Capnometry and anaesthesia

In the last decade, capnography has developed from a research instrument into a monitoring device considered to be essential during anaesthesia to ensure patient safety. Hence, a comprehensive understanding of capnography has become mandatory for the anaesthetist in charge of patients in the operati...

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Veröffentlicht in:	Canadian journal of anesthesia 1992-07, Vol.39 (6), p.617-632
Hauptverfasser:	BHAVANI-SHANKAR, K, MOSELEY, H, KUMAR, A. Y, DELPH, Y
Format:	Artikel
Sprache:	eng
Schlagworte:	Anesthesia Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Biological and medical sciences Carbon Dioxide - analysis Carbon Dioxide - blood General anesthesia. Technics. Complications. Neuromuscular blocking. Premedication. Surgical preparation. Sedation Humans Medical sciences Monitoring, Physiologic - instrumentation Pulmonary Ventilation - physiology Respiration - physiology
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container_end_page	632
container_issue	6
container_start_page	617
container_title	Canadian journal of anesthesia
container_volume	39
creator	BHAVANI-SHANKAR, K MOSELEY, H KUMAR, A. Y DELPH, Y
description	In the last decade, capnography has developed from a research instrument into a monitoring device considered to be essential during anaesthesia to ensure patient safety. Hence, a comprehensive understanding of capnography has become mandatory for the anaesthetist in charge of patients in the operating room and in the intensive care unit. This review of capnography includes the methods available to determine carbon dioxide in expired air, and an analysis of the physiology of capnograms, which are followed by a description of the applications of capnography in clinical practice. The theoretical backgrounds of the effect of barometric pressure, water vapour, nitrous oxide and other factors introducing errors in the accuracy of CO2 determination by the infra-red technique, currently the most popular method in use, are detailed. Physiological factors leading to changes in end-tidal carbon dioxide are discussed together with the clinical uses of this measurement to assess pulmonary blood flow indirectly, carbon dioxide production and adequacy of alveolar ventilation. The importance of understanding the shape of the capnogram as well as end-tidal carbon dioxide measurements is emphasized and its use in the early diagnosis of adverse events such as circuit disconnections, oesophageal intubation, defective breathing systems and hypoventilation is highlighted. Finally, the precautions required in the use and interpretation of capnography are presented with the caveat that although no instrument will replace the continuous presence of the attentive physician, end-tidal carbon dioxide monitoring can be effective in the early detection of anaesthesia-related intraoperative accidents.
doi_str_mv	10.1007/BF03008330
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Physiological factors leading to changes in end-tidal carbon dioxide are discussed together with the clinical uses of this measurement to assess pulmonary blood flow indirectly, carbon dioxide production and adequacy of alveolar ventilation. The importance of understanding the shape of the capnogram as well as end-tidal carbon dioxide measurements is emphasized and its use in the early diagnosis of adverse events such as circuit disconnections, oesophageal intubation, defective breathing systems and hypoventilation is highlighted. 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Y</creatorcontrib><creatorcontrib>DELPH, Y</creatorcontrib><title>Capnometry and anaesthesia</title><title>Canadian journal of anesthesia</title><addtitle>Can J Anaesth</addtitle><description>In the last decade, capnography has developed from a research instrument into a monitoring device considered to be essential during anaesthesia to ensure patient safety. Hence, a comprehensive understanding of capnography has become mandatory for the anaesthetist in charge of patients in the operating room and in the intensive care unit. This review of capnography includes the methods available to determine carbon dioxide in expired air, and an analysis of the physiology of capnograms, which are followed by a description of the applications of capnography in clinical practice. The theoretical backgrounds of the effect of barometric pressure, water vapour, nitrous oxide and other factors introducing errors in the accuracy of CO2 determination by the infra-red technique, currently the most popular method in use, are detailed. Physiological factors leading to changes in end-tidal carbon dioxide are discussed together with the clinical uses of this measurement to assess pulmonary blood flow indirectly, carbon dioxide production and adequacy of alveolar ventilation. The importance of understanding the shape of the capnogram as well as end-tidal carbon dioxide measurements is emphasized and its use in the early diagnosis of adverse events such as circuit disconnections, oesophageal intubation, defective breathing systems and hypoventilation is highlighted. Finally, the precautions required in the use and interpretation of capnography are presented with the caveat that although no instrument will replace the continuous presence of the attentive physician, end-tidal carbon dioxide monitoring can be effective in the early detection of anaesthesia-related intraoperative accidents.</description><subject>Anesthesia</subject><subject>Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy</subject><subject>Biological and medical sciences</subject><subject>Carbon Dioxide - analysis</subject><subject>Carbon Dioxide - blood</subject><subject>General anesthesia. Technics. Complications. Neuromuscular blocking. Premedication. Surgical preparation. 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Complications. Neuromuscular blocking. Premedication. Surgical preparation. Sedation</topic><topic>Humans</topic><topic>Medical sciences</topic><topic>Monitoring, Physiologic - instrumentation</topic><topic>Pulmonary Ventilation - physiology</topic><topic>Respiration - physiology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>BHAVANI-SHANKAR, K</creatorcontrib><creatorcontrib>MOSELEY, H</creatorcontrib><creatorcontrib>KUMAR, A. 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subjects	Anesthesia Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Biological and medical sciences Carbon Dioxide - analysis Carbon Dioxide - blood General anesthesia. Technics. Complications. Neuromuscular blocking. Premedication. Surgical preparation. Sedation Humans Medical sciences Monitoring, Physiologic - instrumentation Pulmonary Ventilation - physiology Respiration - physiology
title	Capnometry and anaesthesia
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