RATIONALE: The prone position is used to improve gas exchange in patients with acute respiratory distress syndrome. However, the regional mechanism by which the prone position improves gas exchange in acutely injured lungs is still incompletely defined. METHODS: We used positron emission tomography imaging of [(13)N]nitrogen to assess the regional distribution of pulmonary shunt, aeration, perfusion, and ventilation in seven surfactant-depleted sheep in supine and prone positions. RESULTS: In the supine position, the dorsal lung regions had a high shunt fraction, high perfusion, and poor aeration. The prone position was associated with an increase in lung gas content and with a more uniform distribution of aeration, as the increase in aeration in dorsal lung regions was not offset by loss of aeration in ventral regions. Consequently, the shunt fraction decreased in dorsal regions in the prone position without a concomitant impairment of gas exchange in ventral regions, thus leading to a significant increase in the fraction of pulmonary perfusion participating in gas exchange. In addition, the vertical distribution of specific alveolar ventilation became more uniform in the prone position. A biphasic relation between regional shunt fraction and gas fraction showed low shunt for values of gas fraction higher than a threshold, and a steep linear increase in shunt for lower values of gas fraction. CONCLUSION: In a surfactant-deficient model of lung injury, the prone position improved gas exchange by restoring aeration and decreasing shunt while preserving perfusion in dorsal lung regions, and by making the distribution of ventilation more uniform.

Richter, T., Bellani, G., Scott Harris, R., Vidal Melo, M., Winkler, T., Venegas, J., et al. (2005). Effect of prone position on regional shunt, aeration, and perfusion in experimental acute lung injury. AMERICAN JOURNAL OF RESPIRATORY AND CRITICAL CARE MEDICINE, 172(4), 480-487 [10.1164/rccm.200501-004OC].

Effect of prone position on regional shunt, aeration, and perfusion in experimental acute lung injury

BELLANI, GIACOMO;
2005

Abstract

RATIONALE: The prone position is used to improve gas exchange in patients with acute respiratory distress syndrome. However, the regional mechanism by which the prone position improves gas exchange in acutely injured lungs is still incompletely defined. METHODS: We used positron emission tomography imaging of [(13)N]nitrogen to assess the regional distribution of pulmonary shunt, aeration, perfusion, and ventilation in seven surfactant-depleted sheep in supine and prone positions. RESULTS: In the supine position, the dorsal lung regions had a high shunt fraction, high perfusion, and poor aeration. The prone position was associated with an increase in lung gas content and with a more uniform distribution of aeration, as the increase in aeration in dorsal lung regions was not offset by loss of aeration in ventral regions. Consequently, the shunt fraction decreased in dorsal regions in the prone position without a concomitant impairment of gas exchange in ventral regions, thus leading to a significant increase in the fraction of pulmonary perfusion participating in gas exchange. In addition, the vertical distribution of specific alveolar ventilation became more uniform in the prone position. A biphasic relation between regional shunt fraction and gas fraction showed low shunt for values of gas fraction higher than a threshold, and a steep linear increase in shunt for lower values of gas fraction. CONCLUSION: In a surfactant-deficient model of lung injury, the prone position improved gas exchange by restoring aeration and decreasing shunt while preserving perfusion in dorsal lung regions, and by making the distribution of ventilation more uniform.
Articolo in rivista - Articolo scientifico
Pore position; perfusion; lung; Positron Emission Tomography
English
2005
172
4
480
487
none
Richter, T., Bellani, G., Scott Harris, R., Vidal Melo, M., Winkler, T., Venegas, J., et al. (2005). Effect of prone position on regional shunt, aeration, and perfusion in experimental acute lung injury. AMERICAN JOURNAL OF RESPIRATORY AND CRITICAL CARE MEDICINE, 172(4), 480-487 [10.1164/rccm.200501-004OC].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/4699
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