300,000+ clinical trials. Find the right one.

46 active trials for Hypoxia

Low-Flow vs. High-Flow Nasal Cannula for Hypoxemic Immunocompromised Patients During Diagnostic Bronchoscopy

Pneumonia is a lung infection. Fiberoptic bronchoscopy is a test to diagnose the type of lung infection. While this procedure is being performed, a small amount of oxygen is delivered into the nose (low flow nasal cannula). Occasionally during this procedure, the blood oxygen of the patient may drop and an intervention such as increasing the oxygen flow, or placing the patient on a breathing machine is required. An alternative device called 'Optiflow' can provide high flow oxygen through nasal cannula, and is comfortable for patients. If Optiflow is used during bronchoscopy, it may prevent the blood oxygen from dropping.

Start: January 2018

The VISION-Acute Study

AIM: We propose an innovative approach using Lifelight® smart technology that will enable the continued provision of high level patient care at the same time as reducing pressure on nursing and equipment resources. METHOD : Lifelight® is a computer program ("app") which can be used on smart devices that contain a camera. It is able to measure all of the vital signs by measuring very small changes in skin colour that occur each time the heart beats. This means that it does not need to touch the patient. We believe this could be an effective way of measuring vital signs, especially during the COVID-19 pandemic when prevention of cross-contamination between patients is essential. Patients are also likely to be reassured by a contactless approach. During this study, we will recruit two groups of people who are hospitalised with an acute illness. The first group will be people expected to have abnormal blood oxygen levels such as those with acute respiratory problems including those with COVID-19. The second group will be people expected to have abnormal blood pressure. These Lifelight vital signs will be compared to measurements from standard clinical equipment. The exact number of participants recruited will depend on how quickly the app "learns" and how many of the vital signs collected are outside of the normal range. For the first group of participants, we will use a camera to collect data about the changes in their face and use this to teach the app how to measure blood oxygen level and also to check how well the app measures blood oxygen level, heart rate and respiratory rate. For the second group of participants, we will use a camera to collect data about the changes in their face to check how well the app measures blood pressure and respiratory rate. All of the data will be kept secure and participants will not be able to be identified.

Start: September 2020

The Effect of ECMO on the Pharmacokinetics of the Drugs and Their Clinical Efficacy

This study will examine the pharmacokinetics of the various, routinely given antibiotics, sedatives, and opioids in patients undergoing venous-venous extra-corporal oxygenation (ECMO). Little is known about the distribution and effectiveness of antibiotics in this particular patient population.

Start: September 2016

Oxygen Control and Weaning by O2matic to Patients Admitted With an Exacerbation of COPD

The aim of the study is to examine if automated oxygen delivery with O2matic allows for faster weaning from oxygen and better oxygen control than manually controlled oxygen therapy for patients admitted with an exacerbation of chronic obstructive pulmonary disease (COPD). Furthermore it will be tested if O2matic compared to manual control allows for faster discharge from hospital. Patients sense of security, anxiety and dyspnea will be evaluated by questionnaires.

Start: December 2018

Prevention of Perioperative Pulmonary Complications by Lung Recruitment During Laparoscopic Surgery

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.

Start: March 2021

Motor Plasticity, Intermittent Hypoxia and Sleep Apnea

The purpose of this study is to learn about the effect of sleep apnea and low oxygen on muscle strength and lung function in people with chronic spinal cord injury.

Start: July 2021

Servo Controlled Oxygen Targeting Study

Most premature babies require oxygen therapy. There is uncertainty about what oxygen levels are the best. The oxygen levels in the blood are measured using a monitor called a saturation monitor and the oxygen the baby breathes is adjusted to keep the level in a target range. Although there is evidence that lower oxygen levels maybe harmful, it is not known how high they need to be for maximum benefit. Very high levels are also harmful. Saturation monitors are not very good for checking for high oxygen levels. For this a different kind of monitor, called a transcutaneous monitor, is better. Keeping oxygen levels stable is usually done by nurses adjusting the oxygen levels by hand (manual control). There is also equipment available that can do this automatically (servo control). It is not known which is best. Studies of automated control have shown that infants spend more time within their intended target oxygen saturation range. These have not included measurements of transcutaneous oxygen. The investigators aim to show the transcutaneous oxygen levels as well as the oxygen saturation levels when babies have their oxygen adjusted manually or automatically.

Start: January 2020

Automated Oxygen Control by O2matic to Patients Admitted With Acute Hypoxemia

The aim of this study is to examine if automated oxygen delivery with O2matic allows for faster weaning from oxygen supply and better oxygen control than manually controlled oxygen therapy for patients admitted to the emergency department with acute hypoxemia. Furthermore it will be tested if O2matic compared to manual control allows for earlier discharge.

Start: October 2019

Nebulised Dornase Alfa for Treatment of COVID-19

An open-label, randomised, Best-Available-Care (BAC) and historic-controlled trial of nebulised dornase alfa [2.5 mg BID] for 7 days in participants with COVID-19 who are admitted to hospital and are at risk of ventilatory failure (the COVASE study). Controls will include a randomised arm to receive BAC, historic data from UCLH patients with COVID-19 and biobanked samples will be used to demonstrate an effect of dornase alfa. CRP will be measured to assess the effect of dornase alfa on inflammation. Clinical endpoints and biomarkers (e.g. d-dimer) will be used to assess the clinical response. Exploratory endpoints will explore the effects of dornase alfa on features of neutrophil extracellular traps (NETs).

Start: June 2020

SCO2T (Servo vs. Servo)

Most premature babies require oxygen therapy. There is uncertainty about what oxygen levels are the best. The oxygen levels in the blood are measured using a monitor called a saturation monitor and the oxygen the baby breathes is adjusted to keep the level in a target range. Although there is evidence that lower oxygen levels maybe harmful, it is not known how high they need to be for maximum benefit. Very high levels are also harmful. Saturation monitors are not very good for checking for high oxygen levels. For this a different kind of monitor, called a transcutaneous monitor, is better. Keeping oxygen levels stable is usually done by nurses adjusting the oxygen levels by hand (manual control). There is also equipment available that can do this automatically (servo control). It is not known which is best. Studies of automated control have shown that infants spend more time within their intended target oxygen saturation range. These have not included measurements of transcutaneous oxygen. There are no previous studies directly comparing automated respiratory devices. The investigators aim to show the transcutaneous oxygen levels as well as the oxygen saturation levels when babies have their oxygen adjusted using two automated (servo) control devices delivering nasal high flow. For a period of 12 hours each baby will have their oxygen adjusted automatically using each devices for 6 hours respectively. The investigators will compare the range of oxygen levels that are seen between the two respiratory devices.

Start: August 2020

Non-Invasive Positive Pressure Ventilation Management of High Altitude Pulmonary Edema

Trial of Non-Invasive Positive Pressure Ventilation Management of High Altitude Pulmonary Edema

Start: March 2020

Effect of Hypoxia on Cognitive Assessment and Cerebral Activity in Healthy Volunteers

The early assessment of new symptomatic drugs for Alzheimer disease remains difficult because of the lack of predictive end-point. The use of a battery including different parameters could improve this early development. In healthy volunteers, to test the reverse effect of symptomatic drugs, it is necessary to induce transient and reversible cognitive impairment and cerebral activity changes by a challenge test. In this context, a transient hypoxia could be relevant.

Start: November 2015

The Effect of Inhaled Nitric Oxide on Maximal Oxygen Consumption During Exercise in Hypoxia

During exercise in conditions of low oxygen (termed hypoxia), such as mountaineering at high altitudes, the lung blood vessels constrict in an attempt to protect the body from the negative effects of hypoxia. It appears that this blood vessel constriction may limit the heart to pump blood during heavy exercise, leading to reductions in exercise performance. Inhaled nitric oxide is a drug that is known to relax the lung blood vessels. Inhaled nitric oxide has been used to relax lung blood vessels and improve exercise capacity in patients with chronic disease. It is unknown if similar improvements would be observed during exercise in healthy individuals when exposed to low levels of oxygen. The goal of this study is to determine if inhaled nitric oxide can relax the lung blood vessels and improve the heart's pumping ability during exercise in low oxygen conditions. Further, the investigators will determine if these improvements in lung blood vessel and heart function increase exercise performance. Participants will complete 6 sessions over a three week period where they will perform exercise challenges while breathing low levels of oxygen with and without inhaled nitric oxide. The low oxygen conditions will be comparable to being at an altitude of 14,000-17,000 feet. 17,000 feet would be equivalent to standing on the summit of King Peak in the Yukon (the 4th tallest mountain in Canada).

Start: August 2020

High-flow Nasal Cannula Oxygenation Decrease Hypoxia in Sedated Gastrointestinal Endoscopes in Obesity

Hypoxia is the most common adverse event during gastrointestinal endoscopes sedated with propofol and sufentanil, especially in obese people. In the present study, high-flow nasal cannula oxygenation will be utilized in order to reduce the incidence of hypoxia among obesity.

Start: August 2020

Improving Safety of Diagnosis and Therapy in the Inpatient Setting

To improve the safety of diagnosis and therapy for a set of conditions and undifferentiated symptoms for hospitalized patients, the investigators will employ a set of methods and tools from the disciplines of systems engineering, human factors, quality improvement,and data analytics to thoroughly analyze the problem, design and develop potential solutions that leverage existing current technological infrastructure, and implement and evaluate the final interventions. The investigators will engage the interdisciplinary care team and patient (or their caregivers) to ensure treatment trajectories match the anticipated course for working diagnoses (or symptoms), and whether they are in line with patient and clinician expectations. The investigators will use an Interrupted time series (ITS) design to assess impact on diagnostic errors that lead to patient harm. The investigators will perform quantitative and qualitative evaluations using implementation science principles to understand if the interventions worked, and why or why not.

Start: April 2019

Is Reduced Hypoxia Through a Robot Intervention, Associated With Sensory and Emotional Descriptions of Dyspnea, Anxiety, Depression, Symptom Burden and Anxiolytics

Chronic Obstructive Pulmonary Disease (COPD) is associated with high morbidity and mortality. The Danish Lung Association estimates that 320,000 Danes live with COPD, of which approximately 50,000 with severe COPD. In 2017, records showed that 23,979 admissions in Denmark were related to COPD; of these patients, about 20% were readmitted 2-30 days after discharge. The main symptom is dyspnea, which is often accompanied by anxiety. Primary treatment is; oxygen, bronchiolitis, prednisolone, morfin, NIV, and anxiolytics. Researchers at Hvidovre Hospital have developed an oxygen robot that continuously monitors the patient's SaO2 (oxygen saturation) and automatically administrates the oxygen depending on it. The preliminary results show that patients with robot-administrated oxygen were within defined SaO2 range in 85.7% of the time versus 46.6% when oxygen was nurse-administrated. The research was conducted as a multicentre Randomized Controlled Trial (RCT)focusing on physiological end-points. There is a lack of knowledge about the patient perspective of treatment with the oxygen robot. The purpose of this study is: 1. To examine the association between robot-administered oxygen and patients' perception of dyspnoea, including the emotional response in the form of anxiety and depression The perspective is to be able to provide a holistic response to whether robot administered oxygen can be a better method of treating and alleviating dyspnoea.

Start: September 2019

Automated Oxygen Administration -Rethinking Interventions Alleviating Dyspnea in Patients With COPD

Chronic Obstructive Pulmonary Disease (COPD) is associated with high morbidity and mortality. The Danish Lung Association estimates that 320,000 Danes live with COPD, of which approximately 50,000 with severe COPD. In 2017, records showed that 23,979 admissions in Denmark were related to COPD; of these patients, about 20% were readmitted 2-30 days after discharge. The main symptom is dyspnea, which is often accompanied by anxiety. Primary treatment is; oxygen, bronchiolitis, prednisolone, morfica, NIV, and anxiolytics. Researchers at Hvidovre Hospital have developed an oxygen robot that continuously monitors the patient's SaO2 (oxygen saturation) and automatically administrates the oxygen depending on it. The preliminary results show that patients with robot-administrated oxygen were within defined SaO2 range in 85.7% of the time versus 46.6% when oxygen was nurse-administrated. The research was conducted as a multicentre Randomized Controlled Trial focusing on physiological end-points. There is a lack of knowledge about the patient perspective of treatment with the oxygen robot. The purpose of this study is: 1. To examine the effect of robot-administered oxygen on patients' perception of dyspnoea, including the emotional response in the form of anxiety and depression The perspective is to be able to provide a holistic response to whether robot-administered oxygen can be a better method of treating and alleviating dyspnoea.

Start: September 2019

Exercise for Improving Prostate Oxygenation in Prostate Tumores (Exipox)

Previous research into metabolic and hypoxic markers has found evidence of preclinical impact of exercise on prostate tumor blood flow and oxygenation in rodents . As radiotherapy is a frequently used and effective therapy for and that sufficient oxygenation is decisive to the effect of radiotherapy, an underlying hypothesis that aerobic exercise might improve treatment efficacy of radiotherapy in prostate cancer is put forward. This study has a potential challenging intervention, but a potential very high gain as it includes active patient participation to significantly improve outcome of radical radiotherapy.

Start: May 2018

Tissue-specific Insulin Resistance in Obstructive Sleep Apnea: Role of Hypoxia

Obstructive sleep apnea (OSA) is a common condition associated with significant adverse health outcomes. Our overarching hypothesis is that patients with OSA and hypoxia (H-OSA) have greater degrees of insulin resistance in both liver and adipose tissue when compared to those without hypoxia (NH-OSA) thus leading to increased risk for the development of diabetes in the former group.

Start: October 2018

A Study Using 18F-FAZA and PET Scans to Study Hypoxia in Pancreatic Cancer

This is a diagnostic study to look for low levels of oxygen (hypoxia) in pancreatic cancer using an imaging test called positron emission tomography (PET). Hypoxia can influence how pancreatic cancer grows and responds to treatments such as chemotherapy and radiotherapy. The use of PET scans to measure hypoxia may be better and simpler than the approaches used previously. This study will assess whether or not PET scans using a tracer called 18F-FAZA (18F-Fluoroazomycin Arabinoside) can provide useful information about hypoxia in pancreatic cancer. Also as part of the study, a blood sample will be taken to study biomarkers (substances in the body that may be important indicators of hypoxia and/or pancreatic cancer) that may be useful in studying pancreatic cancer and hypoxia.

Start: February 2012