Pulse Oximetry: The Working Principle, Signal Formation, and Applications

Overview

Journal Adv Exp Med Biol

Specialties Biology
General Medicine

Date 2022 Oct 10

PMID 36217086

Authors

Timo Leppanen

Samu Kainulainen

Henri Korkalainen

Saara Sillanmaki

Antti Kulkas

Juha Toyras

Sami Nikkonen

Affiliations

Soon will be listed here.

Abstract

Pulse oximeters are routinely used in various medical-grade and consumer-grade applications. They can be used to estimate, for example, blood oxygen saturation, autonomic nervous system activity and cardiac function, blood pressure, sleep quality, and recovery through the recording of photoplethysmography signal. Medical-grade devices often record red and infra-red light-based photoplethysmography signals while smartwatches and other consumer-grade devices usually rely on a green light. At its simplest, a pulse oximeter can consist of one or two photodiodes and a photodetector attached, for example, a fingertip or earlobe. These sensors are used to record light absorption in a medium as a function of time. This time-varying absorption information is used to form a photoplethysmography signal. In this chapter, we discuss the working principles of pulse oximeters and the formation of the photoplethysmography signal. We will further discuss the advantages and disadvantages of pulse oximeters, which kind of applications exist in the medical field, and how pulse oximeters are utilized in daily health monitoring.

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