Anesthetic gas detection apparatus
First Claim
Patent Images
1. An apparatus for measuring the concentration of anesthetic gas in a patient'"'"'s respiratory airstream flowing through a gas conduit comprising:
- a source of infrared radiation for illuminating the gas in the conduit;
a plurality of independent infrared detectors for detecting infrared radiation from the gas illuminated in the conduit, each detector further comprising a filter to permit only infrared radiation of a particular wavelength to reach each respective infrared detector;
one or more reference infrared detectors, each detector furtherer comprising a filter to permit only infrared radiation of a particular wavelength to reach each respective reference infrared detector;
at least one blocked infrared detector with an opaque filter to prevent substantially all infrared radiation from reaching said blocked detector infrared detector, the number of blocked infrared detectors being fewer than said plurality of independent infrared detectors; and
a processor for correcting each independent infrared detector output by algebraic removal of a scaled version of the output of said reference and said at least one blocked infrared detectors from the output of each independent infrared detector.
1 Assignment
0 Petitions
Accused Products
Abstract
An apparatus is provided for detecting each of the five known anesthetic agents, CO2, and N2O when monitoring a patient'"'"'s respiratory gas stream during anesthesia. A source of infrared radiation emits the infrared tight through a gas stream and onto the infrared detector/sensor. The detector may contain ten analytical channels, each channel containing an independent infrared detector and a specific bandpass infrared filter which only permits certain wavelengths of the infrared radiation to reach the respective infrared detector. One of the channels is a blocked detector which serves as the reference point. A calibration and processing means is also provided to compensate for factors such as offset voltage, cross coupling, wideband changes and thermal drifts which may affect the accuracy of the gas measurements.
41 Citations
15 Claims
-
1. An apparatus for measuring the concentration of anesthetic gas in a patient'"'"'s respiratory airstream flowing through a gas conduit comprising:
-
a source of infrared radiation for illuminating the gas in the conduit;
a plurality of independent infrared detectors for detecting infrared radiation from the gas illuminated in the conduit, each detector further comprising a filter to permit only infrared radiation of a particular wavelength to reach each respective infrared detector;
one or more reference infrared detectors, each detector furtherer comprising a filter to permit only infrared radiation of a particular wavelength to reach each respective reference infrared detector;
at least one blocked infrared detector with an opaque filter to prevent substantially all infrared radiation from reaching said blocked detector infrared detector, the number of blocked infrared detectors being fewer than said plurality of independent infrared detectors; and
a processor for correcting each independent infrared detector output by algebraic removal of a scaled version of the output of said reference and said at least one blocked infrared detectors from the output of each independent infrared detector. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
means for measuring and compensating for offset voltage;
means for removing the effect of wide band and thermal changes in the infrared radiation source and each of the bandpass filters; and
means for adjusting the modulation level in each infrared detector; and
means for correcting the effects of cross coupling.
-
-
6. The apparatus defined in claim 1, further comprising:
-
means for averaging voltages;
means for amplifying high frequency measurements; and
means for zeroing the system.
-
-
7. The apparatus defined in claim 1, further comprising:
-
means for determining a baseline voltage value wherein said means include determining an optimum time for exposing fresh air to the infrared detectors; and
means for correcting for pressure difference between the pressure at calibration and the operating pressure.
-
-
8. The apparatus of claim 1, wherein there is only one blocked detector.
-
9. A method for calibrating and detecting an anesthetic agent in a patient'"'"'s respiratory gas stream, comprising the steps of:
-
providing a source of infrared radiation;
illuminating a patient'"'"'s respiratory gas stream with infrared radiation;
providing a plurality of independent infrared detectors for receiving the infrared radiation from the illuminated gas stream, each independent detector having a corresponding infrared bandpass filter for each gas or anesthetic agent to be measured;
providing a reference infrared detector for receiving the infrared radiation from the illuminated gas stream, each reference detector having a corresponding infrared bandpass filter;
providing at least one blocked detector infrared detector with a filter opaque to the infrared radiation from the illuminated gas stream, the number of blocked infrared detectors being fewer than said plurality of independent infrared detectors;
measuring the voltage across each infrared detector; and
correcting for each independent infrared detector voltage measurement by algebraic removal of a scaled version of the measurement of the reference and the blocked infrared detectors from the output of each separate independent infrared detector. - View Dependent Claims (10, 11, 12)
measuring and compensating for the effects of offset voltage;
determining a baseline voltage;
determining a normalized ratio for each infrared detector;
compensating for effects of wideband and thermal changes;
compensating for effects of cross coupling;
determining the concentration of the interested gases based on the results of the calibration process; and
zeroing the system at predetermined intervals.
-
-
11. The method defined in claim 9, further comprising the steps of:
amplifying the high frequency components of the infrared detectors; and
improving the modulation of each channel.
-
12. The method of claim 9, wherein there is only one blocked detector.
-
13. An apparatus for measuring the concentration of one or more anesthetic gases in a respiratory gas stream, comprising:
-
a source of infrared radiation;
a plurality of independent infrared detectors, each having a corresponding bandpass filter through which infrared radiation passes to reach each detector;
one or more reference infrared detectors, each having a corresponding bandpass filter through which infrared radiation passes to reach each detector;
at least one blocked detector infrared detector with a filter opaque to infrared radiation and positioned to block infrared radiation that would pass to the detector, the number of blocked infrared detectors being fewer than said plurality of independent infrared detectors;
means for calibrating the system; and
means for detecting and determining the concentration of one or more of said anesthetic gases. - View Dependent Claims (14, 15)
means for measuring and compensating for the effects of offset voltage;
means for compensating for the effects of thermal drifts or changes; and
means for compensating for the effects of cross coupling.
-
-
15. The apparatus of claim 13, wherein there is only one blocked detector.
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeInvivo Research Inc. (Safetytek Corp)
-
Original AssigneeInvivo Research Inc. (Safetytek Corp)
-
InventorsMoore, John, Susi, Roger, Hefele, David, Weeks, Arthur R.
-
Primary Examiner(s)Lacyk, John P.
-
Assistant Examiner(s)SZMAL, BRIAN SCOTT
-
Application NumberUS09/313,414Time in Patent Office826 DaysField of Search600/532, 600/529, 250/339.13, 250/343, 250/345, 250/339.02US Class Current600/532CPC Class CodesG01N 21/3504 for analysing gases, e.g. m...
