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Active clinical trials for "Rare Diseases"

Results 21-30 of 98

Cannabidiol in Children and Young Adults With Rare Disease-associated Severe Epilepsy

EpilepsyRare Diseases

This is a pilot, open-label, phase II study. The main objective of the study is to demonstrate that Cannabidiol (CBD), used in addition to current anti-seizure medications (ASMs) reduces the number and/or severity of motor (generalized, focal, or both) seizures in children and young adults with rare disease-associated severe epilepsy. Secondary objectives include assessment of safety and tolerability, changes in behaviour, cognition and sleep, pharmacokinetic interaction with concurrent ASMs.

Not yet recruiting22 enrollment criteria

Pregnancy and Medically Assisted Conception in Rare Diseases

Rheumatoid ArthritisSpondyloarthritis9 more

Rare diseases frequently affect women of childbearing age. Pregnancy in these women has become less rare, but remains associated with high levels of complications. One obstacle to their optimal management during pregnancy is that there are no prospective studies of pregnancy during rare diseases and several connective tissue diseases. As a consequence, the management of these pregnancies is non-standardised in terms of treatment, monitoring (frequency of consultations, laboratory tests and ultrasound), and organisation of care. Moreover, although these women (all diseases combined) are frequently exposed to medications potentially incompatible with pregnancy, little is known about the frequency of these exposures and especially their consequences to mother and child. For these reasons, researchers and clinicians from different specialties created an interdisciplinary research group on pregnancy and rare diseases (GR2), intended to improve the management of these patients' pregnancies. Using a single computer server, the investigators plan to set up a large prospective study of pregnancies in patients with rare diseases: various forms of myositis, lupus, antiphospholipid syndrome, Sjogren syndrome, scleroderma, and inflammatory rheumatic diseases. The investigators objective is to analyse the complications of pregnancies in women with rare diseases and then to improve their management and their quality of life.

Recruiting6 enrollment criteria

Orodental Manifestations of Rare Diseases

Rare Disease Orodontal

OroDental anomalies are one of the phenotypical aspects of at least 900 rare diseases or syndromes affecting by definition less than 1 in 2000 individual within the population (almost 25 million persons in Europe). They are often described in association with other organs or system malformations, which is understandable, because the same genes and signalling pathways regulate the oral cavity formation or odontogenesis and the development of other organs. The various dental and orofacial anomalies can be classified by type (anomalies of tooth number, shape, size, structures of mineralized tissues, eruption, resorption, tumors; anomalies of oral mucosa; anomalies of tongue…), by signalling pathways and by syndrome families. These anomalies (for example hypodontia/oligodontia, amelogenesis imperfecta, dentinogenesis imperfecta…) become increasingly identified as diagnostic and predictive traits. Not only is it important to recognise, name appropriately and integrate these dysmorphic clues into the patient dysmorphology analysis but it is essential to synthesize the observations and confront them to existing data about similar orodental anomalies encountered in some of the corresponding mutant mouse models. Translational approaches in development and medicine, are relevant to gain understanding of molecular events underlying clinical manifestations and to enhance diagnostic accuracy. The aim of this study is to improve the knowledge, diagnosis and care of oral cavity pathologies encountered in rare diseases via the identification and gathering of national and international patient cohorts and to structure the molecular diagnosis behind these conditions via targeted next-generation sequencing assays. Data collection is implemented on validated accredited tools (databases) complying with the legal regulations about patient data protection and medical record collection. All information is anonymized. New effective diagnosis and therapeutic tools are being developed.

Recruiting12 enrollment criteria

FACE for Children With Rare Diseases

Rare Diseases

Children with ultra-rare or complex rare diseases are routinely excluded from research studies because of their conditions, creating a health disparity. However, new statistical techniques make it possible to study small samples of heterogeneous populations. We propose to study the palliative care needs of family caregivers of children with ultra-rare diseases and to pilot test a palliative care needs assessment and advance care planning intervention to facilitate discussions about the future medical care choices families are likely to be asked to make for their child.

Active12 enrollment criteria

Children Affected by Rare Disease and Their Families Network

Rare Diseases

Families of children with rare diseases (i.e., not more than 5 out of 10.000 people are affected) are often highly burdened with fears, insecurities and concerns regarding the affected child and his/her siblings. The project at hand will test two innovative forms of care (CARE-FAM and WEP-CARE) at 17 sites in 12 federal states of Germany. The goal is to improve the mental health and quality of life of children affected by rare diseases and their relatives in a sustainable manner. If successful, these interventions will be introduced into regular care.

Active4 enrollment criteria

SLC13A5 Deficiency Natural History Study - Remote Only

Citrate Transporter DeficiencyEpilepsy8 more

SLC13A5 deficiency (Citrate Transporter Disorder, EIEE 25) is a rare genetic disorder with neurodevelopmental delays and seizure onset in the first few days of life. This natural history study is designed to address the lack of understanding of disease progression and genotype-phenotype correlation. Additionally it will help in identifying clinical endpoints for use in future clinical trials.

Enrolling by invitation6 enrollment criteria

Structural Chromosome Rearrangements and Brain Disorders

Rare DiseasesGenetic Disease1 more

The project is focused on the detailed study of structural genomic variants (SVs). Such genetic mutations are in fact alterations in the DNA molecule structure and include copy number variants, inversions and translocations. A single event may affect many genes as well as regulatory regions and the specific phenotypic consequences will depend on the location, genetic content and type of SV. Many times, the specific disease-causing mechanism is not known. Here, we plan to study the molecular genetic behavior of structural variants as well as the underlying mutational mechanisms involved. First, we will use genome sequencing to pinpoint the chromosomal breakpoints at the nucleotide level, characterize the genomic architecture at the breakpoints and study the relationship between structural variants and SNVs. Second, we will study how structural variants impact gene expression. Finally, we will functionally explore the disease mechanisms in vivo using zebrafish and in vitro using primary patient cells and induced pluripotent stem cells. Our studies will focus on the origin, structure and impact of structural variation on human disease. The results will directly lead to a higher mutation detection rate in genetic diagnostics. Through a better understanding of disease mechanisms our findings will also assist in the development of novel biomarkers and therapeutic strategies for patients with rare genetic disorders.

Enrolling by invitation2 enrollment criteria

Vocal Pattern Assessment as a New Key to Identifying Rare Syndromes

Rare DiseasesCongenital Disorders

Primary Study Objective The primary objective of the study is the definition of distinct vocal phenotypes and the development of an Explained Decision Support System (DSS) for the automatic detection of vocal patterns in relation to the syndrome from which the patients suffer Secondary: Perceptual and acoustic analysis of voice recordings Development of a voice recording collection system.

Not yet recruiting4 enrollment criteria

Developing a Pipeline to Employ RNA-Seq as a Complementary Diagnostic Tool in Rare Diseases

Atypical Hemolytic Uremic SyndromeMembranoproliferative Glomerulonephritis2 more

This project aims to identify, through RNA-Seq technology, the genetic alterations underlying undiagnosed rare diseases in pediatric and adult patients with early onset and with negative WES. Objective 1: Set up and validate techniques. Set-up and validation of the transcriptome analysis protocol in healthy subjects and in patients with known splicing alterations and/or altered RNA expression. Objective 2: Diagnostic phase. Study of splicing alterations and RNA levels in cultured fibroblasts obtained from skin biopsies of patients with rare genetic diseases and negative exome. Exploratory goals Compare the RNA expression profile obtained from skin biopsy-derived fibroblasts with the RNA expression profile from blood. The most relevant results will be validated in qRT-PCR. To analyze the transcriptional and protein profile heterogeneity in skin-derived fibroblasts in enrolled subjects. To explore the effects of genetic (from WES) and transcriptional (from RNA-seq) alterations in participants' plasma and serum. Healthy controls Five healthy subjects will be recruited from the staff of the Mario Negri Institute for Pharmacological Research. The coded samples will be used to set up the method of isolation and culture of skin fibroblasts and RNA-Seq. Validation group For the set-up and validation of the skin fibroblast isolation and RNA-Seq procedure, ten adult patients with known diagnosis and with alterations in RNA levels and/or splicing will be recruited as positive controls. Patients who meet the requirements described above will be contacted by the doctors of the Daccò Center for an interview explaining the project. Those who agree to participate in the study will be asked to sign the informed consent before proceeding with the experimental part. "Discovery/Exploration" group The exploration cohort will be composed of 30 symptomatic undiagnosed patients with suspected genetic disease (children and adults with infantile onset) belonging to the Clinical Center of the Mario Negri Institute for Pharmacological Research and for whom WES investigations did not reveal causative genetic alterations.

Not yet recruiting18 enrollment criteria

A Multi-Site Leukopak Repository Providing Annotated Biospecimens for Approved Investigator-Directed...

Rare Diseases

To collect, preserve, and distribute annotated leukopak biospecimens and associated medical data to institutionally approved, investigator-directed biomedical research to discover and develop new treatments, diagnostics, and preventative methods for specific and complex conditions. This protocol will be utilized to collect research grade products that are not meant for transfusion.

Recruiting11 enrollment criteria
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