Impact of Plasma-Lyte pH 7.4 on acid-base status and hemodynamics in a model of controlled hemorrhagic shock

Authors

  • Danilo Teixeira Noritomi Hospital Israelita Albert Einstein; Intensive Care Unit
  • Adriano José Pereira Hospital Israelita Albert Einstein; Intensive Care Unit
  • Diogo Diniz Gomes Bugano Universidade de São Paulo; Faculdade de Medicina
  • Paulo Sergio Rehder Universidade de São Paulo; Faculdade de Medicina
  • Eliézer Silva Hospital Israelita Albert Einstein; Intensive Care Unit

DOI:

https://doi.org/10.1590/S1807-59322011001100019

Keywords:

Acidosis, Crystalloid Solution, Hyperchloremia, Hemorrhagic Shock, Strong Ion Difference

Abstract

OBJECTIVE: Intravenous infusion of crystalloid solutions is a cornerstone of the treatment of hemorrhagic shock. However, crystalloid solutions can have variable metabolic acid-base effects, perpetuating or even aggravating shock-induced metabolic acidosis. The aim of this study was to compare, in a controlled volume-driven porcine model of hemorrhagic shock, the effects of three different crystalloid solutions on the hemodynamics and acid-base balance. METHODS: Controlled hemorrhagic shock (40% of the total blood volume was removed) was induced in 18 animals, which were then treated with normal saline (0.9% NaCl), Lactated Ringer's Solution or Plasma-Lyte pH 7.4, in a blinded fashion (n = 6 for each group). Using a predefined protocol, the animals received three times the volume of blood removed. RESULTS: The three different crystalloid infusions were equally capable of reversing the hemorrhage-induced low cardiac output and anuria. The Lactated Ringer's Solution and Plasma-Lyte pH 7.4 infusions resulted in an increased standard base excess and a decreased serum chloride level, whereas treatment with normal saline resulted in a decreased standard base excess and an increased serum chloride level. The Plasma-Lyte pH 7.4 infusions did not change the level of the unmeasured anions. CONCLUSION: Although the three tested crystalloid solutions were equally able to attenuate the hemodynamic and tissue perfusion disturbances, only the normal saline induced hyperchloremia and metabolic acidosis.

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Published

2011-01-01

Issue

Vol. 66 No. 11 (2011)

Section

Basic Researches

How to Cite

Impact of Plasma-Lyte pH 7.4 on acid-base status and hemodynamics in a model of controlled hemorrhagic shock . (2011). Clinics, 66(11), 1969-1974. https://doi.org/10.1590/S1807-59322011001100019