Bicarbonate Therapy in Renally Compromised Critically Ill Patients with Metabolic Acidosis: Study of Clinical Outcomes and Mortality Rate (original) (raw)
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Bicarbonate Therapy for Critically Ill Patients with Metabolic Acidosis: A Systematic Review
Cureus, 2019
The management of acid-base disorders always calls for precise diagnosis and treatment of the underlying disease. Sometimes additional means are necessary to combat systemic acidity itself. In this systematic review, we discuss the concept and some specific aspects of bicarbonate therapy for critically ill patients with metabolic acidosis (i.e., patients with blood pH < 7.35). We conducted a systematic literature review of three online databases (PubMed, Google Scholar, and Cochrane) in November 2018 to validate usage of bicarbonate therapy for critically ill patients with metabolic acidosis. Twelve trials and case series were included in the final analysis, from which we assessed population, intervention, comparison, and outcome data. The current literature suggests limited benefit from bicarbonate therapy for patients with severe metabolic acidosis (pH < 7.1 and bicarbonate < 6 mEq/L). However, bicarbonate therapy does yield improvement in survival for patients with accompanying acute kidney injury.
Critical Care, 2021
Background Metabolic acidosis is a major complication of critical illness. However, its current epidemiology and its treatment with sodium bicarbonate given to correct metabolic acidosis in the ICU are poorly understood. Method This was an international retrospective observational study in 18 ICUs in Australia, Japan, and Taiwan. Adult patients were consecutively screened, and those with early metabolic acidosis (pH < 7.3 and a Base Excess < –4 mEq/L, within 24-h of ICU admission) were included. Screening continued until 10 patients who received and 10 patients who did not receive sodium bicarbonate in the first 24 h (early bicarbonate therapy) were included at each site. The primary outcome was ICU mortality, and the association between sodium bicarbonate and the clinical outcomes were assessed using regression analysis with generalized linear mixed model. Results We screened 9437 patients. Of these, 1292 had early metabolic acidosis (14.0%). Early sodium bicarbonate was give...
Sodium Bicarbonate Therapy in Patients with Metabolic Acidosis
The Scientific World Journal, 2014
Metabolic acidosis occurs when a relative accumulation of plasma anions in excess of cations reduces plasma pH. Replacement of sodium bicarbonate to patients with sodium bicarbonate loss due to diarrhea or renal proximal tubular acidosis is useful, but there is no definite evidence that sodium bicarbonate administration to patients with acute metabolic acidosis, including diabetic ketoacidosis, lactic acidosis, septic shock, intraoperative metabolic acidosis, or cardiac arrest, is beneficial regarding clinical outcomes or mortality rate. Patients with advanced chronic kidney disease usually show metabolic acidosis due to increased unmeasured anions and hyperchloremia. It has been suggested that metabolic acidosis might have a negative impact on progression of kidney dysfunction and that sodium bicarbonate administration might attenuate this effect, but further evaluation is required to validate such a renoprotective strategy. Sodium bicarbonate is the predominant buffer used in dial...
Journal of Nephrology, 2012
there was no evidence for correction of acidosis by sodium bicarbonate in pre-end-stage renal disease (ESRD) patients, and concluded that randomized controlled trials (RCTs) are necessary to evaluate the benefits and harms of correcting metabolic acidosis in pre-ESRD patients. We wanted to evaluate if the administration of alcaly (mainly sodium bicarbonate) is able to significantly modify renal death and to reduce mortality due to cardiovascular events. Methods: This is a proposal for a multicenter, prospective, cohort, randomized and controlled study. We will randomize 600 patients with chronic kidney disease (CKD) stages 3b and 4; 300 of these patients will be included in the bicarbonate study group (Bic), in which levels of bicarbonate should be kept >24 mEq/L; the other 300 patients will be included in the usual-treatment group (no-Bic). Results: The aim of the research protocol is to demonstrate whether the optimal correction of uremic acidosis (with administration of sodium bicarbonate or of any other alkalinizing agent -e.g., sodium citrate) reduces renal and cardiovascular mortality. Conclusions: In conclusion, the Work Group on Conservative Therapy for Chronic Renal Insufficiency proposes this prospective, multicenter, cohort, randomized, controlled study to evaluate the effects of correction of acidosis on the progression of the kidney disease evaluated as renal death in ESRD patients.
Journal of Nephrology
Background Metabolic acidosis is associated with accelerated progression of chronic kidney disease (CKD). Whether treatment of metabolic acidosis with sodium bicarbonate improves kidney and patient survival in CKD is unclear. Methods We conducted a randomized (ratio 1:1). open-label, controlled trial (NCT number: NCT01640119. www.clinicaltrials.gov) to determine the effect in patients with CKD stage 3–5 of treatment of metabolic acidosis with sodium bicarbonate (SB) on creatinine doubling (primary endpoint), all-cause mortality and time to renal replacement therapy compared to standard care (SC) over 36-months. Parametric, non-parametric tests and survival analyses were used to assess the effect of SB on these outcomes. Results A total of 376 and 364 individuals with mean (SD) age 67.8 (14.9) years, creatinine clearance 30 (12) ml/min, and serum bicarbonate 21.5 (2.4) mmol/l were enrolled in SB and SC, respectively. Mean (SD) follow-up was 29.6 (9.8) vs 30.3 (10.7) months in SC and ...
Introduction. Sepsis and its consequences such as metabolic acidosis are resulting in increased mortality. Although correction of metabolic acidosis with sodium bicarbonate seems a reasonable approach, there is ongoing debate regarding the role of bicarbonates as a therapeutic option. Methods. We conducted a PubMed literature search in order to identify published literature related to the effects of sodium bicarbonate treatment on metabolic acidosis due to sepsis. The search included all articles published in English in the last 35 years. Results. There is ongoing debate regarding the use of bicarbonates for the treatment of acidosis in sepsis, but there is a trend towards not using bicarbonate in sepsis patients with arterial blood gas pH > 7.15. Conclusions. Routine use of bicarbonate for treatment of severe acidemia and lactic acidosis due to sepsis is subject of controversy, and current opinion does not favor routine use of bicarbonates. However, available evidence is inconclusive, and more studies are required to determine the potential benefit, if any, of bicarbonate therapy in the sepsis patient with acidosis.
Blood Purification, 2005
ed: dry body weight (DBW), interdialytic weight gain (IWG), body mass index (BMI), plasma sodium (Na), serum pH, serum bicarbonate (sBic), K t /V, normalized protein catabolic rate (PCRn), predialysis systolic (SBP) and diastolic (DBP) blood pressure, and bicarbonate therapy (g/day). 18 patients not on oral bicarbonate supplementation with sBic levels ^ 20 mmol/l were started on oral bicarbonate therapy and were prospectively followed in the context of an interventional study of correction of chronic metabolic acidosis. The same parameters were recorded before (pre) and after (post) 4 months of oral bicarbonate supplementation. Results: Serum pH and sBic concentrations were signifi cantly higher in patients in group A compared to patients in group B (pH 7.37 8 0.02 group A vs. 7.33 8 0.02 group B: p ! 0.001: sBic 23.8 8 1.4 group A vs. 20.9 8 1.4 group B: p ! 0.0001). Age, DBW, BMI, IWG, SBP, DBP, Na, K t /V and PCRn did not differ between groups. The mean daily dose of oral sodium bicarbonate administered to patients in group A was 1.9 8 0.9 (range 1-5, median 2) g/day. Also in the 18 patients who started bicarbonate treatment, a significant increase in serum pH and sBic concentrations and a signifi cant reduction in PCRn were observed. No signifi cant change in DBW, IWG, SBP, DBP and Na concentrations after 4 months of treatment was found. Conclusions: Our data show that in stable uremic patients on