Clinical Trials

Are you a woman 18 years old or older who has been diagnosed with LAM? This study is examining whether long-term treatment with medicine called sirolimus can stop lung damage in women who have LAM. This study takes place at multiple locations in the United States.

Are you between 14 and 22 weeks pregnant, and think that you might have obstructive sleep apnea (OSA) ? This study is testing whether using CPAP to treat obstructive sleep apnea in pregnant women can help lower the risk of hypertensive disorders during pregnancy. To participate in this study, you must be at least 18 years old. This study takes place in multiple locations in the United States.

Are you an adult who has been diagnosed with sleep apnea, prediabetes, and overweight or obesity? This study aims to understand how sleep apnea raises the risk of diabetes. The study will test whether treating sleep apnea with medicines or continuous positive airway pressure (CPAP) helps lower the risk of diabetes in people who have prediabetes. To participate in this study, you must be 20 to 65 years old. This study takes place in Chicago, Illinois.

Are you an African American adult with type 2 diabetes? This study is testing whether mindfulness meditation can help reduce stress and improve sleep. Participants will attend eight meditation classes in person or online and will receive regular text messages to remind them to practice meditation techniques at home. This study takes place in Chicago, Illinois.

The objective of this study is to investigate the mechanisms of respiratory functional and respiratory motor responses to the scES as an important step toward the long-term goal of developing effective evidence-based rehabilitation strategies for patients with SCI. The central hypothesis is that scES raises the excitability of motor networks for respiration resulting in amplified use-dependent neural plasticity in response to the respiratory training. The rationale for the proposed study is to justify the development of a new direction in respiratory rehabilitation by using respiratory training in combination with electrical spinal cord stimulation.

Do you live in Appalachian Kentucky? Researchers will be using a phone app and incentives to provide health coaching. Participants will be encouraged to eat more fruits and vegetables and reduce saturated fats and screen time. They will also monitor your physical activity using a motion device and help you become more active. To join, you must be 18 years or older. The study is taking place in Benham, Kentucky.

Shift work increases the risk for diabetes possibly due to the adverse metabolic effects of circadian misalignment. As shift work is not foreseen to disappear, the development of individually-targeted therapies for metabolic health in these vulnerable shift workers is urgently needed. This research will determine whether our dietary intervention can mitigate the adverse metabolic effects of circadian misalignment, which may help in the design of evidence-based dietary interventions to improve the metabolic health in shift workers.

Are you a cancer survivor? Would you like to join a clinical trial that is testing whether wearable devices and smartphone apps can help cancer survivors be more active? You must be 18 years old to join. The study is taking place in Worcester, Massachusetts.

his trial will evaluate an oral drug discovered in a high throughput screen, which increases fetal globin protein (HbF and red blood cells expressing HbF)and messenger ribonucleic acid (mRNA) to high levels in anemic nonhuman primates and in transgenic mice.

Sickle Cell Disease (SCD) impairs oxygen transport to tissue and causes endothelial injury. Thus, therapeutic interventions aim to improve both, but there is an unmet need for biomarkers to determine when intervention is necessary and evaluate the effectiveness of the chosen intervention in individual patients. This study proposes to monitor SCD and its treatment through their impact on cerebral hemodynamics, as the brain is one of the most vulnerable and consequential targets of the disease. Specifically, this study will optimize quantitative magnetic resonance imaging (MRI) and advanced optical spectroscopy techniques such as frequency-domain near-infrared and diffuse correlation spectroscopies (FDNIRS-DCS) to monitor 1) cerebral oxygen transport with measures of cerebral blood flow (CBF), cerebral oxygen extraction fraction (OEF) and cerebral metabolic rate of oxygen consumption (CMRO2) and 2) endothelial function with cerebrovascular reactivity (CVR).