THRIVE Use in Pediatric Populations- Multi Site
Oxygen DeficiencyDesaturation of Blood2 moreTHRIVE (Transnasal Humidified Rapid-Insufflation Ventilatory Exchange) refers to the use of high-flow nasal cannula to augment the ability to oxygenate and ventilate a patient under general anesthesia. The use of high-flow nasal cannula oxygen supplementation during anesthesia for surgical procedures has been a recent development in the adult population, with limited data analyzing the pediatric population. This study will determine whether high flow nasal cannula oxygen supplementation during surgical or endoscopic procedures can prevent desaturation events in children under anesthesia and improve the outcomes of that surgery.
Timed Awake Prone and Repositioning for Patients With Covid-19-induced Hypoxic Respiratory Failure....
Corona Virus InfectionHypoxic Respiratory FailureAwake prone positioning has been reported to improve oxygenation for patients with COVID-19. Awake timed and repositioning is a novel method to improve patients' compliance and prolong the prone time. This study aims to explore the impact of timed prone and repositioning on the intubation rate and prognosis of COVID-19 patients with hypoxic respiratory failure.
Hypoxia and Heart Rate Variability
Pulmonary DiseaseChronic Obstructive1 moreThe purpose of this study is to evaluate how variations in oxygen demands may change heart electrical activity in individuals with and without oxygen dependence.
Prostate Hypoxia - TIC
Prostate CancerProstate cancer is the most commonly diagnosed form of cancer in Canadian men. In 2006, greater than 250,000 men were diagnosed with prostate cancer in the United States and Canada with more than 32,000 men dying of their disease. Using the prognostic variables of T-category, the serum prostate specific antigen (PSA), and the pathologic Gleason score (GS), men with localized prostate cancer are placed in low, intermediate and high-risk groupings. Usually this is treated with surgery, radiation therapy, hormone therapy and/or watchful waiting (also known as active surveillance). While these treatments are quite effective, tumours are likely to recur in about 40% of cases. There is a need for additional prostate cancer treatments. To address this need, many experimental therapies are being developed and tested in mice with prostate tumors. This includes the study of aggressive prostate cancer cells such as stem cells, or Tumour Initiating Cells (TICs), or oxygen deprived cells, which may be the ones most likely to re-grow into a tumour or spread throughout the body. Researchers want to try and isolate these special cells from the prostate after surgery to study their features, and to see if they can re-grow as solid tumours in mice. Researchers would like to test whether the prostate cancer stem cells are more resistant or less resistant to treatments. This will allow researchers to study and test new treatments that specifically target resistant and aggressive prostate cancer cells. The investigators hypothesize that marker-defined TIC cells or hypoxic cancer cells have unique genetics in primary prostate cancers and are relatively chemo- and radio-resistant.
Low-field Thoracic Magnetic Stimulation Increases Peripheral Oxygen Saturation Levels in COVID-19...
COVID-19Acute Respiratory Failure1 moreThis study aimed to present a proof-of-concept that a 30 minutes single-session of low-field thoracic magnetic stimulation (LF-ThMS) on the dorsal thorax can be employed to increase oxygen saturation (SpO2) levels in coronavirus disease (COVID-19) participants significantly. The investigators (Saul M. Dominguez-Nicolas and Elias Manjarrez) hypothesized that the variables associated with LF-ThMS, as hyperthermia, frequency, and magnetic flux density in the dorsal thorax, might be correlated to SpO2 levels in these participants. The investigators designed a single-blind, sham-controlled, crossover study on COVID-19 participants who underwent two sessions of the study (real and sham LF-ThMS), and other COVID-19 participants who underwent only the real LF-ThMS.
Effect of Altitude on Iron Absorption in Iron Depleted Women
Iron Deficiency AnemiaIron Deficiency (Without Anemia)1 moreOne of the most common nutritional deficiencies worldwide is iron deficiency. Iron deficiency is considered the main cause of anaemia in developing countries, including those in South America. The most recent surveys report that the prevalence of anaemia is as high as, 40 and 25% in Peru. Populations living at higher altitudes may have higher iron requirements, as body iron is naturally increased in long-term high-altitude residents to compensate for the lower oxygen in the air at high altitudes. However, the effects of chronic exposure to high altitude on iron status, body iron compartments and dietary iron requirements are incompletely understood. The primary objective of the proposed research is to determine iron bioavailability of iron from biofortified potatoes at different altitudes in populations of Andean descent. Human trials will be undertaken with volunteers in the Huancavelica region of Peru (elevation: 3676 meters) as well as in Lima (elevation close to sea level). The aim is to assess the effect of altitude on the absorption from a promising iron biofortified potato cultivar. These trials require incorporation of iron stable isotopes into the meals of the bio fortified potato and the analysis of the isotopes in subsequent blood (red blood cells) samples. Stable iron istotopes are considered the golden standard to assess human iron absorption and can be safely used as tracer substances in humans. The objective of the study is to compare, in volunteer females of childbearing age, the bioavailability of iron from bio-fortified potatoes in two locations of different altitudes and quantify the effect of altitude on iron bioavailability from a potato meal consumed over 5 consecutive days.
RDS MultiSense® SpO2 Calibration
HypoxiaData will be collected with the MultiSense® pulse oximetry system during non-motion conditions over the range of 70-100%. A Clinimark reference system, previously correlated to arterial blood CO-Oximetry will be the basis for comparison. A minimum of fifteen (15) up to fifty (50) healthy adult subjects, ranging in pigmentation from light to dark, with at least six (6) subjects with dark pigmentation (Fitzpatrick 5-6), will be enrolled in the study to meet the study design requirements defined by ISO 80601-2-61 and by the FDA's Guidance for Pulse Oximeters (March 4, 2013). SpO2 data will be evaluated during non-motion conditions. SpO2 data will be evaluated during stable step plateaus of induced hypoxic levels. The investigational device will be placed on the thorax of the subjects (patch on the upper back and external electrode on the right pectoral). Simultaneous data collection will be set up for the reference and the systems under test.
Influence of PBM on Anaerobic Capacity Under Normoxia and Hypoxia
Low Level Laser TherapyPhotobiomodulation2 moreThe photobiomodulation (PBM) shows positive results in muscle performance, fatigue reduction, management of blood lactate production, analgesia and in the increase of VO2 maximal, favoring the increase of ATP production and thus the energy metabolism. The association of PBM applied before high-intensity treadmill training shows physiological improvements both in normoxic (Nor) and hypoxic (Hip) conditions. Anaerobic capacity (AC) is the maximum amount of ATP that can be resynthesized by anaerobic metabolism and is an important predictor of high-intensity exercise since an athlete's ability to perform efforts to increase maximal oxygen consumption (VO2max) depends on AL. In view of the above information the main objective of the present research project will be to investigate the effects of PBM on AC under normoxic and hypoxic conditions in amateur runners. To test the effects of exercise training on anaerobic capacity under normoxic and hypoxic conditions, 7 individuals will be randomly submitted to four maximal efforts to exhaustion with intensity corresponding to 110% of VO2max in Hip, Nor, Hip+Ebio and Nor+Ebio conditions. These efforts will be used to estimate the AC, that is, the maximum accumulated deficit of alternative oxygen (MAODRED), from the sum of the energy contribution of the anaerobic and lactic metabolisms.
HFNO Reduces Hypoxia During Sedated Gastroscopy or Colonoscopy in High Risk Patients
Gastric CancerIntestinal Cancer2 moreThe objective of this study is to observe the preventive effects of high flow nasal oxygenation on the incidence of hypoxia during gastroscopy or colonoscopy sedated with propofol in high-risk patients.
Cytokine and Stress Hormone Responses to Exercise-induced Hypoxemia Among Endurance-trained
Exercise-induced Arterial HypoxemiaIt is well documented that exercise-induced arterial hypoxemia (EIAH) is highly prevalent among endurance-trained athletes performing heavy intensity exercise, regardless of sex and age. Although it has been shown that a drop in arterial oxyhemoglobin saturation (SaO2) during exercise (i.e. EIAH) negatively affects aerobic capacity measures such as VO2max and time trial performance, there remains a gap in the literature as to the physiological consequences of EIAH, and specifically acute cytokines and stress-related responses to hypoxemia during exercise. Exposure to hypoxic environments in which SaO2 is reduced and exercise can each, independently, alter/activate various pro- and anti-inflammatory markers and increases stress hormones. It follows then that EIAH athletes could be more susceptible to, and encounter more frequently, episodes of elevated levels of inflammatory cytokines and an exaggerated stress response than non-EIAH athletes; however, to the best of the investigators knowledge, this is yet to be confirmed. Therefore, it is hypothesized that highly trained endurance athletes who develop EIAH will experience more pronounced increases in inflammatory cytokines and stress hormones following a bout of heavy intensity exercise compared to athletes without EIAH.