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eISSN: 1643-3750

Evaluation of analytic and motion-resistant performance of the Mindray 9006 Pulse Oximeter

Liming Peng, Cunliang Yan, Hong Lu, Yong Xia

Med Sci Monit 2007; 13(8): MT19-27

ID: 491814

Published: 2007-08-01


Background:    The Mindray 9006 is a newly developed pulse oximeter. The performance of noninvasive monitoring of arterial oxygen saturation by pulse oximetry (SpO[sub]2[/sub]) and pulse rate (PR) with the Mindray 9006 was evaluated.
Material/Methods:    Twenty healthy volunteers participated in this study. The Mindray 9006 was evaluated according to guidelines including HS3-A, EP5-A, and EP9-A2 published by the CLSI, and ISO 9919. A blinded side-by-side comparison of the Mindray 9006 and the Masimo MS-3 oximeter was also performed.
Results:The results demonstrated that the coefficients of variation (CV) of imprecision were less than 1% for SpO[sub]2[/sub] and less than 5% for PR analyzed by the Mindray 9006. Comparisons of methods showed there was no significant difference in SpO[sub]2[/sub]/PR analysis between the Mindray 9006 with Rapidlab 855 CO-oxymeter or 812 Electrocardiogram (ECG) monitor (p>0.05) and between the Mindray 9006 and Masimo MS-3 (p>0.05). There was good correlation for SpO[sub]2[/sub] between the Mindray 9006 and CO-oxymetry or the Masimo MS-3 (r>0.96) and for PR between the Mindray 9006 and ECG or the Masimo MS-3 (r>0.98). The accuracy as the root-mean-square (A[sub]rms[/sub]) was less than 3% for both SpO[sub]2[/sub] and PR between the Mindray 9006 and CO-oxymetry or between the Mindray 9006 and ECG. Also, there was no significant difference for SpO[sub]2[/sub]/PR between the motion and rest conditions (p>0.05).
Conclusions:The overall performance of the Mindray 9006 for SpO[sub]2[/sub] and PR analysis is excellent and compares favorably with the Masimo MS-3.

Keywords: Adolescent, Oxygen - metabolism, Oximetry - methods, Movement, Models, Statistical, Male, Humans, Heart Rate, Female, Evaluation Studies as Topic, Equipment Design, Blood Gas Analysis, Adult, Blood Gas Analysis, Oxygen - metabolism, Oximetry - methods, Movement, Models, Statistical, Male, Humans, Heart Rate, Female, Evaluation Studies as Topic, Equipment Design, Adolescent, Adult



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