The ability of a novel algorithm for automatic estimation of the respiratory variations in arterial pulse pressure to monitor fluid responsiveness in the operating room.
Cannesson, Maxime
The ability of a novel algorithm for automatic estimation of the respiratory variations in arterial pulse pressure to monitor fluid responsiveness in the operating room. [electronic resource] - Anesthesia and analgesia Apr 2008 - 1195-200, table of contents p. digital
Publication Type: Journal Article
1526-7598
10.1213/01.ane.0000297291.01615.5c doi
Algorithms
Arteries
Cardiac Output
Coronary Artery Bypass
Humans
Monitoring, Intraoperative--methods
Operating Rooms
Pulmonary Circulation--physiology
Pulse
Respiratory Mechanics--physiology
Stroke Volume
The ability of a novel algorithm for automatic estimation of the respiratory variations in arterial pulse pressure to monitor fluid responsiveness in the operating room. [electronic resource] - Anesthesia and analgesia Apr 2008 - 1195-200, table of contents p. digital
Publication Type: Journal Article
1526-7598
10.1213/01.ane.0000297291.01615.5c doi
Algorithms
Arteries
Cardiac Output
Coronary Artery Bypass
Humans
Monitoring, Intraoperative--methods
Operating Rooms
Pulmonary Circulation--physiology
Pulse
Respiratory Mechanics--physiology
Stroke Volume