Digital Genetic Assistant (DGA) for Expanded Carrier Screening
Genetic DiseaseThe DGA provides an end-to-end digital solution to the preconception carrier screening process from participant registration to receipt of the test results and their interpretations. These steps are provided using personalized animated videos.
Assessment Psychological Distress for Cancer Heredity Test
CancerPsychological Distress2 moreThe study of hereditary cancer related syndromes allows reducing the risk of suffering in cancer to patients and close relatives. The objective of this study will be to evaluate the prevelance of psychological morbidity in patients attended at cancer genetic counselling unit, and to determine the socio-demographic and clinical factors that influence it. A descriptive cross-sectional study will be carried out. Patients attented at the cancer genetic counselling unit, who have criteria for conducting a genetic syndrome test related to hererditary cancer, will be consecutively evaluated. To knowing the psychological morbidity it is relevant to providing care for these patients.
The Use of Digital Genetic Assistant (DGA) for Expanded Carrier Screening
Genetic DiseaseThe DGA provides an end-to-end digital solution to the preconception carrier screening process from participant registration to receipt of the test results and their interpretations. These steps are provided using personalized animated videos.
Delineation of Novel Monogenic Disorders in the United Arab Emirates Population
Mendelian DisordersGenetic Disorder5 moreThe study aims to identify novel monogenic phenotypes from specific pedigrees and discover the underlying causal genetic variant using genetic sequencing (Sanger and/or Next Generation Sequencing - Panel/WES/WGS) methodologies in families across the United Arab Emirates (UAE).
Non Invasive Prenatal Testing (NIPT) of Single-gene Disorders
Hereditary DiseaseDeveloping a new non-invasive prenatal test for single gene disorders from cell free fetal DNA, retrieved from the mothers blood.
Interest of High-throughput Sequencing of RNAs for the Diagnosis of Heterogeneous Genetic Diseases...
DNA SequencingDiagnosis of Genetic Diseases of Heterogeneous OriginThe advent of high throughput genomic DNA sequencing has led to major advances in the diagnosis of genetic diseases of heterogeneous origin. Thus, our hospital laboratory has developed in recent years several diagnostic tests based on the targeted sequencing of coding sequences of gene panels (from about twenty genes for DNA repair diseases to nearly five hundred genes for the intellectual disability). These targeted analyzes, carried out by capture, have thus solved 25 to 80% of the cases according to the indications, without allowing the diagnosis of the totality of the patients. For these negative cases, the search for mutations in the coding sequences was then extended to Whole Exome Sequencing, thus providing several additional diagnoses. Patients still remain without diagnosis after this exome study. These could be complex cases of genetic or even non-genetic origin, but also monogenic pathologies linked to mutations that are not identifiable by coding sequence analyzes, and especially affecting messenger RNAs.
Reproducibility of the Array-Based Comparative Genomic Hybridization (aCGH) System Using Whole Blood...
Genetic DisordersThe objective of this study is to validate the performance characteristics of the GeneTrait CGH Microarray System DX. Reproducibility among sites, lots, and operators will be evaluated.
Noninvasive Electrocardiographic Imaging for Individuals at Risk for Apparently Idiopathic Ventricular...
Ventricular FibrillationVentricular Arrythmia8 moreThis study aims to evaluate the electrophysiological properties of the heart conduction system in patients with unexplained polymorphic ventricular tachycardia (VT) and/or ventricular fibrillation (VF), in patients with specific genetic mutations regarding sudden cardiac death or sudden cardiac arrest, in their family members and in a control cohort. The electrophysiological properties will be measured with the relatively new technique ECG-Imaging (ECGI). Also a National Dutch registry for patients with unexplained polymorphic VT and/or VF and their family members will be created. By combining the data from the registry and the results of ECGI, The investigators hope to identity risk markers for patients at higher risk for apparently idiopathic ventricular fibrillation, and use these for an adapted flow chart for the 'general'population of patients at risk for unexplained polymorphic VT and/or VF. The investigators aim to be able to identify patients before the first arrhythmic event, and aim for better treatment strategies in the future.
Genetic and Phenotypic Characteristics of Mitral Valve Prolapse
Mitral Valve ProlapseGenetic DiseasePhenotypic characterisation of MVP by echocardiography in families. Identification of genes involved in MVP.
Genetic Disease Gene Identification
Congenital Vertical TalusFamilial Encephalopathy With Neuroserpin Inclusion Bodies3 moreThis is a a study to identify inherited disease genes. The study will use molecular techniques to map genetic diseases using techniques such as Affymetrix SNP chips. The powerful combination of the information generated by the Human Genome Project and technical advances such as microarrays enables attempts to identify genes responsible for inherited disorders more possible than ever before. Starting with even modest pedigrees of only a few individuals, or even single individuals, it is possible to identify the gene(s) involved. It is proposed to collect up to 20 ml of peripheral blood and/or buccal cell samples from subjects and relevant family members. Currently the following disorders are approved for investigation. The current list of disorders: Aarskog-Scott syndrome, Café-au-Lait spots, Cerebral cavernous malformation, delXp, del2q, del10p, del11q, del12p, del13q, del14q, del16q, del17q, del18q, del Xp21, Choreoathetosis, Congenital Vertical Talus (CVT), Clubfoot, Tarsal coalition and other congenital limb deformities, Cystic Fibrosis (CF)-like disease, Desbuquois syndrome, Droopy Eyelid syndrome (Ptosis), Fanconi-Bickel syndrome (FBS), FENIB (familial encephalopathy with neuroserpin inclusion bodies), FG syndrome, Idiopathic generalised epilepsy (IGE), Renpenning syndrome, transient neonatal diabetes with 6q UPD, translocation (13;14), translocation (3;8), translocation (2;18), Uncharacterized familial dementia and X-linked mental retardation (XLMR).