Ninety years of pulse oximetry: history, current status, and outlook.

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Biomedical Optics Pub Date : 2024-06-01 Epub Date: 2024-08-17 DOI:10.1117/1.JBO.29.S3.S33307
Valentina Quaresima, Marco Ferrari, Felix Scholkmann
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Abstract

Significance: This year, 2024, marks the 50th anniversary of the invention of pulse oximetry (PO), which was first presented by Takuo Aoyagi, an engineer from the Nihon Kohden Company, at the 13th Conference of the Japanese Society of Medical Electronics and Biological Engineering in Osaka in 1974. His discovery and the development of PO for the non-invasive measurement of peripheral arterial oxygenation represents one of the most significant chapters in the history of medical technology. It resulted from research and development efforts conducted by biochemists, engineers, physicists, physiologists, and physicians since the 1930s.

Aim: The objective of this work was to provide a narrative review of the history, current status, and future prospects of PO.

Approach: A comprehensive review of the literature on oximetry and PO was conducted.

Results and conclusions: Our historical review examines the development of oximetry in general and PO in particular, tracing the key stages of a long and fascinating story that has unfolded from the first half of the twentieth century to the present day-an exciting journey in which serendipity has intersected with the hard work of key pioneers. This work has been made possible by the contributions of numerous key pioneers, including Kurt Kramer, Karl Matthes, Glenn Millikan, Evgenii M. Kreps, Earl H. Wood, Robert F. Show, Scott A. Wilber, William New, and, above all, Takuo Aoyagi. PO has become an integral part of modern medical care and has proven to be an important tool for physiological monitoring. The COVID-19 pandemic not only highlighted the clinical utility of PO but also revealed some of the problems with the technology. Current research in biomedical optics should address these issues to make the technology even more reliable and accurate. We discuss the necessary innovations in PO and present our thoughts on what the next generation of PO might look like.

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脉搏血氧仪的九十年:历史、现状与展望。
意义重大:今年,即 2024 年,是脉搏血氧仪(PO)发明 50 周年。1974 年,日本光电公司的工程师青柳孝夫在大阪举行的日本医疗电子和生物工程学会第 13 届会议上首次提出了脉搏血氧仪。他的发现和用于无创测量外周动脉血氧饱和度的 PO 的开发是医疗技术史上最重要的篇章之一。它是生物化学家、工程师、物理学家、生理学家和医生自 20 世纪 30 年代以来努力研发的成果:方法:对有关血氧仪和 PO 的文献进行了全面回顾:我们的历史回顾研究了血氧饱和度的总体发展情况,特别是 PO 的发展情况,追溯了从二十世纪上半叶到今天这个漫长而迷人的故事的关键阶段--在这个令人兴奋的旅程中,偶然性与主要先驱者的辛勤工作交织在一起。这项工作之所以能够完成,离不开众多重要先驱的贡献,其中包括库尔特-克雷默、卡尔-马特斯、格伦-米利肯、叶夫根尼-M-克雷普斯、厄尔-H-伍德、罗伯特-F-肖、斯科特-A-威尔伯、威廉-纽,以及最重要的青柳琢磨。PO 已成为现代医疗保健不可或缺的一部分,并被证明是生理监测的重要工具。COVID-19 大流行不仅凸显了 PO 的临床实用性,也揭示了该技术存在的一些问题。目前的生物医学光学研究应解决这些问题,使该技术更加可靠和准确。我们讨论了 PO 方面必要的创新,并提出了我们对下一代 PO 的看法。
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来源期刊
CiteScore
6.40
自引率
5.70%
发文量
263
审稿时长
2 months
期刊介绍: The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.
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