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This clinical trial evaluates the use of self-collected vaginal samples for human papillomavirus (HPV) testing in patients referred for a colposcopy and/or cervical excisional procedures to improve cervical cancer prevention. HPV is a common virus which usually causes infections that last only a few months, but sometimes can last longer. It is known to cause a variety of cancers including cancer of the cervix. Even though there are ways to detect cervical cancer early, many individuals do not undergo screening that involves pelvic exams. Over half of all new cervical cancer cases are among those who have either never been screened or who are not screened enough. Without appropriate screening and care, preventable pre-cancers may turn into cancer. A new way to detect cervical cancer is to have individuals collect their own vaginal sample for HPV testing to know their risk for cervical cancer. This may give individuals more flexibility and comfort having the ability to collect samples themselves, compared to a doctor performing a speculum examination and collecting the samples in a clinic. This study compares clinical accuracy of HPV testing on self-collected vaginal samples versus cervical samples collected by clinician. The Self-collection for HPV Testing to Improve Cervical Cancer Prevention (SHIP) Trial is part of the National Cancer Institute (NCI)'s Cervical Cancer 'Last Mile' Initiative, a public private partnership that seeks to increase access to cervical cancer screening. The SHIP Trial focuses on developing clinical evidence to inform the US Food and Drug Administration (FDA)'s regulatory reviews of self-collection approaches as alternative sample collection approaches for cervical cancer screening. Several industry partner-specific self-collection device and assay combinations will be non-competitively and independently evaluated with a similar study design framework to inform pre-approval and/or post-approval regulatory requirements.
This clinical trial evaluates the use of self-collected vaginal samples for human papillomavirus (HPV) testing in patients referred for a colposcopy and/or cervical excisional procedures to improve cervical cancer prevention. HPV is a common virus which usually causes infections that last only a few months, but sometimes can last longer. HPV is known to cause a variety of cancers including cervical cancer. Even though there are ways to detect cervical cancer, many individuals are not diagnosed. Over half of all new cervical cancer cases are among those who have either never been screened or who are not screened enough. The low screening numbers show more testing needs to be done. Without appropriate screening and care, preventable precancer may turn into cancer. A new way to detect cervical cancer is to have individuals collect their own sample for HPV testing to know their risk for cervical cancer. This may give individuals more flexibility and comfort having the ability to collect samples themselves, compared to a doctor performing a speculum examination and collecting the samples in a clinic. Information gathered from this study compares clinical accuracy of HPV testing on self-collected vaginal samples versus cervical samples collected by clinician. The Self-collection for HPV Testing to Improve Cervical Cancer Prevention (SHIP) Trial is part of the National Cancer Institute (NCI)'s Cervical Cancer 'Last Mile' Initiative, a public private partnership that seeks to increase access to cervical cancer screening. The SHIP Trial focuses on developing clinical evidence to inform the US Food and Drug Administration (FDA)'s regulatory reviews of self-collection approaches as alternative sample collection approaches for cervical cancer screening. Several industry partner-specific self-collection device and assay combinations will be non-competitively and independently evaluated with a similar study design framework to inform pre-approval and/or post-approval regulatory requirements.
The purpose of this study is to determine the provider- and practice-level characteristics that influence the impact of implementation strategies guided by practice facilitation in each clinical practice, to test whether the facilitator-driven provider- and practice-level implementation strategies increase provider recommendations and Human Papilloma Virus (HPV) vaccination rates and to evaluate implementation and future sustainability of the facilitator-driven implementation strategies across nine clinical practice sites
This clinical trial evaluates the use of self-collected vaginal samples for human papillomavirus (HPV) testing in patients referred for a colposcopy and/or cervical excisional procedures to improve cervical cancer prevention. HPV is a common virus which usually causes infections that last only a few months, but sometimes can last longer. It is known to cause a variety of cancers including cancer of the cervix. Even though there are ways to detect cervical cancer early, many individuals do not undergo screening that involves pelvic exams. Over half of all new cervical cancer cases are among those who have either never been screened or who are not screened enough. Without appropriate screening and care, preventable pre-cancers may turn into cancer. A new way to detect cervical cancer is to have individuals collect their own vaginal sample for HPV testing to know their risk for cervical cancer. This may give individuals more flexibility and comfort having the ability to collect samples themselves, compared to a doctor performing a speculum examination and collecting the samples in a clinic. This study compares clinical accuracy of HPV testing on self-collected vaginal samples versus cervical samples collected by clinician. The Self-collection for HPV Testing to Improve Cervical Cancer Prevention (SHIP) Trial is part of the National Cancer Institute (NCI)'s Cervical Cancer 'Last Mile' Initiative, a public private partnership that seeks to increase access to cervical cancer screening. The SHIP Trial focuses on developing clinical evidence to inform the US Food and Drug Administration (FDA)'s regulatory reviews of self-collection approaches as alternative sample collection approaches for cervical cancer screening. Several industry partner-specific self-collection device and assay combinations will be non-competitively and independently evaluated with a similar study design framework to inform pre-approval and/or post-approval regulatory requirements.
This study evaluates the implementation of evidence based strategies to optimize HPV vaccination in rural primary care settings. Some of the largest disparities in human papillomavirus vaccination (HPVV) rates exist in rural communities, which represent missed opportunities for cancer prevention. Primary care provider visits in these communities serve as a crucial opportunity to communicate the importance of timely vaccination that is essential to effective cancer prevention. This study implements and tests a practice-level intervention (PC TEACH) using practice facilitation of evidence-based strategies to expand reach to rural community-based primary care settings to optimize delivery and increase HPVV rates. PC TEACH program may help rural communities overcome access and awareness factors that keep them from receiving HPVV.
Since 2019, the HPV working group of the University of Virginia Cancer Center's Southwest Virginia Community Advisory Board has developed and executed strategies to increase regional HPV vaccination rates. Members collaboratively developed Appalachian Voices for Health, a multi-level media production and social marketing intervention. This novel intervention builds on the past efforts of the working group and the engaged organizations; takes into account the impact of vaccine hesitancy on HPV vaccination uptake; and incorporates best practices. Through the intervention, Nursing and Dental Assistant students from Mountain Empire Community College will develop PSAs after receiving training about HPV vaccination and health communication. These PSAs will be used in a social marketing campaign executed through a regional transportation system managed by Mountain Empire Older Citizens. Specifically, the trial's aims are three-fold: assess the intervention's impact on community members' and students' HPV vaccine hesitancy (Aim 1) and perceptions and actions related to HPV vaccination (Aim 2) and evaluate other feasibility indicators at the community-, student-, organizational-, and process levels (Aim 3). The research team will use a concurrent mix-methods approach to assess feasibility indicators. Aims will be assessed using surveys, focus groups, meeting minutes, and implementation records. Data will be analyzed using descriptive and inferential statistics and content coding. Determination of the intervention's feasibility will consider the achievement benchmarks for feasibility indicators individually and collectively. Data will be used to inform refinement and future testing of Appalachian Voices for Health.
The goal of this clinical trial is to compare a 2-dose and 3-dose series of 9vHPV vaccine among 27-45-year-old females to assess if 2 doses elicit a noninferior immune response. Participants will be randomized 1:1 to either the 2-dose group or the 3-dose group and asked to provide 4 blood samples over a period of 12 months. All 2-dose participants will be offered a 3rd dose after the final blood draw,12 months after their initial vaccination.
The primary objective of this study is to determine the magnitude and breadth of the serum antibody response to the nonavalent HPV vaccine (Gardasil-9) in adults with well-controlled HIV infection. The secondary objectives of the study are to observe short term clinical outcomes of prevalent HPV genotype-specific anogenital infections in adults living with HIV who complete the three-dose Gardasil-9 vaccine series, and to determine the protection afforded by Gardasil vaccine over time in previously vaccinated adults living with HIV. The clinical hypothesis is that adults with virologically controlled HIV mount a serum antibody response to the nonavalent HPV vaccine that is comparable to HIV negative counterparts. We also postulate that HPV vaccination will provide short-term clinical benefit against HPV infections and disease associated with vaccine genotypes and continuing protection against vaccine genotypes of HPV over time.
Background: Most symptoms of human papillomaviruses (HPV) infection, do not cause serious health problems, but some do. As HPV can cause uncontrolled growth of infected cells, some people can develop benign skin lesions, larger warts, genital lesions, tumors or cysts that do not respond to treatment. Researchers want to learn why. Objective: To better understand why some people are more likely than others to get sick from HPV infection, and why medicine or surgery is not always effective. Eligibility: People aged 3 years and older who have had multiple outbreaks of HPV-related warts and/or lesions that do not respond to treatment. Healthy relatives are also needed. Design: Participants will be screened with a medical history, physical exam, and blood tests. Participants may have study visits as an outpatient or an inpatient (admitted overnight to the NIH hospital) and be followed over several years by our doctors and researchers at the NIH. Participants may have a cervical and/or anal Pap test. They may give samples of semen, cervicovaginal secretions, urine, saliva, or stool. Small pieces of skin, the inside of the cheek, and/or the gums may be collected with a punch or scrape biopsy to understand how HPV affect the growth of cells. Mucus and skin may be collected by rubbing the area with a cotton swab. Collection areas may include the inside the mouth, nostrils, skin, genitals, and/or in or around the anus. Biopsies may be collected. If participants need to have a biopsy as part of medical care, then we may ask if extra samples can be collected for research. Biopsies we may collect are bone marrow, lymph node, genitals, or in or around the anus. Participants may have leukapheresis. Blood is taken from a needle placed in one arm. A machine separates out the white blood cells. The rest of the blood is returned through a needle in their other arm. Samples may be used for genetic tests and/or to make special cells called induced pluripotent stem cells. Participants may have follow-up visits once a year for 10 years. Benefits: We are not testing new HPV treatments in this study and you might not benefit from participating. However, we may learn new information about your condition that we will share with you and your doctor. We may make recommendations for your medical care based on current accepted treatment. What we learn from you and other participants in this study might help other people. We hope we can use this information to develop new treatments and therapies in the future....
This clinical trial compares the effect of a vaccine promotional intervention, TweenVax, to standard of care vaccination promotion practices on rates of human papillomavirus (HPV) vaccination in adolescents. HPV vaccination has been identified as a priority for cancer prevention and control by the Cancer Moonshot Blue Ribbon Panel, which estimated that increasing HPV vaccination rates can prevent 400,000 HPV-related cancers in the next 5-10 years. The goal is for HPV vaccinations to be completed by the age of 13. It has been estimated that only about 16% of adolescents were fully up to date with HPV vaccines by age 13. Strong and consistent provider recommendations have been shown to play an important role in the uptake of vaccines. In addition, education and information received by parents may improve the strength of recommendations by providers. The TweenVax intervention includes practice, provider, parent and patient level education to teach best practices, help with vaccine messaging, and give correct and easy to understand information to parents. Providing practice, provider and parent level access to TweenVax may be more effective than current vaccine promotion practices in improving HPV vaccination rates in adolescents.