Difference between revisions of "Increased pulmonary vascular permeability follows intracranial hypertension in sheep"
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| − | + | Bowers RE, McKeen CR, Park BE, and Brigham KL (1979) Increased pulmonary vascular permeability follows intracranial hypertension in sheep. Am Rev Respir Dis 119:4 637–41. | |
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| − | *Study in sheep of possible neural effects on lung capillary permeability. Elevated intracranial pressure led to increased permeability, suggesting that pulmonary edema may in some cases occur without pulmonary hypertension (cf. | + | http://www.atsjournals.org.ezp.welch.jhmi.edu/doi/abs/10.1164/arrd.1979.119.4.637?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed#readcube-epdf |
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| + | After reviewing the characteristics of neurogenic pulmonary edema, Theodore and Robin suggested that it was probably due to rupture of lung vessels by marked but transitory pulmonary hypertension. In this study, we have determined the effects of increased intracranial pressure in a sheep model in which we could measure the flow rate and protein content of lung lymph, and thus detect changes in pulmonary vascular permeability. We found that increasing intracranial pressure to amounts near systemic arterial pressure produced a 3-fold increase in the flow of protein-rich lymph, which indicates increased lung vascular permeability. The high permeability often developed, and always persisted, without extraordinary increases in pulmonary vascular pressure. We conclude that increased lung vascular permeability may follow intracranial hypertension and that extreme pulmonary hypertension is not a prerequisite. Our data do not permit us to exclude barotrauma to exchanging vessels as a cause of capillary damage, but do suggest that other factors, perhaps local release of permeability mediators, may be involved. | ||
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| + | *Study in sheep of possible neural effects on lung capillary permeability. Elevated intracranial pressure led to increased permeability, suggesting that pulmonary edema may in some cases occur without pulmonary hypertension (cf. Theodore and Robin, Theodore and Robin). | ||
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Latest revision as of 13:37, 17 June 2019
Bowers RE, McKeen CR, Park BE, and Brigham KL (1979) Increased pulmonary vascular permeability follows intracranial hypertension in sheep. Am Rev Respir Dis 119:4 637–41.
Abstract: After reviewing the characteristics of neurogenic pulmonary edema, Theodore and Robin suggested that it was probably due to rupture of lung vessels by marked but transitory pulmonary hypertension. In this study, we have determined the effects of increased intracranial pressure in a sheep model in which we could measure the flow rate and protein content of lung lymph, and thus detect changes in pulmonary vascular permeability. We found that increasing intracranial pressure to amounts near systemic arterial pressure produced a 3-fold increase in the flow of protein-rich lymph, which indicates increased lung vascular permeability. The high permeability often developed, and always persisted, without extraordinary increases in pulmonary vascular pressure. We conclude that increased lung vascular permeability may follow intracranial hypertension and that extreme pulmonary hypertension is not a prerequisite. Our data do not permit us to exclude barotrauma to exchanging vessels as a cause of capillary damage, but do suggest that other factors, perhaps local release of permeability mediators, may be involved.
Keywords:
Context
- Study in sheep of possible neural effects on lung capillary permeability. Elevated intracranial pressure led to increased permeability, suggesting that pulmonary edema may in some cases occur without pulmonary hypertension (cf. Theodore and Robin, Theodore and Robin).