-
Article
A new in vitro model for force measurements at the isolated entire rat diaphragm
-
Article
Cardiogenic oscillations extracted from spontaneous breathing airway pressure and flow signal are related to chest wall motility and continuous positive airway pressure
-
Article
Control system for automated titration of positive end-expiratory pressure and tidal volume using dynamic nonlinear compliance as the setpoint
-
Article
Success of recruitment maneuvers during pneumoperitoneum is dependent on the intraabdominal pressure
-
Article
Determination of expiratory lung mechanics using cardiogenic oscillations during decelerated expiration
-
Article
Lung sound analysis to detect recruitment processes during mechanical ventilation
-
Article
Model based analysis reveals differences in viscoelasticity between acute respiratory distress syndrome and healthy lungs
-
Article
Intraluminal measurement probe increases resistance of pediatric endotracheal tubes
-
Article
Cardiogenic oscillations reflect nonlinear lung mechanics
-
Article
Passive mechanical properties of rat diaphragms: a new method for analyzing mechanical tissue properties
-
Article
Perfusion pressure and positive end-expiratory pressure influence edema formation in isolated porcine lungs
-
Article
The Gliding-SLICE method: an enhanced tool for estimation of intratidal respiratory mechanics
-
Article
Alveolar microscopy: on the automatic determination of alveolar size during ventilation
-
Article
Nonlinearity of intratidal airway resistance
-
Article
Recruitment/derecruitment models fitted to respiratory data of acute respiratory distress syndrome/acute lung injury patients
-
Article
Pressure dependency of respiratory resistance in patients with acute lung injury and acute respiratory distress syndrome
-
Article
Intravital endoscopy of alveoli: a new method to visualize the mechanical alveolar dynamics
-
Article
The position of the lower inflection point depends on volume history
-
Article
Online SLICE: a tool for continuous monitoring of respiratory mechanics
-
Article
Separate determination of inspiratory and expiratory dynamic lung mechanics using expiratory flow control