Search clinical trials by condition, location and status
This clinical trial tests whether various web-based tools can help improve communication about hereditary cancer risk in families and decrease barriers to genetic testing for relatives of patients with hereditary cancer syndromes. Between 5% and 10% of all cancers are caused by genetic changes that are hereditary, which means that they run in families. Some kinds of cancer or certain cancers diagnosed in biological relatives may mean patients are more likely to have a genetic change. Once a genetic change is identified in a family, other biological relatives can choose to undergo testing themselves to better understand their cancer risk. The uptake of genetic testing in other biological relatives once a genetic condition is identified is about 20% to 30%. The Cascade Genetic Testing Platform is a virtual tool that seeks to overcome barriers related to logistics of family communication and improve dissemination of genetic testing information which is clinically actionable for individuals at highest risk for cancer. Using the Cascade Genetic Testing Platform may improve ways to share information about hereditary risk with biological relatives.
To identify Black individuals who are eligible for genetic testing through trusted community organizations, and to connect Black individuals and their families to genetic testing and counseling so that they can know their cancer risk and how to decrease it.
Identifying women at risk for hereditary cancer potentiates prevention, early detection or personalised treatment against cancer. We using mobile mammography units will provide genetic sceening and testing services to underserved women coming for thier mammograms to these units.
In this study, the investigators aim to compare a mobile health platform, known as a 'chatbot,' that leverages artificial intelligence and natural language processing to scale communication, to 'usual care' that patients would receive. This comparison will enable the investigators to determine if the chatbot system can improve rates of recommendation for genetic testing among patients at elevated risk of harboring a familial cancer syndrome in an all-Medicaid gynecology clinic. Furthermore, the investigators aim to evaluate facilitators of inequity in regard to patient access to and utilization of genetic testing services.
This randomized non-inferiority study will use a 2x2 design where traditional standard-of-care pre-test (visit 1) and post-test (visit 2: disclosure) counseling delivered by a genetic counselor are replaced with a self-directed web-based eHealth intervention to provide critical data to inform optimal ways to deliver clinical genetic testing in eligible individuals, while maintaining quality of care and favorable cognitive, affective and behavioral outcomes.
Background: A germline mutation is a change to a person s genes that is carried through their DNA. These mutations can be passed on from parents to their offspring. Germline mutations in a gene called BAP1 are linked to the development of mesothelioma and other cancers. Researchers want to follow people with these mutations to learn more. Objective: To see if researchers can improve how people who have or are suspected to have a BAP1 mutation are monitored over time. Eligibility: People age 30 and older who are suspected to have a BAP1 germline mutation. Design: Participants will be screened with a personal and family medical history. Their medical records may be reviewed. They will give a blood or saliva sample to test for a BAP1 mutation. They will get genetic counseling. To take part in this study, participants will enroll on 2 to 3 other protocols. Participants will have a physical exam. They may have a tumor biopsy. They will give blood and urine samples. They will have skin and eye exams. Some participants will have video-assisted thoracoscopy to examine the chest and lungs and diagnose suspicious areas. For this, a small camera is inserted into the chest through a small incision. Some participants will have laparoscopy to examine the organs inside the abdomen. For this, a small camera is inserted into the abdomen through a small incision. Participants will have imaging scans of the chest, abdomen, and pelvis. They may have brain scans. Participants will visit the NIH once a year for follow-up exams. Participation lasts indefinitely.
The NFPTR was established in 1994 to find the causes of pancreatic cancer. In brief, the investigators are interested in both the genetic and non-genetic causes of pancreatic cancer. The investigators are particularly interested in finding the genes that cause pancreatic cancer to cluster in some families. Up to 10% of pancreatic cancer patients have another close relative who has also developed pancreatic cancer. This clustering of pancreatic cancers in families has yet to be explained; however, the investigators continue to identify new familial pancreatic cancer genes that explain this clustering in subsets of families. For example, in 2009 and 2012 the investigators discovered that mutations in the PALB2 and ATM genes jointly account up to 5% of the clustering of pancreatic cancer in families.
The goal of this observational study is to increase genetic education and genetic testing for hereditary cancer risk among Black cancer survivors. The study will: 1. Test the effectiveness of a chatbot intervention (also called relational agent, or RA) vs. enhanced usual care (EUC) on engagement in genetic education and requests for genetic testing. 2. Evaluate the impact of the chatbot vs. EUC on the process that participants use to make decisions and evaluate effects on well-being (also called psychosocial outcomes). 3. Explore the ways (methods) that influence how participants experience the intervention. The main questions this study aims to answer are which group - the chatbot (RA) group or the EUC group - is more likely to request genetic testing and which group is more likely to get (engage with) genetic education. Participants will be randomly assigned to either the chatbot (RA) group or EUC group. This means each participant has an equal chance of being placed in either group, just like flipping a coin. Each group will receive genetic education and have an opportunity to request genetic testing. Researchers will compare the chatbot (RA) group and the EUC group to see which may request more GT (genetic testing) and which group engages more with genetic education.
The primary aim of this study is to collect and store data, tissue, and personal and family histories from patients being screened for colorectal cancer and/or endometrial cancer at NYPH and WCM for routine clinical care and to make these available for future use for molecular and mechanistic studies.
This clinical trial tests whether provider-mediated communication of genetic testing results to at-risk relatives of cancer patients can help improve genetic counseling and testing rates. Approximately 15% of people with cancer have an inherited form of cancer due to changes in a gene that they have inherited from one of their parents. These changes increase a person's risk for developing cancer. Most people who have an inherited harmful change in a cancer risk gene don't know that they have it and are therefore not able to get the health care that they need. The primary reason for this problem has been a lack of genetic counseling and testing for cancer patients and patients with a strong family history of cancer. Another reason for this lack of awareness is that, when cancer runs in a family, the patient who carries the gene change usually has to communicate the genetic risk information to their family members. When this process doesn't work well, family members may not know that they need to get genetic testing and then may not get potentially life-saving care. Provider-mediated contact to discuss genetic test results may help improve rates of genetic testing among at-risk relatives of patients with a family cancer syndrome.