The Secret Stories of Sodium How Infants, Athletes, Psychotics, And Otherwise Healthy People Die from Sodium Imbalance

American Society for Clinical Laboratory Science Pub Date : 2016-07-01 DOI:10.29074/ASCLS.29.3.163

T. Hew-Butler, Kevin Weisz

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Abstract

INTRODUCTION Every number tells a story. As such, clinical laboratory science empowers modern medicine with a vast yet growing repertoire of analytes, which subsequently guide the diagnosis, treatment and prognosis of most – if not all - medical conditions. The body's integrated response to dynamic perturbations in homeostasis creates an elusive trail of biochemical footprints, each providing clues to where pathophysiology began and how far the body has strayed off course (i.e. severity of the insult and appropriateness of the response). The ubiquitous cation, sodium, is one of the main markers of whole body homeostasis. The sodium concentration ([Na+]) within the extracellular fluid space is essential for maintaining cellular size and adequate tissue perfusion. As such, the inherent regulation of water and sodium balance is strict, precise, and fiercely protected by the body. Therefore, when blood sodium levels venture outside of the heavily guarded trails of normonatremia (normal blood [Na+]), into hyponatremia (low blood [Na+]) or hypernatremia (high blood [Na+]), each deviation foretells tales of health and disease - and in rare cases, of abuse and neglect. Water and sodium within the exterior milieu is essential to life. However, within the interior milieu, it is the balance between the two that is critical for individual human survival. We refer to this balance, between water and sodium within the internal milieu, as “fluid homeostasis.” The physiological mechanisms that govern fluid intake (thirst) and output (urine), as well as sodium intake (sodium palatability) and output (urine) have been well-described.1-3 Of historical note,… ABBREVIATIONS: [Na+] – sodium concentration, ADH - anti-diuretic hormone, AVP – arginine vasopressin, CVO - circumventricular organs, ECF – extracellular fluid, ICF – intracellular fluid, IV – intravenous, K+ - potassium, RAAS - renin-angiotensin-aldosterone system

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婴儿、运动员、精神病患者和其他健康人如何死于钠失衡的秘密故事

每个数字都有一个故事。因此，临床实验室科学赋予现代医学巨大而不断增长的分析库，这些分析库随后指导大多数(如果不是全部)医疗条件的诊断、治疗和预后。身体对体内平衡动态扰动的综合反应创造了一条难以捉摸的生化足迹，每一条都提供了病理生理学开始的地方和身体偏离轨道的程度的线索(即侮辱的严重程度和反应的适当性)。无处不在的阳离子，钠，是整个身体内平衡的主要标志之一。细胞外液空间内的钠浓度([Na+])对于维持细胞大小和足够的组织灌注至关重要。因此，人体对水和钠平衡的内在调节是严格、精确的，并受到身体的严格保护。因此，当血钠水平冒险越过严密保护的正钠血症(正常血液[Na+])，进入低钠血症(低血液[Na+])或高钠血症(高血液[Na+])时，每一个偏差都预示着健康和疾病的故事——在极少数情况下，还预示着虐待和忽视。外部环境中的水和钠是生命所必需的。然而，在内部环境中，这两者之间的平衡对人类个体的生存至关重要。我们把这种内部环境中水和钠之间的平衡称为“流体稳态”。控制液体摄入(口渴)和输出(尿液)以及钠摄入(钠的适口性)和输出(尿液)的生理机制已经得到了很好的描述。缩写:[Na+] -钠浓度，ADH -抗利尿激素，AVP -精氨酸加压素，CVO -心室周围器官，ECF -细胞外液，ICF -细胞内液，IV -静脉注射，K+ -钾，RAAS -肾素-血管紧张素-醛固酮系统

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American Society for Clinical Laboratory Science

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