Natural History Study of SLC25A46 Mutation-related Mitochondriopathy
Neurodegenerative DiseaseHereditary2 moreThe purpose of the study is to systematically characterize the clinical course of the progressive neuropathy and optic atrophy observe in pediatric and adult patients with biallelic mutations in the solute carrier family 25 member 46 (SLC25A46) gene.
Improvement of DIAgnostic and Phenotype-genotype Correlation Studies in Patients With MYOpathy Suspected...
MyopathyPhenotypic Abnormality1 moreDue 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.
Adaptive Optics Retinal Imaging in Inherited and Acquired Retinal Disorders
Genetic DiseaseInherited DiseaseThis is a Prospective Observational study. The aim of the study is to understand the underlying photoreceptor, retinal pigment epithelium or retinal vascular aberrations in inherited and acquired retinal disorders. The study would use adaptive optics (AO) technology to assist in-vivo visualization of these retinal structures and ascertain changes from normal. Further, by using the AO imaging in patients before and after treatments, this study aims to better understand the effect of various interventions and develop AO as an outcome measure in various retinal disorders.
Inherited Reproductive Disorders
Genetic DisorderInfertility2 moreBackground: - During puberty, children begin to develop into adults. Problems with the hormones released during puberty can affect the reproductive system. Some people have low hormone levels that severely delay or prevent puberty. Others start puberty abnormally early. Other people may have a normal puberty but develop reproductive disorders later in life. Researchers want to study people with reproductive disorders to learn more about how these disorders may be inherited. Objectives: - To learn how reproductive system disorders may be inherited. Eligibility: People with one of the following problems: Abnormally early puberty Abnormally late or no puberty Normal puberty with hormonal problems that develop later in life People who have not yet had puberty but have symptoms that indicate low hormone levels. Design: Participants will provide a blood sample for testing. They will complete a questionnaire about their symptoms. They will also have a scratch-and-sniff test to study any problems with their ability to smell. Participant medical records will be reviewed. Participants will also provide a family medical history. Family members of those in the study may be invited to participate. Treatment will not be provided as part of this study....
Genetic and Metabolic Disease in Children
Genetic DiseasesMetabolic DiseasesThis is a prospective, non-randomized, non-blinded observational study. The overarching goal is to discover new disease-associated genes in children, while establishing a specific focus on disorders where molecular characterization is most likely to lead to novel therapies. This study will merge detailed phenotypic characterization of patients presenting to the Pediatric Genetics and Metabolism Division in the Department of Pediatrics/Children's Medical Center at Dallas and collaborating clinics with Next-Generation sequencing techniques to identify disease-producing mutations. The primary objective of the study is to identify novel pathogenic mutations in children with rare Mendelian disorders. A secondary objective of the study is to establish normative ranges of a large number of metabolites from healthy newborns and older children.
CUHK Stroke Biobank
StrokeIschemic3 moreThe purpose of the study are: To make quality, characterized samples and related data available for future studies, including Genome Wide Association Studies (GWAS), genomics, and biomarker research; To use these samples and related medical information to answer research questions aimed at understanding the genetics and underlying biology of acquired disease and injury to the brain, heart and blood vessels with the express purpose of advancing the search for effective modalities for prevention, treatment, and recovery; To develop additional operational infrastructure to support this project across the Prince of Wales Hospital and divisions, including (1) tracking of patient consent, (2) management of collection and sample processing processes, (3) sample inventory and QC/QA processes, and (4) release of materials to investigators for further research.
The Electronic Medical Records and GEnomics (eMERGE) Network Genomic Risk Assessment
Genetic DiseaseThe eMERGE Network embraces the opportunity to use new methods in genomic medicine, information science, and research participant engagement to identify people at very high risk for specific diseases and recommend individualized approaches to prevention and care. The investigators will conduct a prospective study, with diverse and underserved participants, across ten eMERGE study sites to evaluate clinical implementation of a Genome Informed Risk Assessment (GIRA) tool that combines genetic, family history, and clinical risk information from participants.
Perinatal Precision Medicine
Genetic DiseasesGenetic Syndrome1 moreThis study will seek to determine if rapid genomic sequencing improves outcomes for acutely ill infants. The investigator will enroll up to 1,000 acutely ill infants in a prospective, randomized, blinded study to either rapid Whole Genome Sequencing (WGS) or rapid Whole Exome Sequencing (WES, which is 2% of the genome and ~4-fold less expensive). 213 infants were actually enrolled. Outcomes will be measured both by objective clinical measures and family perceptions (patient/family centered outcomes). Primary analysis of WGS or WES will be in infants alone. Secondary analysis, in infants who do not receive a diagnosis, will be of families - ideally trios (mother, father, and affected infant), which is ~2-fold more expensive. Trios will be analyzed within the same randomization arm (WGS or WES). This study is designed to quantify which acutely ill infants benefit from rapid genomic sequencing, by how much they benefit, how they benefit, which rapid genomic sequencing method is superior, and the cost effectiveness of such testing.
Genomic Sequencing and Personalized Treatment for Birth Defects in Neonatal Intensive Care Units...
Genetic DiseaseMultiple Malformation1 moreThe purpose of study is to evaluate the benefits of using the Next Generation Sequencing Technology to diagnose birth defects and genetic diseases. The results from genomic sequencing can also significantly shorten the time of examination, improve the diagnosis rate, guide the clinical treatments. So the ultimate goal is individualized or personalized therapy and promote prognosis.
Mackenzie's Mission: The Australian Reproductive Carrier Screening Project
X-Linked Genetic DiseasesAutosomal Recessive DisorderThis study will investigate reproductive genetic carrier screening (RGCS) in 10,000 couples across Australia. Carrier screening for approximately 1300 genes associated with severe, childhood-onset, X-linked and autosomal recessive conditions will be performed on each member of the couple. A combined result will be issued indicating whether the couple has a 'low' or 'increased' risk of having a child with a genetic condition. It is anticipated that 1-2% of couples will be at an increased risk of having an affected child. The study will evaluate all aspects of the RGCS program to assess the feasibility and acceptability of a publicly-funded population-wide RGCS program, including: education of recruiting healthcare providers education of participating couples implementation and uptake of RGCS frequency of increased-risk couples and their reproductive decisions psychosocial impacts ethical issues health economic implications health implementation research