1.
Traditional Chinese medicine, which use combined therapy, may be a better pathway to solve this problem.
采用综合疗法的中医是我们防治胫骨应力损伤发展的方向。
2.
A bodily injury, irritation, or trauma.
身体的损伤,发炎或损伤
3.
The mechanism of nuclear factor -κBin immune liver injury;
核因子-κB在免疫性肝损伤发生发展中的作用
4.
Role of endothelial injury in initiation and progression of vascular disease
内皮损伤在血管性疾病发生发展中的作用
5.
New Advancement in Severe Head Injury Complicating Hypernatremia;
重型颅脑损伤并发高钠血症的研究进展
6.
The Progress of Research on the Application of Bone Mophorgenetic Protein in Sports Injury;
骨形态发生蛋白在运动损伤中应用的研究进展
7.
Study on Acoustic Emission Signal Characteristics and Crack Propagation Mechanism of Wood Damage
木材损伤的声发射特征及裂纹扩展机理研究
8.
Mechanism of HCC development induced by DNA damage and repair and integration of HBV
DNA损伤与修复、HBV整合和HCC发病机制的研究进展
9.
Research progress in mechanism of stress-induced gastric mucosal lesions
应激性胃黏膜损伤发病机制的研究进展
10.
The relationship between DNA damage in diabetic patients and the occurrence of diabetic nephropathy
糖尿病肾病的发生和进展与DNA损伤的相关性
11.
Research advance of NF-κB signal pathway and secondary damage of acute spinal cord injury
核转录因子-κB信号途径与急性脊髓损伤继发伤的研究进展
12.
The results prove that Continuum Damage Mechanics model can describe the cumulation and development of damage more accurately.
分析结果表明,连续损伤模型能更合理地描述材料蠕变损伤的累积发展过程。
13.
The incidence of acute spinal cord injury(SCI) is ascending in the rising accidents of mining,construction and transportation.
随着交通、运输业和矿业的发展,急性脊髓损伤的发病率也不断上升。
14.
The Effect of I Kappa B and Nuclear Factor Kappa B in Immune Liver Injury;
IκB与核因子-κB在免疫性肝损伤发生发展中的作用
15.
The Expression of TGFβ1/TβRⅠ in β-ray Radiation Injury of Skin in Rats
急性β射线皮肤损伤创面发生发展过程中TGF-β1及其受体TβRⅠ的表达
16.
RESEARCH ON IRRADIATION DAMAGE OF CLADDING MATERIALS BY LIGHT ION BOMBARDMENT UNDER THE EXPERIMENTAL FBR DEVELOPMENT PROJECT
实验快堆发展计划中包壳材料轻离子辐照损伤探讨
17.
Study on Restoration Methods of Muscle Function after Soccer Injuries;
足球运动肌肉损伤后功能恢复手段的研究与发展
18.
Advanced morphological research of exercise effects on essential hypertension target organ injury;
运动干预原发性高血压靶器官损伤的形态学研究进展