View clinical trials related to Hypoxia.
Filter by:In this randomized controlled trial (RCT), severe cases of COVID-19 infection will be treated with secretome of hypoxia-mesenchymal stem cells. The improvement in clinical, laboratory, and radiological manifestations will be evaluated in treated patients compared with the control group.
High blood pressure (BP) is one of the principal cardiovascular risk factors. While BP levels and hypertension prevalence are well characterized in many populations, information on BP and on cardiovascular risk profile in high altitude inhabitants is limited and frequently contradictory, especially in the large highland populations of South America. The information on the effects of permanent high altitude exposure on cardiovascular variables including BP may be relevant in the light of the known BP-increasing effect of acute exposure to high altitude hypoxia. This information may have practical implications for millions of people living at elevated altitudes in Asia, South America and Africa. The inconclusive epidemiological evidence on BP and cardiovascular risk in high altitude dwellers may be the result of several factors, among them: 1) confounding by genetic and socio-economic factors; 2) imperfect methods of BP evaluation, in particular lack of data on ambulatory and home BP (both methods considered superior to conventional clinic BP in the assessment of exposure to high BP). On this background, the general aim of the study is to compare blood pressure levels and cardiovascular risk profile among population-based samples of subjects residing in Peruvian communities living at different altitudes.
Reduced Hypoxic Ventilatory Response (HVR) and systemic O2 saturation subsequently leading to blunted aerobic capacity as well as decreased overall physical and cognitive performance are the main physiological challenges faced by prematurely born individuals in hypobaric hypoxia (i.e. during high altitude sojourn). While these phenomena have been described previously, the underlying mechanisms are currently unresolved. Given that the reduction in altitude-performance and its underlying mechanisms are not well understood, it is currently impossible to give evidence-based recommendation for altitude sojourns in this cohort. It is also of note, that even hypobaric hypoxia exposure during long-haul flights might be detrimental to well-being of pre-term born individuals. The present project aims to comprehensively investigate physiological responses to altitude/hypoxia during rest and exercise in prematurely born, but otherwise healthy adults. Specifically, we aim to elucidate the underlying mechanisms of the altered resting and exercise cardiovascular, respiratory, cerebral and hematological responses to hypoxia in prematurely born individuals. The obtained results from this cohort will be compared to the data from a control groups consisting of healthy, age and aerobic capacity-matched individuals born at full-term. While acute hypoxic effects will be the focus of the project's first phase, we will test the effect of prolonged terrestrial (real) or simulated (normobaric hypoxia) altitude exposures in the second part. This phase will, in addition to the insight into the prolonged altitude acclimatization modulation in prematurely born individuals, also enable us to investigate the potential differences between the effects of normobaric (simulated) and hypobaric (terrestrial) hypoxia in this cohort.
Perioperative pulmonary complications such as atelectasis, hypoxemia, and pneumonia after ventilatory management during general anesthesia have a negative impact on patient outcomes. The possibility of reducing perioperative pulmonary complications by lung recruitment, which uses positive pressure to prevent alveolar collapse, has been reported. Although laparoscopic surgery, which has been widely performed in recent years, can reduce the invasiveness of the operation, it is prone to alveolar collapse due to increased abdominal pressure and diaphragm elevation. The purpose of this study is to verify whether the lung recruitment during laparoscopic surgery in Trendelenburg head-down position prevents hypoxemia due to lung collapse.
Propofol is the most commonly used intravenous anesthetic for painless gastroscopy, but propofol significantly inhibits the respiratory and circulatory systems. Therefore, the incidence of intraoperative hypoxemia and hypotension is high. Remazolam tosylate is an ultra-short-acting benzodiazepine drug, which has a mild inhibitory effect on the respiratory and circulatory systems and has anterograde amnesia. These advantages make remazolam tosylate very likely to replace propofol in painless gastroscopic anesthesia.
Mountain sport activities as for example hiking or skiing may involve the risk of adverse health events especially in older people not accustomed to the specific mountain sport at altitude or people with pre-existing health issues. Increased activation of the sympathetic nervous system and abrupt changes in heart rate and blood pressure are thought to trigger these adverse effects. Preventive measures include regular physical activity (i.e. training) and adequate medical treatment. Hypoxia pre-adaptation (e.g., pre-adapt one night at moderate altitude) and pre-conditioning (e.g., intermittent hypoxia (IH) training), which was shown to lead to some favorable sympathetic nervous system, ventilatory and metabolic adaptations and additionally exerts anti-inflammatory action, could be hypothesized of being a further preventive measure. The aim of this research project is to investigate whether intermittent hypoxia pre-conditioning or sleeping one night at altitude (i.e., current recommendation before practicing mountain leisure sports in the elderly) is able to increase oxygen saturation during passive hypoxia exposure and during simulated hiking and skiing at altitude. Additionally, it is aimed to investigate whether such procedure reduces the physiological responses (i.e., heart rate, its variability and blood pressure (including baroreflex sensitivity) responses as well as metabolic, ventilatory, inflammatory and redox responses) during these activities.
The primary aim was to develop and validation of perioperative hypoxemia using clinical big data and deep learning technique in pediatric patients
To study the effect of acute normobaric hypoxia during exercise in patients with pulmonary hypertension on blood markers (serum markers of iron and red blood cell homeostasis and micro-RNAs known to be associated with PH).
The investigators and other groups have demonstrated that high-flow nasal oxygen used during preoxygenation for emergency surgery is at least equally effective as preoxygenation compared to standard tight fitting mask. The investigators also have data from a recent study that indicates that high-flow nasal oxygen might decrease the risk of clinically relevant desaturation below 93% of arterial oxygen saturation. The studies investigating the concept of high-flow nasal oxygen has up to this date excluded pregnant women. Pregnant woman is a patient group with known difficulties to maintain adequate saturation levels during apnoea. Due to smaller functional residual capacity their oxygen stores after preoxygenation are smaller compared to patients with a normal body mass index. The pregnant woman also have a higher oxygen demand and metabolism due to the growing placenta and the fetus. Pregnant women are therefore a patient group where a method that could prolong time until desaturation would be even more valuable and potentially could save lives. Based on the above, the investigators now aim to conduct a clinical pilot study, where pregnant women undergoing caesarian section under general anesthesia are pre and perioxygenated with high-flow nasal oxygen. Data from that group will be compared with patients preoxygenated in a traditional manner with tight facemask. This study is done to evaluate an established technique on a patient category that in theory could gain a lot from it.
This study is designed as a 2-part, 2-cohort, double-blind, randomized, placebo controlled, multicenter Phase 1/2 study to evaluate the safety, tolerability and efficacy of RJX in patients with COVID-19.