To investigate the protection effect of DNA vaccine in mammalian and avian systems, the DNA vaccine was inoculated in both BALB/c mice and SPF chickens immunized with DNA vaccines encoding hemagglutinin (HA) from A/Goose/GuangDong/1/96 (H5N1) virus. The mice and chickens were immunized twice, 3 weeks apart, by electroporation into muscles or intramuscular injection. Two weeks after the second immunization, the mice and chickens were challenged with a lethal dose of homologous virus. The mice and chickens immunized by electroporation obtained completely protection against the virus, and could effectively inhibited viruses to replicating in mouse lung and chicken cloaca. At the same time, these protections were companied by high levels specific antibody to H5N1 AIV, while the blank plasmid controls experience 100 percent mortality following challenge. Furthermore, in the experiment of mice by eletroporation,stronger obviously CTL activity were observed after challenge. Thus, the cellular immune responses of the mice immunized by electroporation were exhibited. These results strongly demonstrate that HA DNA vaccines provide effective protection against influenza virus infection in mammalian and avian, and suggest that electroporation is one of the efficient gene delivery systems for the transfer of influenza DNA vaccine in both humoral immunity and cellular immunity.

Objective To make a conclusion about the methods and main points of surgical position for cervical artificial disc replacement (CADR). Methods We collected the data from January to December 2015 in West China Hospital of Sichuan University. It included 102 patients in the surgical group of cervical spine, which were cervical vertebra degeneration and doing CADR according to the segment, quantity of the replacement and whether belonged to hybrid surgical method, then we analyzed and determined how to achieve the desired surgical position. Results The surgical positions of the patients in this group all conformed to the requirements of the replacement and gave intraoperative excellent exposure and less blood loss, made the vision of decompression clear and thorough, made the position of replacement prosthesis great. There were no postoperative complications. The patients all healed and were discharged in 5 to 7 days after operation. There was no position offset of prosthesis and no extrusion in the following 6 to 18 months. It restored the ideal physiological lordosis of the cervical spine. Conclusions According to the different segment of the replacement, we analyze and remain the location of the preoperative cervical spinal neutrality and a bit of extension which make the artificial cervical disc in favor of being well placed during an operation and promote cervical spine to maintain normal physiological lordosis during early post-operation, and greatly reduce the incidence of postoperative pain of neck and shoulder.