心脏骤停酸中毒的定量分析：一项前瞻性观察研究。

A quantitative analysis of the acidosis of cardiac arrest: a prospective observational study.

作者信息

Makino Jun, Uchino Shigehiko, Morimatsu Hiroshi, Bellomo Rinaldo

机构信息

Tertiary Emergency Medical Center, Tokyo Metropolitan Bokuto Hospital, Tokyo, Japan.

出版信息

Crit Care. 2005 Aug;9(4):R357-62. doi: 10.1186/cc3714. Epub 2005 May 23.

DOI:10.1186/cc3714

PMID:16137348

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1269443/

Abstract

INTRODUCTION

Metabolic acidosis is common in patients with cardiac arrest and is conventionally considered to be essentially due to hyperlactatemia. However, hyperlactatemia alone fails to explain the cause of metabolic acidosis. Recently, the Stewart-Figge methodology has been found to be useful in explaining and quantifying acid-base changes in various clinical situations. This novel quantitative methodology might also provide useful insight into the factors responsible for the acidosis of cardiac arrest. We proposed that hyperlactatemia is not the sole cause of cardiac arrest acidosis and that other factors participate significantly in its development.

METHODS

One hundred and five patients with out-of-hospital cardiac arrest and 28 patients with minor injuries (comparison group) who were admitted to the Emergency Department of a tertiary hospital in Tokyo were prospectively included in this study. Serum sodium, potassium, ionized calcium, magnesium, chloride, lactate, albumin, phosphate and blood gases were measured as soon as feasible upon arrival to the emergency department and were later analyzed using the Stewart-Figge methodology.

RESULTS

Patients with cardiac arrest had a severe metabolic acidosis (standard base excess -19.1 versus -1.5; P < 0.0001) compared with the control patients. They were also hyperkalemic, hypochloremic, hyperlactatemic and hyperphosphatemic. Anion gap and strong ion gap were also higher in cardiac arrest patients. With the comparison group as a reference, lactate was found to be the strongest determinant of acidosis (-11.8 meq/l), followed by strong ion gap (-7.3 meq/l) and phosphate (-2.9 meq/l). This metabolic acidosis was attenuated by the alkalinizing effect of hypochloremia (+4.6 meq/l), hyperkalemia (+3.6 meq/l) and hypoalbuminemia (+3.5 meq/l).

CONCLUSION

The cause of metabolic acidosis in patients with out-of-hospital cardiac arrest is complex and is not due to hyperlactatemia alone. Furthermore, compensating changes occur spontaneously, attenuating its severity.

摘要

引言

代谢性酸中毒在心脏骤停患者中很常见，传统上认为主要是由于高乳酸血症。然而，仅高乳酸血症并不能解释代谢性酸中毒的原因。最近，Stewart-Figge方法已被证明有助于解释和量化各种临床情况下的酸碱变化。这种新的定量方法可能还会为导致心脏骤停酸中毒的因素提供有用的见解。我们提出，高乳酸血症不是心脏骤停酸中毒的唯一原因，其他因素在其发展过程中也起着重要作用。

方法

前瞻性纳入东京一家三级医院急诊科收治的105例院外心脏骤停患者和28例轻伤患者（对照组）。到达急诊科后尽快测定血清钠、钾、离子钙、镁、氯、乳酸、白蛋白、磷酸盐和血气，并随后使用Stewart-Figge方法进行分析。

结果

与对照组患者相比，心脏骤停患者存在严重的代谢性酸中毒（标准碱剩余为-19.1对-1.5；P<0.0001）。他们还存在高钾血症、低氯血症、高乳酸血症和高磷血症。心脏骤停患者的阴离子间隙和强离子间隙也更高。以对照组为参照，发现乳酸是酸中毒的最强决定因素（-11.8 meq/l），其次是强离子间隙（-7.3 meq/l）和磷酸盐（-2.9 meq/l）。这种代谢性酸中毒因低氯血症（+4.6 meq/l）、高钾血症（+3.6 meq/l）和低白蛋白血症（+3.5 meq/l）的碱化作用而减轻。

结论

院外心脏骤停患者代谢性酸中毒的原因很复杂，并非仅由高乳酸血症所致。此外，会自发出现代偿性变化，减轻其严重程度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b9f3/1269443/ee0e0c3faca8/cc3714-1.jpg

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心脏骤停酸中毒的定量分析：一项前瞻性观察研究。

A quantitative analysis of the acidosis of cardiac arrest: a prospective observational study.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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