View clinical trials related to Genetic Disease.
Filter by:This research project entails delivery of a personalized antisense oligonucleotide (ASO) drug designed for a single pediatric participant with SCN2A associated developmental epileptic encephalopathy
The goal of this clinical trial is to test a new method for newborn screening using whole genome sequencing, called BeginNGS. Newborns who are not suspected of having genetic diseases and who are admitted to the NICU at Rady Children's Hospital, San Diego, will be enrolled. The main questions this study aims to answer are: - What is the diagnostic yield of diagnostic whole genome sequencing (DWGS) in this population? - What is the diagnostic sensitivity and specificity of BeginNGS and whole exome sequencing (WES) as compared to DWGS? - What are the potential issues related to implementing DWGS in this population? Enrolled newborns will have a blood sample taken and will receive three tests: - DWGS - BeginNGS - WES
Alpha-1 Anti-trypsin Deficiency (AATD) is a genetic disease with lung and liver disease presentations. The purpose of this study is to examine the density of the lung as measured by chest computed tomography (CT) and determine if existing emphysema predicts changes in the rate of subsequent emphysema or changes in CT, serum or plasma biomarkers of interest. The overarching goal is to develop biomarkers that can be used in interventional trials since lung function changes do not typically inform disease progression in AATD.
For children who use a power wheelchair, a powered wheelchair standing device (PWSD) may be considered for daily use. A PWSD allows a child to electronically move between sitting and standing and can be driven in either position. Existing published PWSD research in pediatrics is limited to boys with Duchenne muscular dystrophy (DMD).(1, 2) While these studies provide some insights into PWSD use in boys with DMD, they do not reflect PWSD use in children with other conditions. The purpose of this exploratory study is to determine the feasibility of a research protocol exploring use of a PWSD in children who have neurodevelopmental conditions other than DMD.
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).
Prospective observational study to further understand the value that a multi-omic approach has in individuals with a multi system, early onset disorder that does not have a molecular diagnosis by whole genome sequencing.
This is a pilot study involving a prospective group of 15 evaluable patients who will undergo rapid whole genome sequencing in addition to standard of care testing. Subjects will be drawn from children admitted to the NICU at OSF Health Care Children's Hospital of Illinois who meet inclusion criteria. The aims of this study are to evaluate the turn-around time and cost of performing rapid whole genome sequencing (rWGS) compared to standard of care in the diagnosis of genetic disorders among critically ill infants in a regional children's hospital and to describe management outcomes of utilizing rWGS in acutely ill patients less than four months of age.
The primary hypothesis is that a tailored programme of genetic and imaging screening of first- and second-degree relatives of patients affected by non-syndromic forms of thoracic aortic diseases will identify individuals at risk of death from these conditions. These individuals would constitute specific population of patients, requiring dedicated imaging surveillance and/or earlier prophylactic aortic surgery.
Studies have shown that the risk of developing heart arrhythmias, is increased in patients receiving medication for Attention-deficit hyperactivity disorder (ADHD) and depression. The QT-interval on a electrocardiogram (ECG) is often used to assess the patients risk of developing heart arrhythmias. The QT-interval defines the hearts electrical resting period and a long interval is linked to an increased risk of developing heart arrhythmias. In this project the investigators wish to examine possible side-effects in patients receiving medication for ADHD and depression and their dynamic QT-interval changes, by analysing the ECG changes that occur during "Brisk Standing".
The "North Carolina Clinical Genomic Evaluation by Next-gen Exome Sequencing, 2 (NCGENES 2)" study is part of a larger consortium project investigating the clinical utility, or net benefit of an intervention on patient and family well-being as well as diagnostic efficacy, management planning, and medical outcomes. A clinical trial will be implemented to compare (1) first-line exome sequencing to usual care and (2) participant pre-visit preparation to no pre-visit preparation. The study will use a randomized controlled design, with 2x2 factorial design, coupled with patient-reported outcomes and comprehensive clinical data collection addressing key outcomes, to determine the net impact of diagnostic results and secondary findings.