Advancements in Adult and Neonatal Breathing Simulation Using the xPULTM Electro-mechanical Lung Simulator

Vasil Vodenicharov, R. Pastêka
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Abstract

Abstract Simulation is essential for healthcare professionals, students, and researchers, providing a safe environment for skill development and improved patient care. This paper presents enhancements to the xPULMTMelectro-mechanical lung simulator, enabling simulation of adult and neonatal breathing patterns. Hardware improvements include interchangeable flow sensors and additional temperature, humidity, volatile organic compounds (VOCs), and pressure sensors. The software redesign separates control and processing elements, enhancing performance. Measured parameters demonstrate expanded capabilities, such as increased airflow range and higher sampling frequency. Airtightness measurements show improved chamber sealing. Future developments aim to simulate neonatal breathing patterns and optimise software for high-frequency measurements. The enhanced xPULMTM simulator provides a realistic platform for simulating lung mechanics, benefiting respiratory medicine research and education.
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使用 xPULTM 电子机械肺模拟器进行成人和新生儿呼吸模拟的进展
模拟对于医疗保健专业人员、学生和研究人员来说是必不可少的,它为技能发展和改善患者护理提供了一个安全的环境。本文介绍了增强的xpulmtm机电肺模拟器,使成人和新生儿呼吸模式的模拟。硬件改进包括可互换的流量传感器和额外的温度、湿度、挥发性有机化合物(VOCs)和压力传感器。软件重新设计分离控制和处理元素,提高性能。测量参数显示扩展功能,如增加气流范围和更高的采样频率。气密性测量表明,腔室密封性得到改善。未来的发展旨在模拟新生儿呼吸模式和优化高频测量软件。增强的xPULMTM模拟器为模拟肺力学提供了一个现实的平台,有利于呼吸医学的研究和教育。
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来源期刊
Current Directions in Biomedical Engineering
Current Directions in Biomedical Engineering Engineering-Biomedical Engineering
CiteScore
0.90
自引率
0.00%
发文量
239
审稿时长
14 weeks
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