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 …
目的研究兔股骨三维生物力学模型的建立方法。
Objective To discuss the method of constructing biomechanical model of rabbit femur.
目的:建立精确、接近生理的髋关节周围肌肉三维生物力学模型。
Objective: to establish a more accurate and physiological biomechanical model of the muscles related to the hip joint.
本文总结了上气道生物力学模型的研究状况,以及模型在上气道疾病治疗方面的的临床应用,并对今后的研究方向进行了展望。
This paper summarized the advances on biomechanical model of human upper airway and its application in clinical treatment, as well as try to make prediction about the research work in the future.
C57BL小鼠10只,注射B16单细胞悬液于小鼠腹腔(腹腔组)和左后肢(后肢组),构建小鼠黑色素瘤生物力学模型;
The biomechanical animal model was built by injecting the B16F10 melanoma cell suspension into the abdominal cavity and left skeletal muscles in 10 C57BL mice.
在“中国力学虚拟人”胸腰部模型数据库中选择L4-L5基本功能单元对一例新型人工椎间盘进行生物力学评价。
The model of L4-L5 functional element was chosed from"mechanical visiual human of China"model database. The intervertebral disk was replaced by the new type artificial disk.
研究设计:三维c3 - C5和C3 - C4的有限元模型用于分析其在压缩和伸展运动下的生物力学反应。
Study Design. Three-dimensional C3-C5 and C3-C4 finite element (FE) models were used to analyze biomechanical responses under compression and extension moments.
结论:通过CT断层扫描、图像数字化处理及计算机辅助设计等方法,可以建立腰椎人工椎间盘置换的有限元模型,用于脊柱生物力学的进一步研究。
CONCLUSION: the finite element model of artificial disc replacement can be established by CT scanning, digital processor and computer aided design, and used for further study on spinal biomechanics.
目的:建立腰椎运动节段椎间盘摘除的三维有限元模型,分析椎间盘摘除后腰椎生物力学的改变。
AIM: to establish the three-dimensional models of motor segment removals in the lumbar intervertebral disk, and analyze the biomechanical change after the removal.
采用该模型,可以计算各种矫治力在颅面复合体产生的生物力学效果。
The model is used to investigate the biomechanical effects within the craniofacial skeleton by orthopedic forces.
题目:脑脊液在脊髓生物力学上的影响:一种用牛物质脊髓替代的体外牛模型。
The Effect of Cerebrospinal Fluid on the Biomechanics of Spinal Cord: An Ex Vivo Bovine Model Using Bovine and Physical Surrogate Spinal Cord.
本文通过对软组织生物力学特性的分析,将粘弹性模型应用于手术仿真中软组织变形的研究。
Through analysis of biomechanics property of soft tissue, this paper applies the viscoelastic model in the study of soft tissue deformation in surgery simulation.
这项研究发表在《生物力学》杂志上,文中表明,科学家们利用3 - D计算机模型和先进的工程技术来研究鲨鱼是如何猎杀猎物的。
In research published in the Journal of Biomechanics, scientists used 3-d computers models and advanced engineering techniques to study how sharks hunt and kill their food.
结果与结论:成功建立了恒河猴ivro模型,为ivro的生物力学及组织形态学研究提供了实验基础。
Results and Conclusion: The animal model of IVRO was established successfully, which provided experimental foundation for biomechanics, histology and morphology studying of IVRO.
生理压缩载荷下,分别对9种有限元模型的生物力学参数进行测试。
The biomechanical parameters of 9 finite element models were measured under axial compressive load within physiological range.
结果:所构建髋臼模型共划分为121 239个结点、112 491个单元,客观反映髋臼真实解剖形态及生物力学行为。
Results: the constructed 3d acetabular model was clearly reflected the real acetabulum anatomy and biomechanical behavior, it was divided into 121 239 nodes, 112 491 units.
作者认为,骨生物力学参数是评价骨质疏松的重要指标。切除双侧卵巢的雌性山羊有可能成为骨质疏松的大动物模型。
The authors conclude that the bone biomechanical properties are important parameters in assessing osteoporosis and the ovariectomized goat can possibly be a good big animal model of osteoporosis.
结果建立了符合生物力学研究需要的腭部种植支抗的三维有限元模型。
Results A three-dimensional finite element model of palatal implant anchorage is successfully constructed, meeting the needs of biomechanical study.
结论:制作的实验模型与临床寰椎枕化畸形的生物力学特性相符。
Conclusion: The biomechanical characteristics of the model in this study is conformed with that of clinical occipitalization.
目的:建立人正常L3~L5节段三维有限元模型,分析腰椎单侧椎弓根螺钉固定融合的生物力学特性。
Objective:To construct a normal L3-L5 spinal segment model by using finite element method and investigate the biomechanical characteristics of unilateral pedicle screws fixation.
该有限元模型的建立为人体脊柱腰骶关节的生物力学分析及器械植入研究提供了更为详细准确的计算模型。
The proposed model provided a more detailed and accurate computational model for the biomechanical analysis of lumbosacral joint and the study of instrument implant.
目的:建立正常人下颌骨三维有限元模型,为以后的生物力学研究和分析奠定基础。
Objective: To build a three-dimensional finite element model of temporomandibular joint and the mandible.
目的:建立腰椎运动节段人工椎间盘置换的有限元模型,用于进一步的生物力学研究。
OBJEC TIVE:To establish finite element model of lumbar disc replacement for biomechan ical studies.
结果建立了符合生物力学研究需要的腭部种植支抗的三维有限元模型。
Results A three-dimensional finite element model of palatal implant anchorage is successfully constructed, meeting t…
目的建立新型寰枢椎复位内固定器的三维有限元模型,并对其进行生物力学分析。
ObjectiveTo establish a three-dimensional finite element model and make mechanical analysis of "v" -type atlantoaxial reduction and internal fixation.
目的:寻求髋臼三维模型构建的方法,并探讨其相关的记忆生物力学意义。
Objective: To seek the method of construction of3D acetabular model and find out its memory biomechanical significance.
作者使用了十个尸体标本制作后路固定融合模型,评估了近端关节突侵犯和椎板切除术的急性生物力学影响。
The authors assess the acute biomechanical effects of proximal facet violation and subsequent laminectomy in an instrumented posterior fusion model in 10 cadaveric specimens.
为了提高虚拟手术仿真系统进行实际作业的能力,提出了以BP神经网络模型来代替有限元模型,实现实时的生物力学响应。
To raise capacity that virtual surgical simulation system deals with real work, this article introduces BP NN model instead of finite element model, and realizes real-time biomechanical response.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
How to select proper human body models and programming languages is the key for realize 3d computer displaying on sports technique in sports biomechanics.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
How to select proper human body models and programming languages is the key for realize 3d computer displaying on sports technique in sports biomechanics.
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