View clinical trials related to Genetic Disease.
Filter by:The purpose of this study is to evaluate the efficacy and safety of DCR-PHXC in Children and Adults with Primary Hyperoxaluria Type 1 (PH1) and Primary Hyperoxaluria Type 2 (PH2)
The need for new models of integrated care that can improve the efficiency of healthcare and reduce the costs are key priorities for health systems across the United States. Treatment costs for patients with at least one chronic medical or cardiovascular condition make up over 4-trillion dollars in spending on healthcare, with estimations of a population prevalence of 100-million affected individuals within the next decade. Therefore, the management of chronic conditions requires innovative and new implementation methods that improve outcomes, reduce costs, and increase healthcare efficiencies. Digital health, the use of mobile computing and communication technologies as an integral new models of care is seen as one potential solution. Despite the potential applications, there is limited data to support that new technologies improve healthcare outcomes. To do so requires; 1) robust methods to determine the impact of new technologies on healthcare outcomes and costs; and 2) evaluative mechanisms for how new devices are integrated into patient care. In this regard, the proposed clinical trial aims to advance the investigator's knowledge and to demonstrate the pragmatic utilization of new technologies within a learning healthcare system providing services to high-risk patient populations.
Noninvasive prenatal genetic testing (NIPT) is an important new screening test option provided to pregnant women in the first trimester of pregnancy. The advantage of this screen is that is provides information about the risk of trisomy 13, trisomy 18, and trisomy 21 with greater accuracy than conventional screens. At the same time, NIPT can produce information about the risk of a cohort of other fetal genetic variants, including sex chromosome aneuploidies and microdeletion syndromes. While not yet clinically available for whole exome sequencing, the potential for this next clinical application already exists. The challenge is that, while this is an important new test, there are little data about how to best structure patient-centered decisions about its use, including decisions if to use this screen and how the information may directly inform subsequent prenatal care decisions. The purpose of this study is to gain formative data about current practice patterns with respect to how NIPT is discussed in the clinical visit and to use these data to help inform best practices for its continued use in the clinical setting.
OBJECTIVE To investigate neurodegeneration and demyelination in the central and peripheral nervous system in multiple sclerosis linked to disease progression and mechanisms that can explain different responses to Fampridine treatment in MS patients with walking disability. METHOD The study is a prospective cohort follow-up study with 98 participants with MS and walking disability. Participants are identified as responders or non-responders to Fampridine treatment prior to the study. Participants will undergo MRI of the cerebrum with lesion load quantification, neurophysiological tests comprised of motor evoked potentials and electroneurographic examination, blood samples examining KIR4.1 antibodies, brain derived neurotrophic factor (BDNF), myelin protein zero (MPZ), peripheral myelin protein 22 (PMP22), p75-nerve growth factor receptor (p75NGFR) and anti-myelin associated glycoprotein (anti-MAG). The presence of SORCS-3 gene mutation will also be examined, as will cerebrospinal fluid levels of myelin basic protein, neurofilament heavy and light chains. Functional test of Timed 25-foot walk test (T25FW) will identify response to Fampridine treatment. A functional test battery will further detail function of upper extremities and cognition. CONCLUSION This study will add to the understanding of neurodegeneration and demyelination in CNS and PNS in patients with MS having walking disability. This will impact clinical decision-making by improving organization of immunomodulatory treatment, identifying biomarkers thus facilitating earlier treatment and improving patient control, information and education.
The VetSeq Study is a pilot intervention study exploring the feasibility of integrating genome sequencing into clinical care at the VA Boston Healthcare System.
This is an interventional comparative study at the Department of Reproductive Medicine at Ghent University Hospital. Patients with previous embryo developmental problems are eligible for the study. Patients will undergo an ICSI-AOA treatment and will also be screened for genes important in the oocyte activation and embryonic development process. Also, the calcium releasing pattern of the patients' spermatozoa will be investigated.
Phase 1 Multiple Ascending Dose Study in Normal Healthy Volunteers
Phase 1 Single Ascending Dose Study in Normal Healthy Volunteers
Investigators aim to use comparative exome and/or genome sequencing to discover causative molecular lesions for phenotypes hypothesized to be caused by somatic mutations. For this study, investigators have targeted hypertrophic cardiomyopathy.
The purpose of this study is to compare the effectiveness of rapid next generation sequencing (NGS, such as whole genome sequencing1) with current practice to provide diagnostic or prognostic information or treatment guidance in acutely ill neonates and infants, particularly with respect to clinical care, cost and outcomes.