13 Clinical Trials for Various Conditions
This pilot clinical trial studies a culturally-informed counseling intervention in Latinas at high risk for hereditary breast or ovarian cancer. A culturally-informed counseling intervention may be an effective method to help people learn more about their cancer risk.
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 pilot clinical trial studies different types of energy balance interventions to see how well they work in increasing the physical activity levels of breast cancer gene-positive patients, Lynch syndrome-positive patients, chronic lymphocytic leukemia (CLL) survivors or family members of cancer survivors who are at high risk for cancer. Increasing exercise and eating healthy foods may help reduce the risk of cancer. Studying how well different types of interventions work in motivating cancer survivors or high-risk family members to increase exercise and healthy food choices may help doctors plan the most effective motivational program for cancer prevention.
This study aims to define the natural history of men at high genetic risk for prostate cancer on the basis of specific germline genetic mutations, family history, or Black/African ancestry and evaluate the utility of prostate MRI as a screening tool. The hypothesis is that this targeted population of men are at elevated risk of developing prostate cancer compared to the general population, and enhanced screening with MRI will enable early detection and diagnosis of potentially aggressive prostate cancer, characterization of the penetrance of specific mutations, and potentially identify new genetic risk mutations.
This phase II trial studies how well surgery works in preventing ovarian cancer in patients with genetic mutations at risk of ovarian cancer. Risk reducing salpingo oophorectomy (RRSO) is surgery to remove the fallopian tubes and ovaries at the same time. Interval salpingectomy with delayed oophorectomy (ISDO) is surgery to remove the fallopian tubes. It is not known whether ISDO works better than RRSO at lowering risk of ovarian cancer and improving the sexual function and psychosocial well-being in patients with genetic mutation.
100 subjects who have a family history of pancreatic cancer (PC), or known genetic syndromes associated with increased risk of pancreatic cancer, will be followed for five years. This data will be used to determine the pancreatic cancer and precancerous lesion detection rate in High Risk Individuals (HRIs). Subjects may agree to annual imaging and annual biomarkers or to biomarkers only.
Johns Hopkins clinical research office quality assurance group will monitor and audit this study at Johns Hopkins. The Sub Investigator at each site will be responsible for internal monitoring at their site.
This phase I trial studies the side effects and best dose of veliparib in treating patients with malignant solid tumors that do not respond to previous therapy. Veliparib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
This phase I trial is studying the side effects and best dose of veliparib when given together with carboplatin and paclitaxel in treating patients with advanced solid cancer. Veliparib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Drugs used in chemotherapy, such as carboplatin and paclitaxel, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Giving veliparib together with carboplatin and paclitaxel may help kill more tumor cells.
The purpose of this study is to find the best and most sensitive screening modality (CT, MRI, EUS)for very small pre-cancerous pancreatic lesions and to treat these small lesions before they turn into cancer. Another purpose of this study is to search for common markers on DNA that would increase the chance of someone developing pancreatic cancer, and locate proteins in pancreatic juice that indicate tumor development.
Individuals and families with known or suspected syndromes that include breast, ovarian or genetically-related cancers are enrolled in this family study, which is a syndrome-specific sub-set of the long-standing DCEG Human Genetics Program umbrella family studies protocol (78-C-0039). Cancer outcomes are documented through review of medical, vital, and pathology records. Selected individuals and family members are asked to complete questionnaires to assess etiologic risk factors and to undergo clinical evaluations specifically tailored to the relevant familial syndrome. Study participants are monitored prospectively for the development of outcomes of interest, typically by means of periodic mail or telephone contact. In selected instances, subjects may return to the Clinical Center periodically for study-specific follow-up examinations. Study participants are asked to donate biologic specimens to be used in the laboratory search for cancer etiology and mechanisms of carcinogenesis. DNA and serial serum samples will be collected. Tumor tissue will be obtained whenever feasible. Clinical genetic testing for tumor susceptibility gene(s) mutations and risk notification will be offered consistent with ASCO guidelines when reasonable individual cancer risk estimates can be delivered, and only to those participants who choose to know their individual genetic status after appropriate education and counseling. The testing will be conducted exclusively in Clinical Laboratory Improvement Amendments (CLIA)-licensed laboratories. Clinical genetic testing and risk notification are entirely optional and do not affect subject eligibility for other aspects of the protocol. A separate consent procedure and consent form will be used for genetic testing and risk notification. This protocol, developed in response to recommendations developed by the Clinical Center IRB, is intended to: 1. Provide a mechanism under which the Clinical Genetics Branch can honor the commitment made to the members of over 60 hereditary breast/ovarian cancer families which have been participated in various Human Genetics Program research studies conducted over the past 3 decades to provide genetic counseling, clinical germline mutation testing, and consultative services now that several of the major breast/ovarian cancer susceptibility genes have been identified; 2. Provide a mechanism through which new families with various familial syndromes associated with an increased risk of breast and ovarian cancer can be studied, as research interests in these syndromes evolve over time; and 3. Create a resource of well-characterized, carefully documented high-risk families to facilitate the development of new etiologic and translational research studies in the future. While we do not offer specific anti-cancer therapy as part of this protocol, we provide assistance to ensure that study participants who require treatment for problems that develop during the course of the study are referred to appropriate health providers. We remain available to provide advice and consultation related to the management of the familial cancer syndrome to study participants and their health care providers.
The purpose of this study is to establish a registry of patients with pancreatic diseases. Patients included in the registry may include those with: pancreatic cancer, precancerous lesions of the pancreas, inflammatory lesions of the pancreas, cystic lesions of the pancreas, and patients at high-risk of pancreatic cancer such as those with a family history of pancreatic cancer or with a family history of a syndrome known to be associated with pancreatic cancer. Pancreatic cancer is the fourth leading cause of death from cancer in the United States. However, little is known about the development of pancreatic cancer and pancreatic diseases in individuals with the above conditions. Knowledge of how family history, environmental exposures, and inflammatory lesion of the pancreas contribute to the development of pancreatic cancer and pancreatic diseases is essential. You may qualify to take part in this research study because you have inflammation in the pancreas, a pancreatic cyst, pre-cancerous lesions of the pancreas, pancreatic cancer, a family history of pancreatic cancer, or a family history of a syndrome known to be associated with pancreatic cancer. We will also be collecting a blood sample from all participants for DNA isolation. Sometimes we are born with genes or DNA that give us an increased or decreased chance of developing an illness later in life. Genetic material will be isolated from your blood for further study. You may also choose to provide additional blood samples for serum and plasma extraction. Serum and plasma are components of the blood which can be used to measure indicators of disease in the blood, called biomarkers,for pancreatic diseases. Clinical data and biological specimens contained in this study may be used for a wide variety of future related studies to the cause, diagnosis, outcome and treatment of pancreatic cancer. Funds for conducting this research are provided by Mount Sinai.
Background: Research studies have shown that genetic changes and family history may increase a man s risk for prostate cancer. Researchers want to follow the prostate health of men who have specific genetic changes associated with prostate cancer to help them learn more about which men are at higher risk for prostate cancer. Objectives: To study men with specific genetic changes and determine who is at higher risk for getting prostate cancer. To study if certain genetic changes and family history can be used to help prevent or treat prostate cancer. Eligibility: Males between ages 30-75 who have one or more specific genetic changes but without prostate cancer. Design: * This study does not perform genetic testing. All participants must have documented genetic changes and able to provide a copy of the report. * Before enrollment, participants will provide a copy of documented genetic changes and go through a telephone interview to determine eligibility for the study. * On enrollment, participants will have medical and family history review, medication review, physical exam, blood collection for clinical and research testing, and MRI (magnetic resonance imaging) of the prostate. * Every year, participants will repeat the physical exam, medical history, family history, medication review, routine blood tests, including PSA and testosterone. * Every 2 years, participants will repeat all the above plus prostate MRI and blood tests for research. * If, at any time, the physical exam, blood tests or MRI are abnormal, participants may be asked to do a biopsy. * If the biopsy results in prostate cancer, participants will be given counseling on next steps, general treatment recommendations, and then followed with a phone call each year. * Participants may ask to speak with a genetic counselor.