Monitoring xenon in the breathing circuit with a thermal conductivity sensor: Comparison with a mass spectrometer and implications on monitoring other gases

Journal of Clinical Monitoring and Computing

Volumn 17, Issue 1, 2002, Pages 23-30

  Luginbühl, Martin ^a   Lauber, Rolf ^a   Feigenwinter, Peter ^a   Zbinden, Alex M ^a  

^a University Hospital of Psychiatry   (Switzerland)

Author keywords

Anesthesia; Carbon dioxide; Desflurane; Measurement; Oxygen; Thermal conductivity; Xenon

Indexed keywords

CARBON DIOXIDE; CHEMICAL SENSORS; MASS SPECTROMETERS; MASS SPECTROMETRY; MONITORING; THERMAL CONDUCTIVITY OF GASES;

XENON SENSORS;

XENON;

ANESTHETIC GAS; CARBON DIOXIDE; DESFLURANE; ENFLURANE; HALOTHANE; ISOFLURANE; NITRIC OXIDE; NITROGEN; OXYGEN; SEVOFLURANE; XENON; DRUG DERIVATIVE; INHALATION ANESTHETIC AGENT;

ACCURACY; ANALYTICAL ERROR; ANALYZER; ARTICLE; BLOOD GAS ANALYSIS; BREATHING APPARATUS; CALIBRATION; CARBON DIOXIDE MEASUREMENT; CLINICAL ARTICLE; COMPARATIVE STUDY; COMPUTER AIDED DESIGN; COMPUTER ANALYSIS; COMPUTER PROGRAM; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; HUMAN; IN VITRO STUDY; IN VIVO STUDY; INTERMETHOD COMPARISON; MASS SPECTROMETRY; MONITOR; OXIMETRY; PATIENT MONITORING; PRIORITY JOURNAL; REFERENCE VALUE; SENSOR; STATISTICAL SIGNIFICANCE; THERMAL CONDUCTIVITY; VENTILATOR; ANESTHESIOLOGY; INSTRUMENTATION;

ANESTHESIOLOGY; ANESTHETICS, INHALATION; CARBON DIOXIDE; HUMANS; ISOFLURANE; MASS SPECTROMETRY; OXYGEN; THERMAL CONDUCTIVITY; XENON;

EID: 0036053837     PISSN: 13871307     EISSN: None     Source Type: Journal    
DOI: 10.1023/A:1015404910323     Document Type: Article

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