ObjectiveTo investigate the effect of simulated in vivo physiological environment severed limb fostering system applying remote ischemic conditioning (RIC) perfusion on preserving severed limb. MethodEighteen adult Bama mini pigs (24-30 kg in weight) were randomly divided into 3 groups (n=6) . No ischemic treatment was given in group A as normal control group; the right lower limbs were completely amputated and preserved at room temperature for 3 hours to make ischemic models in groups B and C, and then the severed limbs were put into the simulated in vivo physiological environment severed limb fostering system. Continuous blood perfusion was performed in group B, and continuous blood perfusion was performed after RIC perfusion in group C. After 8 hours of perfusion, the skeletal muscle samples were harvested for the morphology observation by transmission electron microscopy. The protein levels of B-cell lymphoma-2(Bcl-2) and Caspase-3 were detected by Western blot. The content of cytochrome C in both mitochondria and cytoplasm was determined by ELISA. ResultsTransmission electron microscopy results illustrated that the muscle fibers arranged more orderly and the mitochondria swelling was slighter in group C than group B. Western blot analysis showed that the protein levels of Bcl-2 and Caspase-3 were significantly higher in groups B and C than group A (P<0.05) ; the protein level of Bcl-2 significantly increased and the protein level of Caspase-3 significantly decreased in group C when compared with those in group B (P<0.05) . ELISA detection implicated that mitochondrial cytochrome C significantly reduced and cytosolic cytochrome C significantly increased in group B when compared with those in groups A and C (P<0.05) , but no significant difference was found between group A and group C (P>0.05) . ConclusionsThe ischemia/reperfusion-induced injury to skeletal muscle could be considerably inhibited by RIC perfusion. The simulated in vivo physiological environment severed limb fostering system applying RIC perfusion can significantly prolong the severed limb preserving time.
In this study, a closed-loop controller for chest compression which adjusts chest compression depth according to the coronary perfusion pressure (CPP) was proposed. An effective and personalized chest compression method for automatic mechanical compression devices was provided, and the traditional and uniform chest compression standard neglecting individual difference was improved. This study rebuilds Charles F. Babbs human circulation model with CPP simulation module and proposes a closed-loop controller based on a fuzzy control algorithm. The performance of the fuzzy controller was evaluated and compared to that of a traditional PID controller in computer simulation studies. The simulation results demonstrated that the fuzzy closed-loop controller produced shorter regulation time, fewer oscillations and smaller overshoot than those of the traditional PID controller and outperforms the traditional PID controller in CPP regulation and maintenance.
ObjectiveTo summarize the research progress of severed limb preservation by perfusion and to analyze difference in effect of severed limb preservation by different perfusate. MethodsThe domestic and foreign related literature about severed limb preservation by perfusion was extensively reviewed and analyzed. ResultsCurrently the main perfusate includes organ perfusate,free radical scavengers,energy mixture,blood substitutes,and whole blood.They can reduce the skeletal muscle's ischemia-reperfusion injury in different degrees. ConclusionDifferent perfusate can reduce the skeletal muscle's ischemia-reperfusion injury in different degrees,but the best effect of perfusate and personalized preservation method need further study.