This prospective study aims to explore the impact of selenium levels in human tissues on the progression of HPV-related cervical lesions and to identify the most appropriate biological samples for monitoring selenium levels. The research is divided into three parts:
Part 1: Volunteer Recruitment and Selenium Level Assessment Healthy volunteers, such as those undergoing regular medical check-ups or university students, will be recruited. Selenium levels in various biological samples-blood, hair (scalp or pubic), urine, and nails-will be measured. The primary goal is to assess the correlation between selenium levels in these different tissues to determine whether non-invasive samples (hair, nails, urine) could be used as reliable indicators of blood selenium levels.
Part 2: Patient Group Sample Collection Samples will be collected from hospitalized patients diagnosed with conditions such as uterine fibroids, cervical cancer, endometrial cancer, and ovarian cancer. These samples will include blood, hair (scalp or pubic), urine, and nails, with the same goal of determining the correlation between selenium levels in various tissues. This part of the study will help assess selenium levels in patients with reproductive system diseases and evaluate any differences compared to healthy individuals.
Part 3: HPV Persistent Infection Group Women with persistent HPV infection (defined as infection with the same HPV type for more than 12 months) will be selected from the gynecology clinic, along with a control group of women with non-persistent HPV infection. Selenium levels and immune function will be evaluated at baseline and again after 12 months. Comparisons will be made between the two groups to assess changes in selenium levels and immune function. Additionally, patients with HPV-related cervical lesions (e.g., CIN or cervical cancer) and those with normal cervical tissues will have their serum selenium levels and immune function assessed.
This part of the study will also include the collection of blood, hair (scalp or pubic), urine, and nail samples from HPV-persistent patients. These patients will be divided into three groups: (1) no treatment, (2) interferon treatment (standard clinical practice), and (3) interferon combined with selenium supplementation. The patients will be monitored for 6 and 12 months to observe changes in HPV status (whether the infection clears or persists) and to analyze selenium levels, immune function, and disease progression in CIN I patients.
Selenium supplementation, provided in the form of nano-selenium capsules, will be administered based on the selenium status determined from the external lab results. Patients will be divided into three groups based on their selenium levels:
Normal selenium levels: 50 µg selenium supplement, taken twice daily. Selenium deficiency: 100 µg selenium supplement, taken twice daily. Severe selenium deficiency: 150 µg selenium supplement, taken twice daily. The study will employ various statistical methods, including correlation analysis, univariate and multivariate analysis, and variance analysis, to evaluate the results. The findings will help determine whether selenium supplementation can aid in HPV clearance, slow the progression of cervical lesions, and enhance immune function, particularly in selenium-deficient individuals.
