View clinical trials related to Genetic Disease.
Filter by:The overall goal of this study is to promote awareness of Familial Hypercholesterolemia (FH). The investigators aim to enroll patients with suspected FH into the study and will randomize them to receive usual care or motivational interview. Primary study outcomes include knowledge of FH, as well as clinical and patient-reported outcomes. This study aims to promote optimal disease management and improve outcomes of FH patients.
Rationale: Childhood cancer survivorship attracts attention globally, because successes in treatment have led to increasing number of survivors who reach adulthood, in which survivorship issues affecting health-related quality of life (HRQoL) become prominent. Most paediatric patients are treated intensively with irradiation and/or chemotherapy, which put them at risk for early and/or late adverse medical and psychosocial events. In contrast, much less is known about adolescent and young adult (AYA) cancer patients, diagnosed between 18-39 years, who, with an 80% chance to survive, also have a long life ahead. AYA cancer patients, much more than children, suffer from delay in diagnosis, lack of centralization of care, ageadjusted expertise, and AYA follow-up care. AYAs typically present with a rare tumour: either with a paediatric malignancy (e.g. acute lymphoblastic leukaemia, paediatric brain tumours), a more typical tumour of AYA age (e.g. Hodgkin's disease, germ cell cancer, melanoma, thyroid cancer) or with an adult tumour at unusual young age (e.g. gastrointestinal, lung, breast carcinomas). Next to these differences in epidemiology, the tumour biology, developmental challenges (e.g. forming relationships, becoming financially independent, having children) and treatment regimens differ between AYAs and children, and therefore findings derived from childhood cancer survivors cannot be extrapolated to AYAs. Furthermore, novel treatments with targeted agents or immunotherapy are more likely to be administrated to AYAs compared to children. Finally, a rare group of incurable AYA cancer patients will survive for many years, for whom health outcome and supportive care intervention data are lacking. Globally, so far, the identification of AYA cancer patient subgroups that might be more susceptible to poor health outcomes has not been systematically addressed. The role of sociodemographic and treatment-associated risks, external exposures (e.g. lifestyle) and host factors (e.g. genetic, biological, physiological); or combinations of influences for impaired (agespecific) health outcomes, remains largely unknown. Understanding who is at risk and why will support the development of evidence-based AYA prevention, treatment and supportive care programs and guidelines, in co-creation with AYA cancer patients. Objective: To examine the prevalence, risk factors and mechanisms of impaired health outcomes (short- and long-term medical and psychosocial effects and late effects) over time among a population-based sample of AYA cancer patients. Study design: Prospective, observational cohort study Study population: All AYAs diagnosed (18-39 years at primary diagnosis) with cancer (any type) within the first 3 months after diagnosis (eligibility window of 1 month to ensure all eligible AYA cancer patients can be included) in one of the participating centres (or treated in one of these centres) in The Netherlands. Main study parameters/endpoints: The main outcomes are medical (e.g. second tumour; survival; fertility) and psychosocial (e.g. distress) health outcomes. Other study parameters (covariates/moderators/mediators) are characteristics of the individual (e.g. age, sex, cultural background, partner status, educational level, occupation, tumour type, disease stage, body composition, comorbid conditions, coping style), characteristics of the environment (e.g. cancer treatment, lifestyle), and genetic and biological factors (e.g. family history of cancer, stress and inflammation markers (e.g. cortisol, IL-6), microbiome). Nature and extent of the burden and risks associated with participation, benefit and group relatedness: On an individual level, patients who participate are asked to complete questionnaires on an annual basis for at least 10 years. All sample collections will take place at three time points: 0-3 months after diagnosis (baseline), 2 and 5 years; except blood for DNA analyses which will only take place at baseline. The collection of blood, hair and faeces at three occasions is minimally invasive and the risks of blood draws, hair and fecal sampling are negligible. All safety measures and procedures will be performed according to local guidelines. Patients will not experience direct benefit from participation in the COMPRAYA study. By participating, patients will contribute to a better insight in the prevalence of impaired medical and psychosocial (age-specific) health outcomes in AYA and evidence on factors associated with these health outcomes. This will lead to better and more personalized cancer care and supportive care tools for future AYA cancer patients.
The primary purpose of this study is to discover new disease genes for rare Mendelian disorders and its secondary purpose include diagnosing people with rare genetic disorders that have not been previously diagnosed through conventional clinical means, learning more about the pathobiology of genetic disorders, and developing novel diagnostic technologies and analytics. 500 participants with undiagnosed and suspected genetic disorders will be recruited over approximately 5 years time.
The main purpose of this study is to perform longitudinal evaluations of clinical outcomes and personal perspectives following utilization of preimplantation genetic testing (PGT). Patients indicating willingness to participate in research during informed consent to perform PGT will be eligible for inclusion. A licensed genetic counselor will conduct a recorded interview.
Amniocentesis (amnio) and chorionic villus sampling (CVS) can reliably detect many smaller DNA/genetic abnormalities that cannot be reliably diagnosed by cell-free noninvasive prenatal testing (NIPT) that is in widespread use. The investigators present evidence that a cell-based form of NIPT, here called Single Fetal Cell (SFC) testing, using a blood sample from the mother can detect most or all of the genetic abnormalities that are detected using amnio or CVS. This study proposes to compare the effectiveness of SFC testing in detecting abnormalities already detected by amnio or CVS in women already undergoing these tests as part of their clinical care because of fetal ultrasound abnormalities.
Due to the widespread use of NGS, TTN is emerging as a major causative gene in neuromuscular disorders, with high clinical heterogeneity. The mechanisms underlying the phenotypic variability and mode of inheritance (recessive or dominant) of titinopathies are poorly understood. They involve the primordial structural functions of titin on the formation and stability of the sarcomere, as well as its interactions with other proteins. We identified by NGS, in patients with skeletal myopathy (with or without cardiomyopathy), several potentially disease causing TTN variants. The specific aims of the present project are to implement functional studies (transcripts, protein analyses, in vitro protein-protein interaction studies) to evaluate the effect of TTN variants on the transcripts and protein in order to perform phenotype-genotype correlation studies. We participate to the national "titin network" and to international efforts for the understanding of the molecular bases of titinopathies. Genomic characterisation opens the way to develop cellular models of titinopathy, derived from patient biopsies. This is also a mandatory first step for the design of novel therapeutic approaches.
The main objective of this study is to apply a well-established model of developmental surveillance (which evolved to characterize the outcomes of very low birth weight infants) to infants with genetic disorders. A novel clinical model for infants with rare genetic disorders has been created as a joint initiative between the Division of Newborn Medicine's NICU Growth and Developmental Support Programs (NICU GraDS) program and the Division of Genetics at Boston Children's Hospital (BCH). This study plans to enroll patients with genetic syndromes seen in this clinic into a prospective, longitudinal study in order to characterize their developmental profiles and needs.
Phenotypic characterisation of MVP by echocardiography in families. Identification of genes involved in MVP.
In this study, we will conduct retrospective chart and imaging reviews and prospective longitudinal virtual assessments of individuals with LBSL.
The goal of this collaborative research is to study human genomes in children with suspected congenital disease, multiple-congenital anomalies and/or multi-organ disease of unknown etiology by understanding the potential value of Whole Genome Sequencing (WGS) in establishing genetic diagnosis. The study will examine diagnosis rates, changes in clinical care as a result of a genetic diagnosis, health economics including potential cost-effectiveness of WGS and patient and provider experience with genomic medicine.