View clinical trials related to Rare Diseases.
Filter by:The SRDR is a national registry that records rare diseases in people of any age who live in Switzerland. It serves as a platform for scientists, health professionals, affected people, and politicians.The SRDR aims to collect epidemiological data on rare diseases, and data on changes to the diagnosis over time. The SRDR will further serve as a research platform and facilitate patient participation in national and international studies. The SRDR will promote harmonization of data and method between the numerous existing disease-specific registries in Switzerland, will strengthen the exchange with international rare disease registries for research and policy, and will build a network for communication for patients and health care providers.
Despite rapidly advancing developments in targeted therapeutics and genetic sequencing, persistent limits in the accuracy and throughput of clinical phenotyping has led to a widening gap between the potential and the actual benefits realized by precision medicine. Recent advances in machine learning and image processing techniques have shown that machine learning models can identify features unrecognized by human experts and more precisely/accurately assess common measurements made in clinical practice. The investigators have developed an algorithm, termed EchoNet-LVH, to identify cardiac hypertrophy and identify patients who would benefit from additional screening for cardiac amyloidosis and will prospectively evaluate its accuracy in identifying patients whom would benefit from additional screening for cardiac amyloidosis.
The main objective of the study is to assess the oral health-related quality of life of patients with rare diseases and followed in the rare disease centers of expertise at Necker Hospital in Paris by semi-structured interviews.
During the last decades hematologists have excelled at improving and refining the classification, diagnosis, and thus ultimately the therapeutic decision-making process for their patients. This continuous evolution proceeded in parallel to seminal discoveries in basic science such as FISH, PCR and NGS. So far, the current WHO classification serves as reference to diagnostic decision making and is largely based on 5 diagnostic pillars: cytomorphology of peripheral blood and/or bone marrow smears, histology and immunohistochemistry of bone marrow trephine biopsies or lymph nodes, immunophenotyping, chromosome banding analysis supplemented by FISH analysis, molecular genetics including PCR and targeted panel sequencing via NGS. This leads to a swift diagnosis in 90 % of all cases. The leftover 10 % remain a challenge for hematopathologists and clinicians alike and are resolved through interdisciplinary teams in the context of specialized boards. With the advent of high throughput sequencing (mainly WGS and WTS) the possibility of a comprehensive and detailed portrait of the genetic alterations - specifically in challenging cases - has become a realistic alternative to classical methods. In SIRIUS the investigators will prospectively challenge this hypothesis to address the question of how often a better or final diagnosis can be delivered by WGS and/or WTS and if unclear cases can be efficiently resolved.
Factors associated with severe forms of COVID-19 infection in patients with inflammatory rheumatic diseases (IRD) or Autoimmune Diseases (AID) are unknown. This unprecedented situation leads to empirical and potentially erroneous advice and recommendations for care. Identifying factors associated with severity, in the context of this pandemic, which is expected to last many months, and possibly years, is crucial for future patients. The objective of this work is to identify the factors associated with the occurrence of severe forms of COVID-19 infection in patients with IRD or AID, by combining analysis of 2 large databases.
Biopsies are performed in several autoimmune diseases to diagnose or classify them Tolerance and information of the patients have been poorly evlauated our objective is to evaluate tolerance and information of the patients after the biopsies for salivary gland, temporal arteries and neuromuscular.
General aim of the study is the improvement of the clinical knowledge of ultra-rare inherited metabolic and degenerative neurological diseases (prevalence less than 5:100,000) in adulthood through the systematic longitudinal collection of clinical, laboratory and instrumental data.
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.
A significantly higher proportion of patients with rare diseases (RD) with intellectual disability (ID), present hyperphagia, overweight or obesity, compared to the general population. Prader-Willi syndrome is the only genetic obesity identified to date associated with hyperghrelinemia, while ghrelin levels are lower than in controls in other situations of obesity. The aim of the study is to find out whether the levels of ghrelin, which are abnormally high in PWS throughout life, are also high in these RD when people have hyperphagia and/or overweight.
This is a randomized, placebo controlled and double-blinded study to evaluate the pharmacokinetics (PK), pharmacodynamics (PD) and safety of a single dose (1 mg/kg) of emapalumab in adult healthy Japanese subjects.