Factors associated with carbon dioxide transfer in an experimental model of severe acute kidney injury and hypoventilation during high bicarbonate continuous renal replacement therapy and oxygenation membrane support.

Critical care science Pub Date : 2024-07-08 eCollection Date: 2024-01-01 DOI:10.62675/2965-2774.20240005-en
Yuri de Albuquerque Pessoa Dos Santos, Luis Carlos Maia Cardozo Junior, Pedro Vitale Mendes, Bruno Adler Maccagnan Pinheiro Besen, Marcelo Park
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Abstract

Objective: To investigate the factors influencing carbon dioxide transfer in a system that integrates an oxygenation membrane in series with high-bicarbonate continuous veno-venous hemodialysis in hypercapnic animals.

Methods: In an experimental setting, we induced severe acute kidney injury and hypercapnia in five female Landrace pigs. Subsequently, we initiated high (40mEq/L) bicarbonate continuous veno-venous hemodialysis with an oxygenation membrane in series to maintain a pH above 7.25. At intervals of 1 hour, 6 hours, and 12 hours following the initiation of continuous veno-venous hemodialysis, we performed standardized sweep gas flow titration to quantify carbon dioxide transfer. We evaluated factors associated with carbon dioxide transfer through the membrane lung with a mixed linear model.

Results: A total of 20 sweep gas flow titration procedures were conducted, yielding 84 measurements of carbon dioxide transfer. Multivariate analysis revealed associations among the following (coefficients ± standard errors): core temperature (+7.8 ± 1.6 °C, p < 0.001), premembrane partial pressure of carbon dioxide (+0.2 ± 0.1/mmHg, p < 0.001), hemoglobin level (+3.5 ± 0.6/g/dL, p < 0.001), sweep gas flow (+6.2 ± 0.2/L/minute, p < 0.001), and arterial oxygen saturation (-0.5 ± 0.2%, p = 0.019). Among these variables, and within the physiological ranges evaluated, sweep gas flow was the primary modifiable factor influencing the efficacy of low-blood-flow carbon dioxide removal.

Conclusion: Sweep gas flow is the main carbon dioxide removal-related variable during continuous veno-venous hemodialysis with a high bicarbonate level coupled with an oxygenator. Other carbon dioxide transfer modulating variables included the hemoglobin level, arterial oxygen saturation, partial pressure of carbon dioxide and core temperature. These results should be interpreted as exploratory to inform other well-designed experimental or clinical studies.

高碳酸氢盐持续肾脏替代疗法和氧合膜支持期间严重急性肾损伤和低通气实验模型中二氧化碳转移的相关因素。
目的:研究影响高碳酸血症动物体内二氧化碳转移的因素:在高碳酸血症动物体内,研究在一个将充氧膜与高碳酸连续静脉血液透析串联在一起的系统中二氧化碳转移的影响因素:在实验环境中,我们诱导五头雌性兰德瑞斯猪出现严重急性肾损伤和高碳酸血症。随后,我们启动了高浓度(40mEq/L)碳酸氢盐连续静脉血液透析,并串联氧合膜以维持 pH 值高于 7.25。在开始连续静脉血液透析后的 1 小时、6 小时和 12 小时,我们分别进行了标准化扫气流量滴定,以量化二氧化碳的转移。我们采用混合线性模型评估了二氧化碳通过膜肺转移的相关因素:结果:共进行了 20 次扫气流量滴定过程,测量了 84 次二氧化碳转移。多变量分析显示以下因素之间存在关联(系数 ± 标准误差):核心体温(+7.8 ± 1.6 °C,p < 0.001)、膜前二氧化碳分压(+0.2±0.1/mmHg,p < 0.001)、血红蛋白水平(+3.5±0.6/g/dL,p < 0.001)、扫气流量(+6.2±0.2/L/分钟,p < 0.001)和动脉血氧饱和度(-0.5±0.2%,p = 0.019)。在这些变量中,在评估的生理范围内,扫气流量是影响低血流二氧化碳清除效果的主要可调节因素:结论:在使用高碳酸氢盐水平和氧合器的连续静脉血液透析过程中,扫气流量是与二氧化碳清除相关的主要变量。其他二氧化碳转移调节变量包括血红蛋白水平、动脉血氧饱和度、二氧化碳分压和核心体温。这些结果应被解释为探索性的,为其他精心设计的实验或临床研究提供参考。
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