This study demonstrates the value of tonometry as an early monitor of hypovolaemia and highlights the shortcomings of other more commonly measured clinical variables.
The effect of endotoxin on tissue oxygen tension measured at the bladder epithelium was assessed in spontaneously breathing Sprague-Dawley rats anesthetized with halothane. Hyperdynamic (high cardiac output, group A, n = 6) and hypodynamic (low cardiac output, group B, n = 6) circulatory responses were achieved by intravenous administration of Escherichia coli lipopolysaccharide, 10 mg/kg over 30 min or 20 mg/kg over 1 min, respectively. Comparison was made against sham-operated control rats (group C, n = 6). Aortic and renal blood flows increased in group A and fell in group B (P < 0.001). However, in both groups, bladder epithelial oxygen tension rose significantly compared with control (P < 0.01), despite an increasing metabolic acidosis. This is in contradistinction to previous studies of nonseptic insults where bladder epithelial oxygen tension fell in line with an increasing arterial base deficit. If a raised tissue oxygen tension could be demonstrated in other organ beds, this would suggest that decreased utilization of oxygen rather than reduced tissue oxygen availability is responsible for the apparent anaerobic respiration seen in sepsis.
Heparin is the mainstay of anticoagulation for the extracorporeal circuit although the complex abnormalities of the coagulation system in critically ill patients are associated with a considerable risk of bleeding. Alternative therapeutic agents and physical strategies (prostacyclin, low molecular weight heparin, sodium citrate, regional anticoagulation, heparin bonding and attention to circuit design) may reduce the risk of bleeding but expense and difficulty in monitoring are disadvantages.
The dose response to endotoxin (Escherichia coli serotype 127:B8) was assessed in a spontaneously breathing, halothane-anesthetized, Sprague-Dawley rat model monitoring blood pressure, aortic and renal blood flows, blood gases, and bladder epithelial PO2, a marker of organ perfusion. The animals received either saline or endotoxin at doses of 1, 10 and 100 mg/kg body wt. Blood pressure changed significantly in all three endotoxin groups, though only the 100 mg/kg group showed significant changes in arterial PCO2, arterial PO2, and body temperature compared with controls. Whereas aortic and renal blood flow rose significantly in the two lower-dose groups, an approximate one-third fall occurred in the 100 mg/kg group (P < 0.001). Notwithstanding these macrocirculatory hemodynamic changes, both bladder epithelial PO2 and arterial base deficit rose significantly in all groups, though only the base deficit showed a progressive dose response. This model illustrates that responses to endotoxin are dose dependent but with changing patterns for different variables. The consistent finding of an elevated tissue PO2 in endotoxemia, regardless of dose, is suggestive of defective cellular oxygen metabolism.
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