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Haemodynamic consequences of changing bicarbonate and calcium concentrations in haemodialysis fluids. Gabutti Luca,Bianchi Giorgia,Soldini Davide,Marone Claudio,Burnier Michel Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association BACKGROUND:In a previous study we demonstrated that mild metabolic alkalosis resulting from standard bicarbonate haemodialysis induces hypotension. In this study, we have further investigated the changes in systemic haemodynamics induced by bicarbonate and calcium, using non-invasive procedures. METHODS:In a randomized controlled trial with a single-blind, crossover design, we sequentially changed the dialysate bicarbonate and calcium concentrations (between 26 and 35 mmol/l for bicarbonate and either 1.25 or 1.50 mmol/l for calcium). Twenty-one patients were enrolled for a total of 756 dialysis sessions. Systemic haemodynamics was evaluated using pulse wave analysers. Bioimpedance and BNP were used to compare the fluid status pattern. RESULTS:The haemodynamic parameters and the pre-dialysis BNP using either a high calcium or bicarbonate concentration were as follows: systolic blood pressure (+5.6 and -4.7 mmHg; P < 0.05 for both), stroke volume (+12.3 and +5.2 ml; P < 0.05 and ns), peripheral resistances (-190 and -171 dyne s cm(-5); P < 0.05 for both), central augmentation index (+1.1% and -2.9%; ns and P < 0.05) and BNP (-5 and -170 ng/l; ns and P < 0.05). The need of staff intervention was similar in all modalities. CONCLUSIONS:Both high bicarbonate and calcium concentrations in the dialysate improve the haemodynamic pattern during dialysis. Bicarbonate reduces arterial stiffness and ameliorates the heart tolerance for volume overload in the interdialytic phase, whereas calcium directly increases stroke volume. The slight hypotensive effect of alkalaemia should motivate a probative reduction of bicarbonate concentration in dialysis fluid for haemodynamic reasons, only in the event of failure of classical tools to prevent intradialytic hypotension. 10.1093/ndt/gfn541
Acetazolamide for the management of chronic metabolic alkalosis in neonates and infants. Tam Bonnie,Chhay Annie,Yen Lilly,Tesoriero Linda,Ramanathan Rangasamy,Seri Istvan,Friedlich Philippe S American journal of therapeutics In this study, we evaluated the efficacy and safety of acetazolamide in the management of chronic metabolic alkalosis in neonates and infants with chronic respiratory insufficiency. A retrospective chart review of 90 patients treated with acetazolamide between 2006 and 2007 admitted to the neonatal intensive care unit was performed. Blood gases and electrolytes obtained at baseline and by 24 hours after acetazolamide administration were compared. Compared with baseline and after 24 hours of acetazolamide, mean measured serum bicarbonate (29.5±3.7 vs. 26.9±3.8 mEq/L, P<0.001) and base excess (10.0±3.4 vs. 4.8±4.0 mEq/L, P<0.001) were significantly lower. No significant differences in other electrolytes, blood urea nitrogen, and urine output were noted, except for an increased serum chloride and creatinine. Uncompensated respiratory acidosis developed in 4 (3.1%) treatment courses. Acetazolamide may be effective in decreasing serum bicarbonate in carefully selected patients. Its use and safety as an adjunctive therapy for chronic metabolic alkalosis in neonates and infants with chronic respiratory insufficiency needs further study. 10.1097/MJT.0b013e31825e792c
Acetazolamide Use in Severe Chronic Obstructive Pulmonary Disease. Pros and Cons. Adamson Rosemary,Swenson Erik R Annals of the American Thoracic Society Acetazolamide is a carbonic anhydrase (CA) inhibitor sometimes used as a respiratory stimulant for patients with chronic obstructive pulmonary disease (COPD) with the goal of improving oxygenation, reducing carbon dioxide retention, and aiding liberation from mechanical ventilation and/or attempting to correct a metabolic alkalosis. However, the net effect of CA inhibition is multifactorial and complex, because CA is inhibited in many tissues that may negatively affect the patient with lung disease. The full impact of acetazolamide and other CA inhibitors depends critically on dosing, age, and pulmonary, renal, hepatic, hematological, and respiratory muscle function and reserves. This review examines the literature and indications for acetazolamide use in patients with COPD dating back to its initial release 6 decades ago. There are very few studies specifically designed to address the population with severe COPD, as such patients were frequently excluded from trials. We therefore discuss the complexity of CA inhibition and its potential benefits and dangers and describe ways in which the pathophysiology of patients with severe COPD puts them at considerable risk for serious adverse consequences. We offer guidance on the careful and rational use of acetazolamide in patients with respiratory disorders. 10.1513/AnnalsATS.201701-016FR