Automatic control of blood oxygen saturation in premature infants

Proceedings of IEEE International Conference on Control and Applications Pub Date : 1993-09-13 DOI:10.1109/CCA.1993.348256

Edmund Morozoff, R. W. Evans, J. Smyth

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引用次数: 12

Abstract

This paper describes research into the development of a controller that regulates blood oxygen saturation (SaO/sub 2/) in premature infants. The patient's SaO/sub 2/ is measured by a pulse oximeter and fed into the controller which adjusts the neonate's inspired air-oxygen (FiO/sub 2/) mixture by actuating a motorized gas blender. This oxygen therapy is used to prevent incidents of hypoxemia and hyperoxemia. A simplified physiological model is described. The designers use a unique control algorithm based on the sign of the error magnitude, velocity and acceleration as inputs. The algorithm applies these inputs to a state machine that determines the trend of the error. This trend defines the next state and an associated FiO/sub 2/ adjustment and time delay. The controller was verified on eight neonates, each over a six hour study period. During automatic oxygen therapy the controller significantly increased the duration of time the patient spent at normal SaO/sub 2/ levels as compared to manual therapy. The numbers of manual interventions were also greatly reduced when the neonates were under automatic oxygen therapy.<>

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早产儿血氧饱和度的自动控制

本文介绍了一种调节早产儿血氧饱和度(SaO/sub 2/)的控制器的研制。患者的SaO/sub 2/由脉搏血氧仪测量，并输入控制器，该控制器通过驱动电动气体搅拌器来调节新生儿吸入的空气-氧气(FiO/sub 2/)混合物。这种氧疗法用于预防低氧血症和高氧血症的发生。描述了一种简化的生理模型。设计人员使用了一种独特的控制算法，该算法基于误差大小、速度和加速度的符号作为输入。该算法将这些输入应用于确定误差趋势的状态机。这个趋势定义了下一个状态和相关的FiO/sub 2/调整和时间延迟。该控制器在八个新生儿身上进行了验证，每个人在六个小时的研究期间。在自动氧疗期间，与手动氧疗相比，控制器显著增加了患者在正常SaO/sub - 2/水平下的持续时间。当新生儿接受自动氧疗时，人工干预的次数也大大减少。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of IEEE International Conference on Control and Applications

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