Diagnostic method for high sensitivity detection of component concentrations in human gas emission
First Claim
1. A skin gas collection system, comprising:
- a collection chamber housing defining an interior space, the collection chamber housing having a gas inlet, a gas outlet, and an opening, the opening being configured for enclosing a skin portion from which to receive an emitted gas sample and sealing the interior space against the skin portion;
an inert gas source connected to the gas inlet, the gas inlet configured for allowing inert gas from the inert gas source to flow into the interior space;
a gas cell connected to the gas outlet, the gas outlet configured for allowing a mixture of the inert gas and the gas sample to flow from the interior space into the gas cell;
a tunable optical radiation emitter configured for directing an optical radiation beam through the gas cell;
a power detector for measuring one or more power signals of the optical radiation beam after the optical radiation beam passes through the gas cell;
an acoustic microphone for measuring one or more optoacoustic signals from the gas cell as the optical radiation beam basses through the gas cell; and
a concentration detection system for measuring a concentration of a specified component in the emitted gas sample based on the one or more power signals and the one or more optoacoustic signals.
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Accused Products
Abstract
A system for collecting gas samples emitted from skin and detecting concentrations of specified components therein. The system includes a collection chamber housing defining an interior space, the collection chamber housing having a gas inlet, a gas outlet, and an opening. The opening is configured for enclosing a skin portion from which to receive an emitted gas sample and sealing the interior space against the skin portion. An inert gas source is connected to the gas inlet, which is capable of allowing inert gas from the inert gas source to flow into the interior space. A gas cell is connected to the gas outlet, which is capable of allowing the inert gas and the gas sample to flow from the interior space into the gas cell. As a laser travels through the gas cell, power and optoacoustic signals are measured and used to determine a concentration of the specified component.
24 Citations
7 Claims
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1. A skin gas collection system, comprising:
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a collection chamber housing defining an interior space, the collection chamber housing having a gas inlet, a gas outlet, and an opening, the opening being configured for enclosing a skin portion from which to receive an emitted gas sample and sealing the interior space against the skin portion; an inert gas source connected to the gas inlet, the gas inlet configured for allowing inert gas from the inert gas source to flow into the interior space; a gas cell connected to the gas outlet, the gas outlet configured for allowing a mixture of the inert gas and the gas sample to flow from the interior space into the gas cell; a tunable optical radiation emitter configured for directing an optical radiation beam through the gas cell; a power detector for measuring one or more power signals of the optical radiation beam after the optical radiation beam passes through the gas cell; an acoustic microphone for measuring one or more optoacoustic signals from the gas cell as the optical radiation beam basses through the gas cell; and a concentration detection system for measuring a concentration of a specified component in the emitted gas sample based on the one or more power signals and the one or more optoacoustic signals. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification