View clinical trials related to Cervical Intraepithelial Neoplasia.
Filter by:Evaluate the performance of the mHRME in a study of 3,000 women in San Salvador to assess whether mHRME imaging improves specificity of screening by VIA or HPV DNA without reducing sensitivity for cervical precancer and cancer.
To assess the benefits of using Lugol's solution in addition to acetic acid during colposcopy in women with cervical dysplasia.
Background: Human papillomavirus (HPV) can lead to High-Grade Cervical Intraepithelial Neoplasia (CIN 2,3). This type of lesion has a high risk of becoming cancer. T cells are part of the immune system. A new type of treatment involves modifying these cells and injecting them into the lesions to shrink them. Objective: To test if injecting a type of treatment directly into cervical lesions can be safely given as therapy for high-grade CIN. Eligibility: People ages 21 and older with CIN 2,3 caused by HPV-16 Design: Participants will be screened over at least 2 visits with: Tumor sample Blood and urine tests Medical and medication history Physical exam Pelvic exam and colposcopy to look at the cervix Participants will have a baseline visit. They may be admitted to the hospital. They may receive a large catheter inserted into a vein. They will have a vein assessment. Before they receive treatment, participants will have a biopsy of the cervix. They will have leukapheresis. Blood will be removed through a needle in the arm, circulated through a machine that takes out the while blood cells, then returned through a needle in the other arm. A central catheter may also be used. Participants will have the modified cells injected directly into their cervical lesions. They will recover in the hospital for 1-2 days. Participants will have follow-up visits 2 weeks, 31 days, 6 weeks, and 12 weeks after treatment. They may receive a second injection at the 31-day visit. Participants will be contacted once a year for 5 years after treatment. They will be followed for up to 15 years.
Trichloroacetic acid 85% =TCA is an investigational device intended to achieve a complete histologic remission in individuals with cervical intraepithelial neoplasia (CIN) grade 1/2. The device system is to be used only in accordance with the approved Investigational Plan on subjects, who have given written informed consent. High remission and regression rates are expected after a single topical treatment with 85% TCA. After a single topical treatment with 85% TCA for CIN 1-2 (Expected 70% or higher; null hypothesis: not higher than 55%). Regression is defined as improvement from high grade lesion (CIN 2) at baseline to low grade lesion (CIN 1) after TCA treatment. Regression from CIN 1 normal squamous epithelium after the TCA treatment is equal to remission and will be counted as a remission in combined analysis. Remission is defined as complete histologic remission of CIN back to normal squamous epithelium after the TCA treatment, i.e., no cervical dysplasia is detectable by histology or cytology after the TCA treatment. Type-specific HPV Clearance is defined as disappearance of the HPV type detected at screening.
High-risk type human papillomavirus (HPV) is the known etiological agent of cervical cancer. HPV testing and risk stratification by genotyping has been recognized as an effective cervical screening program. A chip for HPV DNA typing based on type-specific polymerase chain reaction (PCR), DR. HPV Genotyping IVD Kit (HPV-27) was developed for genotyping of 27 common HPV types including all high-risk types. We studied its agreement, sensitivity, and specificity compared to DNA sequencing as the gold standard.
To assess the benefits of performing large Loop excision of the transformation Zone (LLETZ) using videocolposcopy compared to binocular colposcopy.
The European VALHUDES study is a Clinical Performance /Diagnostic Test Accuracy Study that aims to evaluate whether HPV testing with new assays performed on self-samples, collected by means of a vaginal and a urine collection device is as accurate to detect cervical pre-cancer as on cliniciantaken cervical samples.
The study will investigate if implementation of "see and treat" in the outpatient clinic can optimize the diagnosis, clinical follow-up and treatment of older women with positive cervical screening test.
Human papilloma virus (HPV) is responsible of the most common sexually transmitted infection. It can cause severe cancer lesions, of the cervix, vulva, vagina, penis and oropharynx. The International Agency for Cancer Research of World Health Organization (WHO) classified a dozen of HPV related high-risk cancer types, and recognized cervical cancer as the most common HPV-related disease. HPV 16 and 18 are responsible for 70% of cervical cancers. Due to the few symptoms of cervical cancer, women are often diagnosed with advanced state. Current treatments imply cervical conisation or hysterectomy, with or without lymphadenectomy and or radiotherapy, or chemotherapy. However, few pharmacological options are available against oncogenic papilloma viruses and thus against recurrences The aim of this project is to develop relevant organoids models from patient biopsies that will be used to identify biomarkers and evaluate in a closest preclinical setting novel nucleic acids based therapeutic strategy for HPV-cervical-vaginal dysplasia and cancers.
Background: Gene therapy is closely followed by the U.S. Food and Drug Administration (FDA). The FDA requires researchers to conduct long-term follow-up of people who have had the treatment. This study collects data on people who have had gene therapy and sends it to the FDA. The data does not include participants names. Objective: To contact current or past participants of gene therapy protocols at least once a year for up to 15 years to ensure they have not had any harmful side effects. Eligibility: People aged 18 and older who have had gene therapy in a National Cancer Institute study Design: Participants will give their address and telephone number. They will also give and the address and phone number of 1 or 2 other people who will know where they are. For the first year after gene therapy, participants will give blood samples 3 times (at 3, 6, and 12 months). For the next 4 years, they may have a physical exam and laboratory tests with a home physician. They will get a kit to mail in blood samples. Or they can visit the NIH Clinical Center. They will be asked if they have had any signs of neurological, autoimmune, or blood disorders, or any new cancers. For years 6 to 15, participants will be contacted yearly via phone or email and asked questions about their health. They may give blood samples. When the participant dies, if researchers think the death was caused by gene therapy, they will ask the participant s family to allow an autopsy. ...