Aluminium adjuvants in vaccines and potential health effects: systematic review
Summary
OBJECTIVE To systematically review and critically appraise human evidence on potential health effects of aluminium adjuvanted vaccines. DESIGN Systematic review following PRISMA (preferred reporting items for systematic review and meta-analysis) 2020 guidelines. DATA SOURCES Six databases and trial registries were searched from inception to 3 March 2023 then updated to 27 November 2025. Reference lists of eligible studies were also screened. ELIGIBILITY CRITERIA FOR SELECTING STUDIES: H
Content
# Aluminium adjuvants in vaccines and potential health effects: systematic review
*Published: 2026 May 6*
## OBJECTIVE
To systematically review and critically appraise human evidence on
potential health effects of aluminium adjuvanted vaccines.
## DESIGN
Systematic review following PRISMA (preferred reporting items for
systematic review and meta-analysis) 2020 guidelines.
## DATA SOURCES
Six databases and trial registries were searched from inception to
3 March 2023 then updated to 27 November 2025. Reference lists of eligible
studies were also screened.
ELIGIBILITY CRITERIA FOR SELECTING STUDIES: Human studies assessing health
outcomes after aluminium adjuvanted vaccination, including randomised controlled
trials, cohort studies, case series, and ecological studies. Investigational
vaccines, case reports, and review articles were excluded.
DATA EXTRACTION AND
## SYNTHESIS
Two reviewers screened studies (with AI
assistance for the 2023-25 update), extracted data, and assessed risk of bias
(using RoB 2.0, ROBINS-I, or an adapted tool for case series). Certainty of
evidence was rated using GRADE (Grading of Recommendations Assessment,
Development, and Evaluation).
## RESULTS
The review included 59 studies (37 case series, 11 randomised
controlled trials, nine cohort studies, two ecological studies). High quality
evidence from randomised controlled trials and large cohorts consistently showed
no association between aluminium adjuvanted vaccines and serious or long term
health outcomes, such as asthma, autism spectrum disorders, or other chronic
conditions. Studies on macrophagic myofasciitis were generally small and
methodologically limited, and did not provide credible evidence of a causal
association (very low certainty). Localised persistent nodules or granulomas
were observed infrequently after diphtheria-tetanus-pertussis vaccines,
consistent with delayed type hypersensitivity (<1%, self-limited; moderate to
low certainty). For common adverse events (eg, headache, myalgia), high
certainty randomised controlled trials found no consistent increase in risk with
aluminium adjuvanted formulations. When differences were observed, they were
small and predominantly mild to moderate in severity. Evidence was dominated by
methodologically limited studies, with most case series and ecological studies
at serious or critical risk of bias. Conclusions are primarily supported by
higher quality randomised controlled trials and cohort evidence.
## CONCLUSIONS
Current evidence does not support causal associations between
aluminium adjuvanted vaccines and serious or long term health outcomes. The most
consistently documented reactions were persistent nodules or granulomas that are
uncommon, local, and self-limited hypersensitivity reactions. These findings are
broadly consistent with post-licensure surveillance findings. The predominance
of methodologically limited studies for some outcomes highlights the need for
higher quality research.
SYSTEMATIC REVIEW REGISTRATION: PROSPERO CRD42023462831.
DOI: 10.1136/bmj-2025-088921