oai:pubmedcentral.nih.gov:1040...
BioMed Central
BMC Infectious Diseases
2023
11.12.2023
BACKGROUND: To propose a new mode of HIV test and surveillance among population of men who have sex with men (MSM): Internet-based Self-sampling at home plus Laboratory testing of HIV total nucleic acid (TNA) in dried blood spot (DBS) (ISL of DBS TNA).
Feasibility of ISL of DBS TNA was studied.
Characteristics of the new mode and that of conventional surveillance mode at HIV voluntary counseling and testing clinic (VCT) were compared.
METHODS: A non-governmental organization (NGO) published the recruitment information on the WeChat public account.
MSM filled in the questionnaire online, applied for self-sampling service package, and mailed the self made DBS to professional laboratory.
The laboratory performed HIV TNA test and submitted the test results to online platform.
Participants queried test results online with their unique ID.
Center for Disease Control and Prevention (CDC) followed up participants with positive nucleic acid results using IDs and contact information.
Rates were compared by using the Chi-Square test or Fisher's exact test.
RESULTS: Four hundred twenty-three questionnaires were completed.
423 self-sampling service packages were sent out and 340 DBSs were returned to professional laboratory within one month with qualified rate of sampling as high as 95.0% (323/340).
Seven samples were found to be TNA positive.
Comparing ISL of DBS TNA with sentinel surveillance, it was found that there was a significant difference in the composition ratio of the two modes of surveillance population (P < 0.05).
HIV prevalence of ISL of DBS as 2.17% was significantly lower than sentinel site as 8.96% (χ(2) = 14.953, P = 0.000 < 0.05).
CONCLUSIONS: ISL of DBS TNA proposed is feasible and has a high self-sampling qualification rate, good confidentiality.
It is an effective supplement to routine sentinel surveillance and has important promotion value.
Su, Xueli,Xia, Dongyan,Sun, Yanming,Hao, Yinxiao,Liu, Guowu,Huang, Chun,Lu, Hongyan, 2023, A novel internet sampling for HIV surveillance: feasibility of self-sampling and preparation of DBS for delivery detection of HIV total nucleic acid and complementarity to sentinel surveillance, BioMed Central