A time-resolved fluorescent microsphere-lateral flow immunoassay strip assay with image visual analysis for quantitative detection of Helicobacter pylori in saliva.

Helicobacter pylori (H. pylori) is a kind of microaerobic and food-borne pathogen. More than 4.4 billion individuals have been infected by H. pylori and H. pylori was listed as Group I carcinogen by WHO in 1994. Considering the high infection rate of H. pylori and the limited medical resources, self-testing is helpful for diagnosis and timely treatment. Although the amount of H. pylori in human saliva is low, the sampling of saliva is simple and convenient compared with stomach, blood and stool samples. Therefore, H. pylori in human saliva can be an indicator for self-testing, and a sensitive and easy-to-use assay is necessary. In this study, we developed a time-resolved fluorescent microsphere-lateral flow immunoassay (TRFM-LFIA) strip assay with image visual analysis for detection of H. pylori in saliva. The detection of the TRFM-LFIA strip was easy to use and had a low dependency on equipment. With optimized preparation and detection parameters, the whole detection process could be finished in 8 min and the LOD by naked eyes was 102 CFU/mL. For quantitative analysis by image visual analysis, the LOD was as low as 1.05 CFU/mL in the linear range of 101-105 CFU/mL. Besides, the TRFM-LFIA strip also had good stability, reliability, repeatability and accuracy. All these advantages indicated that the TRFM-LFIA strips developed in this study had a good potential for self-testing for H. pylori infection.

A visual denaturation bubble-mediated strand exchange amplification and RGB visual analysis-based assay for quantitative detection of Helicobacter pylori in saliva.

Helicobacter pylori (H. pylori) is a class I carcinogen causing gastric cancer. Almost 50% of people on earth have been infected and it is worse in developing countries. Early diagnosis of H. pylori infection is the most important strategy for preventing the spread and worse consequences. H. pylori can be isolated from human saliva, and the sampling of saliva is easy and convenient. Therefore, we developed a visual denaturation bubble-mediated strand exchange amplification and RGB visual analysis-based assay for quantitative detection of H. pylori in saliva in this study. Under the optimized reaction temperature and time, the SEA reaction could be finished in 30 min with a simple reaction system and low dependency on equipment. The detection results could be qualitatively identified by the naked eye and quantitatively analyzed by a developed RGB visual analysis method. The limit of detection (LOD) of RGB visual analysis was 10.8 CFU/mL. This assay had good specificity and anti-interference capacity. In the artificial contamination test, the recovery rate of our assay was between 99.3% and 111.5%, with RSD values ranging from 1.7% to 3.5%. These indicated our assay also had good reliability in the detection of saliva. We believe this assay showed good potential for better non-invasive diagnosis of H. pylori infection.