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NCT00001373
This study is designed to explore the genetics and pathophysiology of diseases presenting with intermittent fever, including familial Mediterranean fever, TRAPS, hyper-IgD syndrome, and related diseases. The following individuals may be eligible for this natural history study: 1) patients with known or suspected familial Mediterranean fever, TRAPS, hyper-IgD syndrome or related disorders; 2) relatives of these patients; 3) healthy, normal volunteers 7 years of age or older. Patients will undergo a medical and family history, physical examination, blood and urine tests. Additional tests and procedures may include the following: 1. X-rays 2. Consultations with specialists 3. DNA sample collection (blood or saliva sample) for genetic studies. These might include studies of specific genes, or more complete sequencing of the genome. 4. Additional blood samples a maximum of 1 pint (450 ml) during a 6-week period for studies of white cell adhesion (stickiness) 5. Leukapheresis for collecting larger amounts of white cells for study. For this procedure, whole blood is collected through a needle in an arm vein. The blood flows through a machine that separates it into its components. The white cells are removed and the rest of the blood is returned to the body through another needle in the other arm. Patients may be followed approximately every 6 months to monitor symptoms, adjust medicine dosages, and undergo routine blood and urine tests. They will receive genetic counseling by the study team on the risk of having affected children and be advised of treatment options. Participating relatives will undergo a medical and family history, possibly with a review of medical records, physical examination, blood and urine tests. Additional procedures may include a 24-hour urine collection, X-rays, and consultations with medical specialists. A DNA sample (blood or saliva) will also be collected for genetic studies. Additional blood samples of no more than 550 mL during an 8-week period may be requested for studies of white cell adhesion (stickiness). Relatives who have familial Mediterranean fever, TRAPS, or hyper-IgD syndrome will receive the same follow-up and counseling as described for patients above. Normal volunteers and patients with gout will have a brief health interview and check of vital signs (blood pressure and pulse) and will provide a blood sample (up to 90 ml, or 6 tablespoons). Additional blood samples of no more than 1 pint over a 6-week period may be requested in the future.
NCT07250737
The purpose of this Managed Access Program is to allow access to delpacibart zotadirsen (AOC 1044) for eligible patients diagnosed with DMD mutations amenable to exon 44 skipping. The patient's Administering Physician should follow the suggested treatment guidelines and comply with all local health authority regulations.
NCT07469657
Since the discovery of a small fraction of circulating cell-free fetal DNA (ccffDNA) in the blood of the mother, non-invasive prenatal diagnosis (NIPD) techniques using a simple blood sample have been developed to 1) screen for chromosomal abnormalities, 2) diagnose fetal sex, and 3) detect variants not carried by the mother (exclusion NIPD by PCR). Exclusion NIPD by PCR is currently available for certain common variants, but developing it for each variant takes 3-6 weeks per center. The development process for PCR NIPD is lengthy and costly for each variant tested, thereby restricting access to this technique. In practice, this technique is not widely available to couples at risk of transmitting a severe monogenic disease in France, due to the large number of different genes and multiple variants of a given gene. Next-generation sequencing (NGS) is based on the simultaneous, parallel execution of millions of sequencing reactions, enabling the same nucleotide sequence to be sequenced hundreds of times. It provides qualitative information on the nature of the sequenced base, as well as quantitative information on the number of times the base has been sequenced (reads). Although it only allows for the analysis of around 2% of the entire genome, NGS sequencing of the exome corresponds to almost all the exons of the 22,000 or so genes in our genome. However, this generates a large amount of data, leading to additional costs. Since its widespread adoption by diagnostic laboratories, some teams have developed an NGS-based NIPD for the exclusion of a pathogenic variant. It allows the analysis of multiple pathogenic variants without requiring an additional development phase. They have demonstrated that NGS-based NIPD is a robust and reliable technology, but one that incurs additional reagent costs. In France, 1,700 to 1,800 prenatal diagnostic tests (PND) for monogenic diseases are performed each year due to family history. Between 35 and 40% of couples undergoing invasive PND could benefit from NIPD by NGS, as proposed in the PrenatSafe project. The increased availability of NIPD, whether by PCR or NGS, could also affect couples' demand in the long term. In France, the introduction of NIPD by NGS is likely to lead to an increase in requests for NIPD, as many couples with a low risk of recurrence (in the case of de novo mutations) will probably opt for it due to its lack of iatrogenicity. The rapid and widespread rise of NIPD by NGS, made possible by the use of a standardized, generalizable technique such as NGS, will transform our practices throughout the country. The PrenatSafe project therefore aims to evaluate the cost/benefit ratio of NIPD by NGS compared to the current standard procedure: NIPD by PCR when performed in clinical practice or PND by invasive sampling (trophoblast biopsy or amniocentesis), using an automated, standardized NGS technique involving exome sequencing, which covers almost all indications for exclusion NIPD. This project is the first cost-consequence analysis of prospective exome-based NIPD, using a single standardized technique. The aim is to translate this innovative technology into routine practice if it proves beneficial and economically viable. Exome-based NIPD for exclusion can be fully automated, from ccfDNA extraction to sequencing. This reduces the risk of human error and brings turnaround times in line with the requirements of prenatal diagnosis. If successful, exome-based NIPD would become an earlier alternative to invasive PND without increasing the risk of fetal loss. It would be available for a very large number of indications and could easily be transferred to other prenatal diagnosis centers in France.
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.
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.
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.
NCT03406780
HOPE-2 is a double-blind clinical trial evaluating the safety and efficacy of a cell therapy called CAP-1002 in study participants with Duchenne Muscular Dystrophy (DMD). Non-ambulatory and ambulatory boys and young men who meet eligibility criteria will be randomly assigned to receive either CAP-1002 or placebo every 3 months for a total of 4 doses during a 12-month period.
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.
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.
NCT06475651
It is necessary to define reference DNA Methylation Episignatures from fetal DNA. The hypotheses are: * It is possible to define reference DNA Methylation Episignatures from fetal DNA extracted from amniotic fluid or frozen tissues collected during the postmortem examination * Fetal DNA Methylation Episignatures may be different to postanal DNA Methylation Episignatures defined on DNA extracted from blood
NCT03734588
SPK-8016 is in development for the treatment of patients with inhibitors to FVIII. This Phase 1/2, open-label, non-randomized, dose-finding study to evaluate the safety, efficacy, and tolerability of SPK-8016 in adult males with severe hemophilia A and no measurable inhibitor against FVIII.
NCT06260319
The DEVO-DECODE project aims to align our currently limited knowledge currently limited knowledge of the genetic architecture of developmental with our more advanced knowledge of their "phenome". To this end, we aim to establish a homogeneous cohort of patients with with developmental disorders to identify new genetic variants genetic variants, and thus study the association between developmental and genetic variants. Secondary objectives are:2 * Carry out WGS studies not only to refine exosomal sequencing data exome sequencing data, but above all to identify and validate non-coding non-coding DNA alterations, in both transcribed and non-transcribed transcribed or non-transcribed genomic domains * Develop precise preclinical models for functional studies of pathophysiological pathways
NCT03385876
Rapid Whole Genome Sequencing (rWGS) has proven to provide much faster diagnoses than traditional clinical testing, including clinical Whole Exome Sequencing (WES) and standard Whole Genome Sequencing (WGS). This collaborative study seeks to provide rWGS as a research test to additional pediatric hospitals nationwide to assist in the rapid diagnosis of acutely ill children suspected of a genetic condition. The study will examine diagnosis rates, changes in clinical care as a result of a genetic diagnosis, and health economics including potential cost-effectiveness of rWGS. This study will also serve as a biorepository for future research on samples and data generated from genomic sequencing.
NCT03627767
B7451014 is a Phase 3 study to investigate PF-04965842 in patients aged 12 years and over with a minimum body weight of 40 kg who have moderate to severe atopic dermatitis. Subjects responding well to an initial open-label 12 week treatment of PF-04965842 (200 mg) taken orally once daily (QD) will be identified and randomized in a double-blind manner to receive 200 mg QD PF-04965842, 100 mg QD PF-04965842, or QD placebo. Efficacy and safety of 2 doses of PF-04965842 will be evaluated relative to placebo over 40 weeks. Subjects experiencing significant worsening of their symptoms, i.e., protocol-defined flare, enter 12 weeks rescue treatment and receive 200 mg PF-04965842 together with a marketed topical medicine. Eligible patients will have the option to enter a long-term extension study after completing the initial 12 week treatment, the 12 week rescue treatment, and the 40 week blinded treatment.
NCT02884063
In the way for developing and optimizing protocol to be used as non- invasive methodology used as routine testing for PGS. This protocol is to be adapted to replace the using of life embryo cells for genetic testing and aneuploidy study as well as for any type of genetic testing including single gene disorder or HLA typing or study.
NCT01963650
The purpose of this study is evaluate the natural course of disease progression related to gross motor function in children with metachromatic leukodystrophy (MLD).
NCT03321604
In this study, Investigators will conduct a prospective cohort study of dialysis patients by collecting research-quality information on patient characteristics, comorbid diseases and laboratory markers used in routine practice, as well as novel biochemical markers and genetic data. Investigators will utilize data from the cohort to test the independent relationship between biochemical and genetic markers and Fabry disease and other rare diseases.
NCT03721458
This research is being done to see if whole genome sequencing (WGS) improves the diagnosis of patients in the NICU. Using WGS in this way, which is relatively new, researchers at Penn State College of Medicine will look at approximately 5000 genes that are known to be associated with genetic diseases to see if the neonatal patient has a known disease causing mutation. Comparing the parents' DNA with the child's will help the investigators better understand the child's DNA.
NCT03720470
B7451029 is a Phase 3 study to investigate PF-04965842 in adult patients who have moderate to severe atopic dermatitis and use background topical therapy. The efficacy of two dosage strengths of PF-04965842, 100 mg and 200 mg taken orally once daily will be evaluated relative to placebo over 12 weeks. The efficacy of the two dosage strengths of PF-04965842 will be compared with dupilumab in terms of pruritus relief at 2 weeks. The two dosage strengths of PF-04965842 and dupilumab 300 mg injected subcutaneously once every two weeks (with a loading dose of 600 mg injected on the first day) will also be evaluated relative to placebo over 16 weeks. The safety of the investigational products will be evaluated over the duration of the study. Subjects will use non-medicated emollient at least twice a day and medicated topical therapy such as corticosteroids, calcineurin inhibitors or PDE4 inhibitors, as per protocol guidance, to treat active lesions during the study. Subjects who are randomized to receive one of the two dosage strengths of PF-04965842 will also receive placebo injectable study drug every two weeks until Week 16 and then will continue on receiving only the oral study drug for 4 weeks. Subjects who are randomized to receive dupilumab injections every two weeks will also receive oral placebo to be taken once daily until Week 16 and will then continue to receive only the oral placebo for 4 weeks. Subjects who are randomized to the placebo arms, will receive both daily oral placebo and injectable placebo every two weeks until Week 16, after which they will receive either 100 mg or 200 mg of PF-04965842 taken orally once daily for 4 weeks, dependent upon which arm they have been allocated to. Eligible subjects will have an option to enter a long-term extension study after completing 20 weeks of treatment.
NCT02642653
The 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.