(Ebook PDF) Computer Methods in Biomechanics and Biomedical Engineering 1st edition by Middleton, Gyan Pande, Jones 1000159450 9781000159455 full chapters

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ISBN-10 ‏ : ‎1000159450 

ISBN-13 ‏ : ‎ 9781000159455

Author :  J. Middleton, Gyan Pande, M. L. Jones 

Contains papers presented at the Third International Symposium on Computer Methods in Biomechanics and Biomedical Engineering (1997), which provide evidence that computer-based models, and in particular numerical methods, are becoming essential tools for the solution of many problems encountered in the field of biomedical engineering. The range of subject areas presented include the modeling of hip and knee joint replacements, assessment of fatigue damage in cemented hip prostheses, nonlinear analysis of hard and soft tissue, methods for the simulation of bone adaptation, bone reconstruction using implants, and computational techniques to model human impact. Computer Methods in Biomechanics and Biomedical Engineering also details the application of numerical techniques applied to orthodontic treatment together with introducing new methods for modeling and assessing the behavior of dental implants, adhesives, and restorations. For more information, visit the “https://www.uwcm.ac.uk/biorome/international symposium on Computer Methods in Biomechanics and Biomedical Engineering/home page, or “https://www.gbhap.com/Computer_Methods_Biomechanic s_Biome dical_Engineering/” the home page for the journal.

 Computer Methods in Biomechanics and Biomedical Engineering 1st Table of contents:

1. Multibody Systems and Joint Models
1. Anatomical models of diarthrodial joints: rigid multibody systems and deformable structures?
2. A dynamic optimization solution for jumping in three dimensions
3. A method of estimating control forces to achieve a given swing phase trajectory during normal gait
4. A new mathematical model for the human ankle joint
5. Geometric modeling of the human upper extremity based on reconstructed medical images
6. 3-D specimen-specific geometric modelling of the knee
7. Musculoskeletal model of the knee for studying ligament function during activity
8. Three dimensional rigid body spring modelling and its application for human joints
9. Dynamic simulation of human flexion-extension movement using optimal control theory
2. Hip Replacements: Prosthesis/Cement/Bone Analysis
10. Torsional stability of total hip arthroplasty: in-vitro and FEM analysis with new trends for the future
11. Structural analysis and physical models of total hip replacements using analytical and finite element methods
12. Parameterized 3D finite element model of the cemented replaced femur: numerical role of contact elements in the prosthesis/cement interface
13. An in vivo and numerical analysis of the effect of femoral stem surface finish on cortical strain in cemented hip replacement
14. Comparative study of the results between custom non-coated cementless hip implants and mirrored cementless HA-coated hip implants on the contra-lateral side
15. Effect of loading history on short term bone adaptation after total hip arthroplasty
16. Load transfer between elastic hip implant and viscoelastic bone
17. Evaluation of acetabular wear in hip joint prostheses
18. Finite element analysis and fatigue test prediction applied to the standard fatigue testing of hip stems
19. Validation of a three dimensional finite element model of a femur with a customized hip implant
20. Finite element modelling of bone cement flow during acetabular component insertion in hip replacement
21. Numerical modelling of cement polymerisation and thermal bone necrosis
22. Biomechanical reaction of double coating on metal implants
3. Bone Adaptation, Structural Models and Architecture
23. Bone adaptation: an idea of a multiscale model
24. Three dimensional model of bone external adaptation
25. Quantification of the validity and accuracy of an indirect large scale finite element approach to determining trabecular bone tissue modulus
26. Design of anatomical computer models of skeletal parts with specific emphasis on mechanically equivalent modelling of spongy bone
27. Determination of individualized and homogenised characteristics of normal human tibiae in vivo
28. Bone density and microstructure: new methods to determine bone quality and fracture risk
29. Construction of finite element models on the basis of computed tomography data
30. Damage and repair in compact bone: some thoughts on the shape of basic mineralisation units
31. Mathematical modelling of stress and strain in bone fracture repair tissue
32. Development of a 2D finite element model for long bones with any cross section and orthotropic axis
33. Swelling as an approach to the simulation of cortical bone remodelling
34. A nonlinear finite element formulation for modeling volumetric growth
35. CT-scan data acquisition to generate biomechanical models of bone structures
36. Modelling of bone-implant interaction
37. Numerical modelling of the biomechanical reaction of human tibia under complex loading state
38. Computational modelling of influence of clamp with shape memory on stress-state of bone
39. Finite element method formulation for the interactions between various elastic-viscoelastic structures in biomechanical model
4. Spine and Vertebra Mechanics
40. The influence of ageing on mechanical behaviour of intervertebral segment
41. Three dimensional finite element modelling of the mechanical behaviour of human vertebral cancellous bone
42. Computational modelling of the intervertebral disc using ABAQUS
43. A medical image-based template for pedicle screw insertion
44. Mechanical properties of lumbar dura mater and biomechanics of spinal anaesthesia procedure
45. A three dimensional finite element model of a cadaveric second cervical vertebra (the axis) I: Modelling
46. Modelling the trunk responses to lumbar manipulative forces
47. Dynamic three-dimensional finite element model of a sitting man with a detailed representation of the lumbar spine and muscles
48. A 3-dimensional large deformation FEA of a ligamentous C4-C7 spine unit
49. Investigating the role of the dynamic curvature of the human spine using a computer-based model
50. A mathematical model of idiopathic scoliosis
51. Required stiffness distribution in a mattress for an optimal curvature of the human spine during bedrest
5. Reconstructive Surgery, Virtual Reality and Implant Analysis
52. Biomechanics of the hand: use of the Sigma glove
53. Computational modelling of stress state during hand treatment
54. Kinematic and stress analysis of metacarpophalangeal joint implants
55. 3D finite element modelling of a carpometacarpal implant coated with hydroxyapatite
56. Computer simulation of a mobile bearing knee prosthesis
57. A knee arthroscopy training tool using virtual reality techniques
58. 3D finite element study of glenoid implants in total shoulder arthroplasty
59. A wireless telemetry system for measurement of forces in massive orthopaedic implants in vivo
60. Medical imaging and reconstruction toolkit as a means for designing geometrical models of human joint elements
61. Sensitivity analysis of a flexible foot prosthesis using finite element modelling techniques
6. Soft Tissue Structures, Contact and Biofluid Mechanics
62. Porohyperelastic-transport-swelling finite element models: applications and material property determination for large arteries
63. Mixture models: validation and parameter estimation
64. Four components mixture theory applied to soft biological tissue
65. Experimental validation of a porohyperelastic finite element model of the annulus fibrosus
66. Modelling of brain tissue mechanical properties: bi-phasic versus single-phase approach
67. A three dimensional continuum model of skeletal muscle
68. A 2D finite element model of a medial collateral ligament reconstruction
69. Finite element model of the human anterior cruciate ligament
70. An axisymmetric model for joint static contact stress analysis
71. Two dimensional finite element model of a transverse section of the trans-femoral amputee’s stump
72. Net reinforced aorta: a nonlinear elastic model
73. Transmitral flow analysis by means of computational fluid dynamics on unstructured grids
74. Effects of caval velocity profiles on pulmonary flow in the total cavopulmonary connection: CFD 3-D model and magnetic resonance studies
75. An axisymmetric simulation of the flow in the left atrium-ventricle system
7. Dental Materials, Behaviour and Biomechanics
76. Numerical modelling of orthodontic brackets
77. Finite element model for transmission and absorption of occlusal impact force
78. An integrated FEM model system of the craniofacial complex applied to biomechanical research in orthodontics
79. A new system for 3D planning of orthodontic treatment and 3D tooth movement simulation
80. Bone remodelling in orthodontics
81. Biomechanical modelling in orthodontics – following a theme? The development of a validation system for modelling orthodontic tooth movement
82. Stress analysis after yielding at the resin composite/dentine interface
83. An ex vivo evaluation of the physical and geometric properties of the orthodontic bracket cement interface
84. Three dimensional model of an edentulous mandible with dental implants
85. The influence of bone mechanical properties and implant fixation upon bone loading around oral implants
86. An implant-oriented method for dental digital subtraction radiography
87. Three dimensional finite element analysis for the direct fibre-reinforced composite dental bridge
88. Comparative FEM analysis of the stresses transmitted by intramobile elements of the IMZ implant
89. Cuspal flexure and the failure of class V restorations
90. The influence of boundary constraints on numerical simulations of a mandibular canine tooth
8. Craniofacial Mechanics and Diagnostic Methods
91. 3-dimensional measurement of head injuries for theoretical model validation
92. Modelling of the human skull including loading, determination of the limit load and fracture prediction
93. The action of gravity on frontal facial ageing
94. Assessing rabbit movement over long periods using a motion analysis system
95. Biomechanical model and artificial control design of upright standing in humans
96. Moment-based parameterization of evolving cyclograms on gradually changing slopes
97. Correlation and prediction of joint torques from joint motion using neural networks
98. Optimal rejection of artifacts in the processing of surface EMG signals for movement analysis
99. Wavelet networks: an efficient tool for handling gait kinematic data
100. Comparison of lower-extremities bioimpedance models diagnostic efficiency
101. Calibration of an ultrasound scanner based on the URTURIP technique using a least squares m

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