View clinical trials related to Hypoxia.
Filter by:This is a pilot study to assess a new methodology developed for High Grade Glioma (HGG). FMISO PET (Fluoromisonidazole-PET) allows researchers to study whether tumor cells lack oxygen (hypoxia). FLT PET (Fluorodeoxythymidine-PET) allows researchers to study the increase in the number of cells as a result of cell growth and cell division (proliferation). Tumors that have low oxygen levels and/or are dividing fast shall resist to standard cancer treatment. The study will compare FMISO PET and FLT PET imaging techniques with molecular biomarkers of hypoxia, angiogenesis, and cellular proliferation in tissue. proliferation).This information could help researchers develop new treatment techniques to better treat cancer.
Hypoxia is considered a key player in many of the comorbidities that characterize COPD, such as pulmonary hypertension, skeletal muscle dysfunction, and systemic inflammation. These comorbidities are worsened during an exacerbation due to prolonged bed rest and treatment with steroids, showing a reduction in the quality of life, exercise tolerance, and a greater risk of death in these patients. Therefore, a better understanding of the safety and effectiveness of exercise training for AECOPD patients with resting hypoxemia is needed.
Trial of Non-Invasive Positive Pressure Ventilation Management of High Altitude Pulmonary Edema
Prematurely born infants in the hospital neonatal intensive care unit (NICU) will be included in the study. This clinical trial is a randomized crossover study to show that our automated oxygen control device performance is no worse than a NICU nurse in keeping a premature neonate's SPO2 within the prescribed range. Since subjects receive the device (automatic oxygen control) and the standard of care (manual control by a nurse), every subject serves as their own perfectly matched control. Performance measures include the average time it takes for the SpO2 to return to the desired range (primary endpoint) and the total amount of time that the SpO2 is within the desired range (secondary endpoint). The device will be applied to premature infants on respiratory support humidified high flow nasal cannula (HFNC) with oxygen controlled using a blend valve. Two groups include one that begins the study period with the device and one that begins the study period without the device. The two groups are switched between manual and automatic every 6 hours into the trial period and complete a total of 6 days. The target number of subjects is 60. We will analyze the study as a superiority trial if there is strong evidence of superiority.
This study aims to assess the effect of two drugs for the treatment of chronic mountain sickness in highlanders.
The outlook for patients with haematological malignancies remains challenging. It has been shown in some early cancer studies that a particular drug called Zn-DDC otherwise known as Imuthiol is highly toxic to cancer stem cells. Imuthiol has been intravenously used in clinical trials with an excellent safety record. Recent novel therapy and immunotherapy in haematological malignancies have improved outcome and survival but come with an increasing cost burden. Imuthiol could be an ideal affordable drug to study on it's own as well as in combination with other drugs in myeloma and other haematological malignancies. This may lead to potential combination therapies which will be very effective as well as affordable in the future. There is the need to look to see if this drug, Imuthiol and along with complementary drugs lenalidomide (Revlimid) and pomalidomide (Pomalyst) can help in haematological malignancy treatment. In order to do this there is the need to see how the cancer cells respond to the drugs in the laboratory before being able to trial the drug (or combination of drugs) out for treatment. The success of this study may lead to quick translation of Imuthiol into haematological malignancy treatment.
Neonatal anoxia-ischemia causes significant neurodevelopmental disorders. In this study the investigators want to better understand the interactions between the nervous and the hemodynamic cerebral systems during the adaptation of the neonate to ectopic life just after birth. Birth is an at risk situation of neonatal anoxic ischemia and the lack of objective criteria for cerebral tissue oxygenation has consequences on neuronal activity. Ph cord analysis is inadequate and only indirectly reflects the state of cerebral oxygenation. Both neuronal and vascular systems are part of the same functional entity and the analysis of their interactions is likely to reveal some early malfunctions of these networks. In this study, the investigators want to develop a multi-scale, multimodal approach that allows simultaneous interrogation of both neuronal and vascular compartments during the 15 minutes after delivery. The investigators will record, with the aid of a single sensor placed on the scalp of the child, the electroencephalogram and the cerebral tissue oxygenation. The investigators will measure interactions by means of correlation analysis between both signals.
A multicenter, randomized, adaptive allocation clinical trial to determine if increasing durations of induced hypothermia are associated with an increasing rate of good neurological outcomes and to identify the optimal duration of induced hypothermia for neuroprotection in comatose survivors of cardiac arrest.
In ECPR, where CPR times often range from 30 to 120 minutes, only patients with good circulation during CPR survive, while non-survivors commonly suffer from anoxic brain injury. The selection process during CPR is challenging causing a general survival rate of just 2 out of 10, and the urgent need for better selection criteria has been emphasized. It it crucial to keep cardiac arrest times as short as possible, pre primed-ECMO can facilitate this. The ECMO treatment and the long CPR times of ECPR can also affect the measurements of the neurologic prognostication guidelines after cardiac arrest, making its validity uncertain in this specific cohort. Further, the long-term neuropsychological follow-up is limited to a few patients, making it uncertain if ECPR gives the survivors good long-term life satisfaction or just a prolonged life. Our overall aim is to optimize and improve the care pathway for ECPR patients by refining patient selection, assessing pre-primed ECMO, validating neurological prognostication guidelines, and understanding long-term outcomes and challenges faced by survivors. Specific Aim 1: Evaluating predictors for good neurological outcomes in ECPR and to develop an evidence-based selection tool for ECPR. Specific aim 2: To assess the sterility and function of pre-primed ECMO. Specific aim 3: To evaluate the applicability of current guidelines for neurological prognostication after cardiac arrest in ECPR patients, and to assess the predictive value of individual and combined neurological tests in this specific patient population. Specific aim 4: To determine the long-term neuropsychological outcomes, identify the problems survivors experience in daily life, and assess life satisfaction - by comprehensive follow-up visits with validated questionnaires and neuropsychology testing up to 10 years after the ECMO-treated cardiac arrest
This research study seeks to establish the effectiveness of a combination of an inhaled corticosteroid and a beta agonist compared to placebo for the prevention of acute respiratory failure (ARF) in hospitalized patients with pneumonia and hypoxemia.