View clinical trials related to Fanconi Anemia.
Filter by:Fanconi Anemia (FA) is mentioned in children with congenital malformations including kidney, hart and skeletal malformations (absence or abnormal thumb or forearm), and bone marrow failure or myelodysplasia with a progressive onset in childhood or adulthood. No study has focused on microcephaly, a reduction in brain volume, which is present in 20% of children, and its consequences on cognitive and structural level of the brain. Since 2014, Robert-Debré's team has been interested in this functional cognitive and neuroanatomical approach trough a National PHRC. Preliminary results carried out on 12 children show that their intellectual efficiency was in the normal range for age. However, we noticed a significant difference between abilities in comprehension and verbal reasoning corresponding to what is expected for age, and the sensorimotor skills or fine motor praxia significantly reduced. These difficulties, graphically penalizing for these children, are not always explained by a skeletal malformation of the upper limb, suggesting that musculo-tendinous anomalies may be associated. The objectives of our project are: 1) to identify upper limb musculo-tendinous abnormalities and their functional consequences, 2) to determine if these abnormalities could influence the somatosensory representation of the upper limb at the cerebral cortical level. This project should help us to better understand the fine motor disabilities or developmental coordination disorder of these children, which penalize their learning, and provide them with adapted solutions.
This is a multi-center, Phase 1/2 study to determine the Optimal Biologic Dose (OBD) and to evaluate the safety, tolerability, PK, and preliminary activity of FP 045 when administered orally in young adult/adolescent and pediatric patients with Fanconi anemia. The study will enroll a total of 6 young adult/adolescent patients and a minimum of 8 and up to 12 pediatric patients with mild-moderate bone marrow failure who have not undergone hematopoietic cell transplant. This makes the total patient number between 14-18 total. Dose escalation will occur individually for each patient, within each age group. Each patient will receive each of 3 dose levels of FP 045 (intra-patient dose escalation), beginning with Dose Level 1, followed by Dose Levels 2 and 3. Each dose level will be administered for 28 days prior to escalation to the next higher dose level for that patient.
This is a long-term safety and efficacy follow-up study for subjects with Fanconi Anaemia Subtype A who have been treated with ex vivo gene therapy on the FANCOLEN-I trial. After completion of the FANCOLEN-I study, eligible subjects will be followed for a total of 15 years post gene therapy treatment. No investigational drug product will be administered during this study.
The objective of this study is to assess the therapeutic efficacy of a hematopoietic cell-based gene therapy for patients with Fanconi anemia, subtype A (FA-A). Hematopoietic stem cells from mobilized peripheral blood of patients with FA-A will be transduced ex vivo (outside the body) with a lentiviral vector carrying the FANCA gene. After transduction, the corrected stem cells will be infused intravenously back to the patient with the goal of preventing bone marrow failure.
This is an open-label Phase II clinical trial to evaluate the efficacy of a hematopoietic cell-based gene therapy for pediatric patients with Fanconi Anemia, subtype A (FA-A). Hematopoietic stem cells from mobilized peripheral blood of patients with FA-A will be transduced ex vivo (outside the body) with a lentiviral vector carrying the FANCA gene. After transduction, the corrected stem cells will be infused intravenously back to the patient with the goal of preventing bone marrow failure.
This phase II trial studies how well olaparib works in treating patients with biliary tract cancer that has spread to other places in the body (metastatic) and with aberrant DNA repair gene mutations. Olaparib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
The objective of this study is to assess the therapeutic safety and preliminary efficacy of a hematopoietic cell-based gene therapy consisting of autologous CD34+ enriched cells transduced with a lentiviral vector carrying the FANCA gene in subjects with Fanconi anemia subtype A (FA-A).
This is a long-term follow up study evaluating the safety of BPX-501 T cells (rivogenlecleucel) and infused in pediatric patients previously enrolled on the BP-004 study.
Thiotepa is a chemotherapy drug used extensively in bone marrow transplantation. Thiotepa is a prodrug that undergoes metabolic conversion in the liver by CYP2B6 and CYP3A4 to its primary active metabolite, triethylene phosphoramide (TEPA). The goal of this study is to determine what causes some children to have different drug concentrations of thiotepa and TEPA in their bodies and if drug levels are related to whether or not a child experiences severe side-effects during their bone marrow transplant. The hypothesis is that certain clinical and genetic factors cause changes in thiotepa and TEPA drug levels in pediatric bone marrow transplant patients and that high levels may cause severe side-effects.
Melphalan is a chemotherapy drug used extensively in bone marrow transplantation. The goal of this study is to determine what causes some children to have different drug concentrations of melphalan in their bodies and if drug levels are related to whether or not a child experiences severe side-effects during their bone marrow transplant. The hypothesis is that certain clinical and individual factors cause changes in melphalan drug levels in pediatric bone marrow transplant patients and that high levels may cause severe side-effects.