后来随着研究的深入,人们的注意力开始转向骨骼材料的生物力学特性,开始研究正常情况和发生病变情况下的骨骼力学反应。
Later people began to realize the importance of biology property of bone and started to research the mechanical response of bone in normal and abnormal conditions.
他们的骨骼所要负载的重量增加了,因此从生物力学的角度上来说,他们的步态会发生改变。
So their bones are dealing with an increase in weight load and a difference in the biomechanics of movement.
本文旨在阐述力学在骨骼与脊柱损伤的发病机理及治疗方法上所起的作用及其重要性。
The function and importance of the mechanics on the pathogenesis and therapy of bone and spine trauma are enunciated.
临床上由于创伤、肿瘤切除、感染以及发育异常等原因而导致的骨缺损需要恢复骨骼的连续性、力学支撑以及再生修复。
Critical size bone defects arising from trauma, tumor resection, infection and skeletal abnormalities require assistance to provide skeletal continuity, mechanical support and eventual regeneration.
结论:理想的内固定器材,应当是其力学性能与骨骼的生物力学之间的良好结合,这种力学的平衡应当维持整个骨折愈合的全过程。
Conclusion: the ideal choice of internal fixation devices should combine mechanics of fixture well with skeletal biomechanics, and the balance of mechanics should be in the course of fracture healing.
研究发现:成骨细胞、骨细胞和骨衬细胞是骨骼组织内的力学敏感性细胞。
Several studies showed that the bone cells including osteoblasts, osteocytes and bone lining cells are the mechanosensitive cells in bone tissue.
骨骼细胞,特别是成骨细胞,对力学性的应力极其敏感,质量是与力学自适应性过程相联系的。
Bone cells, in particular osteocytes, are extremely sensitive to mechanical stress, a quality that is probably linked to the process of mechanical adaptation.
上肢的生物力学:力学,建模与肌肉骨骼伤害,第二版。
Biomechanics Of The Upper Limbs: mechanics, Modeling And Musculoskeletal Injuries, Second Edition.
目的观察慢性压迫性脊髓损伤后骨骼肌形态学改变及其成肌细胞的增殖动力学变化。
Objective To observe the morphological changes and myoblast proliferation dynamics of skeletal muscle after chronic spinal cord compression in rats.
目的探讨骨骼肌牵拉伤的生物学与生物力学特性。
Objectives To explore the biological and biomechanical property of muscle strain injury.
本课题从骨骼模型、运动表示和碰撞模型三个部分说明了角色的动力学建模过程。
In the thesis, we describes the process of character dynamics-based modeling through skeleton models, motion representation and collision models.
目的探讨骨骼肌牵拉伤的生物学与生物力学特性。
Objective To explore the biological and biomec hanical property of muscle strain in jury.
在研究中,我们运用了实验与计算的方法来开展多尺度的研究,从骨骼肌生物力学到骨骼微观结构的研究均有涉及。
My research applies both experimental and computational methods to investigate the human subject over a wide range of scales from musculoskeletal biomechanics down to bone microstructures.
结果:建立了包括膝关节所涉及的几乎所有骨骼、软骨、半月板等基本力学结构的模型,模型形态逼真,能在力学性质上很好地模拟膝关节。
Results:The model included knee bone, cartilage, meniscus and other basic mechanical structure. The shape of the model was lifelike and mechanical properties could be well simulated on the knee.
镁的密度、弹性模量等综合力学性能与人体骨骼相近。
The density, elastic modulus of magnesium is similar to human bones.
结果和结论建立了骨骼肌生物力学模型。
Results and Conclusion The biomechanical models of skeletal muscle has been …
对本外国定器在各种不同的固定方式下进行生物力学测试,表明了不同的骨骼穿针数量、类型、方向、部位与骨折固定稳定性的关系。
Various modes of fixation with this fixator were examined with biomechanics, it shows that various number of pins, types, directions and locations were related with stability of the fixation.
对本外国定器在各种不同的固定方式下进行生物力学测试,表明了不同的骨骼穿针数量、类型、方向、部位与骨折固定稳定性的关系。
Various modes of fixation with this fixator were examined with biomechanics, it shows that various number of pins, types, directions and locations were related with stability of the fixation.
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