OBJECTIVE: Single lung inhalation injury causes tissue damage to the contralateral lung. We therefore examined airway blood flow after smoke inhalation in chronic instrumented sheep to get further information about the underlying pathophysiology. DESIGN/PATIENTS: The right lung and lower trachea of 5 animals were smoke-exposed, while their left lung was air-insufflated using a split ventilation technique. Three animals, where both lungs were only air-insufflated, served as controls. Blood flow to the airway was measured using a labeled microsphere technique. All animals were studied for 24 h following smoke inhalation. Then they were sacrificed and their tissues harvested. RESULTS: The airway blood flow to the smoke-exposed lung was elevated 11-fold immediately after inhalation injury. The bronchial blood flow to the air insufflated lung became significantly elevated 24 h post-smoke, although to a lesser extent. The control animals did not show any changes of bronchial blood flow during the observation time. CONCLUSIONS: Damage to one lung can lead to pathophysiologic changes in the contralateral lung. This response appears to be mediated by hematogenous factors.
OBJECTIVE: Single lung inhalation injury causes tissue damage to the contralateral lung. We therefore examined airway blood flow after smoke inhalation in chronic instrumented sheep to get further information about the underlying pathophysiology. DESIGN/PATIENTS: The right lung and lower trachea of 5 animals were smoke-exposed, while their left lung was air-insufflated using a split ventilation technique. Three animals, where both lungs were only air-insufflated, served as controls. Blood flow to the airway was measured using a labeled microsphere technique. All animals were studied for 24 h following smoke inhalation. Then they were sacrificed and their tissues harvested. RESULTS: The airway blood flow to the smoke-exposed lung was elevated 11-fold immediately after inhalation injury. The bronchial blood flow to the air insufflated lung became significantly elevated 24 h post-smoke, although to a lesser extent. The control animals did not show any changes of bronchial blood flow during the observation time. CONCLUSIONS: Damage to one lung can lead to pathophysiologic changes in the contralateral lung. This response appears to be mediated by hematogenous factors.
Authors: R G Kilbourn; S S Gross; A Jubran; J Adams; O W Griffith; R Levi; R F Lodato Journal: Proc Natl Acad Sci U S A Date: 1990-05 Impact factor: 11.205
Authors: Sang-Won Lee; Andrew E Heidary; David Yoon; David Mukai; Tirunelveli Ramalingam; Sari Mahon; Jiechen Yin; Joseph Jing; Gangjun Liu; Zhongping Chen; Matthew Brenner Journal: Biomed Opt Express Date: 2011-01-05 Impact factor: 3.732