Knudsen Anders Steen, Arney David E, Butterfield Robert D, Sims Nathaniel M, Suja Vineeth Chandran, Peterfreund Robert A
Department of Biomedical Engineering, Vagelos College of Physicians and Surgeons, Columbia University, New York, NY, USA.
Department of Ophthalmology, Vagelos College of Physicians and Surgeons, Columbia University, New York, NY, USA.
J Clin Monit Comput. 2025 Feb;39(1):217-232. doi: 10.1007/s10877-024-01200-y. Epub 2024 Sep 19.
Critically ill or anesthetized patients commonly receive pump-driven intravenous infusions of potent, fast-acting, short half-life medications for managing hemodynamics. Stepwise dosing, e.g. over 3-5 min, adjusts physiologic responses. Flow rates range from < 0.1 to > 30 ml/h, depending on pump type (large volume, syringe) and drug concentration. Most drugs are formulated in aqueous solutions. Hydrophobic drugs are formulated as lipid emulsions. Do the physical and chemical properties of emulsions impact delivery compared to aqueous solutions? Does stepwise dose titration by the pump correlate with predicted plasma concentrations? Precise, gravimetric, flow rate measurement compared delivery of a 20% lipid emulsion (LE) and 0.9% saline (NS) using different pump types and flow rates. We measured stepwise delivery and then computed predicted plasma concentrations following stepwise dose titration. We measured the pharmacokinetic coefficient of short-term variation, (PK-CV), to assess pump performance. LE and NS had similar mean flow rates in stepwise rate increments and decrements between 0.5 and 32 ml/h and continuous flows 0.5 and 5 ml/h. Pharmacokinetic computation predictions suggest delayed achievement of intended plasma levels following dose titrations. Syringe pumps exhibited smaller variations in PK-CV than large volume pumps. Pump-driven deliveries of lipid emulsion and aqueous solution behave similarly. At low flow rates we observed large flow rate variability differences between pump types showing they may not be interchangeable. PK-CV analysis provides a quantitative tool to assess infusion pump performance. Drug plasma concentrations may lag behind intent of pump dose titration.
重症或麻醉患者通常接受泵驱动的静脉输注强效、速效、半衰期短的药物以管理血流动力学。逐步给药,例如在3 - 5分钟内给药,可调节生理反应。流速范围从<0.1至>30 ml/h,这取决于泵的类型(大容量泵、注射器泵)和药物浓度。大多数药物制成水溶液。疏水性药物则制成脂质乳剂。与水溶液相比,乳剂的物理和化学性质会影响给药吗?泵的逐步剂量滴定与预测的血浆浓度相关吗?使用不同类型的泵和流速,通过精确的重量法测量流速,比较20%脂质乳剂(LE)和0.9%生理盐水(NS)的给药情况。我们测量了逐步给药情况,然后在逐步剂量滴定后计算预测的血浆浓度。我们测量了短期变化的药代动力学系数(PK - CV)以评估泵的性能。在0.5至32 ml/h的逐步流速增加和减少以及0.5和5 ml/h的连续流速下,LE和NS的平均流速相似。药代动力学计算预测表明剂量滴定后预期血浆水平的达到会延迟。注射器泵的PK - CV变化比大容量泵小。泵驱动的脂质乳剂和水溶液的给药表现相似。在低流速下,我们观察到不同类型泵之间存在较大的流速变异性差异,表明它们可能不可互换。PK - CV分析提供了一种评估输液泵性能的定量工具。药物血浆浓度可能落后于泵剂量滴定的预期。
