View clinical trials related to Metabolic Acidosis.
Filter by:An acid-base imbalance, called metabolic acidosis (acid-base disorder lasting from several minutes to several days, caused by a decrease in serum bicarbonate ion (HCO3) concentration), is often observed in critically ill patients with various underlying diseases. Metabolic acidosis has a negative impact on the cardiovascular, respiratory, digestive, nervous, excretory, hematological, endocrine, musculoskeletal and immune systems and is associated with unfavourable outcomes. Reamberin® is a solution of disubstituted sodium salt of succinic acid, which has an alkaline reaction and succinate is capable to integrate into the Krebs cycle and restore energy metabolism in the cell. The aim of the present study is to evaluate the efficacy and safety of meglumine sodium succinate at a dose of 500 to 3000 ml in critically ill patients with metabolic acidosis and choose the optimal volume of its solution for the correction of metabolic acidosis in critically ill patients.
Metabolic acidosis is a common problem that occurs with worsening chronic kidney disease. Dietary acid can build up when the kidneys are not working well. This can be associated with a higher risk of worsening kidney function and death. The usual treatment is a medication called sodium bicarbonate which works to balance the acids in the body. The medication however often does not work and causes side effects. Consumption of alkalizing fruit and vegetables may work as a treatment for metabolic acidosis. This trial is being done to see if fruit and vegetables, provided via home delivery, can become a viable management for metabolic acidosis in patients with chronic kidney disease.
Lower serum bicarbonate levels, even within the normal laboratory range, in kidney transplant recipients (KTRs) are associated with an increased risk of graft loss, cardiovascular events and mortality. Because acid retention is common in KTRs, it is plausible that alkali therapy in KTRs may also result in improved vascular and graft function. The investigators will perform a randomized, double-blinded, placebo-controlled, 12 month study in 120 KTRs to examine the effect of sodium bicarbonate therapy on surrogate markers of CVD and graft function. The overall hypothesis is that treatment with bicarbonate will improve indicators of vascular and graft function in KTRs by decreasing complement activation.
Skeletal muscle metabolic health is critical for mobility and an underrecognized target of metabolic acidosis in chronic kidney disease. Impaired muscle mitochondrial metabolism underlies poor physical endurance increasing the risk of mobility disability. The proposed project will use precise in vivo tools to study the pathophysiology of poor physical endurance in a clinical trial treating metabolic acidosis among persons living with chronic kidney disease.
Background: The serum anion gap (AG) is commonly used as a screening tool for acid-base disorders. With modern laboratory techniques using ion-selective electrodes to measure the main electrolyte components of the AG, our definition high AG (HAGMA) should be reviewed. Aim: This study aims to assess the diagnostic value of AG and to determine a diagnostic threshold for HAGMA in a high-prevalence clinical setting. Method: Computerized extraction of anonymised data from electronic medical records was performed. A pre-defined criteria included all inpatients of an acute-care hospital who had measurements for organic acids (lactate, ketone or salicylate) paired with a serum urea, electrolyte and creatinine panel.
The main objective of this study is to evaluate the efficacy of SZC as compared to placebo in maintaining normal sK+ in patients with hyperkalemia and metabolic acidosis associated with CKD
This is a pilot, randomized, double-blinded, placebo-controlled, 12-month trial of 50 patients with CKD stage 3b-4 with metabolic acidosis to examine the effect of sodium bicarbonate therapy on cognitive and cerebrovascular function.
Metabolism is controlled by macro- and micronutrients. Protein-rich diets should lead to latent acidosis at tissue level with further negative implications. Food supplements with alkaline salts are available and popular pretending to prevent these changes. Within a randomized double-blind placebo-controlled trial, the investigators tested the hypotheses 1) that a 4-week protein-rich diet induces a latent tissue acidosis and 2) an alkaline supplement can compensate this. Acid-base balance and important metabolic parameters were determined before and after 4 weeks of supplementation by peripheral blood samples, indirect calorimetry and muscle microdialysis before and after a protein-rich test meal.
Severe metabolic acidemia in the critically ill (pH equal or less than 7.20; PaCO2 equal or less than 45mmHg and bicarbonate concentration equal or less than of 20 mmol/l) is associated with a 50% rate of day 28 mortality. Moderate to severe acute kidney injury is a frequent cause of metabolic acidemia in the critically ill. When both severe metabolic acidemia and moderate to severe acute kidney injury are observed, day 28 mortality is approximatively 55-60%. Severe acidemia has been shown to be a biomarker of severity but may also contribute by itself to outcome. Investigators recently performed a multiple center randomised clinical trial (BICARICU-1) that suggests that sodium bicarbonate infusion titrated to maintain the pH equal or more than 7.30 is associated with a higher survival rate (secondary endpoint) in patients presenting both severe metabolic acidemia and moderate to severe acute kidney injury patients. Whether sodium bicarbonate infusion may improve long term survival (Day 90, primary outcome) in these severe acute kidney injury patients is currently unknown.
Protection of brain development is a major aim in the Neonatal Intensive Care Unit. Neonatal encephalopathy (NE) occurs in 1.8 to 7.7 infants per 1000 births. Over the last six years, several randomized control trials have demonstrated that therapeutic hypothermia reduces the rate of death or disability at 18 months of age among infants who survived. However, the neurodevelopmental outcome in milder NE not treated with hypothermia remains unclear. A multicenter prospective observational study will be conducted to determine biological changes of mild neonatal encephalopathy who are not recruited for therapeutic hypothermia .