View clinical trials related to Acidosis.
Filter by:The KHENERFIN study is investigating whether the study medicine, sonlicromanol, is able to improve symptoms of fatigue and the impact of fatigue on daily life, and whether sonlicromanol is able improve physical abilities of people living with mitochondrial disease, such as balance control and lower limb skeletal muscle strength. For this study, the effects of sonlicromanol are compared with those from a placebo (study medication that looks like the actual study medicine but contains no active medicine). The study medicine (or placebo) is a powder that is dissolved in water and must be taken twice daily during the treatment period of 52 weeks. Additionally, the study evaluates the efficacy of sonlicromanol on selected secondary and exploratory outcome measures, as well as the safety and tolerability of sonlicromanol after 52 weeks of treatment with sonlicromanol.
PRIZM is a Phase 2b randomized, double-blind, placebo-controlled, 3-treatment, 2-period, crossover study evaluating the efficacy and safety of oral zagociguat 15 and 30 mg vs. placebo when administered daily for 12 weeks in participants with genetically and phenotypically defined MELAS.
At times patients with advanced renal failure present with severe hyperkalemia or acidosis and very high serum blood urea nitrogen (BUN) concentrations. These patients cannot be dialyzed aggressively as the lowering of serum BUN may results in disequilibrium syndrome but on the other hand they need aggressive dialysis in order to lower their serum potassium or fix their severe acidosis. If one is able to add urea to the dialysis fluid, one can prevent the rapid lowering of serum BUN and osmolality at the same time as doing aggressive dialysis to lower serum potassium and/or fix the metabolic acidosis.
The purpose of this study is to determine whether nasal high flow is non inferior to non invasive ventilation (NIV) in the early treatment of patients with acute exacerbation of chronic obstructive pulmonary disease (AE-COPD) and hypercapnic acidosis in the emergency department (ED). After obtaining informed consent, participants will be randomly assigned to receive either nasal high flow or non invasive ventilation (NIV, reference treatment) as respiratory support. Researchers will compare both respiratory support groups to see if their blood gas analysis and respiration return to normal ranges.
Diabetic ketoacidosis (DKA), a severe complication of diabetes mellitus (DM), is the leading cause of hospitalization, morbidity and mortality in patients with DM (1). DKA is associated with hyperglycemic crises and featured by metabolic acidosis, the production of ketoacids, volume depletion, and electrolyte imbalance. Due to glucose-induced osmotic polyuria and even emesis, volume depletion is a major cause of acute kidney injury (AKI) in DKA patients (2).
The goal of this blinded, cluster cross-over, randomised controlled trial is to determine whether fluid therapy with Plasma-Lyte® 148 increases the number of days alive and days out of hospital to day-28 compared to 0.9% sodium chloride ('0.9% saline') in critically ill patients presenting to the Emergency Department (ED) and deemed to require admission to a critical care area (ICU, HDU) with moderate to severe diabetic ketoacidosis (DKA).
prevalence of acute kidney injury in patients with diabetic ketoacidosis
The purpose of this research study is to investigate the use of continuous glucose monitoring (CGM) device DEXCOM G6 in non-critically patients treated for diabetic emergency such as diabetic ketoacidosis (DKA). Patients who have DKA require hourly monitoring of glucose (sugar) level which traditionally requires admission to the intensive care unit (ICU) for hourly fingerstick monitoring. With the use of CGM device, in this research study hourly fingerstick monitoring is replaced by continuous glucose monitor (CGM) which provides glucose levels continuously in real time for nurses and provider. The investigators are testing to see if in the future patients can be treated in the stepdown unit (an intermediate care level between the intensive care unit and the general medical unit) if they do not require higher level of care besides hourly glucose monitoring. Continuous glucose monitoring (CGM) device DEXCOM G6 currently FDA Approved for patients with diabetes and is widely used for glucose monitoring in patients with diabetes in the outpatient setting. The investigators want to study the use of the DEXCOM G6 CGM in the inpatient setting to monitoring glucose levels remotely in the treatment of diabetic emergencies such as diabetic ketoacidosis and compare their care to those receiving hourly fingerstick glucose monitoring in the ICU.
A reduction of peripheral oxygen saturation (SpO2) commonly occurs during bronchoscopy and may be associated with both respiratory and cardiac adverse events. The type of breathing assistance that should be delivered to patients, in order to treat and/or to prevent acute respiratory failure, during or after bronchoscopy, is not universally standardized; studies comparing the impact of different respiratory supports on patient's outcome and on hospital resource use are very few. the risk of respiratory failure rises according to the type of procedure (i.e., increased risk with broncho-alveolar lavage and trans-bronchial lung biopsy) and to the use of sedative drugs. Conventional oxygen therapy with nasal cannula, continuous positive airway pressure and non-invasive ventilation are commonly applied during endoscopic procedures. High flow oxygen therapy (HFOT) is a relatively novel device, still under-used in the context of interventional pulmonology, providing an humidified air-oxygen blend up to 60 L/min. HFOT has been reported to be effective for the treatment of both hypoxemic and hypercapnic respiratory failure. The investigators hypothesize that HFOT could be feasible and safe in patients undergoing bronchoscopy under moderate sedation, affected by or at risk of hypoxemic and/or hypercapnic respiratory failure.
This study compares a volume targeted pressure support non-invasive ventilation with an automatic PEP regulation (AVAPS-AE mode) to a pressure support non-invasive ventilation (S/T mode) in patients with acute hypercapnic respiratory failure with acidosis. This study focuses on patients at risk of obstructive apneas or obesity-hypoventilation syndrom (BMI≥30 kg/m²). Half of participants (33 patients) will receive non invasive ventilation with AVAPS-AE mode, the other half will receive non-invasive ventilation with S/T mode.