Respiratory diagnostic possibilities during closed circuit anesthesia

An automatic feed back controlled totally closed circuit system (Physioflex) has been developed for quantitative practice of inhalation anesthesia and ventilation. In the circuit system the gas is moved unidirectionally around by a blower at 70 l/min. In the system four membrane chambers are integra...

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Bibliographic Details
Published inActa anaesthesiologica belgica Vol. 41; no. 3; p. 177
Main Authors Verkaaik, A P, Erdmann, W
Format Journal Article
LanguageEnglish
Published Belgium 1990
Subjects
Airway Resistance
Anesthesia, Closed-Circuit - instrumentation
Anesthesia, Closed-Circuit - methods
Anesthesia, Inhalation - instrumentation
Aortic Rupture - diagnosis
Blood Gas Analysis
Data Display
Humans
Lung Compliance
Malignant Hyperthermia - diagnosis
Monitoring, Intraoperative - instrumentation
Oxygen Consumption
Respiration
Respiration, Artificial - instrumentation
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Summary:An automatic feed back controlled totally closed circuit system (Physioflex) has been developed for quantitative practice of inhalation anesthesia and ventilation. In the circuit system the gas is moved unidirectionally around by a blower at 70 l/min. In the system four membrane chambers are integrated for ventilation. Besides end-expiratory feed back control of inhalation anesthetics, and inspiratory closed loop control of oxygen, the system offers on-line registration of flow, volume and respiratory pressures as well as a capnogram and oxygen consumption. Alveolar ventilation and static compliance can easily be derived. On-line registration of oxygen consumption has proven to be of value for determination of any impairment of tissue oxygen supply when the oxygen delivery has dropped to critical values. Obstruction of the upper or lower airways are immediately detected and differentiated. Disregulations of metabolism, e.g. in malignant hyperthermia, are seen in a pre-crisis phase (increase of oxygen consumption and of CO2 production), and therapy can be started extremely early and before a disastrous condition has developed. Registration of compliance is only one of the continuously available parameters that guarantee a better and adequate control of lung function (e.g. atalectasis is early detected). The newly developed sophisticated anesthesia device enlarges tremendously the monitoring and respiratory diagnostic possibilities of artificial ventilation, gives new insights in the (patho)physiology and detects disturbances of respiratory parameters and metabolism in an early stage.
ISSN:0001-5164