Abstract
BACKGROUND: Zoonotic infections, particularly those caused by non-typhoidal Salmonella (NTS), pose a significant disease burden. However, there is a notable lack of comprehensive and integrated studies employing the One Health approach to address Salmonella prevalence. In this study, we aimed to analyse NTS spatiotemporal prevalence, serovar distribution, and antimicrobial resistance (AMR) across China. METHODS: We conducted a systematic review and meta-analysis to understand the dynamics of NTS in a One Health context in China. We searched the CNKI, Wanfang, and PubMed databases for Chinese and English peer-reviewed articles published before 1 January 2022 dealing with Salmonella in the context of China. We examined the dynamic prevalence along the food chain, the risk of dominant serovars and the carriers' regional contribution by principal component analysis, and the AMR burden before and after the ban on using antimicrobials as feed additives across five decades. We used the inverse variance index as an indicator of the inconsistency across studies, and we adopted the restricted maximum likelihood model due to high heterogeneity for analysis with a 95% confidence level for the pooled prevalence estimate. RESULTS: Based on 562 retrieved high-quality studies during 1967-2021, representing 5 052 496 samples overall and 80 536 positive samples for NTS isolates, the overall average prevalence was 7.35% (95% confidence interval (CI) = 0.069-0.087), which was regionally relatively higher in northern China (8.19%; 95% CI = 0.078-0.117) than in southern China (6.94%; 95% CI = 0.067-0.088). Poultry was the primary vehicle for serovars Enteritidis and Indiana (especially in the north), while swine and ruminants for Typhimurium and Derby were the first to highlight the regional livestock contribution to serovar prevalence. The overall AMR rate was 73.63% (95% CI = 0.68-0.99), decreasing after the ban on excessive use of feed-based antibiotics in livestock since 2020, with a relatively low resistance towards front-line and last-resort drugs. CONCLUSIONS: Our study emphasises the importance of adopting a One Health framework to better understand the zoonotic nature of human NTS and highlights the dominant serovars on food contamination and human infection. The similarity in AMR patterns between poultry and human isolates further emphasises the integrated approach for evaluating disease burden and implementing targeted interventions.