111 Clinical Trials for Various Conditions
This study is about understanding the use of a genetic test (Myriad Genetics myRisk panel) that analyzes 25 genes related to different hereditary cancer conditions. The investigators hope to learn more about how this type of genetic test is used clinically. The investigators also hope to understand more about the experience of individuals and families who undergoing this test of genetic testing.
The aim of this study is to determine the frequency of the three most common BReast CAncer gene 1 (BRCA1) and BReast CAncer gene 2 (BRCA2) genetic mutations that are commonly found in Ashkenazi Jewish patients with pancreatic cancer. Testing for BRCA1 and BRCA2 mutations in relatives of hereditary pancreatic cancer patients may have a significant impact; allowing for early screening, treatment, and resection of pre-malignant tissue or malignant lesions.
This project will build upon prior, successful research on the effectiveness of an interactive computer disk with readable only memory (CD-ROM) for educating women about breast cancer and genetic risk. Prior studies found that an interactive CD-ROM for educating women about breast cancer risk and genetic testing was effective. The program was well received by lay persons and professionals. In a randomized controlled trial conducted at multiple sites, the CD-ROM intervention was highly effective in increasing knowledge, especially among women at low risk of carrying a breast cancer susceptibility gene 1/2 (BRCA1/2) mutation. Researchers now propose to expand the use of the interactive CD-ROM in two innovative ways. The overall goal of this proposal is to evaluate the program as a first-line educational approach for Hispanic women on the Texas-Mexico border, where educational resources about cancer genetics are limited. First, researchers will modify and adapt the program for a primarily Hispanic population, in order to make it culturally and linguistically appropriate to the needs of that audience. Second, researchers will evaluate the program as a first-line educational method among women with a personal or family history of breast cancer. Researchers will compare the effectiveness of the CD-ROM when implemented with and without the guidance of a trained promotora, and in comparison with standard educational materials (usual care condition). The specific aims of this study include: Aim 1: To modify the interactive CD-ROM to: a) make it culturally and linguistically appropriate for Hispanic women residing along the Texas-Mexico border; b) reflect current knowledge about breast cancer genetics; c) add a module to help women prepare to discuss their family history and cancer risk with a health care provider (n=50 participants). Aim 2: To conduct a randomized, controlled evaluation that compares the efficacy of the modified CD-ROM when used alone vs. when used with a promotora-assisted approach vs. standard written materials (n=414 participants).
The researchers have developed and distributed several software packages for pedigree analysis (FAST, CASPAR, PedHunter, IIC) and cancer genetics (oncotree, METREX). Users who need assistance with the software or who want to see new features added often send the researchers data files that include human data. The information is normally coded, and the researchers do not have access to the identification of the people whose information is in the files. Sometimes the content of the files gives rise to collaborations between the software developers and the providers of the files. Because concerns over the confidentiality of medical information have increased significantly over the past few years, the researchers must apply for exemptions from detailed ethics committee oversight for every data set they receive. This process is cumbersome and makes it difficult to assist software users. The amount of information required to apply for an exemption also poses a barrier to collaborations. A full protocol will subject all data sets to ethics committee oversight without the need for individual exemption requests, enabling the researchers to assist users with software problems and to collaborate with other researchers. From January 1, 2000, through December 15, 2001, the researchers received 71 requests for assistance, 19 of which included data files. None of the data files had any names or patient identifiers. Of these 19, in 8 cases the researchers sent back modified output files. In two of these eight cases, the researchers could see results of research interest; one of them concerned human data. In 2 of the 19 cases, the researchers sent back modified input files; in one such case, they established a collaboration with the originator of the files. In sum, most requests come under the heading of customer service, with no research contents. A few, however, do lead to research results or collaborations, for which ethics committee oversight is required. Over the three-year time frame of this protocol, the researchers anticipate receiving data on a maximum of 10,000 individuals. They have modified their software documentation to explicitly instruct users to make sure the data files they send have no names. Should they receive files with names, they will delete the files and ask the originator to resubmit them with names encoded. Users submit data through unencrypted e-mail. The data are stored in password-protected computers at the National Institutes of Health.
In 1997, the Genetics Department of the NCI Medicine Branch helped establish a breast cancer genetics program at the National Naval Medical Center s Breast Care Center. Genetic education, counseling, and germline testing for BRCA1 and BRCA2, two genes which confer increased lifetime risks for breast and ovarian cancer, were offered under a Navy IRB-approved study. Sixty participants received education and counseling on that protocol, 49 of whom chose to have genetic testing. The education and counseling, provided by oncology nurses trained in cancer genetics, focused on preparing participants to make well-informed decisions about testing. Included were information on cancer and genetics; hereditary breast/ovarian cancer syndrome; risks, benefits and limitations of BRCA1/BRCA2 testing; and screening and risk reduction options for high-risk individuals. Through our experience with this study, we devised two different methods of providing this information. Both of these methods were well received and appear to be equally effective, as measured by knowledge assessments before and after the sessions and subjective evaluation by the participants. We will now study them in a randomized fashion in the current protocol, to better evaluate whether one method is preferable. Ultimately we hope to be able to make recommendations that will allow for access to genetic education and counseling for more individuals in a more cost efficient manner.
Background: - Women who have a BRCA1/2 gene mutation have a very high risk of developing breast or ovarian cancer. They are also at increased risk of other developing other cancers. Male carriers are at increased risk for breast, prostate and other cancers. Testing for this mutation and living with this increased risk can be a source of stress for both people with the mutation and their partners. Researchers want to look at how well people adapt to living with this type of cancer risk over time. Objectives: - To see how women with the BRCA1/2 gene mutation and their partners adapt to the stress of long-term cancer risk. Eligibility: - Women at least 18 years of age who have a BRCA1/2 mutation, and their male or female partners. Design: * This study involves a one-time self-administered questionnaire. Participants will be recruited from local and national hereditary cancer support groups and cancer centers. * There are two versions of the survey. One is for the woman with the BRCA1/2 gene mutation. The other is for her partner. * The survey will ask about risk perception, cancer worry, risk-related stress, and coping and adaptation methods. * Treatment will not be provided as part of this study.
Patients with peritoneal metastasis of colorectal or high grade appendiceal origin who are candidates for cytoreductive surgery with HIPEC (hyperthermic intraperitoneal chemotherapy) will be enrolled in this study. Blood collection for measurements of plasma cell-free DNA hydroxymethylation signatures will be performed at different time points, before and after surgery, in order to determine if plasma hydroxymethylation signatures are more sensitive than conventional tumor markers in identifying clinically detectable recurrence at 1 year after surgery.
Background: - Certain genetic mutations are linked to higher rates of cancer. It is important for people with these mutations to tell their families about it. This is because others in the family may also be at greater risk for developing these cancers. They can also pass these genes to their own children. But not much is known about how African Americans tell their family members about the results of their genetic testing. The information from this study can be used to improve genetic counseling services. These services will then be more effective in early cancer detection and prevention in the African American community. Objectives: - To learn more about how African Americans who have tested positive for BRCA1/2 mutations tell their families about their genetic risk. Eligibility: - African American (or of African descent) women who recently received positive test results for BRCA1/2 mutations. Design: * Participants will be screened with a basic medical history. * They will be asked general questions about their personal and family history. These include questions on marital and health insurance status, education, and income. * Those in the study will have a 45- to 60-minute phone interview. They will answer questions about how they told their family members about their genetic test results. They will also be asked what that experience was like.
An increase in early-onset colorectal cancers (eoCRC), defined as a CRC before 50 years, is confirmed globally. CRC pathogenesis has been associated with several risk factors (family history, germline pathogenic variants, obesity, alcohol, physical activity, red meat, and a Western diet). Design: an international, multicenter, retrospective case-control study of prospectively enrolled patients; low-risk intervention study as it will perform a fecal occult blood test Endpoint: predictive power of a semi-quantitative food frequency questionnaire (SQFFQ) developed for eoCRC. Cases: Patients with a recent diagnosis of eoCRC (within 2 years from enrollment). Controls: matched by age (matching range ± 5 years) and sex. Healthy volunteers will be mainly enrolled among workers within the participating hospital center. The enrolled healthy volunteers will perform a fecal occult blood test. Variables of interest: age, sex, ethnicity, BMI at the time of eoCRC diagnosis and at 18 years old, country, tobacco smoking at the time of eoCRC diagnosis and at 18 years old, sitting time, TV-viewing time, moderate-to-vigorous physical activity (MVPA), waist circumference (cm), home blood pressure levels (mmHg), fasting blood glucose (mg/dl), regular consumption of aspirin/NSAID, calcium and folate supplements, oral contraceptive agents, post-menopausal hormones and years of consumptions, if the filled questionnaire reflects diet for the last 5-10 years before. Cases only: date of eoCRC diagnosis, symptoms at diagnosis, eoCRC localization, eoCRC stage, histological diagnosis, type of surgery, and date (if performed), chemotherapy and radiotherapy (if performed), vital status and duration of follow-up, family history of CRC and other cancers (uterus, ovary, stomach, small intestine, urinary tract/bladder/kidney, bile ducts, brain, pancreas, skin tumors), type of germline pathogenetic variant (if performed). Before the case-control study, three non-consecutive 24-hour Dietary Recalls (24hDRs) will validate the SQFFQ. The SQFFQ will be administered to the validation study group during three non-consecutive calls, including one non-weekday (30-minute 24-h-recall computer-aided personal interview). Primary Objective To measure the relative risk of specific dietary and lifestyle factors (smoking habit, alcohol intake, physical activity) for early-onset colorectal cancer in countries where eoCRC incidence is increasing versus stable/decreasing
The primary objective of this specimen correlative study is two-fold: to provide a mechanism for the association of known molecular alterations with clinical outcomes, and to provide rapid genetic profiling of alterations with known clinical utility using tumor and germline specimens to support treatment decisions.
This study will identify genes that predispose men to prostate cancer and affect the rate and type of disease spread, the aggressiveness of the disease, and the long-term outcome. Several studies show there is a genetic component to prostate cancer susceptibility, and that a first-degree relative with prostate cancer increases a man's risk 2- to 3-fold compared to those without a family history. The risk is significantly higher if the relative was diagnosed at younger than 65 years of age, or if three or more first-degree relatives are affected. The study will try to locate prostate cancer genes in DNA samples using two methods: linkage analysis and association studies. Traditionally, the search for a disease gene begins with linkage analysis, in which the aim is to find the rough location of the gene relative to another DNA sequence, called a "genetic marker," whose position is already known. In genetic association studies, genes from a large number of patients are compared with healthy controls who are matched by age, race, and geographic region. DNA samples for this study come from patients in the two following studies at the Fred Hutchinson Cancer Research Center, Seattle, Washington: Family study: Participants are families with prostate cancer who have: 1) three or more first-degree relatives with prostate cancer; 2) three generations with prostrate cancer either through the maternal or paternal side of the family; or 3) two first-degree relatives with prostate cancer diagnosed before age 65 or who were African American. Population-based study: Participants are patients with prostate cancer and matched healthy control subjects. The identification of prostate cancer genes important in susceptibility to the disease and its aggressiveness may permit earlier detection and development of more directed and effective treatments based on underlying genetics.
To evaluate an alternative clinical genetics cancer care delivery model, using non-genetic providers to introduce and order genetic testing. 250 prostate and 250 pancreatic patients will be recruiting. They will undergo genetic testing and complete study questionnaires. Results from this pilot study will be used to inform the strategies used by the Clinical Risk Evaluation Program (CREP) Genetic Counelors (CGS) and GI/GU physicians to deliver genetic testing and return genetic risk information to patients with prostate or pancreatic cancer.
This study will evaluate patients' experiences with having gynecologic or prostate medical oncologists and surgeons offer them genetic testing, and having genetic counselors return the test results to patients over the telephone. This is different from the usual approach to genetic testing, where gynecologic or prostate medical oncologists and surgeons refer their patients to a genetic counselor in order to have these tests done, and the genetic counselors return the test results to the patient in person or over the telephone. The investigators will only be evaluating this alternative way of providing genetic testing to ovarian or prostate cancer patients.
The goal of this observational study is to learn more about how genes impact the risk of breast cancer. Anyone 18 or older living in the US is eligible, and a diagnosis of cancer is NOT required. Study participation is online, and it takes about 20 minutes to complete health surveys and request a saliva collection kit sent through US mail. In return, study participants may opt to receive information about their genetic ancestry at no cost.
The GAP Study is a prospective cohort study designed to comprehensively investigate genetic variations that may contribute to cancer development among individuals diagnosed with appendix/appendiceal cancer who are ages 18+ years.
This trial studies the genetic and behavioral factors that may contribute to the development of specific cancers and how these factors may affect the outcome of the disease in patients with a history of cancer and their relatives.
The purpose of this study is to see how people's diets, other aspects of their lifestyles, and their individual genetic makeup affect their chances of getting endometrial cancer (cancer of the uterus). This survey will enroll several hundred women who have or have had endometrial cancer and several hundred who do not. We will compare these two groups of women to see what factors may lead to endometrial cancer.
The goal of this clinical research study is to collect information and blood samples to try to learn why some people develop cancers and tumors, why some families have more cancers than others, and whether certain genes or regions of DNA (the genetic material of cells) affect a person's risk of getting cancer. This is an investigational study. Up to 1500 patients and family members will take part in this study. All will be enrolled at MD Anderson.
This study is a collaboration between the Clinical Genetics Branch of the National Cancer Institute and the International Testicular Cancer Linkage Consortium (ITCLC). The primary goal of the ITCLC is mapping and cloning susceptibility genes for familial TGCT. The objectives of the current study are to: * Identify the genes responsible for testicular germ cell tumor (TGCT) (testicular cancer) in families with an inherited tendency to develop the disease * Determine if the genes which predispose to developing testicular cancer also increase the risk of other specific types of cancer among first- and second-degree relatives of patients with TGCT * Determine if the microscopic appearance of familial testicular cancers is different from that of non-familial TGCT Patients and family members recruited by the ITCLC in the United Kingdom, the Netherlands, and Norway are eligible for this study. Individuals with the following medical criteria may participate: * Patients with testicular germ cell cancer who have at least one other blood relative with the disease * Family members of patients (first- and second-degree relatives) Participants undergo the following procedures: * Fill out questionnaires for providing information about a history of cancer in all blood relatives, including parents, siblings, children, grandparents, aunts, uncles, and cousins, and a history of undescended testes in male blood relatives. Participants may be asked permission to contact family members to request their help in the study as well. * Provide a blood sample for genetic testing related to TGCT (except in children under 16 years old). * Review of medical records and examination of tumor specimen (patients with TGCT only). * Confirmation of the diagnosis of other types of cancer in these same families (medical records, pathology repots) * Review of the testicular cancer tissue obtained at the time of surgery from members of multiple case families, and comparison of these findings with a series of TGCT which have developed in men without a family history.
The overall objective of this study is to use patient-centered in vitro and in vivo models to answer the fundamental question of whether or not pathogenic mutations in BRCA1/2 result in an increased risk of CV disease
Improving current strategies for detection of early stage disease can impact favorably on long-term survival of women with ovarian cancer. To reduce the morbidity and mortality of ovarian cancer, screening for this disease must detect early stage disease rather than advanced stage disease. Thus the challenge for the future is to identify and develop highly sensitive and specific tumor markers that can be applied to population-based screening for the early detection of ovarian cancer.
The investigators will perform a pilot implementation study of a default genetics referral process among patients with young-onset CRC diagnosed between ages 40 and 49.
Background: Clinical Genetics Branch (CGB) researchers study individuals and populations at high genetic risk of cancer in order to improve our understanding of cancer and to improve cancer care. There are currently 8 open clinical genetics studies at the CGB. * 001109: Defining the Natural History of Squamous Cell Carcinoma in Fanconi anemia (SCC Screening in FA). * 20C0107: Clinical, Genetic, and Epidemiologic Study of Children and Adults with RASopathies (RASopathies Study). * 02C0052: Etiologic Investigation of Cancer Susceptibility in Inherited Bone Marrow Failure Syndromes: A Natural History Study (Cancer in Bone Marrow Failure). * 11C0255: Clinical, Epidemiologic, and Genetic Studies of Li-Fraumeni Syndrome (Li Fraumeni Syndrome Study). * 11C0034: DICER1-Related Pleuropulmonary Blastoma Cancer Predisposition Syndrome: A Natural History Study (Pleuropulmonary Blastoma). * 02C0211: Clinical, Laboratory, and Epidemiologic Characterization of Individuals and Families at High Risk of Melanoma (Melanoma-Prone Families). * 78C0039: Clinical, Laboratory, and Epidemiologic Characterization of Individuals and Families at High Risk of Cancer (Cancer-prone families study). * 10CN188: Genetic Clues to Chordoma Etiology: A Protocol to Identify Sporadic Chordoma Patients for Studies of Cancer-susceptibility Genes (Sporadic Chordoma Study). Objective: To find people to participate in active CGB cancer research studies. Eligibility: People of any age who meet the eligibility criteria for one of the open CGB cancer research studies. This typically involves a personal or family history of certain cancers that are being studied by researchers at CGB. Design: Participants will fill out a screening questionnaire to determine if they are eligible to participate in one or more CGB clinical genetics studies. The survey asks about personal health history, including cancer; their family history; and genetic testing results and takes 15 to 20 minutes. Each study has its own eligibility criteria. Survey respondents will respond with study (or studies) that are interested in participating in, and the relevant study team(s) will review the screener to determine eligibility to participate in the study. Participants who are determine to be eligible for a study based on their screener will be contacted by the respective study team to learn more about the study and to consent to enroll in the study if they choose to do so. Participants who consent to enroll in a study will be asked to provide medical records and samples such as blood, saliva, or other tissues and to participate in activities such as phone interviews or surveys. They may be invited for evaluations at the clinical center. Every study activity is voluntary. None of the studies provide treatments. Participants may be contacted to consider enrolling in future studies.
The goal of this clinical trial is to address care gaps for participants at high risk of breast and ovarian cancer (HBOC), or Lynch syndrome (LS) because of testing positive for specific genetic variants. A patient-centered clinical decision support (PC-CDS) tool will help identify participants with genetic variations and display recommendations for referrals and testing to the clinician and participant at a primary care visit. The main question the study aims to answer is: - Does clinical decision support for participants with hereditary cancer syndromes improve the use of evidence-based cancer prevention care. Participants being seen in the PC-CDS group are compared to participants being seen in usual care (UC) to see if they are up to date on guideline-based cancer prevention care and to see if participants in the PC-CDS group report more shared decision making and higher rates of self-management of their genetic cancer risks. Participants will be asked to answer survey questions.
This study collects health and genetic information to implement cancer prevention and treatment strategies.
This clinical trial is studying advanced solid tumors. Solid tumors are cancers that start in a part of your body like your lungs or liver instead of your blood. Once tumors have grown bigger in one place but haven't spread, they're called locally advanced. If your cancer has spread to other parts of your body, it's called metastatic. When a cancer has gotten so big it can't easily be removed or has spread to other parts of the body, it is called unresectable. These types of cancer are harder to treat. Patients in this study must have cancer that has come back or did not get better with treatment. Patients must have a solid tumor cancer that can't be treated with standard of care drugs. This clinical trial uses an experimental drug called PF-08052666/SGN-MesoC2. PF-08052666/SGN-MesoC2 is a type of antibody-drug conjugate (ADC). ADCs are designed to stick to cancer cells and kill them. They may also stick to some normal cells. This study will have 3 parts. Part A and Part B of the study will find out how much PF-08052666/SGN-MesoC2 should be given to participants. Part C will use the information from Parts A and B to see if PF-08052666/SGN-MesoC2 is safe and if it works to treat solid tumor cancers.
This clinical trial is studying lymphoma. Lymphoma is a cancer that starts in the blood cells that fight infection. There are several types of lymphoma. This study will enroll people who have classical Hodgkin lymphoma (cHL), peripheral T cell lymphoma (PTCL), or diffuse large B cell lymphoma (DLBCL). This clinical trial uses a drug called PF-08046044/SGN-35C . The study drug is in testing and has not been approved for sale. This is the first time SGN -35C will be used in people. This study will test the safety of SGN-35C in participants with lymphoma. It will also study the side effects of this drug. A side effect is anything a drug does to the body besides treating the disease. This study will have three parts. Parts A and B of the study will find out the best dose and dosing schedule for SGN-35C. Part C will use the dose found in parts A and B to find out how safe SGN-35C is and if it works to treat select lymphomas.
This clinical trial is studying solid tumor cancers. A solid tumor is one that starts in part of your body like your lungs or liver instead of your blood. Once they've grown bigger in one spot or spread to other parts of the body, they're harder to treat. This is called advanced or metastatic cancer. Participants in this study must have breast cancer or gastric cancer. Participants must have tumors that have HER2 on them. This allows the cancer to grow more quickly or spread faster. There are few treatment options for patients with advanced or metastatic solid tumors that express HER2. This clinical trial uses an experimental drug called disitamab vedotin (DV). Disitamab vedotin is a type of antibody drug conjugate or ADC. ADCs are designed to stick to cancer cells and kill them. This clinical trial uses a drug called tucatinib, which has been approved to treat cancer in the United States and some other countries. This drug is sold under the brand name TUKYSA®. This study will test how safe and how well DV with tucatinib works for participants with solid tumors. This study will also test what side effects happen when participants take these drugs. A side effect is anything a drug does to the body besides treating the disease.
This clinical trial is studying advanced solid tumors. Solid tumors are cancers that start in a part of your body like your lungs or liver instead of your blood. Once tumors have grown bigger in one place but haven't spread, they're called locally advanced. If your cancer has spread to other parts of your body, it's called metastatic. When a cancer has gotten so big it can't easily be removed or has spread to other parts of the body, it is called unresectable. These types of cancer are harder to treat. Participants in this study must have cancer that has come back or did not get better with treatment. Participants must have a solid tumor cancer that can't be treated with standard of care drugs. This clinical trial uses an experimental drug called PF-08046050. PF-08046050 is a type of antibody-drug conjugate or ADC. ADCs are designed to stick to cancer cells and kill them. They may also stick to some normal cells. This study will test the safety of PF-08046050 in participants with solid tumors that are hard to treat or have spread throughout the body. This study has 5 different study parts. Part A and Part B of the study will find out how much PF-08046050 should be given to participants. Part C will use the information from Parts A and B to see if PF-08046050 is safe and if it works to treat certain solid tumor cancers. Part D of the study, together with information from Parts A and B, will find out how much PF-08046050 should be given to participants in combination with bevacizumab. Part E will use the information from Parts A, B, and D to see if PF-08046050 is safe in combination with bevacizumab and if it works to treat a certain solid tumor.
This clinical trial is studying lymphoma. Lymphoma is a cancer that starts in the blood cells that fight infections. There are several types of lymphoma. This study will enroll people who have lymphoma, such as classical Hodgkin lymphoma, peripheral T-cell lymphoma including systemic anaplastic large cell lymphoma, diffuse large B-cell lymphoma, or some types of primary cutaneous lymphoma. This clinical trial uses a drug called PF-08046045/SGN-35T. The study drug is in testing and has not been approved for sale. This is the first time PF-08046045 will be used in people. The study drug will be given as an infusion through a vein. This study will test the safety of PF-08046045 in participants with lymphoma. It will also study the side effects of this drug. A side effect is anything a drug does to the body besides treating the disease. This study will have three parts. Parts A and B of the study will find out the best dose and dosing schedule for PF-08046045. Part C will use the dose found in parts A and B to find out how safe PF-08046045 is and if it works to treat select lymphomas.