Skeletal Tissue Mechanics:
Gespeichert in:
| Hauptverfasser: | , , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York ; Heidelberg ; Dordrecht
Springer
[2015]
|
| Ausgabe: | Second edition |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xv, 501 Seiten Illustrationen, Diagramme |
| ISBN: | 9781493930012 9781493937080 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804176191835340800 |
|---|---|
| adam_text | Titel: Skeletal tissue mechanics
Autor: Martin, R. Bruce
Jahr: 2015
Contents
Preface vii
Chapter 1. Functional Musculoskeletal Anatomy 1
1.1 Introduction 1
1.2 An Illustrative Experimental Model 2
1.3 Static Analysis of Forces in Joints 4
1.3.1 Forces in the Elbow Joint 4
1.3.2 Forces in the Hip Joint 9
1.3.3 Clinical Significance of High Joint Forces 13
1.4 Hip Forces in Human Ancestors 13
1.5 Dynamic Joint Loading 17
1.6 Indeterminate Joint Problems 19
1.7 Equine Fetlock Forces 23
1.8 Summary and Further Reading 26
1.9 Exercises 27
References 32
Chapter 2. Skeletal Biology 35
2.1 Introduction to Bone 35
2.2 The Shapes of Bones 40
2.3 Types of Bone and Tissue 41
2.3.1 Cancellous Versus Compact Bones 43
2.3.2 Lamellar Versus Woven Bone 44
2.3.3 Primary and Secondary Bone 47
2.4 The Collagen-Mineral Composition of Bone 51
2.4.1 Quantitative Analyses of Bone Composition 56
2.4.2 Three Dimensional Imaging of Bone Using High
Resolution Computed Tomography (microCT) 57
2.5 Bone Cells 60
2.6 Introduction to Cartilage 65
2.6.1 Mechanical Significance of Cartilage 70
2.6.2 Organization of Articular Cartilage 71
ix
X
Contents
2.6.3 The Role of Cartilage in Growth 75
2.7 Longitudinal Growth of Bones 76
2.7.1 Development of Metaphyseal Trabeculae 79
2.7.2 Growth of the Physis 79
2.7.3 Closure of the Physes , 80
2.8 Introduction to Ligament and Tendon 81
2.8.1 Structure and Composition 83
2.8.2 Injury and Repair 86
2.9 Summary for Further Reading 87
2.10 Exercises 87
References 89
Chapter 3. Growth, Modeling and Remodeling of Bone 95
3.1 Introduction 95
3.1.1 Growth 96
3.1.2 Modeling Versus Remodeling 96
3.1.3 The A-R-F Sequence and BMUs 99
3.1.4 The Six Phases of an Osteon s Lifetime 100
3.1.5 Remodeling Cycle Duration 102
3.1.6 Bone Structural Units Are Produced
by Remodeling 104
3.1.7 Remodeling on the Different Bone Envelopes 105
3.2 Fracture Healing 108
3.2.1 Basic Concepts 109
3.2.2 Important Tissues in Fracture Healing 109
3.2.3 Three Biological Phases 111
3.2.4 Four Biomechanical Stages 114
3.2.5 Stability of Fixation 116
3.2.6 Primary Union 118
3.2.7 Posttraumatic Osteoporosis 118
3.2.8 Electrical Phenomena and Fracture Healing 119
3.3 Analysis of Bone Remodeling 119
3.4 Mathematical Notation for Bone Remodeling 121
3.5 Histomorphometric Measurement of Remodeling 122
3.5.1 Assumptions in Histomorphometry 123
3.5.2 Histomorphometric Measurements
for Cortical Bone 125
3.5.3 Calculating BMU-Level Results 126
3.5.4 Histomorphometric Measurements
for Cancellous Bone 131
3.5.5 True vs. Histologic BMU Activation Frequency
in Cortical Bone 134
3.6 Remodeling Details 138
3.6.1 Activation Is Prime 138
3.6.2 Resorption: Out with the Old 139
Contents xi
3.6.3 Refilling: In with the New 142
3.6.4 Computation of FP 148
3.6.5 The Equal Lamellar Work Areas Principle 148
3.6.6 Why Does the Apposition Rate Slow Down? 150
3.7 Long-Term Effects of Osteonal Remodeling 154
3.7.1 Implications for the Aging Skeleton 154
3.7.2 Osteonal Overlapping 155
3.7.3 The Random Remodeling Assumption 155
3.7.4 Mathematical Theories 156
3.7.5 Another Theoretical Approach to Bone
Remodeling 162
3.8 Summary and Further Reading 164
3.9 Exercises 165
References 168
Chapter 4. Mechanical Properties of Ligament and Tendon 175
4.1 Quasi-static Tensile Properties 175
4.2 Viscoelastic Properties 178
4.3 Mathematical Modeling 181
4.4 Measuring Structural and Material Properties 184
4.4.1 Storage and Testing Environments 184
4.4.2 Measuring Cross-Sectional Area 186
4.4.3 Gripping Slippery Viscoelastic Tissues 187
4.4.4 Determining Resting Length 189
4.4.5 Measuring Specimen Elongation 190
4.5 Functions at Junctions 193
4.5.1 The Myotendinous Junction 193
4.5.2 Ligament and Tendon Insertions to Bone 194
4.6 Functional Adaptation and Specialization 198
4.6.1 Determinants of Tendon Architecture 200
4.6.2 Sites of Tendon Compression 201
4.6.3 Flexors and Extensors 204
4.7 Age and Mechanical Behavior 206
4.8 Exercise and Immobilization 209
4.9 Pathology and Healing 210
4.9.1 Ligament 210
4.9.2 Tendon 211
4.9.3 Surgical Repair 213
4.9.4 Anterior Cruciate Ligament 213
4.9.5 Supraspinatus Tendon (Rotator Cuff) 215
4.9.6 Flexor Tendons of the Hand 216
4.10 Summary and Further Reading 217
4.11 Exercises 218
References 220
xii Contents
Chapters. Synovial Joint Mechanics 227
5.1 Introduction 227
5.1.1 Functions of a Synovial Joint 228
5.1.2 Joint Diseases 229
5.2 Mechanical Properties of Cartilage 230
5.2.1 Initial Points 230
5.2.2 Structure of Articular Cartilage 233
5.2.3 Permeability 234
5.2.4 Indentation Testing 235
5.2.5 Tensile Tests 237
5.2.6 Poroelastic Theory of Articular Cartilage 239
5.2.7 Other Models for Cartilage Mechanics 244
5.2.8 Modeling Tissue Charge 244
5.2.9 Inhomogeneity of Modulus 245
5.2.10 Effect of Strain Rate on Tensile Tests 246
5.2.11 Effect of Strain Rate on Compression Tests 247
5.3 Lubrication of Joints 248
5.3.1 Friction 248
5.3.2 Wear 250
5.3.3 Types of Lubrication 250
5.3.4 Synovial Joint Lubrication 260
5.3.5 Diversity of Joint Architecture 263
5.4 Summary and Further Reading 265
5.5 Exercises 266
References 270
Chapter 6. Mechanical Adaptability of the Skeleton 275
6.1 Introduction 275
6.2 The Historical Context 276
6.3 Mechanical Adaptability and Evolutionary Adaptability 280
6.3.1 Somatic Versus Evolutionary Adaptation 280
6.3.2 Somatic Versus Evolutionary Effects 282
6.4 What Is the Design Goal: What Does Bone Adapt to? 284
6.4.1 Optimization, Mechanical Adaptability,
and Structure-Sensitive or Insensitive Properties 285
6.5 How Does Bone Adapt: What Are the Signals
and How Are They Transduced? 286
6.5.1 Measurement of Strain in Living Animals 287
6.5.2 Principal Stresses, Strains and Trabecular
Orientations 288
6.5.3 Compressive Strains Are Larger
than Tensile Strains 290
6.5.4 Canine Disuse Experiments 295
Contents
xiii
6.5.5 The Mechanostat and the Equilibrium
Strain Range 295
6.5.6 Mechanical Compensation and the Roles
of Bone Modeling and Remodeling 297
6.5.7 Optimization and the Mathematical Basis
of Wolff s Law 302
6.5.8 Some Final Thoughts on Optimization,
Adaptation and the Scientific Method 303
6.5.9 Flow Frequently Should Dynamic Loads
Be Applied: The Role of Strain Rate 306
6.5.10 Effects of High Frequency Loading: Vibration 308
6.5.11 When Theory Meets Reality 309
6.5.12 Is Strain a Direct Stimulus to Bone Cells?
Do Strain Gradients and Distributions
Regulate Regional Bone Cell Activity? 310
6.5.13 Fluid Flow 313
6.5.14 Summary 315
6.6 Some Additional Theories 316
6.6.1 Pauwels Stress Magnitude Theory: Control
of Modeling Drifts 317
6.6.2 Adaptive Elasticity Theory: Control
of Density or Modeling Drifts 319
6.6.3 What Controls Osteonal Tunneling Directions? 320
6.6.4 Adaptive Finite Element Models: Control
of Density 323
6.6.5 Self-Trabeculating Models: Control of Density
and Trabecular Alignment 327
6.6.6 Related Engineering Models 331
6.6.7 Synthesis 332
6.6.8 Experimental Consistency 332
6.6.9 Relationship of Mechanically Adaptive Responses
to Other Control Factors 334
6.6.10 Mechanical Adaptability and Damage Repair 335
6.7 Mechanical Adaptability in Cartilage 336
6.7.1 The Carter-Wong Chondral Calcification Theory 336
6.7.2 Frost s Chondral Modeling Theory 338
6.8 Summary and Further Reading 339
6.9 Exercises 340
References 343
xiv Contents
Chapter 7. Mechanical Properties of Bone 355
7.1 Introduction 355
7.2 Fundamentals of Solid Mechanics 356
7.2.1 Strength and Stiffness of a Structure 356
7.2.2 Stress and Strain 358
7.2.3 Principal Directions 360
7.2.4 Strength and Modulus of a Material 360
7.2.5 Generalized Hooke s Law: Anisotropy 362
7.3 Determinants of the Strength of a Whole Bone 365
7.3.1 Mechanics 365
7.3.2 Examples 367
7.3.3 Mechanical Failure of Whole Bones 371
7.4 Material Properties of Cortical Bone 374
7.4.1 Properties of Individual Secondary Osteons 374
7.4.2 Combined Loading Effects 377
7.5 Summary 378
7.5.1 Effects of Osteons on Cortical Bone
Mechanical Properties 380
7.5.2 Anisotropy of Cortical Bone Mechanical Properties 385
7.5.3 Anisotropy Effects Determined by Load-Deformation
Testing 385
7.5.4 Anisotropy Effects Determined by Ultrasonic
Measurements 387
7.5.5 Determinants of Osteonal Bone Mechanical Properties 389
7.6 Material Properties of Cancellous Bone 399
7.6.1 Stress-Strain Curves for Cancellous Bone 399
7.6.2 Strength in Tension Versus Compression 400
7.6.3 Modeling Cancellous Bone as a Cellular System
of Plates or Struts 407
7.6.4 Invariance of Yield Strain Hypothesis 408
7.7 Predicting Material Properties: Bone as a Composite Material 409
7.8 Summary and Additional Reading 410
7.9 Exercises 411
References 414
Chapter 8. Fatigue and Fracture Resistance of Bone 423
8.1 Introduction 423
8.2 Basic Fracture Mechanics 425
8.2.1 Linear Elastic Fracture Mechanics 425
8.2.2 Kinds of Cracks 427
8.2.3 Modes of Cracking 428
8.2.4 Maximum Tolerable Flaw Size 431
8.2.5 It Takes Energy to Propagate a Crack 431
Contents xv
8.2.6 Beyond the Linear Theory: Real Cracks Have Ears 432
8.2.7 Beyond the Linear Theory: Real Cracks
Are Complicated 434
8.2.8 Crack Growth and Fatigue 437
8.3 Fatigue Behavior of Bone 438
8.3.1 The S-N Curve 438
8.3.2 Fatigue Damage in Bone 439
8.4 Creep Behavior of Bone and Its Relationship to Fatigue 442
8.5 Fatigue Behavior of Fiber-Reinforced Composite Laminates 445
8.5.1 The Birth and Growth of Cracks 445
8.5.2 Material Strength and Fiber Diameter 446
8.5.3 The Road to Failure 447
8.6 Osteonal Bone as a Fibrous Lamellar Composite Material 448
8.6.1 Osteonal Bone s Road to Failure 448
8.6.2 Bone Toughness 451
8.6.3 The Conflict between Strength and Toughness
in Bone 452
8.6.4 Controlled Crack Propagation Studies 452
8.6.5 Mathematical Analysis of Osteonal Pullout 453
8.6.6 Comparing Theory with Data 454
8.6.7 Crack Initiation 456
8.6.8 Crack Stopping 457
8.6.9 Strain Rate 457
8.6.10 Effect of Remodeling 458
8.7 Modeling Fatigue Damage Effects in Osteonal Bone 459
8.7.1 Why Would Cracks Be Stopped in Tension
But Not in Compression? 461
8.7.2 If Cracks Are Self-Limiting in Tensile Fatigue
But Not in Compressive Fatigue, Why Is Fatigue
Life Longer in Compression Than in Tension? 462
8.8 The Role of Fatigue in Activating Bone Remodeling 463
8.8.1 Random or Directed Repair 463
8.8.2 The Physiological Basis for Targeted Remodeling 464
8.8.3 Microdamage and Bone Fragility in the Elderly 466
8.9 Modeling Stress Fractures 468
8.10 Summary and Additional Reading 474
8.11 Exercises 475
References 477
Index
483
|
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| indexdate | 2024-07-10T07:28:16Z |
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| publisher | Springer |
| record_format | marc |
| spelling | Martin, R. Bruce Verfasser aut Skeletal Tissue Mechanics R. Bruce Martin, David B. Burr, Neil A. Sharkey, David P. Fyhrie Second edition New York ; Heidelberg ; Dordrecht Springer [2015] © 2015 xv, 501 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Medicine Human physiology Human anatomy Orthopedics Biophysics Biological physics Biomedicine Human Physiology Anatomy Biophysics and Biological Physics Medizin Knochen (DE-588)4128031-3 gnd rswk-swf Skelett (DE-588)4133111-4 gnd rswk-swf Biomechanik (DE-588)4006880-8 gnd rswk-swf Skelett (DE-588)4133111-4 s Biomechanik (DE-588)4006880-8 s DE-604 Knochen (DE-588)4128031-3 s Burr, David B. Verfasser (DE-588)1044624639 aut Sharkey, Neil A. Verfasser aut Fyhrie, David P. Verfasser aut Erscheint auch als Online-Ausgabe 978-1-4939-3002-9 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028952330&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Martin, R. Bruce Burr, David B. Sharkey, Neil A. Fyhrie, David P. Skeletal Tissue Mechanics Medicine Human physiology Human anatomy Orthopedics Biophysics Biological physics Biomedicine Human Physiology Anatomy Biophysics and Biological Physics Medizin Knochen (DE-588)4128031-3 gnd Skelett (DE-588)4133111-4 gnd Biomechanik (DE-588)4006880-8 gnd |
| subject_GND | (DE-588)4128031-3 (DE-588)4133111-4 (DE-588)4006880-8 |
| title | Skeletal Tissue Mechanics |
| title_auth | Skeletal Tissue Mechanics |
| title_exact_search | Skeletal Tissue Mechanics |
| title_full | Skeletal Tissue Mechanics R. Bruce Martin, David B. Burr, Neil A. Sharkey, David P. Fyhrie |
| title_fullStr | Skeletal Tissue Mechanics R. Bruce Martin, David B. Burr, Neil A. Sharkey, David P. Fyhrie |
| title_full_unstemmed | Skeletal Tissue Mechanics R. Bruce Martin, David B. Burr, Neil A. Sharkey, David P. Fyhrie |
| title_short | Skeletal Tissue Mechanics |
| title_sort | skeletal tissue mechanics |
| topic | Medicine Human physiology Human anatomy Orthopedics Biophysics Biological physics Biomedicine Human Physiology Anatomy Biophysics and Biological Physics Medizin Knochen (DE-588)4128031-3 gnd Skelett (DE-588)4133111-4 gnd Biomechanik (DE-588)4006880-8 gnd |
| topic_facet | Medicine Human physiology Human anatomy Orthopedics Biophysics Biological physics Biomedicine Human Physiology Anatomy Biophysics and Biological Physics Medizin Knochen Skelett Biomechanik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028952330&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT martinrbruce skeletaltissuemechanics AT burrdavidb skeletaltissuemechanics AT sharkeyneila skeletaltissuemechanics AT fyhriedavidp skeletaltissuemechanics |