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Researchers are looking for 88 people with Fragile X Syndrome or Creatine Transporter Deficiency to test a new imaging technology that can see how the brain works. Both of these are genetic conditions that affect how the brain develops and cause intellectual disability. This study might help doctors better understand and diagnose these conditions in the future.
WHY IT MATTERSThis trial is recruiting patients with two of the most common X-linked intellectual disability disorders and may provide a new diagnostic tool that could improve how these conditions are identified and monitored.
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Researchers are testing a new technology called SmartMatch that helps doctors find the best cancer medicines for patients with rare brain and spinal cord tumors. The technology works by taking a small piece of tumor removed during surgery and testing it against different drugs to see which ones work best. The study wants to see if SmartMatch can complete this analysis and give doctors a report within 3 weeks of surgery. This trial is looking for 80 patients with various types of brain tumors.
WHY IT MATTERSThis trial offers patients with recurrent or advanced brain tumors access to personalized drug testing that could identify the most effective treatment for their specific tumor type within weeks of surgery.
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Researchers are looking for 3,100 people to join a study about why patients don't take their medications as prescribed. The study will test a new approach to help people stick to their treatment plans, which could improve their health and reduce unnecessary hospital visits. About half of all patients don't take their medicines the right way, and this problem gets worse when treatment also requires lifestyle changes.
WHY IT MATTERSThis trial directly addresses medication non-adherence across multiple rare disease categories, meaning patients with rare conditions could benefit from proven strategies to better manage their treatments and health outcomes.
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This is a continuation study for patients who are already taking the cancer drugs dabrafenib and/or trametinib and have done well on them. If your doctor thinks you're still benefiting from these medications after your original trial ends, you may be able to keep taking them through this new study. The study is looking for about 100 patients with various types of cancer including melanoma, lung cancer, and brain tumors.
WHY IT MATTERSThis rollover study allows patients whose cancers are responding well to dabrafenib and/or trametinib to continue access to these drugs after their original trial ends, rather than losing treatment.
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Researchers are building a large international database to collect information and tissue samples from children, teens, and young adults with rare brain tumors. By gathering this data from 5,800 patients, scientists hope to better understand these uncommon cancers and develop better treatments. The study is currently looking for patients to participate.
WHY IT MATTERSThis registry directly addresses rare brain tumors like astroblastoma and BCOR ITD sarcoma that have limited research data—participating patients contribute to the only large-scale international effort to understand these specific tumor types.
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Researchers are looking for 1,000 people of any age who have a rare blood disorder called FPDMM, which is caused by a change in the RUNX1 gene. People with this condition may bleed easily and for longer than normal when injured. This study will help doctors better understand the disease, diagnose it more accurately, and find better ways to treat it.
WHY IT MATTERSThis is an active recruiting trial sponsored by the National Human Genome Research Institute seeking 1,000 participants with RUNX1-variant FPDMM — participation could directly advance understanding of diagnosis and treatment for this rare inherited bleeding disorder.
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Researchers in France are recruiting 5,000 newborns to test a new way of screening for rare diseases using genome sequencing—a complete reading of a baby's DNA. Instead of the current blood spot tests that check for only a few dozen conditions, this study will see if reading a baby's entire genome can safely and effectively find many more rare genetic diseases at birth. This is one of the first major studies in Europe to test this approach.
WHY IT MATTERSThis trial could expand newborn screening in France to detect dozens of additional rare genetic diseases at birth, potentially allowing earlier treatment and better health outcomes for babies with conditions that currently go undiagnosed until symptoms appear.