Spots Global Cancer Trial Database for Clinical, Translational and Biomarker-Based Female Genital HPV Induced Dysplasia and Cancer Screening Study Using Cf-HPV-DNA Blood Tests

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Trial Identification

Brief Title: Clinical, Translational and Biomarker-Based Female Genital HPV Induced Dysplasia and Cancer Screening Study Using Cf-HPV-DNA Blood Tests

Official Title: Circulating Cell-Free Tumor Tissue Modified Viral (TTMV)-HPV DNA As A Biomarker For Early Cancer Detection Among Human Subjects With HPV-Induced Dysplasia In Female Genital [Uterine Cervix, Vaginal and Vulvar] Organs: A Clinical, Translational and Biomarker-Based Cancer Screening Study

Study ID: NCT05536843

Conditions

Cervical Dysplasia, Uterine

Vaginal Dysplasia

Vulvar Dysplasia

Interventions

Study Description

Brief Summary: Uterine cervical dysplasia and other female genital dysplasia continue to be significant health problems despite Cervical Screening Programs and HPV vaccinations being available. These female genital dysplasia \[FGD\] induced by HPV infections affect disadvantaged women in the US and globally more than others: minorities like African Americans \[AA\], rural populations, lower socioeconomic strata of the society and less educated in the US and lower / middle income countries. The reasons are: lack of access to screening and vaccines, lack of infrastructure, fear and shame of getting a pelvic examination and pap's smear and inability to go to the health centers that provide these cares. A simple blood test that can diagnose FGD can help make many of those hurdles go away. This proposal is to utilize the emergence of 'liquid biopsy' concepts using genomic/precision medicine advances of the past decade to have such a blood test to be made available. Collaborating with Naveris, Inc,® the clinical study will use their NavDx® blood test. This is a test for circulating cell-free tumor tissue modified viral (TTMV®)-HPV DNA. TTMV-HPV DNA is a clinically proven and analytically validated highly sensitive and specific biomarker for the identification of post-treatment recurrent and residual Human Papillomavirus (HPV)-driven squamous cell oropharyngeal carcinoma (OPSCC)1,2. Data is accruing for other major HPV-driven cancers including anal cancer and uterine cervical cancer with clinical utility appear similarly promising3. TTMV-HPV DNA is a distinct biomarker for HPV-driven malignancy and can distinguish between HPV-driven malignancy and acute and or chronic HPV infection. In this study, taking advantage of a robust Cervical Dysplasia Clinic in existence at UMMC and a team of multidisciplinary experts focused on this project, the blood levels of TTMV-HPV DNA will be determined through a fully informed IRB approved clinical trial process to correlate with the grades of dysplasia, any increasing values correlating with worsening grade/malignant transformation and other variables. This pilot study is the first of this type of biomarker-based 'screening' study, and if successful, will lead to a more efficient and convenient way to diagnose HPV-induced that will be cost effective and will need minimal infrastructure. Such a test will make remarkable beneficial differences in early diagnosis, early screening compliance, early interventions as well as improving outcomes in FGD patients worldwide. With the available infrastructure and expert team, this project can be successfully completed in a relatively short time.

Detailed Description: Hypothesis: 1. The HPV induced dysplasia in cervical and vaginal tissues can lead to a detectable level of TTMV-HPV-DNA in the blood. 2. Those levels will increase when there is progression of the dysplasia from lower grade to a higher grade. 3. The blood levels of TTMV-HPV-DNA can distinguish lower versus higher grades of HPV induced dysplasia. 4. Serial measurements of TTMV-HPV-DNA in the blood can help diagnose progression of dysplasia to a higher grade earlier and in a more efficient and convenient way. This will help improved compliance with screening, early diagnosis, early interventions, and better clinical outcomes. 5. TTMV-HPV-DNA detection is also likely possible with touch preparations on the lesions, thus leading to easier diagnosis of such lesions. Specific Aims: 1. To collect blood and touch-preparation samples from the dysplasia lesions among patients with HPV induced dysplasia in cervical and vaginal tissues in human subjects with such lesions in a phase I/II clinical trial setting. 2. Measure TTMV-HPV-DNA in those samples. 3. Correlate the detectable levels of TTMV-HPV-DNA with demographics, grades of dysplasia, progression in the grades with serial measurements and HIV status and correlate with biopsy results in terms of progression in PIN grades and malignant transformation. 4. Design future studies from these findings to enable early detection of potential progression to malignancy so that early curative interventions can be instituted. Objectives: 1. To develop an innovative and pilot clinical trial in HPV related female genital dysplasia that integrates basic science, public health, clinical and translational cutting-edge knowledge and information using 'liquid biopsy' concepts to help prevent progression to malignancy. 2. To collect and analyze data in a prospective manner among a diverse population in terms of ethnic, racial, and socioeconomic variations that could help improve screening acceptance in the most vulnerable women at risk for female genital cancer. 3. To serve as a model for middle and low-income countries as well as resource-scarce, rural and disparity-affected populations in high-income countries in developing a blood-specimen based HPV-related early diagnosis screening tool.