Comparative Study between Traditional Approach and Physico-Chemical Approach in Acid Base Disorders Interpretation in Critically Ill Patients

The Journal of respiratory diseases Pub Date : 2013-10-17 DOI:10.4236/OJRD.2013.34022

A. Redwan, R. Gatz, N. Hassan, H. Matter, A. Hammodi, A. Attia

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引用次数: 2

Abstract

Objective: The traditional approach for acid base interpretation is based on Handerson-Hasselbalch formula and includes Base Excess (BE), bicarbonate (HCO3), albumin corrected anion gap. The Physicochemical approach is centered on the Carbon Dioxide tension (PCO2), the strong ion difference (SID), strong ion gap (SIG) = SID apparent-SID effective and totally weak acids (Atot). The study aims to compare between the traditional approach and the physicochemical approach in acid base disorder interpretation. Design: Prospective observational study in an adult Intensive Care Unit (ICU) recruiting six hundred and sixty one patients. Methods: Arterial blood samples were analyzed to measure pH, PaCO2 sodium, potassium, chloride and lactate. Venous blood samples were analyzed to measure ionized calcium, magnesium, phosphorous and albumin. These samples were interpreted by both techniques. Results: Normal HCO3 and BE were detected by traditional approach in 49 cases of which SIG acidosis was detected in 22 cases (46%) and Hyperchloremic acidosis was detected in 29 cases (60%) by physicochemical method. SIG was elevated in 72 cases (58%) of 124 cases with high anion gap acidosis. SIDeff and BE were strongly correlated, r = 0.8, p 0.0001, while SIG and Albumin corrected Anion Gap (ALAG) were moderately correlated r = 0.56, p Conclusion: Both approaches are important for interpretation of the acid base status. Traditional approach identifies the diagnostic description without many calculations and detects body compensatory response to acid base disorders. Physicochemical approach is essential to identify the exact causation and the severity of the acid base disorders.

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传统方法与物理化学方法在危重患者酸碱障碍解释中的比较研究

目的:传统的酸碱解释方法是基于henderson - hasselbalch公式，包括碱过量(BE)、碳酸氢盐(HCO3)、白蛋白修正阴离子间隙。物理化学方法以二氧化碳张力(PCO2)、强离子差(SID)、强离子间隙(SIG) = SID明显-SID有效和完全弱酸(Atot)为中心。比较了传统方法与物理化学方法在酸碱紊乱解释中的应用。设计:在成人重症监护病房(ICU)招募661名患者的前瞻性观察研究。方法:对动脉血进行pH、PaCO2钠、钾、氯、乳酸测定。静脉血检测钙、镁、磷、白蛋白的离子含量。这些样品被两种技术解释。结果:49例患者采用传统方法检出HCO3、BE正常，其中SIG酸中毒22例(46%)，高绿血症酸中毒29例(60%)。124例高阴离子间隙酸中毒中有72例(58%)SIG升高。SIDeff与BE呈强相关，r = 0.8, p = 0.0001，而SIG与Albumin校正阴离子间隙(ALAG)呈中度相关，r = 0.56, p结论:两种方法都是解释酸碱状态的重要方法。传统方法无需大量计算即可识别诊断描述，检测机体对酸碱失调的代偿反应。物理化学方法对于确定酸碱失调的确切原因和严重程度至关重要。

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The Journal of respiratory diseases

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