View clinical trials related to Oxygen Consumption.
Filter by:Cranberry is a fruit native to North America that is widely grown in Quebec and has been shown to have the highest antioxidant capacity among the most commonly eaten fruits. Consequently, consuming cranberries prior to exercising may help to improve exercise endurance by preventing accumulation of reactive oxygen species. For aerobic endurance, in order to maintain a certain pace for a long duration, runners need to effectively neutralize reactive oxygen species. Although it is not the only component involved in running, offsetting reactive oxygen species should improve running performance. To test this, we plan to investigate the effects, both acute and chronic, of a cranberry extract on the oxygen consumption in 18-35 year old males and females. The present research project will contribute to expand our knowledge of how cranberry extract can exert a positive effect, and thus improve aerobic performance or even every day life. This project can benefit a wide range of the population, from sedentary individuals and older adults to elite athletes by providing an all-natural supplement alternative.
To advance the methodology for evaluating persons with heart disease and their maximal oxygen uptake, the primary aim of this study is to investigate the occurrence of a plateau in oxygen uptake. This plateau will be examined for the purpose of assessing VO2 max in persons enrolled in exercise-based cardiac rehabilitation. Furthermore, this study aims to investigate the age-related respiratory exchange ratio, and rating of perceived exertion, and describe their association with the presence of a plateau. Heart disease and characteristics for all participants are obtained. Participants underwent a maximal exercise test on an ergometer cycle with direct measurement of oxygen uptake to assess oxygen plateau attainment. This included measurement of the maximal oxygen uptake, respiratory exchange ratio, heart rate and the ratio of perceived exertion (BORG6-20).
The goal of this observational study is to find out if researchers can measure oxygen consumption in the body without having to draw blood from lines in arteries and central veins. Participants will undergo measurements of arterial blood oxygen saturation using both finger and neck pulse oximeters.
Breast cancer is the most common type of cancer among women worldwide. The incidence rate has reached approximately 16%. According to 2016 data from the Ministry of Health, the incidence of breast cancer in Turkey is 46.8 per 100,000 people and approximately 17,000 women are diagnosed with breast cancer each year. While breast cancer survival rate is 80% in developed countries, this rate varies between 40-60% in low-middle income countries. Survival can be increased with early diagnosis and more effective treatment methods. However, a wide range of treatment-related complications are observed during and/or after breast cancer treatment. Cancer survivors are exposed to a variety of direct (local/regional therapy, systemic therapy and supportive care) and indirect factors (modifiable and non-modifiable risk factors) that can have adverse effects on pulmonary, cardiovascular, hematologic and musculoskeletal components. Oxygen consumption in cancer patients may be adversely affected by aging, deconditioning, existing comorbidities, cancer pathophysiology and cancer treatments (surgery, radiation, chemotherapy and hormone therapy). Although decreased functional capacity is common after breast cancer treatment, there are few studies evaluating maximal arm exercise capacity with oxygen consumption.
The goal of this clinical trial is to demonstrate the improvement of muscular oxygenation in patients with Multiple Sclerosis and spasticity using Exopulse Molli suit stimulation. The main questions it aims to answer are: - to evaluate the short-term impact of EXOPULSE Molli suit on muscular oxygenation in adult MS patients suffering from spasticity. - to assess the effects of Exopulse Mollii suit on spasticity, pain, fatigue, quality of life (QoL), walking and risk of fall. Study subjects will participate in: - One baseline visit for inclusion in the study during which the patient will undergo the first session (active or sham) along with an evaluation before and after the session - One visit after two weeks during which the patient will undergo the second session (active or sham) along with an evaluation before and after the session - One visit two weeks after the second stimulation; where the patients will undergo a fifth evaluation and receive the EXOPULSE Molli Suit for the four-week open label phase to use the suit at home for an active stimulation session every other day for four weeks. - One visit at the end of the open label phase to perform the sixth and last evaluation and return the EXOPULSE Molli suit. Researchers will compare both Active and Sham groups to demonstrate the improvement of muscular oxygenation in patients with MS and spasticity using Exopulse Molli.
Restrictive and liberal approaches to hemoglobin targets are used when deciding on red blood cell transfusions in patients who do not have acute bleeding and have a hemodynamically stable course in the intensive care unit. However, physiologic trigger points that assess tissue oxygenation when deciding on blood transfusion in patients are also among the important topics of study in recent years. In this study, the investigators will evaluate the oxygen extraction rate, which is an important indicator of the balance between tissue oxygen delivery and consumption. Whether oxygen extraction rate can be used as a trigger for blood transfusion will be determined by clinical outcomes in ICU patients. If physiologic transfusion targets are feasible, the risks of unnecessary transfusions can be avoided with individualized targets, and the decision to transfuse blood can be made without delay in patients requiring red blood cell transfusion.
Aim of this prospective, observational, multi-centered, randomized study is to detect cardiovascular complications in patients after coronavirus infection. The study will include 100 patients who underwent confirmed by laboratory tests COVID-19 infection (polymerase chain reaction (PCR) testing, enzyme-linked immunosorbent assay (positive result at least 1 time)) 1-3 months ago with the degree of lung lesion more than 25%, who were admitted to the University Clinical Hospital No. 4 of I.M. Sechenov First Moscow State Medical University. The study consists of 4 periods: 1. Screening for up to 6 months. 2. Inclusion in the study, undergoing of identical laboratory and instrumental testing. 3. Re-examination of patients. After 6 months from the initial examination (9 months after discharge from the infectious diseases department), patients will be re-examined. 4 Determination of end points, statistical data processing. Estimated result of the study is to confirm or refute the hypothesis: 1. As a result of the analysis of ECG and pulse wave data and comparison with echocardiography data, identify cardiovascular complications of COVID-19 infection. 2. To determine the diagnostic significance of pulse wave parameters for assessing cardiovascular complications in patients with a history of COVID-19 infection (sensitivity, specificity, positive and negative predictive value). 3. Identify correlations between pulse wave parameters and biochemical markers of endothelial dysfunction (endothelin-1). 4. As a result of the analysis of exhaled air by the proton mass spectrometry, to identify markers of cardiovascular complications in patients after COVID-19 infection. 5. As a result of a cardiorespiratory stress test, determine the respiratory and cardiovascular causes of dyspnea, exercise tolerance of patients after infection with COVID-19.
In this study, the investigators will evaluate whether the delivered fraction of oxygen (O2) and sevoflurane administered through a a closed circuit and calculated on the basis of the estimations of O2 consumption (VO2) and sevoflurane uptake (SEVOup) through the inspired-expired fraction gradients of both gases once subtracted the physiological dead space (VDphys), adequately fits the real gases consumption. All participants will be ventilated under a tailored open lung approach (tOLA) strategy.
The main aim is to determine whether a gait retraining intervention will improve the strength of the foot-ankle muscle, the running economy and reduce the injury incidence in a one-year follow-up study. The secondary aim is to seek whether a minimal foot-ankle strength is necessary to reduce the risk to sustain to a running-related-injury to transit toward a forefoot strike pattern or toward a minimalist footwear for an endurance runner. Participants will be assessed at baseline, at 2 month follow-up, at 6 month follow-up and at 12 month follow-up. Assessment will be composed by questionnaires, a foot screening, maximal voluntary isometric strength of foot-ankle muscle with hand held dynamometer. Then, participants will run on a treadmill at self-paced and at 10 km/h with to measure their running economy and their footstrike pattern. In function of their distribution, participants will receive either nothing (control group) or minimalist footwear or a training to modify their footstrike pattern toward a more forefoot strike.
Coronavirus-2019 (COVID-19) is a new virus that emerged in December 2019 and spread quickly all over the world. Problems such as hypoxia, dyspnea, increased fatigue, decreased exercise capacity and respiratory muscle strength occur in COVID-19 patients.In addition, abnormalities in skeletal muscles due to systemic inflammation, mechanical ventilation, sedation and prolonged bed rest in hospital and intensive care patients cause decreased exercise capacity.