1.
Crus fatigue periostitis is a sort of familiar sports injury, including shinbone fatigue periostitis and fibula fatigue periostitis.
小腿疲劳性骨膜炎是一种常见的运动性损伤,包括胫骨疲劳性骨膜炎和腓骨疲劳性骨膜炎。
2.
The Outbreak Mechanism,Diagnosis and Prevention and Cure Measure for the Shinbone Endurance Periostitis;
胫骨疲劳性骨膜炎的发病机制、诊断和防治
3.
The Curative Effect Comparing of Technique of Massage-Scratch to 56 Exemple of Tired Tibial Periostitis;
推拿刮法对56例胫骨疲劳性骨膜炎疗效的研究
4.
Experiment Research about Tibia Fatigue Periostitis of Young People and Teenagers Athletes;
对青少年运动员胫骨疲劳性骨膜炎的实验研究
5.
The Diagnoses and Preventing on Tibial Periostitis of Fatigue in Military Training
军体训练中的胫骨疲劳性骨膜炎诊断和预防
6.
Prevention of the Inside Bone Periostitis;
普通高校学生田径训练中胫腓骨疲劳性骨膜炎的预防
7.
The article offers a particular description of pathogenesis, curative means and preventive measure of crus fatigue periostitis.
本文从小腿疲劳性骨膜炎的发病机理、疗方法和预防措施等方面进行了阐述。
8.
If the injury is not cured in time or is cured unsuitably, it will lead to periosteum hyperplasia or incurable fatigue fracture.
如果不及时治疗或治疗不当,会引起骨膜增生,甚至会引起疲劳性应力性骨折。
9.
Study of Bone Metabolism and Its Modulative Factor on Exercise Induced Bone Fatigue in Rat
运动性骨疲劳大鼠骨代谢与骨调因子的研究
10.
suppurative perichondritis of auricle
化脓性耳郭软骨膜炎
11.
serous perichondritis of auricle
耳廓浆液性软骨膜炎
12.
Conclusion Pearl clear-sighted eye drop has obvious cura tive effect on chronic conjunctivitis and asthenopia.
结论 珍珠明目滴眼液是治疗慢性结膜炎和视疲劳症的首选药,疗效显著,值得临床推广应用。
13.
Analysis on the misdiagnosis for the fatigue fracture of upper shinbones of recruits in 1 case
新兵双胫骨上段疲劳性骨折1例误诊分析
14.
Design of Human Metatarsal Fatigue Fracture Model and Biomechanics Analysis in Vitro;
人体跖骨疲劳性骨折模型设计及生物力学分析
15.
Research Progress in Changes of Ion Concentration on Membrane Potential and Skeletal Muscle Fatigue
离子浓度改变对骨骼肌膜电位和骨骼肌疲劳的研究进展
16.
Exercise-Induced Fatigue and Apoptosis of the Skeletal Muscle Cells;
运动性疲劳与骨骼肌细胞凋亡的研究进展
17.
The experimental study of fatigue behavior about the steel frame's reduced beam section joint
钢框架梁柱狗骨式节点疲劳性能试验研究
18.
Fatigue Characteristics and Life Prediction for MEMS Electroplated Copper Films;
MEMS电镀铜薄膜疲劳特性与寿命预测研究