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Bone circulation in hemorrhagic shock.

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Title: Bone circulation in hemorrhagic shock.
Author: Yu, William Yan
Degree: Master of Science - MSc
Program: Surgery
Copyright Date: 1971
Subject Keywords Blood -- Circulation;Shock;Hematopoietic System;Shock, Hemorrhagic
Issue Date: 2011-05-09
Publisher University of British Columbia
Series/Report no. UBC Retrospective Theses Digitization Project [http://www.library.ubc.ca/archives/retro_theses/]
Abstract: Bone circulation in Hemorrhagic Shock was studied in 35 male mongrel dogs. The term hemorrhagic shock is defined in this thesis as persistent profound hypotensive syndrome, due to acute hemorrhage of more than one third of blood volume. The method of induction of shock consisted of removal of one third of estimated blood volume (8% of body weight) at a rate of 25 - 50 ml/min, and subsequently dropping the systemic blood pressure in a stepwise manner until the maintaining level of 30 - 35 mmHg is reached. The central venous pressure, pulse and respiratory rates were also recorded. Bone circulation was studied by (1) recording the blood flow through a cannula inserted into the tibial nutrient vein or artery and (2) recording the intramedullary pressure of tibia. When one third of estimated blood volume was removed, the bone blood flow through the nutrient vessel decreased to 22.5 ± 3.4% of control level. The decreased bone blood flow persisted as long as the hemorrhagic shock was maintained for 4-18 hours. The decreased bone blood flow was also evidenced by a profound and persistent fall of the intramedullary pressure of bone. Reinfusion into the animal of lost blood within fifteen minutes to six hours after hemorrhage resulted in a complete or partial recovery of the control systemic blood pressure as well as the control rate of bone blood flow and the control level of intramedullary pressure of bone. The curve showing relationship between the changes in bone blood flow and the systemic blood pressure is an exponential one with concavity towards the flow axis. This indicates that bone has a vasomotor control mechanism of increasing peripheral resistance during hemorrhagic shock. This was substantiated by the following observations: (1) The severity of decrease in bone blood flow on the side of lumbar sympathectomy was much milder (16% less) compared to the side of the intact sympathetic nerve; (2) Dibenzyline (phenoxybenzamine) a sympatholytic drug or alpha-receptor blocking agent alters the pressure-flow curve of bone circulation in chock to a linear pattern which indicates that the drug blocks the bone vasoconstricting mechanism(s). It is concluded that bone blood flow decreases in hemorrhagic shock and is not merely due to a decrease in circulatory blood volume, but also due to sympathetic and catecholamine hormonal vasoconstrictor mechanisms.
Affiliation: Medicine, Faculty of
URI: http://hdl.handle.net/2429/34380
Scholarly Level: Graduate

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