Efficacy and Safety of NFC-1 in Adolescents With Genetic Disorders Impacting mGluR and ADHD
Attention Deficit Disorder With HyperactivityThis is a randomized, double-blind, placebo-controlled, parallel-group study of NFC-1 versus placebo in adolescents with ADHD who have genetic disorders impacting mGluRs.
Evaluating Acceptance of New Liquid Somatropin Formulation in Children With Growth Hormone Deficiency...
Growth Hormone DisorderGrowth Hormone Deficiency in Children2 moreThis trial is conducted in Asia. The aim of this trial is to evaluate the new liquid somatropin formulation in children with growth hormone deficiency.
Efficacy and Safety of Oral Valproic Acid for Retinitis Pigmentosa
Retinitis PigmentosaRetinal Diseases4 moreThe purpose of this study is to evaluate the efficacy and safety of oral valproic acid to slow the progression of visual function and/or to improve the visual function in patients with retinitis pigmentosa (RP). Enrolled subjects in valproic acid group will be treated with oral valproic acid 500mg daily for 48 weeks. Visual function and safety will be assess before and after treatment (48 weeks) between valproic acid and control groups.
A Study of the Safety and Immunogenicity of Repeated rhC1INH Administration
Genetic DisordersHereditary AngioedemaHereditary angioedema ("HAE") is a disease characterized by recurrent tissue swelling affecting various body locations. Recent literature shows that patients with frequent attacks may benefit from long-term prophylaxis. This study aims to evaluate the safety and prophylactic effect of weekly administrations of 50 IU/kg recombinant C1 Inhibitor ("rhC1INH").
A Study to Evaluate DCR-PHXC in Children and Adults With Primary Hyperoxaluria Type 1 and Primary...
Primary Hyperoxaluria Type 1 (PH1)Primary Hyperoxaluria Type 2 (PH2)3 moreThe 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)
Clinical Presentation of Genetic Disorders in Patients Attending Genetic Outpatient Clinic of Assiut...
Genetic Disease Clinical Presentation in Patients Attending Genetics Outpatient Clinic of Assiut University Children HospitalGenetic Epidemiology : is quickly expanding research field concerned with considerate the heritable aspect of disease risk, individual propensity to disease and eventually with contributing to a complete molecular understanding of pathogenesis. Genetics : is the scientific study of genes &heredity of how certain qualities or traits are passed from parents to offspring as a result of changes in DNA sequence . A gene is a segment of DNA that contains instructions for building of one or more molecules Genetic disorders: is a health problem caused by one or more abnormalities in the genome. It can be caused by a mutation in a single gene (monogenic) or multiple genes (polygenic) or by a chromosomal abnormality. (1)mutations: affect the human genes either inherited from one or both parents or due to certain environmental factors Four of the main types include:(1)Single _gene inheritance diseases :Single gene inheritance diseases are diseases that occur because one defective gene is present. They are known as monogenetic disorders.(EX:Marfan Syndrome ) (2)Multifactorial genetic inheritance disorders : Genetic disorders may also be complex, , meaning they are likely associated with the effects of multiple genes in combination with lifestyles and environmental factors. Multifactorial disorders include heart disease and diabetes. (3)chromosomal abnormalities : result from a problem with cell division and arise because of duplications or absences of entire chromosomes or pieces of chromosomes. Examples of chromosome abnormality disorders include(Down sydrome ) (4)Mitochondrial genetic inheritance disorders : are caused by mutations in the DNA of mitochondria, small particles within cell. Mitochondrial DNA is always inherited from the female parent since egg cells (unlike sperm cells) keep their mitochondrial DNA during the process of fertilization. Environmental Factors: called (mutagens)which can lead to genetic mutations Such as Chemical exposure , Radiation exposure , Smoking , UV rays exposure from the sun prognosis Of genetic disorders: Not all genetic disorders directly result in death, there are no known cures for genetic disorders. Many genetic disorders affect stages of development, such as Down syndrome, while others result in purely physical symptoms such as muscular dystrophy. Other disorders, such as Huntington's disease, show no signs until adulthood. .Treatment of genetic disorders: The treatment of genetic disorders is an ongoing battle, with over 1,800 gene therapy clinical trials having been completed, are ongoing, or have been approved worldwide, Despite this, most treatment options revolve around treating the symptoms of the disorders in an attempt to improve patient quality of life. Diagnosis of genetic disorders: (1)personal medical history :information about an individual health often going back to birth can provide clues to a genetic diagnosis (2)physical examination :certain physical characteristics , such as distinctive facial features can suggest the diagnosis of a genetic disorder , a geneticist will do a through physical Examination that may include measurements such as head circumference and so on . (3) Family health history :because genetic conditions often run in families , information about the health of family members can be a critical tool for diagnosing these disorders . (4)Laboratory Tests :including genetic testing , molecular , chromosomal , and biochemical genetic or genomic testing are used to diagnose genetic disorders. Genetic counselling is a communication process, which aims to help individuals, couples and families understand and adapt to the medical, psychological, familial and reproductive implications of the genetic contribution to specific health conditions. Patients With History Of TORCH: Bad Obstetric history (BOH) implies previous unfavorable foetal outcome in terms of two or more consecutive spontaneous abortion, history of intrauterine foetal death, intrauterine growth retardation, still births, early neonatal death and/or congenital anomalies. Cause of BOH may be genetic, hormonal, abnormal maternal immune response and maternal infection.
Newborn Genomics Programme
Genetic DiseaseNewborn MorbidityGenomic methods can significantly contribute to all facets of precision medicine, from diagnosis to prevention, therapeutic intervention, and management of acute and chronic illnesses. DNA based methods are already having a considerable impact across healthcare in fields that include: public health, infectious disease monitoring, acute and chronic disease, pharmacogenomics, prenatal testing and diagnosis, and therapeutic development. In this proposal, investigators are focusing on the application of genomic methods in precision medicine - specifically on rapid whole-genome sequencing of parents and children (i.e. a trio) for the identification of diseases that have genetic components. Goals Primary goal: is to provide safe rapid whole genome sequencing to Neonatal Intensive Care Unit/Pediatric Intensive Care Unit patients. Secondary goals: 1) Although several groups globally are implementing rapid sequencing of rare disease, these are predominantly in the research space, with many unanswered questions regarding the best way to implement them into a national healthcare system. Each country and their healthcare systems are unique, and valuable knowledge will be gained by implementing this process within a New Zealand context. As part of this the study will measure the impact on the individuals and families. 2) to expand the research team's understanding of non-coding disease-causing variants and methylation changes that contribute to severe disease in early life. Primary Aims To incorporate long-read RNA sequencing data into the diagnostic rapid Whole Genome Sequencing pipeline to provide a direct measure of the functional outcome of the variants of clinical concern. To measure the clinical utility of analysing non-coding variants in the diagnosis of critically ill children who do not have pathogenic, likely pathogenic, or variants of unknown significance for mendelian disorders. To identify, in a real-world setting within the New Zealand health-care system, the clinical and economic effects of deploying rapid Whole Genome Sequencing-informed rapid precision medicine for critically ill children.
An Open-label Extension Study to Assess the Long-term Safety and Efficacy of ISIS 301012 (Mipomersen)...
Lipid MetabolismInborn Errors18 moreTo evaluate the safety and efficacy of extended dosing with mipomersen (ISIS 301012) in participants with familial hypercholesterolemia or severe hypercholesterolemia on lipid-lowering therapy who had completed either the 301012-CS5 (NCT00607373), 301012-CS7 (NCT00706849), 301012-CS17 (NCT00477594) or MIPO3500108 (NCT00794664) clinical drug trials.
Open Label Extension of ISIS 301012 (Mipomersen) to Treat Familial Hypercholesterolemia
Lipid MetabolismInborn Errors18 moreThe purpose of this study is to evaluate the safety and efficacy of extended dosing of mipomersen in patients with familial hypercholesterolemia on lipid-lowering therapy who have completed either the 301012-CS8 (NCT00280995) or 301012-CS9 (NCT00281008) clinical drug trials.
Combining Lovastatin and a Parent-Implemented Language Intervention for Fragile X Syndrome
Fragile X SyndromeGenetic DiseasesThe purpose of the study is to test the efficacy of a 20 week multi-modal treatment comprised of lovastatin or placebo, and the Parent-implemented Language Intervention (PILI) in children with fragile X syndrome (FXS). Children will be randomized to drug or placebo in a double-blind design with all participating in the PILI. The primary endpoint will be to measure improvements in spoken language and behavior among lovastatin-treated than placebo treated participants.