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Therapeutic delivery of additional oxygen to blood stream via hyperbaric and extracorporeal oxygenation that raise blood Oxygen saturation level, apart from oxygenation in the lungs, are known to induce tissue repair, restore normal body functions and improve survival. Despite the clinical benefits obtained from these interventions, Oxygen supplementation is rather a medically involved process requiring access to specialized equipment including hyperbaric chambers, cardiac catheterization laboratory and extracorporeal oxygenators, and is not generally amenable for everyday use. The current prospective study will evaluate a non-invasive route for Oxygen delivery through ingestion of super-oxygenated water in adult volunteers. The participants will be randomly assigned to one of the two treatment groups viz. super-oxygenated water or placebo control normal water at 1:1 ratio. Neither the participants nor the study doctor will know the treatment assignment. Pre- and Post-ingestion measurements will be conducted to evaluate effect of super-oxygenated water.
SGLT2 inhibitors have demonstrated to mitigate cardiorenal risk in people with type 2 diabetes and are likely to play an increasingly large role in the treatment of patients with diabetes, chronic kidney disease and hypertension. Yet the underlying mechanisms of its protective effects are incompletely understood and the salutary effect may be altered by dietary factors such as sodium intake. Therefore, carefully designed mechanistic trials are needed to better understand the interplay between ertugliflozin and salt intake and to potentially modify salt intake to maximize treatment response. In addition, the study could contribute to hypotheses concerning the effects of SGLT2 inhibitors in combination with other drugs that affect sodium homeostasis and could help to explain the differences in kidney outcomes observed in (outcome) trials, which include different ethnicities with potential differences in dietary habits.
Past mitochondrial disease treatment studies have been unsuccessful in determining treatment efficacy, and a major factor has been the lack of validated biomarkers in mitochondrial myopathy (MM). There is currently a growing number of potential new treatments to be tested through MM clinical intervention trials, which has created a pressing need for quantitative biomarkers that reliably reflect MM disease severity, progression, and therapeutic response. The purpose of the study is to measure the efficacy of an electrochemical oxygen nanosensor to measure in vivo mitochondrial function in human muscle tissue, and its ability to discriminate MM patients from healthy volunteers. The data and results from this nanosensor study may contribute to current and future research, including improved diagnostic and therapeutic approaches for patients with mitochondrial disease.
The purpose of this study is to determine if transseptal extra-corporeal membrane oxygenation (ECMO) can bridge pulmonary hypertension- right heart failure (PH-RVF) patients to lung transplant safely.
The purpose of this study is to evaluate the efficacy, safety and economic benefits of Cyclical Pressure Topical Wound Oxygen (TWO2) Therapy in the treatment of venous leg ulcers. Participants will utilize standard of care (SOC) multilayer compression dressings with an inactive wound contact layer. Following a 2-week run-in period with SOC and after meeting all eligibility criteria, subjects will be randomized in a 1:1 ratio with TWO2 therapy or sham control therapy plus SOC. Participants will enter the intervention period of up to 16-weeks, followed by a long-term follow-up period of 52 weeks post randomization.
Anesthesia is crucial during upper GI endoscopy in order to improve the procedural conditions for the interventionist, increase the quality of examination and alleviate patient discomfort. However, sedation during endoscopy carries a serious risk of blood oxygen desaturation. This study aims to investigate the hypothesis if the application of high-flow nasal oxygen (HFNO) during high-risk gastroscopy reduces the risk of blood oxygen levels to drop below a defined threshold. Enrolled patients will be randomly assigned to either the control group, receiving standard care during endoscopy, or the intervention group, receiving HFNO therapy during the procedure. Throughout the intervention, vital parameters will be recorded. Care providers will be asked to answer a questionnaire that specifically evaluates the effect of HFNO on patient safety and the procedure.
Conducting a randomized control trial of oxygen in children with Down syndrome to treat moderate to severe obstructive sleep apnea. The aim of the study is to conduct a comparison between the 2 methods of oxygen delivery during sleep in 15 children from Cincinnati Children's Hospital and Children's Hospital of Los Angeles. 2 polysomnographies will be performed, one with continuous flow and the second with pulse flow.
The goal of this blinded, adaptive, randomized, placebo-controlled clinical trial is to investigate the use of hyperbaric oxygen as a therapy to treat mild to moderate traumatic brain injury in Veterans and active military. The main questions it aims to answer are: * Does Hyperbaric Oxygen Therapy (HBOT) reduce neurobehavioral symptoms? (Aim 1) * How many HBOT sessions are needed to achieve a significant reduction in neurobehavioral symptoms? (Aim 2) * Does HBOT reduce posttraumatic stress disorder (PTSD) symptoms? (Aim 3) Exploratory objectives will explore if there are changes in: 1.) cognitive functioning using neuropsychological tests and the National Institutes of Health (NIH) toolbox, 2.) inflammation biomarkers in blood, 3.) microbiome in stool samples, 4.) electroencephalogram (EEG), 5.) sleep characteristics, and 6.) fMRI. Research will compare HBOT therapy to a placebo condition to see if HBOT works to treat neurobehavioral symptoms. The placebo condition is a chamber that remains unpressurized and has 21% oxygen. Participants will: 1. Complete baseline assessments to determine eligibility. 2. Attend 40 sessions of HBOT or placebo (normal air) within 12 weeks. 3. Complete questionnaires and interviews throughout the course of the study. 4. Complete a 2-week post treatment visit
Rapid Sequence Intubation (RSI) is a high-risk procedure in the emergency department (ED). Patients are routinely preoxygenated (given supplemental oxygen) prior to RSI to prevent hypoxia during intubation. For many years anaesthetists have used end-tidal oxygen (ETO2) levels to guide the effectiveness of preoxygenation prior to intubation. The ETO2 gives an objective measurement of preoxygenation efficacy. This is currently not available in most EDs. This trial evaluates the use of ETO2 on the rate of hypoxia during intubation for patients in the ED.
The primary objective of the study is to determine changes in cerebral nociceptive hemodynamic response (blood oxygenation/flow) before, during and following spinal cord stimulation (SCS). Objective measurements of cerebral nociceptive hemodynamic responses will be obtained with the CereVu sensor and ROPA system and will be analyzed offline and compared against subjective measures of pain. Proprietary analysis algorithms will be incorporated and developed to understand how the objective measurements correlate with subject reported pain levels