一种模拟吸入麻醉药吸收和消除的力学模型

Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society Pub Date : 1988-09-01 DOI:10.1109/IEMBS.1988.94735

P. J. Loughlin, W. Bowes, D. Westenskow

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引用次数: 0

摘要

用橄榄油模拟人体组织，建立了吸入性麻醉剂吸收和消除的力学模型。按麻醉溶解度和血流灌注对机体组织进行分组，建立等效油体积模型。心输出量的变化通过不同的气体流量通过油室来模拟。通过调节呼吸机的微小通气设置来增强肺泡通气。在64分钟的吸收和冲洗期间，机械模型的潮末氟烷浓度保持在计算机模拟的0.07 vol.%以内。该模型在开发和测试麻醉设备方面可能被证明是有用的，而不需要动物实验或人类志愿者

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A mechanical model to simulate uptake and elimination of inhalation anesthetics

Using olive oil to simulate body tissues, a mechanical model of uptake and elimination of inhalation anesthetics was developed. Body tissues were grouped according to anesthetic solubility and blood perfusion, and modeled with equivalent oil volumes. Changes in cardiac output were simulated by varying gas flows through the oil chambers. Alveolar ventilation was augmented by adjusting the minute ventilation setting of the ventilator. During 64 minutes of uptake and washout, the mechanical model end-tidal halothane concentration remained within 0.07 vol.% of a computer simulation. The model may prove useful in developing and testing anesthesia equipment without the need for animal experiments or human volunteers.<>

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Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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