Pleural pressure measured in the zone of apposition of diaphragm to rib cage in rabbits

Pérez, F. Fernández; Fernandez, P.; Hernaiz, M. I.; Jackson, Elijah; Lai-Fook, S. J.; Boynton, Bruce R.

doi:10.1007/bf00165700

Cited by 2 publications

(1 citation statement)

References 20 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the zone of apposition of the diaphragm to the rib cage, pleural pressure increases during spontaneous inspiration (3,166,194). This behavior resembles that of abdominal pressure (1, 2) and is opposite to that of pleural pressure on the lung surface, which decreases on inspiration.…”

Section: Zone Of Apposition Of Rib Cage To the Diaphragmmentioning

confidence: 95%

Pleural Mechanics and Fluid Exchange

Lai-Fook

2004

Physiological Reviews

155

View full text Add to dashboard Cite

Lai-Fook, Stephen J. Pleural Mechanics and Fluid Exchange. Physiol Rev 84: 385–410, 2004; 10.1152/physrev.00026.2003.—The pleural space separating the lung and chest wall of mammals contains a small amount of liquid that lubricates the pleural surfaces during breathing. Recent studies have pointed to a conceptual understanding of the pleural space that is different from the one advocated some 30 years ago in this journal (Agostoni E. Physiol Rev 52: 57–128, 1972). The fundamental concept is that pleural surface pressure, the result of the opposing recoils of the lung and chest wall, is the major determinant of the pressure in the pleural liquid. Pleural liquid is not in hydrostatic equilibrium because the vertical gradient in pleural liquid pressure, determined by the vertical gradient in pleural surface pressure, does not equal the hydrostatic gradient. As a result, a viscous flow of pleural liquid occurs in the pleural space. Ventilatory and cardiogenic motions serve to redistribute pleural liquid and minimize contact between the pleural surfaces. Pleural liquid is a microvascular filtrate from parietal pleural capillaries in the chest wall. Homeostasis in pleural liquid volume is achieved by an adjustment of the pleural liquid thickness to the filtration rate that is matched by an outflow via lymphatic stomata.

show abstract

Section: Zone Of Apposition Of Rib Cage To the Diaphragmmentioning

confidence: 95%