A review of renal tubular acidosis

IF 1.1 3区农林科学 Q3 VETERINARY SCIENCES

Journal of veterinary emergency and critical care Pub Date : 2024-07-18 DOI:10.1111/vec.13407

Manju Gauri Kunchur BVSc, MS, Teri Jo Mauch MD, PhD, FAAP, FASN, Max Parkanzky DVM, MS, DACVIM, Louisa J. Rahilly DVM, DACVECC

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引用次数: 0

Abstract

Objective

To review the current scientific literature on renal tubular acidosis (RTA) in people and small animals, focusing on diseases in veterinary medicine that result in secondary RTA.

Data Sources

Scientific reviews and original research publications on people and small animals focusing on RTA.

Summary

RTA is characterized by defective renal acid–base regulation that results in normal anion gap hyperchloremic metabolic acidosis. Renal acid–base regulation includes the reabsorption and regeneration of bicarbonate in the renal proximal tubule and collecting ducts and the process of ammoniagenesis. RTA occurs as a primary genetic disorder or secondary to disease conditions. Based on pathophysiology, RTA is classified as distal or type 1 RTA, proximal or type 2 RTA, type 3 RTA or carbonic anhydrase II mutation, and type 4 or hyperkalemic RTA. Fanconi syndrome comprises proximal RTA with additional defects in proximal tubular function. Extensive research elucidating the genetic basis of RTA in people exists. RTA is a genetic disorder in the Basenji breed of dogs, where the mutation is known. Secondary RTA in human and veterinary medicine is the sequela of diseases that include immune-mediated, toxic, and infectious causes. Diagnosis and characterization of RTA include the measurement of urine pH and the evaluation of renal handling of substances that should affect acid or bicarbonate excretion.

Conclusions

Commonality exists between human and veterinary medicine among the types of RTA. Many genetic defects causing primary RTA are identified in people, but those in companion animals other than in the Basenji are unknown. Critically ill veterinary patients are often admitted to the ICU for diseases associated with secondary RTA, or they may develop RTA while hospitalized. Recognition and treatment of RTA may reverse tubular dysfunction and promote recovery by correcting metabolic acidosis.

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肾小管酸中毒回顾。

目的：回顾目前有关人类和小动物肾小管酸中毒（RTA）的科学文献：回顾当前有关人类和小动物肾小管酸中毒（RTA）的科学文献，重点关注导致继发性 RTA 的兽医疾病：数据来源：有关人和小动物肾小管酸中毒的科学评论和原始研究出版物：RTA的特点是肾脏酸碱调节功能缺陷，导致阴离子间隙正常的高胆红素代谢性酸中毒。肾脏酸碱调节包括肾近曲小管和集合管对碳酸氢盐的重吸收和再生以及氨生成过程。RTA 可作为原发性遗传疾病或继发性疾病发生。根据病理生理学，RTA 可分为远端型或 1 型 RTA、近端型或 2 型 RTA、3 型 RTA 或碳酸酐酶 II 突变，以及 4 型或高钾血症型 RTA。范可尼综合征包括近端 RTA 和其他近端肾小管功能缺陷。目前已有大量研究阐明了 RTA 的遗传基础。在已知基因突变的巴森吉犬种中，RTA 是一种遗传性疾病。人类和兽医中的继发性 RTA 是包括免疫介导、毒性和感染性原因在内的疾病的后遗症。RTA 的诊断和特征描述包括测量尿液 pH 值和评估肾脏对影响酸或碳酸氢盐排泄的物质的处理情况：结论：人类和兽医在 RTA 的类型上存在共性。许多导致原发性 RTA 的遗传缺陷已在人类中发现，但除巴松吉犬外，伴侣动物中的遗传缺陷尚不清楚。重症兽医患者通常会因继发性 RTA 相关疾病而被送入重症监护室，或者在住院期间患上 RTA。识别和治疗 RTA 可纠正代谢性酸中毒，从而逆转肾小管功能障碍并促进康复。

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来源期刊

Journal of veterinary emergency and critical care 农林科学-兽医学

CiteScore

2.50

自引率

15.40%

发文量

121

审稿时长

18-36 weeks

期刊介绍： The Journal of Veterinary Emergency and Critical Care’s primary aim is to advance the international clinical standard of care for emergency/critical care patients of all species. The journal’s content is relevant to specialist and non-specialist veterinarians practicing emergency/critical care medicine. The journal achieves it aims by publishing descriptions of unique presentation or management; retrospective and prospective evaluations of prognosis, novel diagnosis, or therapy; translational basic science studies with clinical relevance; in depth reviews of pertinent topics; topical news and letters; and regular themed issues. The journal is the official publication of the Veterinary Emergency and Critical Care Society, the American College of Veterinary Emergency and Critical Care, the European Veterinary Emergency and Critical Care Society, and the European College of Veterinary Emergency and Critical Care. It is a bimonthly publication with international impact and adheres to currently accepted ethical standards.