Disease 2019 mRNA-1273 Booster Vaccine in Adults Aged 50 Years and Older: A Randomized Trial.

BACKGROUND: There is growing consensus that coronavirus disease 2019 booster vaccines may be coadministered with other age-appropriate vaccines. Adding to the limited available data supporting coadministration, especially with adjuvanted vaccines, could enhance vaccine coverage in adults. METHODS: In this phase 3, randomized, open-label study, eligible adults aged ≥50 years were randomly assigned (1:1) to receive mRNA-1273 (50 µg) booster vaccination and a first dose of recombinant zoster vaccine (RZV1) 2 weeks apart (Seq group) or concomitantly (Coad group). The second RZV dose (RZV2) was administered 2 months post-RZV1 in both groups. Primary objectives were noninferiority of anti-glycoprotein E (gE) and anti-spike protein antibody responses in the Coad group compared to the Seq group. Safety and further immunogenicity assessments were secondary objectives. RESULTS: In total, 273 participants were randomized to the Seq group and 272 to the Coad group. Protocol-specified noninferiority criteria were met. The adjusted geometric mean concentration ratio (Seq/Coad) was 1.01 (95% confidence interval [CI], .89-1.13) for anti-gE antibodies 1 month post-RZV2, and 1.09 (95% CI, .90-1.32) for anti-spike antibodies 1 month post-mRNA-1273 booster. No clinically relevant differences were observed in overall frequency, intensity, or duration of adverse events between the 2 study groups. Most solicited adverse events were mild/moderate in intensity, each with median duration ≤2.5 days. Administration site pain and myalgia were the most frequently reported in both groups. CONCLUSIONS: Coadministration of mRNA-1273 booster vaccine with RZV in adults aged ≥50 years was immunologically noninferior to sequential administration and had a safety and reactogenicity profile consistent with both vaccines administered sequentially. Clinical Trials Registration. NCT05047770.

Long-term Protection Against Herpes Zoster by the Adjuvanted Recombinant Zoster Vaccine: Interim Efficacy, Immunogenicity, and Safety Results up to 10 Years After Initial Vaccination.

Approximately 10 years after vaccination with the recombinant zoster vaccine (RZV), an interim analysis of this follow-up study of the ZOE-50/70 trials demonstrated that efficacy against herpes zoster remained high. Moreover, the safety profile remained clinically acceptable, suggesting that the clinical benefit of the RZV in ≥50-year-olds is sustained up to 10 years.

The Adjuvanted Recombinant Zoster Vaccine Confers Long-Term Protection Against Herpes Zoster: Interim Results of an Extension Study of the Pivotal Phase 3 Clinical Trials ZOE-50 and ZOE-70.

BACKGROUND: This ongoing follow-up study evaluated the persistence of efficacy and immune responses for 6 additional years in adults vaccinated with the glycoprotein E (gE)-based adjuvanted recombinant zoster vaccine (RZV) at age ≥50 years in 2 pivotal efficacy trials (ZOE-50 and ZOE-70). The present interim analysis was performed after ≥2 additional years of follow-up (between 5.1 and 7.1 years [mean] post-vaccination) and includes partial data for year (Y) 8 post-vaccination. METHODS: Annual assessments were performed for efficacy against herpes zoster (HZ) from Y6 post-vaccination and for anti-gE antibody concentrations and gE-specific CD4[2+] T-cell (expressing ≥2 of 4 assessed activation markers) frequencies from Y5 post-vaccination. RESULTS: Of 7413 participants enrolled for the long-term efficacy assessment, 7277 (mean age at vaccination, 67.2 years), 813, and 108 were included in the cohorts evaluating efficacy, humoral immune responses, and cell-mediated immune responses, respectively. Efficacy of RZV against HZ through this interim analysis was 84.0% (95% confidence interval [CI], 75.9-89.8) from the start of this follow-up study and 90.9% (95% CI, 88.2-93.2) from vaccination in ZOE-50/70. Annual vaccine efficacy estimates were >84% for each year since vaccination and remained stable through this interim analysis. Anti-gE antibody geometric mean concentrations and median frequencies of gE-specific CD4[2+] T cells reached a plateau at approximately 6-fold above pre-vaccination levels. CONCLUSIONS: Efficacy against HZ and immune responses to RZV remained high, suggesting that the clinical benefit of RZV in older adults is sustained for at least 7 years post-vaccination. Clinical Trials Registration. NCT02723773.

An Analysis of Spontaneously Reported Data of Vesicular and Bullous Cutaneous Eruptions Occurring Following Vaccination with the Adjuvanted Recombinant Zoster Vaccine.

INTRODUCTION: With the approval of the adjuvanted recombinant zoster vaccine (RZV; Shingrix, GSK) in October 2017, GSK established enhanced safety surveillance measures to allow prompt identification of potential safety signals not observed during clinical development. In Germany, cases of vesicular and bullous cutaneous eruptions following RZV vaccination were reported. OBJECTIVE: Our objective was to search and analyse 2.5 years of worldwide spontaneously reported post-marketing data for vesicular and bullous cutaneous eruptions, represented by adverse events suggestive of (1) herpes zoster (HZ) and (2) non-HZ vesicular and bullous cutaneous eruptions, that occurred following RZV vaccination. METHODS: We conducted a descriptive analysis of all identified reports of HZ and non-HZ vesicular and bullous cutaneous eruptions following RZV vaccination and an observed versus expected (O/E) analysis of reports of HZ that met criteria of varicella zoster virus (VZV) reactivations following RZV vaccination (i.e., time to onset [TTO] of the event < 30 days or missing after any dose). RESULTS: Until the data lock point, 32,597,779 RZV doses had been distributed globally. There were 2423 reports of HZ (including complications) identified, of which 645 met the criteria of possible vaccination failure (i.e., TTO of the event ≥ 30 days or missing following a complete RZV vaccination schedule). The O/E analysis of 1928 reports assessed as possible VZV reactivations indicated that the observed number of cases was lower than that expected in the general population. Additionally, 810 reports of non-HZ vesicular and bullous cutaneous eruptions were identified, including injection site rashes attributed to the vaccine's reactogenicity. CONCLUSION: This review of spontaneously reported post-marketing data did not raise safety concerns regarding the occurrence of vesicular and bullous cutaneous eruptions following vaccination with RZV.

Shingles is a disease caused by reactivation of the chickenpox virus. It mostly affects adults aged 50 years and older and patients of all ages who have an impaired immune system. Diagnosis of shingles is often based only on the presence of symptoms such as a typical rash and pain. However, rashes can have various other causes (e.g., allergies, autoimmune diseases, and infections). Consequently, rashes with other causes may be misdiagnosed as shingles. Adults at increased risk of shingles and/or aged 50 years and older may be vaccinated with Shingrix (GSK, Belgium) to protect them from shingles and its complications. Since Shingrix became available in Germany, blister-like skin rashes have been reported that occurred shortly after vaccination. We searched the GSK safety database for reports of blister-like skin rashes that occurred following vaccination with Shingrix and that were spontaneously reported from countries where Shingrix was first marketed. To analyse these reports of rashes, we described the reports that we retrieved, we performed a statistical analysis to quantify whether the number of events assessed as reactivations of the chickenpox virus following Shingrix vaccination was higher than the number of reactivations that would be expected in the general population, and we described possible explanations for the observed rashes and underlying disease mechanisms. Our analyses did not raise safety concerns related to the onset of these rashes after vaccination with Shingrix. This paper raises awareness about the varying causes of rashes since a shingles-like rash that onsets shortly after vaccination with Shingrix is not necessarily caused by vaccination. In conclusion, this analysis shows that caution is needed when evaluating rashes in older adults and that all potential contributing factors (e.g., pre-existing diseases, medication, vaccination) should be considered.