Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020639 (hypoproteinemia)
 1,134 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Resuscitation from major trauma or replacement of major operative blood loss frequently results in varying levels of protein depletion and alterations in plasma volume. To assess the importance of these factors on pulmonary and soft tissue transvascular fluid filtration, we compared the effects of hypoproteinemia and plasma volume expansion on the rate of lung and soft tissue transvascular fluid filtration in unanesthetized adult sheep. Ten animals were surgically prepared with chronic lung and soft tissue lymph fistulas. Lung (QL) and soft tissue (Qs) lymph flow rates were used to determine changes in transvascular fluid filtration. Initially, lactated Ringer's solution (LR) was infused to elevate pulmonary arterial wedge pressure of normoproteinemic animals (Norm/LR) 5 mm Hg for 2 1/2 hours. After a plasmapheresis-induced protein depletion of 30% to 35%, similar volume expansions with LR (Hypo/LR) and fresh frozen plasma (Hypo/Plas) were performed. Plasma, lung lymph, and soft tissue lymph oncotic pressures were determined, and transvascular oncotic gradients were calculated. Plasma volume expansion during Hypo/Plas conditions limited (p less than or equal to 0.05, 3 hours after infusion) Qs elevations compared with Hypo/LR expansion. However, there appeared to be no significant advantage with fresh frozen plasma over LR infusion in limiting QL. During fresh frozen plasma infusion, a distinct 10- to 12-hour lag in protein transport into the interstitium was observed in the soft tissue but not the lung microcirculation. The resultant differences in fluid filtration properties were in part the result of significant widening of the oncotic gradient in soft tissue. Plasma protein infusion appeared not to be beneficial over LR in limiting lung transvascular fluid filtration during hypoproteinemic states but significantly decreased soft tissue transvascular fluid flux.
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PMID:The effects of hypoproteinemia and volume expansion on lung and soft tissue transvascular fluid filtration. 270 97

We studied the role of hypoproteinemia, induced by a major burn injury, on the edema process in burned and nonburned tissues including the lung in the adult sheep. We used lymph flow (QL) and the lymph-plasma (L/P) protein ratio as indicators of the rate of fluid and protein flux across the microcirculation and into the interstitium. We compared the response after a full-thickness burn to 30% of total body surface plus resuscitation by means of lactated Ringer's solution (n = 8) with a comparable degree of hypoproteinemia produced by plasmapheresis with vascular hydrostatic pressure and cardiac output kept constant. We measured lung QL and soft tissue (prefemoral) QL from both the burned and nonburned areas. A twofold increase in QL and a decrease in the L/P ratio was seen in both lung and nonburned tissue in both burn and plasmapheresis animals, indicating the postburn response to be due to hypoproteinemia with no increase in protein permeability. The QL in burned tissue was increased five to ten times with an increase in the L/P ratio. Four burned sheep were resuscitated with pooled plasma. Restoration of plasma proteins eliminated the increase in QL in lung and nonburned tissue but had no effect on the burn response. In summary, burn-induced hypoproteinemia plays a major role in the edema process in nonburned tissues and is corrected by restoration of plasma proteins. Edema in burned tissue does not appear to be related to this process.
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PMID:Role of thermal injury-induced hypoproteinemia on fluid flux and protein permeability in burned and nonburned tissue. 669 30