View clinical trials related to Genetic Predisposition.
Filter by:This is a retrospective analysis of data collected within two previous studies. The data has been combined and used to investigate the impact of having a family history of hypertension on left ventricular muscle mass with and without controlling for moderate and vigorous intensity physical activity frequency per week. The hypothesis was that in a sample of mostly active participants, no differences in left ventricular mass between family history of hypertension groups would be observed, but the positive family history of hypertension group would have elevated left ventricular mass compared to the negative family history of hypertension group following statistical control of activity frequency.
A total genotype risk score was generated based on the findings of previous research for non-contact injury, non-contact muscle injury, tendon injury, ligament injury, fracture injury and apophysitis injury. This score was then compared with the incidence of injury between those with high, medium and low risk scores for each injury. The influence of different rates of growth, stages of physical maturation and loading exposure were then also included in the risk model to see if any interaction effects could be observed between genetic risk score and susceptibility to injury in different categories of growth, maturation and loading exposure.
To learn about patient barriers to accessing genetic medicine, we will analyze anonymous posts from a membership-based online community [Inspire.com], and investigate how these barriers differ for various populations. We will then test whether these barriers can be addressed by providing online access to a genetic counselor to answer patient questions for one group of patients (virtual advisory board group) and compare to that of a control group who does not have access to a genetic counselor (virtual peer-to-peer board group).
Living donor (LD) kidney transplantation is the optimal treatment for patients with end-stage kidney disease (ESKD). However, LDs take on a higher risk of future ESKD themselves. African American (AA) LDs have an even greater, 3.3-fold, risk of ESKD than white LDs post-donation. Because evidence suggests that Apolipoprotein L1 (APOL1) risk variants contribute to this greater risk, transplant nephrologists are increasingly using APOL1 testing to evaluate LD candidates of African ancestry. However, nephrologists do not consistently perform genetic counseling with LD candidates about APOL1 due to a lack of knowledge and skill in counseling about APOL1. Without proper counseling, APOL1 testing will magnify LD candidates' decisional conflict about donating, jeopardizing their informed consent. Given their elevated risk of ESRD post-donation, and AAs' widely-held cultural concerns about genetic testing, it is ethically critical to protect AA LD candidates' safety through APOL1 testing in a culturally competent manner to improve informed decisions about donating. No transplant programs have integrated APOL1 testing into LD evaluation in a culturally competent manner. Clinical "chatbots," mobile apps that use artificial intelligence to provide genetic information to patients and relieve constraints on clinicians' time, can improve informed treatment decisions and reduce decisional conflict. The chatbot "Gia," created by a medical genetics company, can be adapted to any condition. However, no chatbot on APOL1is currently available. No counseling training programs are available for nephrologists to counsel AA LDs about APOL1 and donation in a culturally competent manner. Given the shortage of genetic counselors, increasing nephrologists' genetic literacy is critical to integrating genetic testing into practice. The objective of this study is to culturally adapt and evaluate the effectiveness of an APOL1testing program for AA LDs at two transplant centers serving large AA LD populations (Chicago, IL, and Washington, DC). The APOL1 testing program will evaluate the effect of the culturally competent testing, chatbot, and counseling on AA LD candidates' decisional conflict about donating, preparedness for decision-making, willingness to donate, and satisfaction with informed consent. The specific aims are to: 1. Adapt Gia and transplant counseling to APOL1 for use in routine clinical practice 2. Evaluate the effectiveness of this intervention on decisional conflict, preparedness, and willingness to donate in a pre-post design 3. Evaluate the implementation of this intervention into clinical practice by using the RE-AIM framework to longitudinally evaluate nephrologist counseling practices and LDs' satisfaction with informed consent. The impact of this study will be the creation of a model for APOL1 testing of AA LDs, which can then be implemented nationally via implementation science approaches. APOL1 will serve as a model for integrating culturally competent genetic testing into transplant and other practices to improve patient informed consent.
VISAGE-ONCO study is a qualitative transversal study aiming to identify and describe processes and mechanisms that explain in cancerology the feelings and experience of patients and health professionals with regard to the possibility of having access to secondary findings generated by the use High-speed exome sequencing . Semi-structured interviews will be conducted with patients and health professionals to answer this aims from 2 situations. The first situation is in the context of the standard practice for theranostic purposes, where somatic and constitutional analysis of the various genes involved in carcinogenesis is carried out systematically in parallel. Patients are informed that the analysis of these genes may reveal the existence of a genetic predisposition to another type of cancer than the one for which patients have consulted, with a risk for themselves or their relatives, which could modify their management. This targeted information on genetic predisposition genes to cancer is therefore provided as part of standard management for theranostic purposes, but without any detailed exploration of the reasons why patients wanted to be informed. The second situation is in the framework exome analysis position in the strategy of genetic redisposition factors identification in early-onset cancer study (EX²TRICAN NCT04141462) where all the genes identified in human pathology are part of the analysis. Patients have the possibility of accessing a result concerning a gene that may or may not be linked to a hereditary cancer risk if patients have ticked off in the consent form the wish to be informed. Therefore, two distinct questions arise: - That of understanding the wish of patients to be given back actionable data which can be identified in a fortuitous way within the framework of standard management for theranostic purposes and in EX²TRICAN, by taking into account the fact that these data can constitute an opportunity for the patient in terms of management; but patients also constitute a risk of transmission for they relatives, and a psychological risk by the anxiety generated; - The wish to have access - or not - to data which are not actively sought today within the framework of standard care for theranostic purposes and in EX²TRICAN (genetic alterations increasing the risk of cardiovascular or metabolic diseases), but which could be proposed in a systematic way in the future because of their actionable character.
The purpose of the Pancreatic Cancer Early Detection (PRECEDE) Consortium is to conduct research on multiple aspects of early detection and prevention of pancreatic ductal adenocarcinoma (PDAC) by establishing a multisite cohort of individuals with family history of PDAC and/or individuals carrying pathogenic/likely pathogenic germline variants (PGVs) in genes linked to PDAC risk for longitudinal follow up.
This project aims to assess if food choice is impacted by loss aversion (LA), and if this differs based on genetic predisposition to LA, in a UK healthy cohort.
AF is the most common sustained arrhythmia in adults and its prevalence increases with advancing age. In this study, we aim to determine whether the published genome-wide polygenic scores for atrial fibrillation (GPSAF) can facilitate AF screening by accurately discriminating between patients with low and high risk for AF. All included patients are participating in the MHI biobank, an ongoing funded institutional DNA bank and clinical registry approved by the research ethics board where included patients consent for future genetic research. The study will compare AF detection rate using a 3 months near continuous monitoring in individuals with a high GPSAF with matched individuals from the bottom GPSAF.
The investigators aim to study the pattern and frequency of pathogenic variants among ALL newly diagnosed cancer patients in a genetically distinct population. Additionally, the investigators will study the uptake rate of "cascade family screening", frequency of pathogenic variants and barriers against testing.
Covid-19 outbreak has caused death of millions of people because of not only the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection itself but also infection dependent complications. Abnormalities in thrombotic events leads to some of these complications which eventually result in emboli. The endothelial damage caused by the virus interacting with ACE2 on the host cells leads to the activation of coagulation cascade. Accumulation of byproducts of the cascade might have some roles in embolism inducing risk of organ damage, other life-threatening problems, and even death. To enlighten the factors triggering embolism, the investigators have focused on genetic changes such as polymorphisms and mutations in certain genes in DNA samples coming from intensive care unit (ICU) patients.