26 Clinical Trials for Various Conditions
Cervical neoplasia is increased in women with SLE most likely due to cervical infection with human papilloma virus (HPV). 70% of cervical cancer is caused by HPV types 16 and 18. Gardasil vaccine prevents cervical infection with HPV types 16 and 18. Thus lupus patients (who are susceptible to cervical cancer) may benefit from getting Gardasil vaccine which can prevent cervical cancer. Vaccines are generally safe and efficacious in SLE but no studies have been done on the use of this vaccine in SLE. The investigators hypothesize that Gardasil vaccine is safe and effective in SLE. This study will look at vaccine safety in patients with mild to moderate and minimally active or inactive SLE and measure how well they make protective antibodies after receiving the vaccine. In other words this will check how well the vaccine works in SLE.
Background: * Gardasil , a recently approved vaccine for the sexually transmitted human papillomavirus (HPV), provides immunity to four types of HPV that are associated with genital warts and cervical, vaginal, and vulvar precancer and cancer. The vaccine has been shown to be highly effective in preventing infection with these HPV types and was approved for use by the Food and Drug Administration. * More research is needed about the vaccine s ability to induce immunity in individuals with suppressed immune systems, such as those who have had other kinds of cancer treatment such as stem cell transplant. Genital warts, precancer, and cancer have been reported as a late complication after stem cell transplant. Researchers are interested in determining whether the HPV vaccine is safe to give and able to induce immunity in female stem cell transplant recipients, their female donors, and healthy female volunteers. Objectives: - To assess the safety and immune response of the HPV vaccine in female recipients of stem cell transplants who are either off or on stable doses of immunosuppression. Eligibility: * Females between 18 and 50 years of age who have had allogenic stem cell transplants. * Healthy female volunteers, including stem cell donors, are also eligible for this study. Design: * Participants will be screened with a physical examination, blood and urine tests, and saliva samples, and will be asked to complete a sexual quality of life questionnaire. * Sexually active participants will also have a routine gynecologic evaluation. * Participants will receive three HPV vaccinations according to the standard vaccination schedule (with the second and third following 2 and 6 months after the first). Participants will record their daily temperature and any reactions to the vaccine on a vaccine report card for 1 week after each vaccination. * Participants will have clinic visits for further testing 2, 6, 7, and 12 months after receiving the first HPV vaccine.
Planned Parenthood Federation of America's (PPFA) Medical Affairs Division will conduct a prospective, cluster randomized trial to determine which factors influence the acquisition of the second and third human papillomavirus (HPV) vaccine doses among young women ages 19 to 26. This descriptive and interventional study will provide data to assess impact of a computerized tool upon HPV vaccine series completion. The interventional aspect of this study includes determination of patient assistance and provider support programs applicable to each woman's situation as well as the implementation of a computer software system for customized patient reminders.
This is a phase 2, open-label study to assess the immunogenicity of the 9-valent human papillomavirus (HPV) recombinant vaccine (Gardasil9) in people born male with current or past exposure to androgen blockers or estrogen (BM-EABE). Investigators will enroll BM-EABE with HIV and HIV negative controls (BM-EABE or men who have sex with a person with a penis (MSPP)) and administer Gardasil9 at timepoints Day 0, Month 2, and Month 6. The immune response to the vaccine will be analyzed at Month 7 (1 month following the final vaccine dose).
This phase IV trial studies how well Gardasil 9 vaccine works in preventing human papillomavirus (HPV) infection in patients with hematologic malignancies who are undergoing donor stem cell transplant. Vaccines, such as Gardasil 9, may help the body build an effective immune response to kill cancer cells.
People with chronic kidney disease are known to have immune response abnormalities, including a diminished response to some vaccinations. Those with chronic kidney disease have a disproportionate burden of HPV 6-, 11-, 16- and/or 18-related genital tract disease. Due to immune response abnormalities, the CKD population may or may not respond to the recommended three-dose regimen of Gardasil®, a vaccine intended to protect against HPV 6-, 11-, 16-, and 18-related genital tract disease. The objective of this study is to measure the antibody response to Gardasil® in female patients 9-21 years of age with chronic kidney disease (CKD) (Stage 1-4), end-stage kidney disease (Stage 5 CKD), and status-post kidney transplant. Gardasil® vaccine will be administered according to the FDA-approved schedule. Blood samples to measure antibody levels to vaccine strains of human papillomavirus (HPV) will be obtained at months 0, 7 and 24.
The purpose of this study is to evaluate the immunogenicity and safety of the HPV vaccine Gardasil in young women.
Many IBD patients take immunosuppressive agents and we are uncertain as to their capacity to mount a truly protective response after vaccination. If IBD patients do not have an adequate immunological response, they may need to increase the dosage or get booster shots. Many clinicians who treat patients with autoimmune diseases are asking if the vaccine is safe and effective. Thus, this study has important clinical and public health significance because more than one million people in the United States have been diagnosed with IBD. There is not much studied about HPV and immunocompromised patients. Research on healthy women who were immunized with a set of three HPV vaccines demonstrated significantly increased antibody titers. In addition, they had significantly reduced HPV incident and persistent infection and HPV-related disease (cervical, vulvar, and vaginal cancers, cervical intraepithelial neoplasia, genital warts) through five years of follow-up compared to controls who received a placebo. The HPV vaccine was well tolerated without significant side effects. The aims of this research are to measure the immune response in 9-26 year old IBD patients who are on immunosuppressive agents after receiving the HPV vaccine compared with historical controls. We will also evaluate the number and type of vaccine-associated adverse events as well as the disease activity and flare-ups that occur after each dose of vaccine. We hypothesize that IBD patients on immunosuppressive therapy will have have a similar immune response to HPV types 6, 11, 16 and 18 at one month postdose 3 compared to healthy age-matched historical controls. The patient population includes IBD patients who are on immunosuppressive medications. Recruiting approximately 100 patients will provide adequate power for the study. A blood sample will be taken from all IBD patients to evaluate baseline antibody levels and markers (e.g., ESR, CBC, albumin) before or immediately after immunization with the HPV vaccine. Lab tests will be redrawn at 7 months to evaluate the level of antibody titers and follow the markers. During the study, we will track basic laboratory measures, disease status by using the Pediatric Crohn's Disease Active Index or Harvey-Bradshaw Index for UC, side effects from the vaccinations, and other adverse events.
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.
This is a clinical study to assess the safety, tolerance and immunogenic response to Gardasil (human papilloma virus (HPV)) and rLP2086 vaccine. Healthy male and female subjects will be randomized into 1 of 3 groups; the trial will be an observer-blinded study to the injection being given; and, vaccinated with either Gardasil and rLP2086 concomitantly, rLP2086 and saline concomitantly, or Gardasil and saline concomitantly. The subjects are adolescent children between the ages of 11 and 17 years old.
HPV infection has been established as a necessary cause of cervical cancer. GSK Biologicals has developed an HPV-16/18 L1 VLP AS04 vaccine (Cervarix TM) which targets the 2 most common oncogenic HPV types (HPV-16 and HPV-18), found in \> 70%, approximately, of all cervical cancers. Recently, Merck's HPV vaccine Gardasil® \[quadrivalent human papillomavirus (HPV-6,11,16,18 L1 VLP) recombinant vaccine\] has been approved by the FDA for prevention of genital tract cancers and pre-cancers and genital warts in females. Although the GSK HPV vaccine and Gardasil® have different compositions and are expected to have different efficacy profiles, each vaccine targets prevention of HPV-16 and 18 genital tract cancers and pre-cancers. Therefore, a comparison of the immunogenicity of the two vaccines is warranted. This Phase 3b study is designed to compare the immunogenicity of the GSK vaccine (HPV-16/18) to Gardasil® in healthy adult females 18-45 years of age. The Protocol Posting has been updated as the study will be extended by 3 additional years.
This study will investigate whether injecting genital warts with small quantities of the Gardasil 9 vaccine has an effect on the warts.
We are evaluating whether 15-26 year old males and females need a 3rd dose of the human papillomavirus (HPV) vaccine, or whether 2 doses provide similar protection as 3 doses from the 9 types of HPV that it protects against.
Background: Diseases related to human papillomavirus (HPV) include warts, lesions, and cancers. ICL is idiopathic CD4 T cell lymphocytopenia. People with this rare disease get more HPV-related diseases than other people do. The diseases are more severe and harder to treat in people with ICL. Researchers want to see if the vaccine GARDASIL 9 can help people with ICL. Objective: To study the effects of the vaccine GARDASIL 9 in people with ICL. Eligibility: Adults ages 18-65 with ICL Healthy volunteers the same age Design: Participants will be screened with a physical exam, medical history, and blood and pregnancy tests. Participants will have a baseline visit with: * Physical exam * Medical history * Oral rinse collection. Participants will gargle a small amount of a saline solution, then spit it into a cup. * Apheresis. Blood will be removed through a needle in an arm. A machine will separate the blood and keep some parts for research. The rest will be returned to the participant through a needle in the other arm. * Examination for HPV-related disease. Female participants will have a Pap test. Researchers will collect swabs from some participants skin or genital lesions. Participants will get 3 doses of the study vaccine over 6 months as a shot in the upper arm or thigh muscle. They will repeat the screening tests each vaccine visit. Participants will record their temperature and side effects for several days after vaccinations. Participants may have visits after vaccinations. Participants will have 2 follow-up visits in the 18 months after the last vaccine. They will repeat most of the baseline tests. ...
The purpose of the Gardasil study is to increase the rates of Gardasil vaccination at a maternal fetal Care Center. This will be done by reminding patients via text to come for follow up vaccine appointments.
The purpose of the study was to evaluate the immunogenicity and describe the safety of Meningococcal Polysaccharide (Serogroups A, C, Y and W) Tetanus Toxoid (MenACYW) Conjugate vaccine compared to the licensed vaccine MENVEO® in adolescents 10 to 17 years of age in the United States (US). This study also evaluated the immunogenicity and safety of MenACYW Conjugate vaccine when given alone compared to when given concomitantly with tetanus, diphtheria, acellular pertussis (Tdap) vaccine and human papilloma virus (HPV) vaccine. Primary objective: * To evaluate the antibody responses to the antigens present in MenACYW Conjugate vaccine when MenACYW Conjugate vaccine was given alone compared to those when MENVEO vaccine was given alone. Secondary objective: * To evaluate the antibody responses to the antigens present in MenACYW Conjugate vaccine, when MenACYW Conjugate vaccine was given concomitantly with Tdap and HPV vaccines, compared to those when it was given alone. * To evaluate the antibody responses to the antigens present in Tdap vaccine, when Tdap vaccine was given concomitantly with MenACYW Conjugate vaccine and HPV vaccine, compared to those when Tdap vaccine was given with HPV vaccine only. * To evaluate the antibody responses to the antigens present in HPV vaccine after the 3-dose series, when the first dose of HPV vaccine is given concomitantly with MenACYW Conjugate vaccine and Tdap vaccine, compared to those when the first dose of HPV vaccine is given with Tdap vaccine only. Observational objective: * To describe the safety profile of MenACYW Conjugate vaccine, compared to that of the licensed vaccine MENVEO®, and when MenACYW Conjugate vaccine was given with Tdap and HPV vaccines.
Moffitt Cancer Center is the Coordinating Center for this study. The purpose of this study is to develop and test the infrastructure to conduct a future Phase III vaccine efficacy trial to assess trial feasibility, and to assess human papillomavirus (HPV) genotype distribution, data needed to design a Phase III trial. The investigators propose to conduct a Preparedness study among women ages 16-24 years of age residing in a region of South Africa with a high human immunodeficiency (HIV) incidence and prevalence. The specific aims of this study are to: 1. Identify, recruit, enroll, and randomize a cohort of HIV negative women (200 per arm, 400 total) ages 16-24 years to an HPV vaccine against 4 types (HPV 6, 11, 16, 18 \[Gardasil\]) or placebo vaccine. 2. Determine the cervical HPV prevalence and type distribution at enrollment, and cervical lesion prevalence among young females ages 16-24 years at high risk for HIV infection. 3. Assess the rate of compliance through the 3-dose vaccination series
Human papillomavirus (HPV) is the most common sexually transmitted disease among adolescent females in the United States. Our primary objective is to determine if Short Message Service (SMS) text message reminders increase adherence to the recommended 3 dose schedule for Gardasil compared to usual care in an outpatient clinic setting. Secondary objectives of this study are: 1) to demonstrate the feasibility of using SMS text message reminders to increase adherence with Gardasil vaccination; and 2) to assess satisfaction and acceptability of text message reminders compared to telephone reminders among women who receive the text message arm of the intervention. The investigators hypothesize that receiving SMS text message reminders will increase adherence to the recommended 3 dose schedule for Gardasil compared to usual care.
The purpose of the study is to understand if children with liver and kidney transplants develop the antibodies from the Gardasil vaccine. The Gardasil vaccine protects against Human Papilloma Virus (HPV) types 16 and 18, which cause most types of cancers of the cervix, vagina and vulva. It also protects against Human Papilloma Virus types 6 and 11, which cause genital warts in some people. Gardasil has been approved by the Food and Drug Administration and is recommended for girls and women from ages 9-26 for the prevention of some types of cancer of the cervix, vagina and vulva as well as preventing some types of genital warts. In males that are 9-26 years old, the FDA has approved its use for prevention of some types of genital warts. The Gardasil vaccine is made from a virus like particle and does not contain any live virus. Children with an allergy to yeast should not receive the vaccine since some components of the vaccine are made from yeast. People who have undergone organ transplant are at increased risk of of developing genital warts and cancers related to HPV when compared to the general population. The American Society of Transplantation and the American Society of Transplant Surgeons recommend the vaccine for people with transplants. Studies of other vaccines like Hepatitis B have shown children after transplant have less of a response to this vaccine and are not immune to the Hepatitis B virus. We are interested in seeing if your child will form antibodies (immune response) to the Gardasil vaccine. Your child is being asked to be in the study because he or she is between the ages of 9-17 and has undergone a liver or kidney transplant more than 6 months ago and does not have any signs of organ rejection.
This study will investigate the efficacy and safety of the quadrivalent vaccine (Gardasil) against the human papilloma virus (HPV) in HIV (human immunodeficiency virus) infected males.
The purpose of this research study is to see if patients with juvenile idiopathic arthritis or seronegative arthritis (and related conditions) mount protective immune responses to the human papillomavirus (HPV) vaccine called Gardasil. The researchers also want to monitor for any increase in disease activity following receipt of the vaccine.
This project will compare the rate of regression of minimally abnormal Pap smears to normal in women who receive Gardasil to a historical control group. Research hypothesis: Women with low grade cervical dysplasia on Papanicolaou (Pap) smear that receive Gardasil vaccination will revert to a normal within one year at a rate 33% higher than historical controls that did not receive Gardasil vaccination.
A study evaluating HPV vaccine uptake among unvaccinated patients between the ages of 18 and 35 of a mobile health clinic serving the Mississippi Delta.
Researchers at The Ohio State University and the University of Michigan are working together to understand cancer of the cervix. One of the areas they are studying is how stress you may experience in your life effects the way you respond to GARDASIL®. GARDASIL® is a vaccine approved by the Food and Drug Administration (FDA) to prevent some types of Human Papillomavirus (HPV) infection which can cause cancer of the cervix. Participants are being recruited from the Appalachian region of Ohio.
Preventing cervical cancer is a public health concern. Since 2006 a quadrivalent vaccine for young women nine to twenty six years of age has been available to protect against the human papillomavirus (HPV) and to prevent some types of cervical cancer (Gardasil). The vaccine is an important health promotion tool to address the widespread prevalence of HPV and cervical cancer, but not all eligible young women receive the vaccine. The vaccine is most effective when administered to young women before their sexual debut. When the vaccine is given to young women less than 18 years of age, parental permission is required. This permission is usually provided by the young woman's mother. Understanding predictors of a mother's decision for her minor daughter to receive the HPV vaccine will inform interventions that seek to increase the number of young women who receive the vaccine. The study will focus on mothers and their adolescent daughters between 13-17 years of age. We hypothesize that the Expanded Theory of Planned Behavior will explain a mother's decision to choose the HPV vaccine for her daughter. Research Questions include: 1)What TPB variables predict a mother's decision to choose HPV vaccine for her daughter? 2)What variables predict the strength of a daughter's influence on the mother's decision to choose HPV vaccine for her daughter? 3) What are the relationships between the mothers' and daughters' scores on the variables related to the decision to choose HPV vaccine? 4) How do the mothers and daughters who chose to receive the HPV vaccine differ descriptively from those mothers and daughters who do not choose to receive the HPV vaccine?
Worldwide cervical cancer remains a major cause mortality among women. It is estimated that each year over 490,000 women are diagnosed with cervical cancer and more than 270,000 die from the disease. While the implementation of widespread screening programs has reduced the burden of cervical cancer, a large percentage of the population still remains unscreened or is underscreened. It is now recognized that human papillomavirus (HPV) is a necessary precursor for the development of cervical cancer. The first vaccine to prevent HPV was recently approved by the Food and Drug Administration and is now available at doctors offices. Despite the availability of a safe and effective means for the prevention of cervical cancer, widespread implementation of vaccination has been extremely difficult. Several potential issues have limited the development of widespread HPV vaccination programs, including cultural and religious beliefs, and limitations in the practicality of administering the vaccine. The overall goals of our work are to improve access to preventive strategies for cervical cancer. In this proposal we will examine the strategy of HPV vaccination for women who have just given birth. We believe that HPV vaccination of these women will be associated with a high level of patient satisfaction and acceptance. If successful, this strategy could play a major role in advancing the acceptance and implementation of HPV vaccination in the United States.