Cardiovascular surgery (London, England)
-
Comparative Study
Reperfusion injury in skeletal muscle: controlled limb reperfusion reduces local and systemic complications after prolonged ischaemia.
Previous studies in isolated limbs using crystalloid perfusion solutions have shown that control of the initial reperfusion reduces postischaemic complications. However, no experimental study has been undertaken to evaluate the concept of controlled limb reperfusion experimentally in an in vivo blood-perfused model and to assess the local as well as systemic effects of normal blood reperfusion and controlled limb reperfusion. Of 20 pigs undergoing preparation of the infrarenal aorta and iliac arteries, six were observed for 7.5 h and served as controls; 14 others underwent 6 h of complete infrarenal occlusion. ⋯ Furthermore, controlled limb reperfusion resulted in higher total adenine nucleotides content, less tissue acidosis, markedly reduced creatine kinase release, and potassium release as compared with that of normal blood reperfusion. This study shows that 6 h of acute infrarenal aortic occlusion will result in severe reperfusion injury (postischaemic syndrome) if normal blood at systemic pressure is given in the initial reperfusion phase. In contrast, initial treatment of the ischaemic skeletal muscle by controlled limb reperfusion reduces the metabolic, functional and biochemical alterations.
-
Comparative Study
Reperfusion injury in skeletal muscle: interaction of osmotic and colloid-osmotic pressure in the initial reperfusate for oedema prevention.
Previous studies from the authors' laboratory have shown that controlled limb perfusion after prolonged, acute ischaemia minimizes reperfusion injury. The present study was performed to investigate the role of osmotic and colloid-osmotic pressure in the initial reperfusate in order to reduce postischaemic limb oedema and subsequent reperfusion injury. A total of 96 isolated rat hindlimbs were used: 18 were perfused immediately after amputation (no ischaemia; untreated) and 78 limbs were subjected to 4 h of warm ischaemia in a moist chamber. ⋯ Furthermore, colloid-osmotic pressure > 26 mmHg increases the viscosity of the reperfusate (flow decreases to < 50% of control) and does not allow an optimal functional recovery. Macromolecules used to create the colloid-osmotic pressure should be of similar molecular weight to albumin (69,000 Da); those with a smaller molecular weight (e.g. hydroxyethyl starch40,000/0.5) produce excessive limb oedema (184.9(13.5)% control weight; 85.7(1.4)% water content) without functional recovery (0% control contractions). The present data suggest that after prolonged limb ischaemia: (1) addition of mannitol to a crystalloid solution does not prevent oedema; (2) hyperosmotic reperfusates (380-480 mosmol/l) with a colloid-osmotic pressure of 26 mmHg are most effective in preventing limb oedema; and (3) macromolecules used to achieve colloid-osmotic pressure should have a molecular weight similar to albumin.
-
Two patients are reported who presented with intestinal ischaemia caused by a subadventitial rupture of the origin of the coeliac trunk and superior and inferior mesenteric arteries after blunt trauma from deceleration injury. In both cases the initial clinical examination revealed a painful abdomen without any 'peritonism'. Abdominal ultrasonographic examination showed no abnormality. ⋯ In the first, the diagnosis was made by laparatomy but only after 2 days. In the second, diagnosis was made by aortography performed because of the early appearance of gastric dilatation. Both patients died as a result of extensive associated injuries and delay in diagnosis.