View clinical trials related to Hypoxia.
Filter by:The present study will aim to evaluate: 1. The presence of Hypoxia Inducible Factor in vitiligo patient 2. Defect of Autophagy Related Genes in vitiligo patient 3. The cross relation between Autophagy Related Genes and Hypoxia Inducible Factor in the pathogenesis of vitiligo among Egyptian patients in Sohag Governorate
The Lumerah System, developed and manufactured by Raydiant Oximetry, Inc., is a non-invasive fetal pulse oximeter that measures fetal arterial oxygen saturation using safe, non-invasive, transabdominal near-infrared spectroscopy. The Lumerah System is intended as an adjunct to cardiotocography. In this study, women in labor will also be simultaneously monitored with a re-engineered version of the previously approved transvaginal oximeter sensor connected to a Nellcor N-400 fetal oximetry monitor for the purposes of device development. The data obtained from the transabdominal sensor and the transvaginal sensor will be used for research purposes only and will not be used to guide or alter patient management.
The primary aim of this study is to compare the effectiveness of ORI and rcSO2 in predicting hypoxia early in obese patients who are sensitive to hypoxia. Our secondary aim is; To determine whether there is a correlation between the changing trend of ORI and rcSO2 in obese patients.
Apneas (breath-holds) are increasingly being tested in human subjects to understand how the human body operates. Apneas decrease heart rate and increase blood pressure. These findings are driving current research into the effects of oxygen concentrations on the heart rate and blood pressure responses to apneas and the effect of breath-hold training on these responses. The interest in apnea research is three-fold: 1. Apneas are a nervous system stressor that can help researchers better understand the fundamental operation of the human body; 2. Elite divers can use findings from research to better their training and performance; and 3. The scientific understanding of apneas may translate to a better understanding of sleep apnea. Despite this interest, little is known about the repeatability (the consistency within a single day) and reproducibility (the consistency between days) in the heart rate and blood pressure responses to apneas. This uncertainty limits the scientific interpretations from previous results. This study aims to determine the repeatability and reproducibility of heart rate and blood pressure responses to apneas. The goals of the study are: 1. To provide greater certainty to previous results; and 2. Inform best practices for future studies. The study requires 20 healthy volunteers (10 females) and will measure heart rate, blood pressure, breathing parameters (expired gas concentrations, breathing volume and rate), and oxygen saturation. During the protocol, participants will complete two maximal voluntary apneas and five test apneas. The test apneas will all be the same length based on the longer of the two maximal voluntary apneas. Before each apnea, participants will also breathe low oxygen concentrations (hypoxia). Hypoxia provides a bigger decrease in heart rate during apneas than room air which makes it easier to see changes in heart rate responses between apneas (i.e., bigger signal-to-noise ratio). Participants will complete two identical test sessions on back-to-back days. The differences in heart rate and blood pressure responses to the five apneas within each session will determine repeatability and the differences between sessions will determine reproducibility. The investigators hypothesize that repeatability will be good and that repeatability within a session will be better than reproducibility between sessions.
High flow nasal cannula (HFNC) are introduced to clinical practice to improve oxygenation. Our group were the first to report the use of HFNC in extubated patients that showed comparable delivery of oxygen and improved comfort. These HFNC are subsequently shown to be useful in several clinical conditions in critically ill patients including respiratory failure due to hypoxia, hypercapnia (exacerbation of chronic obstructive lung disease), or post-extubation, pre-intubation oxygenation, and others. Recently a new mode of high flow oxygen therapy has been presented on the market where the prongs of high flow have two different diameters. These two-nare size high flow nasal cannula are capable of delivering gases at a flow rate of 15-50 L/min, similar to the conventional HFNP but the difference in the diameters provide different levels of positive pressure as compared to conventional HFNP. This positive pressure could help in gas exchange of patients who need more oxygen. These devices are approved by the Therapeutic Goods Administration (TGA); the medicine and therapeutic regulatory agency of the Australian Government. Our aim is to compare the two size nare high flow nasal cannula with conventional high flow nasal cannula in extubated patients in intensive care unit in a randomised crossover trial. The comparison will include arterial blood gasses, physiological data including heart rate, respiratory rate, saturations as well as comfort and tolerance of the patients to two size nare high flow nasal cannuale.
This study seeks to explore changes in the neural pathways and arm function following a breathing intervention in the multiple sclerosis (MS) population. The breathing intervention, known as Acute Intermittent Hypoxia (AIH), involves breathing brief bouts of low levels of oxygen. Research has found AIH to be a safe and effective intervention resulting in increased ankle strength in people with MS. Here, the study examines arm and hand function before and after AIH. In order to better understand the brain and spinal cord response to AIH, the investigators will measure muscle response, and signals sent from the brain to the arm muscles before and after AIH.
This is a prospective, non-interventional, multicenter, registry of patients with pulmonary associated with interstitial lung disease (PH-ILD).
Twelve male wrestlers of the National Polish Team were observed in the study during the camp. The hypoxia group (n=6) participated in sports training and hypoxic exposure, while the control group (n=6) included wrestlers participating only in sports training. The hypoxic group lived and slept in hypoxic rooms. During the camp, all wrestlers followed the same training schedule and diet. In the blood were determined levels of creatine kinase (CK), C-reactive protein (hsCRP) concentration, nitric oxide (NO), morphology, reticulocytes, lipid profile, and ferritin. Also vascular endothelial growth factor (VEGF, VEGFR2, and VEGFR3), erythropoietin (EPO), angiopoietin (Ang 1, Ang 2), endothelial cell adhesion factor-1 (VCAM-1), Erythropoietin (EPO) and hypoxia-inducible factor 1 (HIF-1). Body weight composition was determined.
The main aim of this randomized controlled trial is to evaluate cerebral blood oxygenation after 7-day administration of a creatine-guanidinoacetic acid (GAA) mixture in healthy adults before, during, and after a series of cognitive tests.
This study is a prospective, observational, single-center study to assess the correlation between rs-fMRI measures and clinical measures of standard MRI, NIRS, EEG and clinical scores. The target population was neonates with HIE referred to MRI after hypothermia treatment, which was initiated within 6 hours of birth, continued for 72 hours and followed by a slow rewarming period of 6-12 hours. A one-year clinical and imaging follow-up is planned. As the aim of the present study is to assess the predictiveness of the outcome one year after the HIE event, no follow-up is planned.