Changes of biochemical indexes in the brain and spinal cord after shock and vibration damage
10.3969/j.issn.2095-4344.2016.18.007
- VernacularTitle:脑及脊髓冲击震动损伤模型生化指标的变化
- Author:
Yapeng ZHU
;
Yanling GUO
;
Qi CHANG
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2016;20(18):2628-2633
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: High-energy vibration is easy to damage non-cavity organs of the body and the damage effect is remarkable, but few studies concern the process of high-energy vibration-induced injury.
OBJECTIVE: To understand physiological, biochemical and pathological changes of animal bodies after high-energy vibration-induced injury.
METHODS: A total of 32 dogs were randomly divided into four groups. Dogs in the mild vibration injury group, moderate vibration injury group and severe vibration injury group received 700, 1 000, and 2 100 m/s2 vibration. Dogs in the control group were considered as normal controls. Within 14 days after vibration, serum K+, Ca2+, Zn2+, S100β, and neuron specific enolase concentrations were detected. Immunohistochemical staining was observed in the spinal cord and the brain.
RESULTS AND CONCLUSION: Serum K+, Ca2+, Zn2+concentrations showed a regular change in the three vibration injury group, and no evident change was found immediately after vibration injury. K+ concentrations reached a minimum at 0.5 day after vibration injury. Ca2+ concentrations reached a minimum at 1 day after vibration injury. Zn2+concentrations reached a minimum at 0.5 or 1 day. Above concentrations gradual y increased and became normal at 14 days. Serum neuron specific enolase and S100β expression increased at 0.5 day after vibration in the three vibration injury groups, peaked at 1 day, gradual y diminished, and recovered to a normal level or higher level at 14 days. In the three vibration groups, bleeding point of contact position and hedge position could be found in the spinal cord and brain. The degree of bleeding was more significant when kil ed instantly after vibration compared with that at 14 days. S100β, glial fibril ary acidic protein and neuron specific enolase expression increased in the spinal cord and brain.
