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Measuring method for concentration of gas molecules from respiratory and circulatory system in expired gas

A technology of gas molecules and circulatory system, which is applied to the structural details of gas analyzers, measuring devices, analyzing gas mixtures, etc. question

Active Publication Date: 2016-03-09
SUNVOU MEDICAL ELECTRONICS
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

For example, for exhaled CO molecules, CareFusion’s MicroCO analyzer or NatusMedical, Inc.’s CO-STAT end-tidal analyzer are only used to analyze and measure the end-tidal CO concentration, and cannot distinguish whether the CO concentration comes from The concentration of gas X12 produced by the alveoli or the concentration of gas X2 circulated to the alveolar area by other systems
For exhaled NO molecules, the prior art J.BreathRes.6 (2012) 047103 proposes to distinguish airway NO and alveolar NO, which distinguishes airway NO (X11) and alveolar NO (X12 and X2), but cannot distinguish X12 produced by the alveoli from X2 produced by other systems and diffused to the alveoli
[0009] Since CO or NO produced by the alveoli and other systems cannot be distinguished, the measurement of end-tidal CO or NO in the alveolar area has not yet formed a standardized or quantitative diagnostic technique

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  • Measuring method for concentration of gas molecules from respiratory and circulatory system in expired gas
  • Measuring method for concentration of gas molecules from respiratory and circulatory system in expired gas
  • Measuring method for concentration of gas molecules from respiratory and circulatory system in expired gas

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Embodiment Construction

[0056] Taking the measurement of the NO concentration of the respiratory and circulatory system gas in exhaled air as an example, an application embodiment of the present invention is introduced.

[0057] The subject breathes with normal tidal flow (expiratory flow rate 200ml / s), observes the CO2 curve, after the breathing is balanced, the sampling starts, collects two tidal exhaled breaths for the instrument, analyzes the NO concentration in it, and the exhaled breath displayed by the CO2 curve State, measure the exhaled NO concentration in the alveolar region of the exhaled breath at least two times. The sampled gas flow rate (about 10ml / s) and the analyzed gas flow rate (about 1ml / s) have been calibrated in advance, which is equivalent to the exhaled gas per second can be measured on the sensor for 10 seconds, and the measurement time is magnified by 10 times. The end time of the above-mentioned exhalation sampling is consistent with the inflection point time when the zero ...

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Abstract

The invention provides a measuring method for the concentration of gas molecules from a respiratory and circulatory system in expired gas to realize acquisition and analysis of nitric oxide gas in expired gas in a tidal breathing state. According to the method, when tidal breathing flow is greater than 150 ml / s and airway retention time is less than 1 s, changes of the concentration of CO2 in the expired gas are monitored by using a CO2 monitoring module; the concentration Ce of the expired gas X at different time points is measured; according to the breathing state displayed by a CO2 curve, the concentration Ce at at least two time points, i.e., Ce(t1) and Ce(t2), when the expired gas X is in an alveolar area is selected; since the contribution of Caw in an airway area can be neglected during high flow, Ce(t) is approximately equal to Calv(t); thus, the concentration Ca of X in the alveolar area and the concentration Cw of X entering alveoli after circulation can be calculated according to the equation that Calv(t) = Ca + kCw.

Description

technical field [0001] The invention relates to a method for measuring the concentration of gas molecules in exhaled air. Background technique [0002] It is known that the measurement of various gas molecular components and their concentrations in the exhaled air of the human body can assist doctors in diagnosing patients' diseases, monitoring disease states and observing treatment effects, etc. The source of a certain gas molecule X in the breath is mainly the sum of the gas X1 produced and exhaled by the respiratory system and the gas X2 produced by other systems and passed to the respiratory system through the circulatory system and exhaled. The respiratory system can be subdivided into airway and alveolar parts, so X can be subdivided into airway produced and exhaled gas X11, alveolar produced and exhaled gas X12, and other systems produce gas that is delivered to the alveoli through the circulatory system sum of x2. [0003] CASE1: For some gas molecules X, such as C...

Claims

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Application Information

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IPC IPC(8): G01N33/00
CPCG01N33/0031G01N33/004G01N33/0067
Inventor 曹青韩杰
Owner SUNVOU MEDICAL ELECTRONICS
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