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Discover 23,284 clinical trials near Maryland. Find research studies in your area.
Showing 3921-3940 of 23,284 trials
NCT03312400
Background: DNA is a structure in the body. It contains data about how the body develops and works. Telomeres are found on the end of chromosomes in DNA. Some people with short telomeres or other gene changes can develop diseases of the bone marrow, lung, and liver. Researchers want to see if low doses of the hormone drug danazol can help. Objective: To study the safety and effect of low dose danazol. Eligibility: People ages 3 and older with a telomere disease who have either very short telomeres and a specific gene change. They must also show signs of aplastic anemia, lung, or liver disease. Design: Participants will be screened in another protocol. Participants will have: * Medical history * Physical exam * Blood tests * Lung exam. They will breathe into an instrument that records the amount and rate of air breathed in and out over a period of time. 6-minute walking test. * Abdominal ultrasound and liver scan. These tests use sound waves to measure the fibrosis in the liver. Some participants will have: * Pregnancy test * Small sample of the liver removed * Bone marrow biopsy. The bone will be numbed and a small needle will take a sample of the marrow. All participants will have hormone levels checked. All child participants will see a pediatric endocrinologist. Children may need to have a hand x-ray. We will monitor patients for 6 months before starting danazol. Participants will take danazol by mouth twice a day for 1 year. Participants must return to the clinic at 6 months and 12 months while on danazol and 6 months after stopping it. They will have blood and urine tests, a lung exam, abdominal ultrasound, and liver scan.
NCT04851184
The purposes of this research are to 1) utilize virtual reality (VR) to evaluate the exercise dose required to improve symptoms in those with vestibular (dizziness) disorders, 2) compare VR vestibular exercises to standard exercises, and 3) compare exercise performance outcomes to healthy controls without vestibular disorders. Even though more than 35% of those over 40, and \~50% of those who have had concussion have such symptoms, the dose of specific exercises targeted to improve symptoms is not well defined. In this study, the investigators will use a wireless VR device to measure key parameters and response to exercise. Another advantage of the VR device is the ability to control what the individual can see while performing the exercise. In normal daily life, moving objects and distracting backgrounds can make vestibular exercise too uncomfortable to perform. Using these methods, the investigators aim to determine the appropriate type and amount of exercise required for symptom improvement. This study will also compare the effectiveness of performing exercises in the virtual reality environment to standard physical therapy and to healthy persons without history of vestibular disorders. Three categories of vestibular disorders will be investigated with an instrumented and usual therapy group of 1) Unilateral hypofunction, 2) bilateral hypofunction, and 3) post-concussion.