Etiology and Management of Acute Metabolic Acidosis: An Update

Matyukhin, Igor; Patschan, Susann; Ritter, Oliver; Patschan, Daniel

doi:10.1159/000507813

Cited by 18 publications

(14 citation statements)

References 43 publications

(51 reference statements)

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“…Buffering, e.g. with sodium bicarbonate, should be performed if the symptoms are clinically relevant (Matyukhin et al, 2020;Adeva-Andany et al, 2014). In the case of refractory acidosis, the administration of N-acetylcysteine can be considered (Hundemer and Fenves, 2017;Tummers et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Severe acidosis due to 5-oxoprolinase inhibition by flucloxacillin in a patient with shoulder prosthesis joint infection

Lenz

Alt

Dienemann

2022

J. Bone Joint Infect.

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Section: Discussionmentioning

confidence: 99%

Severe acidosis due to 5-oxoprolinase inhibition by flucloxacillin in a patient with shoulder prosthesis joint infection

Lenz

Alt

Dienemann

2022

J. Bone Joint Infect.

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“…The exact definition of acute metabolic acidosis is controversial; however, the development of acidosis within hours to days after the causative factor insult is considered acute. Among the commonly described causes, the accumulation of organic acids is commonly encountered in clinical settings, and lactic acid is one of the most commonly accumulated organic acids in the pathogenesis of metabolic acidosis [ 3 ]. Accumulation of these organic acids leads to a high anion gap metabolic acidosis (HAGMA).…”

Section: Discussionmentioning

confidence: 99%

“…Accumulation of these organic acids leads to a high anion gap metabolic acidosis (HAGMA). If the acidosis is secondary to underproduction or overexcretion of bicarbonate, it leads to a state termed normal or non-anion gap metabolic acidosis [ 3 ].…”

Section: Discussionmentioning

confidence: 99%

Emergent Hemodialysis Followed by Continuous Renal Replacement Therapy: A Management Challenge in a Patient With Life-Threatening Metabolic Acidosis of Multifactorial Etiology

Yousaf¹,

Malik²,

Abdelazeem³

et al. 2022

Cureus

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Metabolic acidosis is a frequently encountered laboratory finding in daily clinical practice. Rapid pH correction is almost always preferred and necessary while performing workup to identify the causative factors. We present the case of a 73-year-old male presenting with progressive dyspnea and severe metabolic acidosis. He had a pH of 6.6, bicarbonate of 1.8 mg/dL, lactic acid of 18.1 mg/dL, and pCO 2 of 14.1 mmHg. The intensivist and nephrologist made a joint decision to rapidly correct the pH using bicarbonate and emergent hemodialysis. Subsequently, continuous renal replacement therapy (CRRT) was started, leading to a favorable outcome. Our patient’s most likely etiology of lactic acidosis was metformin because he had a very high lactic acid, high anion gap metabolic acidosis, and acute renal failure on presentation. From our case and literature review, we suggest using hemodialysis, CRRT, and bicarbonate replacement for a better prognosis in patients with critical acidosis in view of frank renal failure and concurrent metformin use.

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“…Whether SB treatment to correct metabolic acidosis actually improves clinical outcomes is controversial [7,8]. In adults with severe metabolic acidemia, SB treatment has no effect on mortality or the SOFA score [9].…”

Section: Introductionmentioning

confidence: 99%

Clinical outcomes of sodium bicarbonate therapy in critically ill pediatric patients with metabolic acidosis are associated with chloride

Liu¹,

Cao

Xue

et al. 2022

Preprint

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Background: Metabolic acidosis is a common acid-base imbalance in critically ill patients. Whether sodium bicarbonate (SB) can improve clinical outcomes in the treatment of metabolic acidosis is still controversial. The aim of this study was to determine the factors influencing the clinical efficacy of SB in the treatment of metabolic acidosis and the potential benefit to patients. Methods: Patients with metabolic acidosis who were treated with or without SB were identified and grouped from a retrospective cohort (Pediatric Intensive Care Unit [PICU] database), from which the clinical data were extracted. The in-hospital mortality curves of the acid-base balance parameters of patients in the two groups were drawn and fitted using the locally-weighted scatter plot smoothing (LOWESS) method. The prevalence ratios (PRs) of in-hospital mortality were estimated by log-binomial regression based on the maximum likelihood method, and the potential confounders, such as age and disease category, were adjusted. Results: A total of 6,167 children with metabolic acidosis were enrolled, of whom 2,626 (42.58%) were treated with SB. The overall analysis showed that there was no significant difference in the in-hospital mortality rates (9.71% vs. 10.56%, p = 0.275) between children in the SB treatment and non-treatment groups, adjusted PR = 0.929 (95% CI, 0.802-1.072). There was no significant difference in the in-hospital mortality rates as a function of pH and HCO3- between the two groups. The in-hospital mortality rate as a function of chloride was significantly different; specifically, the curve of the untreated group was U-shaped and the curve of the treated group was L-shaped. The curves of the two groups crossed at 110 mmol/L of chloride after LOWESS fitting. There was no statistically significant difference in the risk of death between the SB treatment and non-treatment groups at a chloride < 107 mmol/L and a chloride >113 mmol/L. In the chloride < 107 mmol/L subgroup, SB treatment had a 41.7% increased risk of in-hospital death (adjusted PR=1.417, 95% CI, 1.069−1.481) and a 35.9% increased risk of 28-day death (adjusted PR=1.359, 95% CI, 1.315−1.474). In the chloride≥113 mmol/L subgroup, SB treatment had a 61.1% reduced risk of in-hospital death (adjusted PR=0.389, 95% CI, 0.268−0.553) and a 56.4% reduced risk of 28-day death (adjusted PR=0.436, 95% CI, 0.295−0.631). The median length of stay in the PICU of children in the SB group was also shorter than children in the non-treatment group when the chloride concentration was ≥110 mmol/L. Conclusions: The clinical outcomes of SB in the treatment of metabolic acidosis are associated with chloride. When the chloride concentration was high (> 110 mmol/L), children benefited from SB treatment and when the chloride concentration was low (< 107 mmol/L), the risk of death increased.

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Etiology and Management of Acute Metabolic Acidosis: An Update

Cited by 18 publications

References 43 publications

Severe acidosis due to 5-oxoprolinase inhibition by flucloxacillin in a patient with shoulder prosthesis joint infection

Severe acidosis due to 5-oxoprolinase inhibition by flucloxacillin in a patient with shoulder prosthesis joint infection

Emergent Hemodialysis Followed by Continuous Renal Replacement Therapy: A Management Challenge in a Patient With Life-Threatening Metabolic Acidosis of Multifactorial Etiology

Clinical outcomes of sodium bicarbonate therapy in critically ill pediatric patients with metabolic acidosis are associated with chloride

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