1.Effect of needling “Chang Qiang Point” on the febrifugal and analysis its mechanism after damaging lumbar spinal cord of febrile rabbits
Chinese Journal of Pathophysiology 1986;0(02):-
In order to observe the febrifugal response of needling "Chang Qiang Point", and analyse its mechanism lumbar spinal cord of rabbits were damaged in the expermental study. The experimental findings were as follows: 1. It was found that cAMP content in csf was striking increased, when leukocytic pyrogen fever of rabbits was significant. During needling "Chang Qiang Point" of febrile rabbits, however, febrile response was markedly inhibited(at 60 min~?T℃ was 0.23?0.07 and TRI4 0.61?0.03). There was significant difference(P0.05). 3. After damaging lumbar spinal cord of rabbits, there were certain change of rectal temperature and the febrile response, but it had no effect on cAMP content in csf. The authors infered that the impulses from "Chang Qiang Point" transmiled Via spinal cord might be closely associated with reflex mechanism and the change of cAMP content might play an important role in the mechanism of febrifugal effect during needling "Chang Qiang Point" in febrile rabbits.
2.Effects of Gypsum on levels of cAMP, cGMP, PGE_2 in plasma and cAMP, cGMP in spleen tissue and abdominal cavity macrophages in rats with thermal injury
Chinese Journal of Pathophysiology 1986;0(01):-
This paper showed that levels of cAMP, PGE_2 in plasma and cAMP in spleen tissue and abdominal cavity macrophages in burned rats are increased (cAMP levels in plasma of the control groups were 24.65?4.59pmol/ml; PGE_2 levels were 309.38?77.64Pg/ml. cAMP levels in plasma of burned groups were 36.58?2.74pmol/ml: PGE_2 levels were 937.50+102.91Pg/ml; P
3.Effects of gypsum on both the fever and the cyclic nucleotids levels in CSF in rabbits with fever
Chinese Journal of Pathophysiology 1986;0(04):-
The purpose of this study was to investigate the effects of gypsum on LP-induced fever and the CSF levels of cAMP and cGMP in rabbits. It was found that gypsum could inhibit the rise of body temperature caused by LP injection, (△T of gypsum +LP group is 0.40?0.08℃, TRI_3 2.55; LP group 0.91?0.06℃, TRI_3 4.99 P
4.Effect of Silver Sulfadiazine-impregnated Hydrocolloid Dressing on Wound Care of Nail Extraction
Fanhui MENG ; Yongkun WANG ; Jiaru WANG ; Yueqiang TIAN ; Minna YAN ; Xiaoqiu YANG
Chinese Journal of Nosocomiology 2006;0(03):-
OBJECTIVE To observe the effect of the silver sulfadiazine-impregnated hydrocolloid dressing on the pain of nail extraction wound during dressing change and the healing time of wound. METHODS Forty eight patients with nail extraction were randomly divided into two groups: in the study group,whose wound was covered with silver sulfadiazine-impregnated hydrocolloid dressing;in the control group,whose wound was applied vaseline gauze when the nail had been extracted and the wound was applied antibiotic gauze during dressing change.The pain scores of two groups were compared.Two groups were compared with healing time and the times of dressing change. RESULTS The pain scores in the study group were significantly lower than that of the control group.The healing time of wound and the times of dressing change in the study group were less than that of the control one((P
5. Research on feasibility and effectiveness of the bone-implant contact evaluation in dogs by micro-CT
Jianying BAI ; Fanhui MENG ; Xiaoxi SHAO ; Jingfu WANG ; Li ZHANG ; Jing LUO ; Ning YAN ; Fanghao CHEN ; Yumei ZHANG
Chinese Journal of Stomatology 2019;54(4):250-256
Objective:
To discuss the feasibility and effectiveness of using micro-CT in bone-implant contact (BIC) evaluation in dogs, and to provide reference for clinical and scientific research.
Methods:
Bilateral mandibular second premolar and first molar of six male Beagle dogs were extracted. After 3 months′ healing, eight implants were placed in bilateral mandible of each dog, four on each side. Dogs were sacrificed at 2 weeks, 4 weeks and 8 weeks after implant placement, two on each time point. Samples were scanned with micro-CT and digitally reconstructed. Bone-implant interface was analyzed at different analysis regions (25, 50 and 100 μm from implants′ surface), different detection range models were obtained (each time point consists 48 models), and BIC was evaluated, and the results were counted as micro-CT25, micro-CT50, and micro-CT100 groups. Then undecalcified slides were made (three slides for each sample) and stained with toluidine blue for observation and analysis of BIC using an optical microscope, and the results were counted as optical microscope groups. The advantages and disadvantages, evaluation efficiency and BIC of different methods were analyzed.
Results:
To evaluate BIC of single sample, it took about 90 minutes by micro-CT, which was much lower than the time of 14 days by optical microscope. The success rates of modeling of micro-CT25, micro-CT50, and micro-CT100 groups all were 100.0% (48/48), and total success rate of micro-CT group was 100.0% (144/144). For optical microscope groups, the success rates of making slides 2, 4, 8 weeks were 89.6% (43/48), 93.8% (45/48) and 93.8% (45/48), respectively, and total success rates of optical microscope group was 92.4% (133/144). At 2, 4,8 weeks after implantation, BIC in micro-CT25 group was significantly smaller than that in optical microscope group at the same time point (