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Review
. 2025 Jan-Feb;30(1):e70007.
doi: 10.1111/hel.70007.

Advances in Helicobacter pylori Antimicrobial Resistance Detection: From Culture-Based to Multi-Omics-Based Technologies

Zupeng Kuang  1 Yuwei Wu  1 Xinqiang Xie  1 Xinyu Zhao  1 Huiyuan Chen  1 Lei Wu  1 He Gao  1 Hui Zhao  1 Tingting Liang  1 Jumei Zhang  1 Ying Li  1 Qingping Wu  1
Affiliations
Review

Advances in Helicobacter pylori Antimicrobial Resistance Detection: From Culture-Based to Multi-Omics-Based Technologies

Zupeng Kuang et al. Helicobacter. 2025 Jan-Feb.

Abstract

Helicobacter pylori (H. pylori), a proven carcinogenic microbe, necessitates antimicrobial treatment once infected. However, H. pylori worldwide currently faces serious antibiotic resistance (AMR), requiring infected patients to undergo antibiotic susceptibility testing (AST) to guide therapy. Currently, the recommended ASTs for H. pylori are culture-based methods, which are time-consuming, complicated, and expensive, impeding their widespread application. With in-depth researches on the AMR mechanisms of H. pylori, specific gene mutations and novel proteins have been confirmed as the cause of AMR and can serve as targets of ASTs. Accordingly, molecular biology detection has been developed and tremendously shortened the time and reduced difficulty of AST. However, these assays still struggle to meet the enormous testing demand and need for even faster, simpler, and more accurate methods. In recent years, researchers have developed various new platforms based on biosensors, transcriptomics, proteomics, and single-cell analysis. This review introduces the AMR mechanisms of H. pylori and summarizes the current ASTs from the working principles to application characteristics. Additionally, we draw attention to the potentially applicable techniques for AST of H. pylori from DNA, RNA, protein, and cell perspectives. By systematically recapitulating the past, present, and future of AST for H. pylori, this review provides valuable insights for developing novel assays.

Keywords: Helicobacter pylori; antibiotic susceptibility testing; antimicrobial resistance; future technologies; molecular detection.

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