View clinical trials related to Alkalosis.
Filter by:Ingestion of sodium citrate (Na-Cit), an alkalizing agent, increases extracellular pH via liver oxidation by decreasing [H+] and increasing bicarbonate concentration (HCO3-). Studies have confirmed that increasing extracellular pH promotes the efflux of La- and H+ from active muscles. This is due to an increase in activity of the pH sensitive monocarboxylate transporter as the gradient of intracellular versus extracellular H+ increases. Therefore, artificially inducing alkalosis prior to anaerobic exercise may reduce intracellular acidosis and increase the time to fatigue - defined as a decrease in force production with an increased perception of effort. The investigators will test the null hypothesis that sodium citrate ingestion (chronic and acute) will not have an effect on exercise performance compared to placebo.
Background: Chronic Idiopathic Hyperventilation (CIH) is a form of dysfunctional breathing which has proven hard to treat effectively. The investigators hypothesised that by periodically inducing normocapnia over several weeks, it would be possible to raise the normal resting level/set point of CO2 and achieve a reduction of symptoms. Methods: Six CIH patients were treated two hours a day for four weeks with a novel breathing mask. The mask was used to induce normocapnia in these chronically hypocapnic patients. Capillary blood gases (PcCO2, pH, Standard Base Excess (SBE) etc.) were measured at baseline and once each week at least three hours after mask use, as well as spirometric values, breath holding tolerance and hyperventilation symptoms as per the Nijmegen Questionnaire (NQ),.
The purpose of this study is to analyze whether the treatment of metabolic alkalosis with acetazolamide in intubated patients with chronic obstructive pulmonary disease (COPD) or with obesity hypoventilation syndrome (OHS) reduces the length of mechanical ventilation (MV).
Metabolic alkalosis(MA) is common metabolic disorder in ICU setting. MA could be cause of weaning failure or delay by depression of respiratory center. The purpose of this study is to evaluate that correction of MA by administration of acetazolamide facilitates weaning of mechanical ventilation.
Respiratory failure is a common consequence of chronic obstructive pulmonary disease (COPD). A concurrent metabolic alkalosis may worsen the respiratory failure, as a higher pH in blood (and thus in cerebrospinal fluid) results in a weaker respiratory drive. Use of diuretics is the most common cause of metabolic alkalosis. When a patient with an acute exacerbation of a respiratory failure is also alkalotic, there are (at least theoretical) reasons to lower the pH in order to increase the respiratory drive. Among other alternatives, the drug acetazolamide can be used for this purpose. In some hospitals there is a tradition for the use of acetazolamide on this indication, but any evidence for the effect of such a treatment is rather weak. Thus, the aim of this trial is to evaluate the effect of acetazolamide as an adjuvant treatment for hospitalized patients with acute exacerbation of respiratory failure in combination with metabolic alkalosis.
Adult cystic fibrosis (CF) patients admitted with an acute infection complicated by acid-base disturbance and decreased ventilation will be studied. They will receive salt replacement to correct the acid-base disturbance and possibly their ventilation. Assessment of symptoms (questionnaire), acid-base and electrolyte status (blood and urine tests) ventilation (overnight oxygen and carbon dioxide monitoring non-invasively) and sleep-wake pattern (actigraphy) will be carried out. Study hypothesis: Acute volume and electrolyte replacement corrects hypochloremic hypovolemic metabolic alkalosis and compensatory hypoventilation/ hypercapnia in acute exacerbations of cystic fibrosis.