1.Development and application vehicle-mounted wireless tele-consultation system
Lixin LI ; Zuchun TAN ; Yonglin SU ; Ziwen LIU ; Hefei WANG
Chinese Medical Equipment Journal 1989;0(03):-
The vehicle-mounted wireless tele-consultation system involves computer network technology, satellite communication technology and multimedia video technique in, which is composed of GPS, vehicle -mounted satellite communication sub-system, automatic satellite-tracking sub-system and computer control system. The system can be applied to medical command, operation tele-instruction, tele-education, tele -consultation, uploading medical service data and searching electronic medical information,and thus the field medical treatment and medical service are both improved. This paper introduces such aspects of the system as its principle, components, functions and application to medical service support.
2.Development of Infusion Support Series for Field Operation Stretcher
Zuchun TAN ; Nuofu CHEN ; Bo JIANG ; Hui LI ; Yuanshu CHEN
Chinese Medical Equipment Journal 1989;0(02):-
Objective To develop and perfect the infusion function of field operation stretcher by attaching infusion support.Methods The linking structure was developed for conveniently mounting infusion support to field operation stretcher so as to pack them off together.Results The infusion support is simple to operate,reasonable in structure,convenient to put off,and suitable for various field operation stretcher.Conclusion The field rescue,especially the quality of casualty transports,is improved.The manpower and material resources needed in on-site rescue are greatly reduced.[Chinese Medical Equipment Journal,2008,29(2):68]
3.Identification of recombinant intermediates of hepatitis B virus between genotype B and C in vitro
Junyi CHEN ; Ailong HUANG ; Li XU ; Dianquan CHEN ; Hong YU ; Zhaojing ZHU ; Zuchun HUANG ; Zongfa YANG ; Lishu CHEN ; Tao TAN
Journal of Central South University(Medical Sciences) 2011;36(2):101-108
Objective To detect the recombinant intermediates of hepatitis B virus (HBV) between genotype B and C in vitro. Methods Vector Plenti6/V5-D-topo-X was genetically modified by genotype B and C to transfect HepG2 cells. Then the HepG2 cells were amplified and sequence of the nucleic acid after the transinfection was tested and compared with RDP3Beta40 software package and bootscanning procedure in SimPlot program package. Results Three recombinant intermediates of HBV between genotype B and C were identified in vitro. Genotype C in the precore region plus the core gene spanning nucleotide positions from 1740-1838 to 2443-2485 contributed to the recombination with genotype B. Isolate R1 recombinant intermediate had 2 break points at nt2170-2172 and nt2188-2189. Nucleic acid changed from CAC to TGT and from GA to AC, respectively. Isolate R2 recombinant intermediate had a break point at nt1740-1 838, and 3 bases changed in different nucleic acid sites: from A to T at nt1740, from C to T at nt1753, and from G to A at nt1838, respectively. Isolate R3 recombinant intermediate had a break point at nt2443-2483, and 4 bases changed in different nucleic acid sites: from C to T at nt2443, from A to G at nt2452, from T to C at nt2480, and from C to T at nt2483, respectively. Conclusion The recombinant intermediates of HBV between genotype B and C have been detected in vitro and the changes have been identified in the precore region plus the core gene in genotype B and C.