The purpose of this study is to evaluate the SpO2 accuracy and performance of the Cadwell Pulse Oximetry system during non-motion conditions over the range of 70-100% SaO2 as compared to arterial blood samples assessed by CO-Oximetry for SpO2 validation. The end goal is to show the SpO2 accuracy performance of the Cadwell Pulse Oximetry System. It is expected that the Accuracy Root Mean Square (Arms) performance of the Cadwell Pulse Oximetry System will meet a specification of 3 or better in non-motion conditions for the range of 70-100% SaO2 thereby demonstrating an acceptable SpO2 accuracy performance specification.
The SpO2 accuracy performance of the Cadwell Pulse Oximetry systems will be evaluated during non-motion conditions over the range of 70-100% SaO2 and compared to arterial blood samples assessed by COOximetry. A minimum of 10 healthy adult subjects, ranging in pigmentation from light to dark, will be enrolled in the study to meet the study design requirements defined by ISO 80601-2-61 and by the FDA's Guidance for Pulse Oximeters (March 4, 2013). The subjects will have an arterial catheter placed in the radial artery to allow for simultaneous blood samples during stable plateaus of induced hypoxic levels. The investigational devices will be placed on fingers for the test sites. Simultaneous data collection will be set up for each of the systems under test. For the data analysis, the control oximeter will be used to assess the stability of each data point. Data that is found to be unstable will be removed prior to the comparative analysis. Next the CO-Oximeter data will be reviewed to make sure it does not contain any anomalous values such as elevated COHb, MetHb or inconsistent data. Anomalous values will be removed from the analysis prior to pairing of the SpO2 and SaO2 data. The statistical analysis is performed on a minimum of 200 data points collected on at least 10 subjects for the range of 67% to 100% SaO2. Functional SaO2 as measured by Reference CO-Oximetry will be used as the basis for comparison. The Accuracy Root Mean Square (ARMS) calculation is used to determine the SpO2 accuracy performance. Success will be achieved with an ARMS of 3 or better showing equivalence to the Gold Standard Reference CO-Oximetry providing documentation to support SpO2 accuracy claims for the investigational device.
Study Type
OBSERVATIONAL
Enrollment
11
Two adhesive based Pulse Oximeter Probes, S0136J-L were connected to the Cadwell Pulse Oximetry and then placed on each subject to evaluate the SpO2 accuracy performance during steady state non-motion conditions.
Two soft reusable Pulse Oximeter Probes, Model S0080D-S were connected to the Cadwell Pulse Oximetry and then placed on each subject to evaluate the SpO2 accuracy performance during steady state non-motion conditions.
A Clinimark Control Pulse Oximetry system was also placed on the subject to evaluate the stability of the draws.
SpO2 Sensor Values
SpO2 values (%) from the Cadwell pulse oximetry device using disposable and reusable sensors were collected electronically at one second intervals.
Time frame: Through study completion, an average of 1 day
Arterial Oxygen Saturation
Each subject was presented with various levels of induced hypoxia resulting in stable oxygen saturation levels between 100% and 67% SaO2. Arterial blood draws were collected under non-motion conditions. The blood was immediately analyzed to measure the arterial oxygen saturation.
Time frame: Through study completion, an average of 1 day
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