The efficacy of right atrial-pulmonary artery (RA-PA) bypass during acute right ventricular failure (RVF) produced by pulmonary artery constriction in dogs was examined in this study Control group (n=7) was supported ...The efficacy of right atrial-pulmonary artery (RA-PA) bypass during acute right ventricular failure (RVF) produced by pulmonary artery constriction in dogs was examined in this study Control group (n=7) was supported with conventional volume loading and inotropic therapy. In the experimental animals (n=8) , RA-PA bypass was initiated 5 min. after the onset of severe RVF. Three control animals died from refractory ventricular fibrillation within one hour of RVF. No animals in the experimental group died within two hours of RA-PA bypass , but the histological study of the lungs in these animals demonstrated peribronchial , perivascular and intraalveolar hemorrhage. Light microscopic and electron microscopic examination of the myocardial specimens of the right ventricular free wall displayed the myocardial structures and ultrastructures were maintained effectively with RA-PA bypass while irreversible myocardial injuries occurred in the control animals after two hours of RVF with conventional therapy. During the 2 hours of RA-PA bypass, the hemodynamic indices were also maintained better when compared to the control animals. It may be concluded , a roller pump right ventricular assist device effectively unloads the acute failing right ventricle, maintains systemic cardiac output , and significantly reverses the myocardial ischemia during right ventricular failure, but RA-PA bypass may induce pulmonary hypertension due to increased pulmonary vascular resistance secondary to pulmonary edema and interstitial hemorrhage.展开更多
Objective To elucidate the influence of osteoporosis on the fracture healing in ovariectomized rat. Methods 24 females 8-month-old SD rats were divided randomly into two groups.12 were sham-operated(Sham)and 12 were b...Objective To elucidate the influence of osteoporosis on the fracture healing in ovariectomized rat. Methods 24 females 8-month-old SD rats were divided randomly into two groups.12 were sham-operated(Sham)and 12 were bilaterally ovariectomized(OVX) 3 months later.The femoral fracture model were made in both groups,the healing process was observed by transmission electron microscopy(TEM) on d3,d7,d14,d21,d28,and d42 after making fracture in control groups(Sham) and the osteoporosis group(OVX). Results According to the TEM findings,the types of fracture healing cells,their ultrastructure changes and functional states were almost identical in both groups till d21 after making fracture.In OVX group,the calcified cartilage was not resorbed and replaced by new woven bone,a lot of necrosis chondrocytes were found being embedded in a calcified chondroid matrix on d28;after this period,osteoclastic bone resorption become severe gra- dually accompanied by osteocytic osteolysis during d28 to d42 of fracture healing. Conclusion Osteoporosis greatly affect the fracture healing in the later period of healing proess.It demonstrated as endochondral bone formation delayed and increased osteoclastic bone resorption which was made even more severed by osteocytic osteolysis during the period of bone callus remodelling.展开更多
文摘The efficacy of right atrial-pulmonary artery (RA-PA) bypass during acute right ventricular failure (RVF) produced by pulmonary artery constriction in dogs was examined in this study Control group (n=7) was supported with conventional volume loading and inotropic therapy. In the experimental animals (n=8) , RA-PA bypass was initiated 5 min. after the onset of severe RVF. Three control animals died from refractory ventricular fibrillation within one hour of RVF. No animals in the experimental group died within two hours of RA-PA bypass , but the histological study of the lungs in these animals demonstrated peribronchial , perivascular and intraalveolar hemorrhage. Light microscopic and electron microscopic examination of the myocardial specimens of the right ventricular free wall displayed the myocardial structures and ultrastructures were maintained effectively with RA-PA bypass while irreversible myocardial injuries occurred in the control animals after two hours of RVF with conventional therapy. During the 2 hours of RA-PA bypass, the hemodynamic indices were also maintained better when compared to the control animals. It may be concluded , a roller pump right ventricular assist device effectively unloads the acute failing right ventricle, maintains systemic cardiac output , and significantly reverses the myocardial ischemia during right ventricular failure, but RA-PA bypass may induce pulmonary hypertension due to increased pulmonary vascular resistance secondary to pulmonary edema and interstitial hemorrhage.
文摘Objective To elucidate the influence of osteoporosis on the fracture healing in ovariectomized rat. Methods 24 females 8-month-old SD rats were divided randomly into two groups.12 were sham-operated(Sham)and 12 were bilaterally ovariectomized(OVX) 3 months later.The femoral fracture model were made in both groups,the healing process was observed by transmission electron microscopy(TEM) on d3,d7,d14,d21,d28,and d42 after making fracture in control groups(Sham) and the osteoporosis group(OVX). Results According to the TEM findings,the types of fracture healing cells,their ultrastructure changes and functional states were almost identical in both groups till d21 after making fracture.In OVX group,the calcified cartilage was not resorbed and replaced by new woven bone,a lot of necrosis chondrocytes were found being embedded in a calcified chondroid matrix on d28;after this period,osteoclastic bone resorption become severe gra- dually accompanied by osteocytic osteolysis during d28 to d42 of fracture healing. Conclusion Osteoporosis greatly affect the fracture healing in the later period of healing proess.It demonstrated as endochondral bone formation delayed and increased osteoclastic bone resorption which was made even more severed by osteocytic osteolysis during the period of bone callus remodelling.
