Determination of respiratory system mechanics during inspiration and expiration by FLow-controlled Expiration (FLEX): A pilot study in anesthetized pigs

Minerva Anestesiologica

Volumn 80, Issue 1, 2014, Pages 19-28

  Schumann, S ^a   Goebel, U ^a   Haberstroh, J ^a   Vimlati, L ^b   Schneider, M ^a   Lichtwarck Aschoff, M ^b   Guttmann, J ^a  

^a UNIVERSITY OF FREIBURG   (Germany)

^b UPPSALA UNIVERSITY   (Sweden)

Author keywords

Compliance; Peak expiratory flow rate; Respiratory mechanics; Respiratory system

Indexed keywords

ANESTHESIA; ANIMAL EXPERIMENT; ARTICLE; BREATHING; EXPIRATION; EXPIRATORY FLOW RATE; EXPIRATORY RESERVE VOLUME; INSPIRATION; NONHUMAN; PILOT STUDY; POSITIVE END EXPIRATORY PRESSURE; SWINE; ANIMAL; ARTIFICIAL VENTILATION; DEVICES; EQUIPMENT DESIGN; EVALUATION STUDY; EXHALATION; INHALATION; INTRAVENOUS ANESTHESIA; LUNG COMPLIANCE; PHYSIOLOGY; PRESSURE; PROCEDURES; TIDAL VOLUME;

KETAMINE; MORPHINE;

ANESTHESIA, INTRAVENOUS; ANIMALS; EQUIPMENT DESIGN; EXHALATION; INHALATION; KETAMINE; LUNG COMPLIANCE; MORPHINE; PILOT PROJECTS; POSITIVE-PRESSURE RESPIRATION; PRESSURE; RESPIRATION, ARTIFICIAL; SUS SCROFA; SWINE; TIDAL VOLUME;

EID: 84896098788     PISSN: 03759393     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

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