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Target Concepts:
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Query: UMLS:C0034063 (
pulmonary edema
)
10,665
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An animal model of
API
similar to RDS was established by feeding the rabbits with live E. Coli (10(11)/kg B.W.) and bleeding them till a mean arterial pressure of 6.0 kPa was maintained for 90 minutes. After resuscitation, there were decrease of PaO2, increase of respiratory rate as well as
lung edema
. Histological and electron microscopic examination showed interstitial and alveolar edema. The tight junctions both in alveolar epithelium and capillary endothelium showed alterations including discontinuity, irregularity, and free-ended strands being present as early as the 4th hour by freeze-fracture technique. Impairment of the tight junctions is considered to be the main route of fluid leakage from pulmonary capillaries inducing
pulmonary edema
.
...
PMID:[Pathological changes in an animal model of acute pulmonary injury induced by hemorrhagic shock and E. coli infection]. 227 12
Pulmonary edema
after ascent to altitude is well recognized but its pathogenesis is poorly understood. To determine whether altitude exposure increases lung vascular permeability, we exposed rats to a simulated altitude of approximately 14,500 feet (barometric pressure [Pb] 450 Torr) and measured the pulmonary transvascular escape of radiolabeled 125I-albumin corrected for lung blood content with 51Cr-tagged red blood cells (protein leak index =
PLI
). Exposures of 24 and 48 h caused significant increases in
PLI
(2.30 +/- 0.08 and 2.40 +/- 0.06) compared with normoxic controls (1.76 +/- 0.06), but brief hypoxic exposures of 1-13 h produced no increase in
PLI
, despite comparable increases in pulmonary artery pressure. There were associated increases in gravimetric estimates of lung water in the altitude-exposed groups and perivascular edema cuffs on histologic examination. Normobaric hypoxia (48 h; fractional inspired oxygen concentration [FIO2] = 15%) also increased lung transvascular protein escape and lung water. Dexamethasone has been used to prevent and treat altitude-induced illnesses, but its mechanism of action is unclear. Dexamethasone (0.5 or 0.05 mg/kg per 12 h) started 12 h before and continued during 48 h of altitude exposure prevented the hypoxia-induced increases in transvascular protein escape and lung water. Hemodynamic measurements (mean pulmonary artery pressure and cardiac output) were unaffected by dexamethasone, suggesting that its effect was not due to a reduction in pulmonary artery pressure or flow. The role of endogenous glucocorticoid activity was assessed in adrenalectomized rats that showed augmented hypoxia-induced increases in transvascular protein escape, which were prevented by exogenous glucocorticoid replacement. In summary, subacute hypoxic exposures increased pulmonary transvascular protein escape and lung water in rats. Dexamethasone prevented these changes independent of reductions of mean pulmonary artery pressure or flow, whereas adrenalectomy increased pulmonary vascular permeability and edema at altitude. Increases in vascular permeability in hypoxia could contribute to the development of high-altitude
pulmonary edema
and endogenous glucocorticoids may have an important influence on pulmonary vascular permeability in hypoxia.
...
PMID:Hypoxia-induced increases in pulmonary transvascular protein escape in rats. Modulation by glucocorticoids. 319 58
