一种基于压力的闭路麻醉自适应控制器

Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference Pub Date : 1991-04-04 DOI:10.1109/NEBC.1991.154584

A. Sharma, R.L. Giffith, R. Roy

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引用次数: 0

摘要

为了使闭路麻醉系统的通用性更强，研制了一种基于压力的闭路麻醉自适应控制器。气囊或波纹管的压力-体积特性是CCA系统基于压力控制的基础。该控制器在6个犬类动物实验中进行了测试，在自发通气和机械通气模型中均表现稳定。对于习惯了麻醉膀胱作用于患者的直接感觉的执业麻醉师，无论是在辅助控制还是手动控制通气的情况下，所开发的系统都更容易被接受。这种麻醉输送系统的发展消除了解决复杂的多室数学方程的问题，以便预测氧气、麻醉剂和氧化亚氮的流量，以维持所需的肺泡氧浓度、潮末麻醉浓度和膀胱或风箱内的压力水平。

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A pressure based adaptive controller for closed circuit anesthesia

To make the closed-circuit system more general, a pressure-based adaptive controller for closed-circuit anesthesia (CCA) has been developed. The pressure-volume characteristics of the bladder or the bellows is used as the basis for the pressure based control of a CCA system. The controller was tested during six animal experiments on dogs and was stable in both the spontaneous and mechanical models of ventilation. The system developed is more acceptable to the practicing anesthetist accustomed to the direct feel of the anesthetic bladder acting upon the patient, both in case of assisted and manual control of ventilation. The development of this anesthesia delivery system eliminates the problem of solving complex multi-compartment mathematical equations in order to predict the flow of oxygen, anesthetic agent, and nitrous oxide necessary for maintaining the desired level of alveolar oxygen concentration, end-tidal anesthetic concentration, and the pressure inside the bladder or the bellows.<>

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Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference

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