Diagnostic Evaluation of Renal Tubular Acidosis: A Clinical Biochemistry Perspective

Q1 Biochemistry, Genetics and Molecular Biology

Clinical Biochemist Reviews Pub Date : 2023-01-01 DOI:10.33176/aacb-22-00001

P. Bonnitcha, D. Chesher

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Abstract

Tight regulation of plasma pH is critical for cellular homeostasis. Physiological pH is maintained through a complex synergy of buffering, pulmonary modulation of carbon dioxide concentration, and regulation of systemic bicarbonate by the renal system. Renal tubular acidosis (RTA) describes a group of disorders in which the tubular excretion of acid is reduced despite relatively normal glomerular filtration. Several subtypes of RTA are known, all of which classically present with normal anion gap metabolic acidosis in addition to a variety of associated biochemical abnormalities. RTA can pose a diagnostic challenge to the clinician as it can be triggered by a substantial number of different aetiologies and clinical presentations can be highly variable. This review addresses the normal renal handling of acid-base, the renal response to high acid load, and the RTA pathologies where these acid-base homeostatic mechanisms are impaired. A particular focus of this review is the challenges faced by the biochemical laboratory regarding the development, validation and interpretation of suitable plasma and urine tests for accurate RTA diagnosis.

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肾小管酸中毒的诊断评价:临床生化角度

严格调节血浆pH值对细胞稳态至关重要。生理pH值是通过缓冲、肺对二氧化碳浓度的调节和肾脏系统对全身碳酸氢盐的调节等复杂的协同作用来维持的。肾小管酸中毒(RTA)描述了一组疾病，其中尽管肾小球滤过相对正常，但小管酸排泄减少。RTA的几种亚型是已知的，除了各种相关的生化异常外，所有这些亚型都典型地表现为正常的阴离子间隙代谢性酸中毒。RTA可能会对临床医生的诊断提出挑战，因为它可以由大量不同的病因和临床表现引起。本文综述了肾脏对酸碱的正常处理，肾脏对高酸负荷的反应，以及这些酸碱平衡机制受损的RTA病理。本综述的一个特别重点是生化实验室在开发、验证和解释合适的血浆和尿液测试以准确诊断RTA方面面临的挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Clinical Biochemist Reviews Biochemistry, Genetics and Molecular Biology-Clinical Biochemistry

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