Objective To study the clinical experience of extracorporeal circulation management in modified total arch replacement combined with stented elephant trunk.Methods Fifty-eight patients with Stanford A aortic dissection underwent modified total arch replacement combined with stented elephant trunk.With the modified surgical technique,the technology of extracorporeal circulation was also modified with bilateral antegrade cerebral perfusion,the management of the temperature and blood protection.Results All patients were operated successfully.The operative time was 248-485 (396 ± 67) min,extracorporeal circulation time was 175-260 (181 ± 33) min,cross clamp time was 64-104 (85 ± 12) min,stop circulation time was 22-48 (32 ± 5) min,and selective cerebral perfusion time was 26-54 (39 ± 7) min.The ventilator assisted breathing time was 5.0-35.5 (23.0 ± 4.5) h,and ICU monitoring time was 24-140 (88 ± 12) h.Postoperative complications included transient neurologic deficit in 3 cases (5.2％,3/58),renal dysfunction in 5 case (8.6％,5/58),and pulmonary infection in 4 cases (6.9％,4/58).Conclusion To modified total arch replacement combined with stented elephant trunk,the modified management of extracorporeal circulation with bilateral antegrade cerebral perfusion,the management of temperature and blood protection,has a low prevalence of morbidity and mortality.

To optimize program of bovine somatic nuclear transfer, we used two different enucleation procedures (by Spindle-view system & Hoechst 33342 staining), two different procedures to introduce donor nuclei (by ooplasm microinjection & electrofusion), and three different group electrofusion parameters (group 1: 1.9 kV/cm, 10 micros, two; group 2: 1.5 kV/cm, 25 micros, two; group 3: 0.6 kV/cm, 100 micros, one) to reconstruct bovine cloned embryos. The cleavation rates and blastocyst development rates of cloned embryos were used to assess the efficiency of different operational procedure. Finally, the best combination of operational procedure, that the spindle-viewer system was used for oocytes enucleating, and donor cell was electrofused into ooplasm by electrical pulse (1.9 kV/cm, 10 micros, two) to reconstruct bovine cloned embryos. Then the excellent blastocysts were transferred to fosters for producing cloned cattle 80 high-quality cloned blastocysts were transferred into 33 fosters, two cloned calves were produced. According to the results, the optimized program could be used to produce cloned cattle.
Animals ; Cattle ; Cell Nucleus ; physiology ; Cloning, Organism ; veterinary ; Embryo Transfer ; methods ; Embryo, Mammalian ; cytology ; physiology ; Female ; Microinjections ; Nuclear Transfer Techniques ; veterinary ; Oocytes ; cytology ; physiology