Methods of detecting gaseous component levels in a breath
First Claim
1. A method for detecting gaseous component levels in a breath, comprising:
- receiving a breath through a breath channel, wherein the breath channel is in continuous fluid communication with a flow rate sensor and an electrochemical fuel cell gas sensor while the entire breath is received, and wherein the flow rate sensor and the electrochemical fuel cell gas sensor are in electrical communication with a processing device;
measuring a flow rate of the breath received through the breath channel utilizing the flow rate sensor and transmitting a corresponding flow rate signal to the processing device;
measuring a gas level of the breath received through the breath channel with the electrochemical fuel cell gas sensor and transmitting a corresponding gas level signal to the processing device;
measuring a first time, wherein the first time corresponds to an amount of time elapsed while receiving the breath in the breath channel;
calculating a current gaseous component level on the processing device utilizing the flow rate signal, the first time and the gas level signal from the gas sensor, wherein the gaseous component level is proportional to the gas level signal, the flow rate and the first time.
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Abstract
Method for detecting gaseous component levels in a breath, comprising: receiving a breath through a breath channel, wherein the breath channel is in fluid communication with a flow rate sensor and an electrochemical fuel cell gas sensor; measuring a flow rate of the breath received through the breath channel; measuring a first time, wherein the first time corresponds to an amount of time elapsed while receiving the breath in the breath channel; and calculating a current gaseous component level utilizing the flow rate, first time and an output from the gas sensor. Methods for detecting an error condition while measuring gaseous component levels in a breath comprising: determining if the peak output occurs while breath is still being received in the breath channel; and if the peak output occurs while breath is still being received in the breath channel, alerting a user of an error condition.
40 Citations
15 Claims
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1. A method for detecting gaseous component levels in a breath, comprising:
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receiving a breath through a breath channel, wherein the breath channel is in continuous fluid communication with a flow rate sensor and an electrochemical fuel cell gas sensor while the entire breath is received, and wherein the flow rate sensor and the electrochemical fuel cell gas sensor are in electrical communication with a processing device; measuring a flow rate of the breath received through the breath channel utilizing the flow rate sensor and transmitting a corresponding flow rate signal to the processing device; measuring a gas level of the breath received through the breath channel with the electrochemical fuel cell gas sensor and transmitting a corresponding gas level signal to the processing device; measuring a first time, wherein the first time corresponds to an amount of time elapsed while receiving the breath in the breath channel; calculating a current gaseous component level on the processing device utilizing the flow rate signal, the first time and the gas level signal from the gas sensor, wherein the gaseous component level is proportional to the gas level signal, the flow rate and the first time. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A computer program product comprising a non-transitory computer readable medium carrying instructions for allowing a computer system to detect gaseous component levels in a breath received through a breath channel, the instructions comprising a method of:
- measuring a flow rate of the breath received through the breath channel utilizing a flow rate sensor in fluid communication with the breath channel and transmitting a corresponding flow rate signal to a processing device, wherein the processing device and the flow rate sensor are in electrical communication;
measuring a gas level of the breath received through the breath channel utilizing an electrochemical fuel cell gas sensor in continuous fluid communication with the breath channel while the entire breath is received and transmitting a corresponding gas level signal to the processing device, wherein the processing device and the electrochemical fuel cell gas sensor are in electrical communication; measuring a first time, wherein the first time corresponds to an amount of time elapsed while receiving the breath in the breath channel; calculating a current gaseous component level utilizing the flow rate signal, the first time and the gas level signal, wherein the current gaseous component level is proportional to the gas level signal, the flow rate and the first time. - View Dependent Claims (11, 12, 13, 14, 15)
- measuring a flow rate of the breath received through the breath channel utilizing a flow rate sensor in fluid communication with the breath channel and transmitting a corresponding flow rate signal to a processing device, wherein the processing device and the flow rate sensor are in electrical communication;
Specification