Objective: To evaluate the effect of aspirin on the clarithromycin resistance of helicobacter pylori (HP) and explore its possible mechanism. Methods: HP26695 clarithromycin resistant strain was obtained by multiple concentration of clarithromycin stimulation to HP26695 standard strain. Agar dilution method was used to detect the minimum inhibitory concentration (MIC) of aspirin to HP26695 clarithromycin resistant strain. After clarithromycin resistant HP was cultured in medium with low concentrate aspirin for 30 days, its resistance to clarithromycin was detected, and the gene expression of efflux pump system hefABC was measured by quantitative real-time PCR. Results: HP26695 clarithromycin resistant strain was successively obtained with multiple concentration of clarithromycin stimulation, and its MIC was 8 μg/mL. After incubated with low concentrate aspirin for 30 days, the MIC of HP26695 clarithromycin resistant strain was declined and its sensitivity to clarithromycin was increased, while the gene expression of efflux pump system hefABC in clarithromycin resistant HP hadn’t changed. Conclusion: Aspirin could inhibit the growth of clarithromycin resistant HP at some point, and enhanced its sensitivity to clarithromycin, while this action was not associated with the gene expression of efflux pump system hefABC.