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Office of Innovative Medicine, Organization for Research Strategy and Development, Okayama University, Okayama, JapanLaboratory for Cell Polarity and Organogenesis, Max Planck Institute for Heart and Lung Research, Bad Nauheim 61231, Germany
Department of General Thoracic Surgery and Breast and Endocrinological Surgery, Okayama University Graduate School of Medicine, Dentistry, and Pharmaceutical Sciences, Okayama, Japan
Department of General Thoracic Surgery and Breast and Endocrinological Surgery, Okayama University Graduate School of Medicine, Dentistry, and Pharmaceutical Sciences, Okayama, Japan
Office of Innovative Medicine, Organization for Research Strategy and Development, Okayama University, Okayama, JapanLaboratory for Cell Polarity and Organogenesis, Max Planck Institute for Heart and Lung Research, Bad Nauheim 61231, Germany
indicating a requirement of a comprehensive strategy to protect the elderly for normalization of social functions. Here, we aimed to assess the immune response after a third-dose mRNA vaccine booster among older Japanese people. Our results suggest an importance of antibody titter to establish a treatment priority in the vulnerable population.
To investigate the antibody titres against SARS-CoV-2 among older individuals, 23 facilities (12 day-care centres [DCC] and 11 LTCFs) responded to our call to participate. Each participant received either two doses of BNT162b2 or mRNA-1273 vaccines at least six months prior. For comparing the titres with those of younger generations, we collected data from the nursing care staff at the DCCs and LTCFs. Additionally, our previous data of healthcare workers was used.
The Mokobio SARS-CoV-2 IgM & IgG Quantum Dot immunoassay (Mokobio Biotechnology R&D centre Inc., MD, USA) was used for the point-of-care fingertip whole blood sampling test. In this study, we defined non-responders as those whose post-booster antibody titres were less than 1000 U/mL at any test time after vaccination (<3 months). This was based on neutralizing activity against the wild-type virus and immune evasion of the Omicron variant as explained in our previous literature.
Post-booster antibody titres were analysed by stratifying according to age, sex, living status, and vaccine type. A logistic regression model was used for the multivariate analysis. The institutional review board of Okayama University Hospital approved this study (No. 2112–044), and written informed consent was obtained from all the participants.
Data of 1046 older adults were eligible for the analysis. The median age of the population was 86 years, with a female predominance (66.3%). Among the participants, 67.2% resided at LTCFs. The proportion of receiving vaccine boosters after two doses of BNT162b2 (59.2%) was higher than that of mRNA-1273 (40.2%) vaccine administration. Then, we incorporated data of nursing care staff working at DCCs and LTCFs, and the healthcare workers at hospitals to demonstrate the distribution of post-booster antibody titres by age as compared with COVID-19 survivors at the facility with the cluster.
Of the 1771 people, we excluded those examined 1 to 9 days after the booster dose (N = 415), and a total of 1356 individuals were analysed.
Antibody titres were widely distributed in each age group (Fig. 1). The invalid (too high for measurement) testing rate was over 10% in those aged <60 years. With age, it decreased to 5.4% in septuagenarians, 4.7% in octogenarians, and 3.2% in nonagenarians. Based on the finding, we regarded those with antibody titres less than 250 U/mL as poor responders, which corresponds to two-fold the LD50 concentration level in vitro. The number and proportion of non-responders increased with age: 2 (0.9%) septuagenarians, 23 (5.4%) octogenarians, and 29 (9.4%) nonagenarians. Moreover, the antibody titers of COVID-19 survivors one month after the cluster event was apparently higher than those after the post third-dose vaccination. Despite the extremely high age of these groups (median ages of those two times-vaccinated and three times-vaccinated were 86.5 years and 88 years, respectively), the invalid testing rates were 39.3% and 47.1%, respectively, and no non-responders were detected.
Fig. 1Distribution of post-third-dose antibody titres of 1356 individuals in comparison with COVID-19 survivors. Antibody data of healthcare workers, nursing care staff, and older people examined 10 days or after the vaccine booster was administered. In addition, the antibody titres of COVID-19 survivors who were infected in a cluster event at a long-term care facility were provided by vaccination doses. The lowest values in each younger age group were 317.9 U/mL in <30 years; 392.3 U/mL, 30–39 years; 320.7 U/mL, 40–49 years; 258.5 U/mL, 50–59 years; and, 284.6 U/mL, 60–69 years.
Further, we investigated the explanatory factors for third-dose vaccine responsiveness among the older population (Table 1). To exclude data derived from those shortly after the booster vaccination, we included only data from 10 days after vaccination (N = 982). The proportions of responders aged <70 years (81.4%), 70–79 years (septuagenarians, 80.5%), 80–89 years (octogenarians, 72.7%), and ≥90 years (over nonagenarians, 66.3%) decreased with age. Univariate analysis suggested that men, commuters to DCC, and ≥50 days after the booster were significantly associated with the vaccine responsiveness. A result of the multivariate analysis did not show significant differences in age group, sex, and living status; while, the third-dose vaccination with mRNA-1273 was associated with a significantly higher response rate than BNT162b2 (75.8% vs. 70.6%: odds ratio [95% CI]; 1.37 [1.00–1.89]). In comparison with the group of the 10–19 days period, the vaccine response rate in those with a longer period after vaccination (≥50 days) was significantly lower (77.2% vs. 63.0%: odds ratio [95% CI]; 0.55 [0.33–0.92])
Table 1Univariate and multivariate analysis for the third-dose vaccine responsiveness among older population at long-term care facilities and day-care centers.
Antibody data of older population examined 10 days or after the third-dose vaccine booster was applied. Sex information was unavailable in 1 case. Vaccine type was unreported in 4 cases. We performed chi-square test as univariate analysis and logistic regression model as multivariate analysis to compare the statistical difference among the categories. For the multivariate analysis, dummy variables were used.
Older people are at increased risk of developing severe COVID-19. According to a population-based seroprevalence study in Switzerland, the fatality risk for those aged ≥65 years was approximately 5.6%, significantly higher than that of the younger generation (<0.001%) aged under 50 years.
Experts in immune aging indicate that the oldest old (nonagenarians and centenarians) population can be classified into high-performing and low-performing individuals based on genetic variants that advantageously function for healthy aging.
Notably, there were apparent non-responders to the third booster, although the multivariate analysis indicated that age was not associated with vaccine response rate. This may be explained by the low-performing properties of these individuals. Our data suggested mRNA-1273 booster was significantly associated with the vaccine responders. Consistently, a randomized control study concluded that, in comparison with BNT123b2, mRNA-1273 booster vaccination can trigger a stronger neutralizing activity against the Omicron variant in older people.
Antibody response of heterologous vs homologous mRNA vaccine boosters against the SARS-CoV-2 omicron variant: interim results from the PRIBIVAC study, a randomized clinical trial.
Collectively, to reduce the number of COVID-19 victims among the older people, the establishment of a triage system for non-responders against vaccination is warranted. The fingertip whole blood sampling test as a point-of-care testing was useful to identify the non-responder individuals in LTCF. Henceforward, serological testing protocols and an elderly-oriented booster schedule should be discussed to lessen the clinical burden of the disease and facilitate social normalization.
Data availability statement
Data in detail will be available if requested to the corresponding author.
Funding
This research was conducted as part of "COVID-19 AI & Simulation Project" run by Mitsubishi Research Institute commissioned by Cabinet Secretariat.
Declaration
This manuscript has not been published previously in any language, in whole or in part, and is not currently under consideration elsewhere. We have read and understood your journal's policies and believe that neither the manuscript nor the study violates any of them.
CRediT authorship contribution statement
Hideharu Hagiya: Conceptualization, Visualization, Investigation, Formal analysis, Writing – original draft, Data curation. Takao Hikita: Investigation, Data curation. Tomohiro Habu: Investigation, Data curation. Masaki Asada: Data curation. Takashi Yorifuji: Supervision, Data curation. Shinichi Toyooka: Supervision, Data curation. Fumio Otsuka: Supervision, Data curation. Masanori Nakayama: Conceptualization, Visualization, Investigation, Data curation.
Declaration of Competing Interest
None to report.
Acknowledgments
We would like to thank all the staff at the day-care centres and long-term care facilities who contributed to data sampling.
References
Liu K.
Chen Y.
Lin R.
Han K.
Clinical features of COVID-19 in elderly patients: a comparison with young and middle-aged patients.
Antibody response of heterologous vs homologous mRNA vaccine boosters against the SARS-CoV-2 omicron variant: interim results from the PRIBIVAC study, a randomized clinical trial.
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