View clinical trials related to Rare Diseases.
Filter by:This is an investigator initiated single institution, open-label study to evaluate the antitumor activity, safety, and tolerability of durvalumab in combination with tremelimumab in subjects with select advanced rare solid tumors.
After the use of DNA chips for diagnostic purposes, high-throughput sequencing (HTS) is transforming the field of developmental diseases, from fundamental research to care. Nonetheless, before HTS can be transferred to everyday clinical practice, in particular for expert diagnosis using exome HTS, it is necessary to anticipate the nature of the information to be given to patients and to parents in order to obtain consent for exome HTS. The objective in terms of public health is to allow patients with rare diseases to benefit from innovative technologies in optimal conditions of information and accompaniment. the objectives of this project are to 1. evaluate the preferences of families of patients with development disorders as regard to suspicious and incidental findings from HTS before its introduction for diagnostic purpose, 2. and then, following the exome analyses carried out for diagnostic purposes, describe, analyse and understand the experience, expectations and reactions of families and geneticists concerning the diagnostic trajectory in general and at the time the results of the HTS were announced in particular A methodology that associated quantitative and qualitative approaches was chosen so as to combine the advantages and overcome the shortcomings of each: a quantitative study to investigate a large number of patients, which would ensure a certain representativeness of the population and allow sub-groups analyses to study the upstream phase concerning indications for high-throughput sequencing; and a qualitative study, which though it allows only a small number of patients to be investigated, makes it possible to describe, analyze and understand in depth the complex downstream phenomena of high-throughput sequencing results
The Gene Discovery Core at The Manton Center for Orphan Disease Research based at Boston Children's Hospital studies families with rare, poorly understood or undiagnosed, but suspected genetic conditions. The primary goal of the research is to better understand the genes and proteins (gene products) involved in rare diseases. The researchers hope that our studies will allow for improved diagnosis and treatment of individuals with rare disease in the future. Individuals with any rare/undiagnosed condition are eligible to enroll. Enrollment includes: - Providing DNA and tissue samples (when available) - Access to participants' medical records - Access to genomic data (when available) Samples are used for genetic analysis (primarily exome and genome sequencing or reanalysis) to identify the genetic cause for the individual's illness. Individual research results are returned to families through their health care provider after confirmation in a clinical lab. If a cause is identified, that can be reported back to the family through their health care provider and the study's genetic counselor. When possible, the investigators also collect samples from parents and full-siblings as well as any other affected family members.
The purpose of this study is to determine the safety and the maximum tolerated dose of of pbi-shRNA™ EWS/FLI1 Type 1 lipoplex in patients with advanced Ewing's sarcoma.
Background Women with rare diseases resulting in motor disabilities wishing to become mother face a major challenge. The investigators hypothesize that provided with adequate support, they are able to achieve a successful pregnancy and to offer their child a safe family environment. Methods To test this hypothesis, the investigators shall conduct a prospective observational prospective survey of a consecutive series of volunteer pregnant women or mothers of children less than 14 months, with motor impairment, participating in a program of parenting support developed in our institution. Primary outcome: social environment, child development, mother-infant attachment, mother- infant interactions Secondary outcome: social and demographic characteristics, severity of motor impairment, associated impairment, perinatal morbidity for the mother and the infant (composite indicator), emotional status, and the needs expressed by women regarding the level of medical or social care. Analysis The investigators shall describe the distribution of the primary outcome measurements in the subgroup of women with motor impairment related to a rare disease. The investigators shall compare this distribution to the expected distribution in the general population, and to that observed in women with motor impairment unrelated to a rare disease. The investigators shall also study primary outcome measurements as a function of the severity of maternal disability, of the mother's social characteristics and emotional status. The investigators shall also describe the distribution the distribution of perinatal morbidity globally, and as a function of the potential explanatory variables mentioned above. The investigators shall also report on the opinion of women regarding the support they were offered so far, and the support they declare they should benefit from.
This study will help the investigator understand the pathogenesis of different rare genetic conditions and to establish database of rare genetic databases. This would ultimately help to provide more accurate diagnosis through advanced genomic diagnostic testing and databases established from this study. This knowledge would in turn help in the clinical management of other affected family members and other individuals affected with similar conditions. Understanding of pathogenesis of the disease would also enable the investigator to develop targeted therapies for rare genetic diseases, and also to collaborate on the targeted therapy-related clinical trials. The investigator plans to store the results of this study in databases. These results will be shared with other researchers or doctors, who research, diagnose or treat the individuals with similar diseases. The investigator will only share the data that is collected and not the biological samples.
In the study, NextGen SE are on-hand a cohort comprising each 50 pediatric and 50 adult patients, and in which there are an unclear movement disorder or an unclear cognitive disorder, examines the following questions : Primary: - Number of diagnoses made by NGS Secondary: 1. restriction of the quality of life by unclear disease 2. Cost of not purposeful preliminary diagnostics ( beyond the minimal diagnostic data set ) 3. Impact of the diagnosis to therapy and follow-up examinations 4. Time to diagnosis
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.
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.
The objective of this protocol is to enable collection of biospecimens to facilitate current and future multidisciplinary research in rare genetic disorders and medical conditions.