Journal of investigative surgery : the official journal of the Academy of Surgical Research
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Knowledge of sepsis is growing rapidly and new pathogenetic concepts and therapeutic strategies evolve. The animal models of sepsis catalyze this development. Any model of this complex disease is inevitably a compromise between clinical realism and experimental simplification. ⋯ As to optimize models for the clinical reality the choice of an appropriate class of models is crucial. Moreover the incorporation of clinical therapy such as volume resuscitation, antibiotic therapy and surgical treatment of the septic focus is indispensable. Finally, the importance of simulation of comorbidities cannot be overemphasized.
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We hypothesized that beta-adrenergic stimulation with isoproterenol during continuous normothermic cardioplegic arrest would enhance the regenerative and regulatory function of the myocardium, resulting in improved cardiac function. We studied isolated rabbit hearts paced at approximately 200 beats per minute (bpm) and perfused by a support rabbit. We measured ventricular pressure over a range of ventricular volumes to determine maximal elastance (Emax) at baseline and 20 and 45 min after discontinuation of cardioplegia. ⋯ MVO2 decreased during cardioplegia (p < .01), but there was no significant change in MVO2 during isoproterenol infusion during cardioplegic arrest. There was a significant reduction in Emax compared to baseline 20 min after discontinuation of cardioplegic arrest in both groups (control 7.3 +/- 1.7 mm Hg/microL vs. 9.0 +/- 1.7 mm Hg/microL, p = .02, isoproterenol-treated 6.8 +/- 2.8 mm Hg/microL vs. 8.2 +/- 2.6 mm Hg/microL, p = .01, respectively), with recovery of Emax by 45 min in control hearts only. We conclude that exposure of hearts to isoproterenol during warm cardioplegic arrest has a deleterious effect that may be mediated through mechanisms independent of increased myocardial oxygen consumption.