Alternate Methodology of Pulse Oximeter Validation

Duke University30 enrolled

Overview

This study will determine if the replacement of the measured arterial blood oxygen saturation with expired (end-tidal) oxygen value is an acceptable method to calculate the accuracy of pulse oximeters.

Pulse oximeters are non-invasive devices that use light to display an estimate (denoted by SpO2) of the true arterial blood oxygen saturation (SaO2). The accuracy of the pulse oximeter is determined from desaturation sequences (reduction in SpO2 from 100 to 70%) performed in healthy volunteers. The current standard desaturation sequence is a step-wise reduction in 5% SpO2 increments, achieved by reduction in inspired oxygen delivered by a gas blender such as the ROBD (Reduced Oxygen Breathing Device). This mixes oxygen and nitrogen (components of air) to produce the desired gas mixture. Throughout the desaturation sequence arterial blood gas samples are drawn at each step. The blood gas samples are processed through a co-oximeter to measure the SaO2. For each SaO2 measurement there will be a corresponding SpO2 recorded. All data points from all subjects are amalgamated together to allow calculation of how well SpO2 corresponds to the SaO2 throughout the range of 70 - 100% oxygen saturation. Accuracy, A\[RMS\], is the unit of measure and this incorporates both bias and precision. When the ROBD is used in a desaturation sequence, the subjects' arterial blood carbon dioxide (CO2) level will initially be normal (normocapnia). With the reduction in SpO2 during the desaturation sequence, the subjects' breathing rate will increase and this will cause the a physiological reduction in the blood CO2 value (hypocapnia). The extent of hypocapnia will vary from one subject to another. It is not known whether the presence of hypocapnia may have an effect upon the accuracy measurement. The RespirAct is a gas blender which, in contrast to the ROBD, can control both the oxygen level as well as the carbon dioxide level. The end-tidal oxygen level (PAO2) is continuously displayed by the RespirAct during the desaturation sequence. The PAO2 closely approximates to arterial blood oxygen (PaO2) - the degree of closeness will be measured in the study. Through an accepted formula, the SaO2 can be derived from the measured PAO2. The derived SaO2 values can subsequently be used to measure the accuracy of the pulse oximeter. This A\[RMS\] can then be compared with the A\[RMS\] calculated from the blood gas co-oximeter PaO2 / SaO2 values. If the accuracies are comparable then this would remove the need for arterial line placement during pulse oximeter validation studies. Eligible healthy volunteers will complete five (5) oxygen desaturation sequences with adjustment of sequence type and/or CO2 level. Two sequences will be delivered by step-wise reduction and two will be delivered by gradual slope. Two sequences will be delivered at normocapnia and two will be delivered at hypocapnia values. The ROBD sequence will be a step-wise reduction with CO2 value set by the subjects' own breathing control.

Study Type

INTERVENTIONAL

Allocation

NON_RANDOMIZED

Purpose

BASIC_SCIENCE

Masking

NONE

Enrollment

Conditions

Hypoxemia Desaturation of Blood

Interventions

RespirAct Step-Wise Normocapnia desaturation sequenceDEVICE

Blood carbon dioxide controlled at normal value (normocapnia).

RespirAct Slope Normocapnia desaturation sequenceDEVICE

Blood carbon dioxide controlled at normal value (normocapnia).

RespirAct Step-Wise Hypocapnia desaturation sequenceDEVICE

Blood carbon dioxide controlled at lower than normal value (hypocapnia).

Eligibility

Sex: ALLMin age: 18 YearsMax age: 50 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: * Aged 18 - 50 years * Subject is willing to provide written informed consent and is able to comply with anticipated study procedures Exclusion Criteria: * Body Mass Index (BMI) \< 18.0 or \> 30.0 * Known significant respiratory, cardiovascular or medical condition that precludes study participation as judged by investigator * Anemia \[hemoglobin value below lower range of normal for gender\] * Abnormal hemoglobin electrophoresis result * Exposure to nicotine \[positive test at screening or study day\] * Abnormal drug screen \[positive test at screening or on day of study\] * Positive pregnancy test for females \[serum test at screening; urine test on study day\] * Abnormal Allen's test for collateral circulation * Abnormal Electrocardiogram * Abnormal Pulmonary Function Test * Abnormal venous blood gas result * Intolerance of facemask

Locations (1)

Duke University

Durham, North Carolina, United States

Outcomes

Primary Outcomes

Accuracy of FDA-approved pulse oximeter when calculated with RespirAct-derived end-tidal PAO2 values and with co-oximeter measured arterial PaO2 values

The unit of measure of accuracy is called A\[RMS\] and is a composite value of bias and precision.

Time frame: 1 study day

PAO2 values

RespirAct-derived end-tidal PAO2 values with co-oximeter measured arterial PaO2 values

Time frame: 1 study day

Secondary Outcomes

Accuracy, A[RMS], when a step-wise desaturation sequence is used against a slope desaturation sequence.

The unit of measure of accuracy is called ARMS and is a composite value of bias and precision.

Time frame: 1 study day

Level of PaCO2 (hypocapnia versus normocapnia)

Time frame: 1 study day

Data from ClinicalTrials.gov

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