Add to ORKGsurface pressures in the lung caused by its weight. J. Appl. Physiol. 32 (3): 332-345. 1972.-In an effort to understand how the lung is de-formed by its own weight, we have analyzed the distribution of regional expansion, stresses, and surface pressures in a theoretical elastic lung-shaped model using the technique of finite elements. In the upright position, the parenchyma was most expanded at the apex and least at the base. Stresses in both the vertical and lateral directions were maximal at the apex. As the lung was inflated from very low volumes to total lung capacity, parenchymal expansion and stress at the apex first decreased, then increased. This behavior can be explained by the increasing rigidity of the expanded lung which enabled...
This thesis examines changes in the mechanical behaviour of the canine and human respiratory systems...
Stress is defined as the force applied to a material, while strain is the consequent deformation. In...
AND ARNOLD BARRON. Estimation of tissue elasticity of the lung. J. Appl. Physiol. I g(2) : 236-242. ...
shape and size of lung and chst wall on stresses in the lung. J. Appl. Physiol. 39 ( 1) : 9-17. 1975...
SUMMARY The elastic properties of the lung can be described by a curve relat-ing volume of air in th...
This paper is concerned with coupled problems in the human respiratory system with emphasis on mecha...
Lung parenchyma surrounding an atelectatic region is thought to be subjected to increased stress com...
Distortion data for dog lungs obtained experimentally by Hoppin et al. (1975) are used to arrive at ...
forces in lungs. III. Alveolar surface tension and elastic properties of lungparenchyma. J. Appl. Ph...
We recently found that the lung damage occurs when the applied strain and stress are in the region o...
Stress is defined as the force applied to a material, while strain is the consequent deformation. In...
While mechanical ventilation is a life-saving therapy in patients with respiratory complications, th...
Damages from mechanical ventilation have been attributed to barotrauma or volutrauma, to atelectraum...
Stress is the applied force, and strain is the linear deformation of material. In the whole lung, th...
Pulmonary injuries are a major source of morbidity and mortality associated with trauma. Trauma incl...
This thesis examines changes in the mechanical behaviour of the canine and human respiratory systems...
Stress is defined as the force applied to a material, while strain is the consequent deformation. In...
AND ARNOLD BARRON. Estimation of tissue elasticity of the lung. J. Appl. Physiol. I g(2) : 236-242. ...
shape and size of lung and chst wall on stresses in the lung. J. Appl. Physiol. 39 ( 1) : 9-17. 1975...
SUMMARY The elastic properties of the lung can be described by a curve relat-ing volume of air in th...
This paper is concerned with coupled problems in the human respiratory system with emphasis on mecha...
Lung parenchyma surrounding an atelectatic region is thought to be subjected to increased stress com...
Distortion data for dog lungs obtained experimentally by Hoppin et al. (1975) are used to arrive at ...
forces in lungs. III. Alveolar surface tension and elastic properties of lungparenchyma. J. Appl. Ph...
We recently found that the lung damage occurs when the applied strain and stress are in the region o...
Stress is defined as the force applied to a material, while strain is the consequent deformation. In...
While mechanical ventilation is a life-saving therapy in patients with respiratory complications, th...
Damages from mechanical ventilation have been attributed to barotrauma or volutrauma, to atelectraum...
Stress is the applied force, and strain is the linear deformation of material. In the whole lung, th...
Pulmonary injuries are a major source of morbidity and mortality associated with trauma. Trauma incl...
This thesis examines changes in the mechanical behaviour of the canine and human respiratory systems...
Stress is defined as the force applied to a material, while strain is the consequent deformation. In...
AND ARNOLD BARRON. Estimation of tissue elasticity of the lung. J. Appl. Physiol. I g(2) : 236-242. ...