Abstract
The pulse oximeter has become a vital instrument in the care of infants and children with cardiopulmonary disease. Recent advances in pulse oximetry technology have improved some aspects of pulse oximeter performance. However, the reliability, accuracy, and clinical utility of pulse oximetry remain problematic in some types of patients under certain conditions. Improved signal processing technology has substantially improved the ability of certain oximeters to work reliably under conditions of poor perfusion and motion artifact. There is a growing body of evidence describing the effect of pulse oximeter utilization on processes and outcomes. This article describes the principles, limitations, current state of oximetry technology, and the impact of oximetry data and alarms on diagnosis and clinical decision-making.
- pediatric
- respiratory
- pulmonary
- pulse oximetry
- motion artifact
- false alarm
- low perfusion
- accuracy
- pulse oximetry
- precision
- signal processing
- dyshemoglobinemia
- processes
- outcomes
Footnotes
- Correspondence: John W Salyer MBA RRT-NPS FAARC, Mail Stop 3-D-6, Children's Hospital and Regional Medical Center, 4800 Sand Point Way NE, Seattle WA 98105. E-mail: john.salyer{at}seattlechildrens.org.
John W Salyer MBA RRT-NPS FAARC presented a version of this report at the 31st Respiratory Care Journal Conference, Current Trends in Neonatal and Pediatric Respiratory Care, August 16-18, 2002, in Keystone, Colorado.
- Copyright © 2003 by Daedalus Enterprises Inc.
