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Showing 1-20 of 44 trials
NCT06369974
This research project entails delivery of a personalized antisense oligonucleotide (ASO) drug designed for a single pediatric participant with TUBB4A associated leukodystrophy.
NCT07408583
The investigators aim to evaluate the safety and efficacy of in utero hematopoietic stem cell transplantation (IUHSCT) for the treatment of fetuses diagnosed with Fanconi anemia (FA) during pregnancy.
NCT07040774
Type I interferonopathies are rare autoinflammatory disorders caused by genetic defects and associated with significant morbidity and mortality. These diseases are refractory to conventional immunosuppressive therapies. They typically occur in childhood, although disease onset in adulthood has been observed. The clinical spectrum is wide and mainly involves the central nervous system. Joint involvement is also common, and more rarely, haematological features such as cytopenias or immunodeficiency may be observed. Nearly all patients show consistent over-activation of the type I IFN pathway, as evidenced, the expression of IFN-stimulated genes, the so-called 'interferon signature'. To date, the natural history of interferonopathies remains unclear. In this context, the establishment of a natural history of type I interferonopathy in patients is proposed to elucidate the pathophysiological mechanisms and identify biomarkers for diagnosis, prognosis, and disease activity, with the aim of better characterising the diversity of interferonopathies. The main objective is to characterise the evolution of the pathology in paediatric and adult patients with type I interferonopathies. The overall aim of this research is to propose therapeutic options tailored to patient phenotypes and to better define patient sub-groups in order to optimise the preparation of future clinical trials.
NCT06731790
The goal of this controlled, pathophysiological, exploratory interventional study is to compare the inflammatory phenotype of circulating immune cells, basal and following stimulation, from Acute Necrotizing Encephalopathy Type 1 (ANE1) patients with those from sex- and age-matched donors who do not carry the mutation.To date, no study has investigated the molecular mechanisms regulating the inflammatory response in ANE1 disease directly on patient samples. The primary endpoint in individuals in the "mutated RANBP2" arm is an inflammatory phenotype (hyperinflammatory monocytes, secretion of pro-inflammatory cytokines, anti-glycoprotein autoantibodies), significantly exacerbated basal and/or post-stimulation production of pro-inflammatory cytokines compared with the control arm. The secondary objective is to examine the allelic expression of mutant RANBP2 and characterize genetic variants by whole-exome sequencing, in order to associate them with RANBP2 protein localization and ANE crisis severity The researchers will compare the group of ANE1 patients with age- and sex-matched control groups, divided into two subgroups: unrelated controls and controls with familial ties. The aim is to study the different types of inflammatory responses and correlate them with the localization of the RANBP2 protein and the severity of ANE episodes. Participants will participate in a single visit during which demographic data, clinical history and a blood test will be collected with one (unrelated control) or two blood tubes (ANE1 and related control).
NCT06235580
Over the past twenty years, Prof. Yanick Crow and his team have developed internationally recognized expertise in genetic pathologies affecting the immune and neurological systems. The pathologies studied have a particularly severe impact on patients' quality of life, with a high mortality rate and a significant risk of occurrence in affected families. These pathologies are rare, and very often under-diagnosed. To date, there is virtually no effective curative treatment. Prof. Crow's team operates at the frontier between clinical and research work, and from experience, the team knows that patients and families affected by these serious pathologies are often highly motivated to help research into the pathology that affects them. Initially, Prof. Crow's research focused primarily on the study of the genetic disease Aicardi-Goutières Syndrome (AGS). However, there is an undeniable clinical and pathological overlap between AGS and other forms of disease such as autoimmune systemic lupus erythematosus and many other genetic pathologies - e.g. familial lupus engelure, spondyloenchondromatosis and COPA syndrome. This is why research is being extended to all genetic diseases with immune and neurological dysfunctions.
NCT06555965
The purpose of this study is to find out more about STXBP1 and SYNGAP1 related disorders. The information gathered by this study will be used to prepare for clinical treatment trials. The primary objective of the study is to better define and outline the clinical spectrum of STXBP1 and SYNGAP1 through detailed developmental, seizure, and quality of life assessments as an extension of routine clinical care.
NCT05117827
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.
NCT06237790
This cohort study aims to explore the trends and differences in multidimensional perceptual levels of patients after cochlear implants or gene therapy, as well as to comprehensively assess the efficacy of gene therapy for congenital deafness, thus providing a reference for making a well-rounded postoperative rehabilitation protocol for gene therapy patients.
NCT03563066
Atopic Dermatitis (AD), also known as eczema, is a common skin disease characterized by itchy lesions. The prevalence of AD has increased over the past few decades, with 15-30% of children and 2-10%of adults being affected. The lesions of AD patients are very inflamed, with an increased number of inflammatory cells in the skin. There are not many medications available that are fully effective and can be used long-term for treatment of atopic dermatitis. Benralizumab is a monoclonal antibody used for treatment of a type of asthma called "eosinophilic asthma". Atopic dermatitis is also associated with elevated levels of eosinophils, and we would like to determine if benralizumab is effective in patients with atopic dermatitis. This is a randomized, double-blind, parallel group, placebo-controlled study will evaluate the effect of 3 doses of a fixed 30 mg dose of benralizumab administered subcutaneously (SC) every 4 weeks to patients with moderate-to-severe atopic dermatitis, on the severity of atopic dermatitis, and the cellular inflammation of skin lesions in these patients. Anti-inflammatory properties of benralizumab when a skin flare is induced in a controlled laboratory setting, in addition to the effects of benralizumab on skin that is already inflamed will be examined.It is hypothesized that benralizumab will attenuate eosinophilic inflammation in the skin.
NCT05499091
Next generation sequencing (NGS) allows some better diagnostic results, particularly, in the rare diseases field. At a twenty five percent rate, those exams highlight some variants which are not yet described in human pathology. The relationship between a variant found inside a candidate gene and a pathology, is able to be confirmed by functional studies at a protein level. This study aims to build a biological collection to feed further functional studies to confirm the relationship between NGS identified variants, and the clinical signs and symptoms.
NCT06490627
The project "Unraveling the Impact of Thalidomide at Diverse Doses in Transfusion Dependent Beta Thalassemia" investigates the safety and efficacy of low-dose thalidomide in managing beta thalassemia, a genetic disorder causing anemia. Conducted over two years at NIBD hospital, the study involves 54 transfusion-dependent patients aged 8-35. The primary objective is to correlate thalidomide doses with disease severity, adverse effects, and treatment response, aiming to optimize treatment strategies and reduce side effects. Data will be collected through clinical interviews and medical record reviews and analyzed using SPSS. Key variables include hemoglobin levels, leukocyte and reticulocyte counts, platelets, liver and spleen size, genetic modifiers, and transfusion frequency. Inclusion criteria are specific to beta thalassemia patients, while exclusion criteria rule out those with liver dysfunction, married patients, lactating mothers, and those with a history of thrombosis or fits.
NCT06725901
This study evaluates a diagnostic support platform, DIAGEN-IA, designed to identify pediatric neurological diseases with a genetic basis. Conducted at Carlos Van Buren Hospital in Chile, it aims to determine if the platform reduces inappropriate referrals to clinical geneticists, improves diagnostic evaluations, enhances referral quality, and increases user satisfaction. A prospective before-and-after design will compare outcomes across two phases: baseline data collection and an intervention phase using DIAGEN-IA. Healthcare professionals will use the platform to guide referrals and diagnostic studies. Outcomes include referral appropriateness, completeness of evaluations, quality of referrals, and user satisfaction.
NCT06981520
This study aims to investigate the intestinal mucosal expression of key inflammatory markers, namely Interleukin-1 (IL-1), Interleukin-18 (IL-18), and Caspase-1, in patients with Familial Mediterranean Fever (FMF). FMF is an autoinflammatory disorder characterized by recurrent episodes of fever and serosal inflammation. Recent studies suggest a possible role of intestinal immune activation in the disease pathogenesis, particularly through inflammasome-related cytokines. To better understand mucosal involvement in FMF, immunohistochemical staining for IL-1, IL-18, and Caspase-1 will be performed on intestinal biopsy samples obtained during routine endoscopic procedures. The staining intensity and distribution patterns will be evaluated and compared with age- and sex-matched healthy controls. The findings may help clarify mucosal inflammatory pathways involved in FMF and provide insight into novel therapeutic targets.
NCT06081075
Genomic 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 1. 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. 2. 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. 3. 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.
NCT06898307
The goal of this observational study is to enroll all patients evaluated at the specialized Cardiogenetic Center within the Cardiology Department of the University of Ferrara, Italy. The primary aim of the registry is to collect comprehensive clinical, genetic, and electrophysiological data from individuals with suspected or confirmed arrhythmogenic conditions. By systematically documenting patient demographics, family history, clinical presentations, diagnostic findings, and treatment outcomes, the registry seeks to enhance our understanding of the genetic basis and clinical implications of genetically driven arrhythmias and systemic syndromes. This registry will facilitate long-term follow-up of enrolled patients to assess the natural history of arrhythmogenic disorders and the effectiveness of various therapeutic interventions. Additionally, it aims to identify potential risk factors associated with adverse outcomes, such as sudden cardiac death or major arrhythmic events.
NCT05290701
This study evaluates the impact of the various outcomes of pES (definitive diagnosis, probable diagnosis and IF) on clinical decision making and on parental psychological wellbeing, compared between different analysis strategies to investigate the clinical utility, defined as the balance between potential harms and benefits.
NCT05386134
This 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.
NCT02921321
Muscular Dystrophy can affect the skeletal muscles and also the heart and breathing muscles, causing significant morbidity and mortality. As patients are now living longer, treatment of muscular dystrophies involves drugs that help improve heart function. However, better types of heart imaging studies are needed to understand how these treatments work. Researchers want to improve heart imaging to identify earlier indicators of heart dysfunction in muscular dystrophy patients and how these are changed by medical treatment. The new imaging indicators will also help identify candidates for entry into future clinical trials.
NCT06504433
The Natural History of Mitochondrial (MITO) Diseases (a longitudinal study observing the natural history of mitochondrial diseases) The goal of this observational study (non-randomised retrospective and prospective) is to fully characterise primary MITO disease; that includes both sexes/genders, over 18 years of age and healthy volunteers\]. The main question\[s\] it aims to answer is to: • better characterise MITO phenotypes (organ involvement, severity, progression) and collect biospecimens to create a biobank that can be used for future biomarker discovery to improve early diagnosis, prognostication and management of mitochondrial disease. The study will be a longitudinal, retrospective, prospective, observational study of participants (400) with confirmed MITO and relevant controls followed for up to 10 years. Data will be collected at regularly scheduled standard-of-care (SOC), 6 to 12 monthly appointments. The 100 control participants will therefore be comprised of (i) unaffected asymptomatic family members of MITO participants with no genetic risk; (ii) participants with non-MITO movement disorders that are not classified as MITO by their clinical presentation and genetic tests (for example Parkinson's disease) and/or (iii) age-matched healthy controls recruited from the NeuRA database of volunteers. Demographic data, medical history, biochemical, histological, genetic, social and other clinical SOC data will be collected. Additionally, seizure and migraine frequency in participants who experience these, will be collected and a quality-of-life questionnaire (SF-12v2), as part of the validated neurological assessment using the Newcastle Mitochondrial Disease Adult Scale (NMDAS).
NCT05064241
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).