apfcbAPFCB eNewscoAPFCB News Volume 3, Issue 2MultidisciplinaryEnglishJul-Dec, 2024NNY2024091ArticlesCase 2: Hypokalaemia in Metabolic AcidosisEnglishY8688Gusti AyuMardew1EnglishN10.62772/APFCB-News.2024.2.4Questions 1. What is the most critical result? 2. What possibilities could you offer to explain the potassium result? 3. What are the causes of hypokalaemic in metabolic acidosis? 4. Are there any other tests you might perform to clarify the likely cause of the low potassium result?Englishhttps://apfcb.org/APFCB_News/abstract?id=17References16191. David. Fluid and Electrolyte Disturbance. In: Harrison R, Wintrobe, Thorn, Adams, Beeson, IBennett., editor. Harrisonand;#39;s Principles of Internal Medicine. 21 ed. United state: McGraw-Hill Education; 2022. p. 348-52. 2. Palmer BF, Clegg DJ. Physiology and pathophysiology of potassium homeostasis. Advances in physiology education. 2016. 3. Robson L. The kidneyand;ndash;an organ of critical importance in physiology. The Journal of physiology. 2014;592(Pt 18):3953. 4. Lin S-H. A practical and pathophysiologic approach to hypokalemia. Hong Kong Journal of Nephrology. 2008;10(1):14-26. 5. Berend K. Review of the diagnostic evaluation of normal anion gap metabolic acidosis. Kidney Diseases. 2017;3(4):149-59. 6. Soriano JR. Renal tubular acidosis: the clinical entity. Journal of the American Society of Nephrology. 2002;13(8):2160-70. 7. Desai SP. Approach to The Patient with A Normal Anion Gap Metabolic Acidosis. In: Desai SP, editor. Clinicianand;#39;s Guide to Laboratory Medicine A Practical Approach. 3 ed. Hudson: Lexi Comp; 2004. p. 299-305.