Active clinical trials for "Genetic Diseases, Inborn"

Inflammatory symptoms of Cryopyrin-Associated Periodic Syndrome (CAPS) are due to mutations in a the NLRP-3 gene (previously known as Cold Induced Autoinflammatory Syndrome-1 or CIAS1). These mutations result in the body's overproduction of interleukin-1 (IL-1), a protein that stimulates the inflammatory process. IL-1 Trap (rilonacept) was designed to bind to the interleukin-1 cytokine and prevent it from binding to its receptors in the body.

The purpose of this single-center study is to explore the efficacy, safety, tolerability and pharmacokinetics/pharmacodynamics of recombinant human C1 inhibitor in the treatment of acute attacks in patients with hereditary angioedema.

Neurogenetic diseases (NGD) represent rare and hereditary forms of neurological diseases. The goal of CNGD is to create a one-window approach for NGDs, to facilitate and accelerate participation in research projects through deep phenotyping and the availability of low-cost biological samples for research teams. It is positioned as a true hub allowing new connections between clinical and basic research teams and ultimately as an incubator for translational projects for NGDs, in order to be able to initiate therapeutic trials, the ultimate objective of clinical and translational research.

This trial is conducted in Europe. The aim of the trial is to induce normal pubertal development in girls with Turner Syndrome in accordance with that of their peers and their individual state psychosocial maturation.

Phase 1 Single Ascending Dose Study in Normal Healthy Volunteers

Phase 1 Multiple Ascending Dose Study in Normal Healthy Volunteers

This is a Prospective Phase II Study to evaluate Cord Blood Transplantation in Inherited or Acquired Severe Aplastic Anemia Refractory or in Relapse after Immunosuppressive Therapy in the absence of an HLA identical donor;

The purpose of this multi-center study is to explore the efficacy, safety, tolerability and pharmacokinetics/pharmacodynamics of recombinant human C1 inhibitor in the treatment of acute attacks in patients with hereditary angioedema.

The main purpose of this study is to evaluate the efficacy and safety of lebrikizumab in combination with a topical corticosteroids in Japanese participants with atopic dermatitis.

Recent advances have shown that cells from human blood, skin and urine samples can be reprogrammed to become stem cells. These are called induced Pluripotent Stem Cells (iPSCs) and share many characteristics with embryonic stem cells, including an unlimited capacity for proliferation and the potential to become any cell in the body. Beneficially, the use of iPSCs avoids the ethical difficulties which surround embryonic stem cells and allows generation of iPSC lines which are disease representative. For example, we could take skin samples from an individual diagnosed with Huntington's disease and their unaffected sibling and using this technology, generate iPSC lines from both individuals. Using these iPSCs, we could produce disease affected cell populations from the affected and unaffected individuals, use these cells to research why specific cell populations are affected by disease and test new treatments to combat disease progression, essentially producing a 'disease in a dish'. This is just one example of many for which this technology could be applied. We can also utilise gene-editing techniques to generate isogenic controls or insert disease related mutations to assess disease phenotype. Although generation of iPSC lines has been robustly proven across multiple disease backgrounds, many aspects of their downstream use still remain to be determined. Particularly, robust protocols for directing iPSCs towards cell fates such as neurons or blood cells must be developed to fully realise application of iPSCs in disease modelling and drug screening. This study involves the collection of human blood, skin or urine samples from subjects bearing a range of genetic diseases alongside those from individuals who have not been diagnosed with a disease, as controls. These samples will be used to generate iPSC lines for development of differentiation and disease phenotyping protocols.