Verfügbarkeit: Skeletal tissue mechanics

Skeletal tissue mechanics:

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Bibliographische Detailangaben
Hauptverfasser:	Martin, R. Bruce (VerfasserIn), Burr, David B. (VerfasserIn), Sharkey, Neil A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 1998
Schlagworte:	Biomechanics Bone and Bones > physiology Bone and Bones > physiology > examination questions Bones > Mechanical properties Cartilage > Mechanical properties Cartilage > physiology Cartilage > physiology > examination questions Joints > physiology Joints > physiology > examination questions Biomechanik Skelett Knochen
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 392 S. Ill.
ISBN:	0387984747

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MARC


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Datensatz im Suchindex

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adam_text	Contents Preface vii Chapter 1. Forces in Joints 1 1.1 Introduction 1 1.2 Static Analysis of Forces in Joints 1 Forces in the Elbow Joint 1 Forces in the Hip Joint 6 Clinical Significance of High Joint Forces 10 1.3 Hip Forces in Human Ancestors 11 1.4 The Three Force Rule 14 1.5 Indeterminate Joint Problems 16 1.6 Equine Fetlock Forces 20 1.7 Summary and Further Reading 23 1.8 Exercises 24 Chapter 2. Skeletal Biology 29 2.1 Introduction 29 2.2 The Shapes of Bones 30 2.3 Types of Bone Tissue 31 Trabecular Vs. Compact Bone 32 Lamellar Vs. Woven Bone 34 Primary Vs. Secondary Bone 37 2.4 Composition of Bone 39 Quantitative Representation of Bone Composition 40 Basic Stereology 42 2.5 Bone Cells 44 2.6 Cartilage 50 Composition of Cartilage 50 Mechanical Significance of Cartilage 52 Organization of Articular Cartilage 53 The Role of Cartilage in Growth 55 2.7 Longitudinal Growth of Bones 55 ix x Contents Development of Metaphyseal Trabeculae 58 Growth of the Physis 59 Closure of the Physes 59 2.8 Modeling and Remodeling of Bone 60 Modeling Vs. Remodeling 60 Modeling 6l Remodeling 62 Cellular Events in Modeling and Remodeling 65 Skeletal Envelopes and Senile Bone Loss 66 Regional Acceleratory Phenomenon 66 2.9 Fracture Healing 66 Basic Concepts 67 Important Tissues in Fracture Healing 68 Three Biological Phases 69 Four Biomechanical Stages 72 2.10 Summary and Further Reading 77 2.11 Exercises 77 Chapter 3. Analysis of Bone Remodeling 79 3.1 Introduction 79 The A R F Sequence 80 Osteonal Origins and Trajectories 83 Remodeling Cycle Duration 84 3.2 Histomorphometric Measurement of Osteonal Remodeling 86 Assumptions 86 Measurements 88 Calculating BMU Level Results 89 Calculating Tissue Level Results 91 Label Escape Error 92 True Vs. Histologic BMU Activation Frequency 93 3.3 Remodeling Details 96 Activation: What Initiates New BMUs? 96 Resorption: Out with the Old 98 Refilling: In with the New 101 3.4 Long Term Effects of Osteonal Remodeling: Implications for the Aging Skeleton 112 Osteonal Overlapping 113 The Random Remodeling Assumption 114 Mathematical Theories 114 Comparison of the Theoretical Results with Experimental Data 117 Another Theoretical Approach to Bone Remodeling 120 3 5 Summary and Further Reading 122 3.6 Exercises 123 Contents xi Chapter 4. Mechanical Properties of Bone 127 4.1 Introduction 127 4.2 Fundamentals of Solid Mechanics 127 Strength and Stiffness of a Structure 128 Stress and Strain 129 Principal Directions 131 Strength and Stiffness of a Material 131 Generalized Hooke s Law: Anisotropy 133 4.3 Determinants of the Strength of a Whole Bone 134 Mechanics 134 Examples I36 Mechanical Failure of Whole Bones 139 Relationship to Modeling and Remodeling 142 4.4 Material Properties of Cortical Bone 143 Properties of Individual Secondary Osteons 144 Effects of Osteons on Bone Mechanical Properties 148 Anisotropy of Cortical Bone Mechanical Properties 151 Determinants of Osteonal Bone s Mechanical Properties 156 4.5 Material Properties of Cancellous Bone 165 Stress Strain Curves for Cancellous Bone 165 The Three Determinants of Cancellous Bone Mechanical Properties 168 Modeling Cancellous Bone as a Cellular System of Plates or Struts 174 Invariance of Yield Strain 175 4.6 Predicting Material Properties: Bone as a Composite Material 176 4.7 Summary and Additional Reading 177 4.8 Exercises 178 Chapter 5. Fatigue and Fracture Resistance of Bone 181 5.1 Introduction 181 5.2 Basic Fracture Mechanics 182 Linear Elastic Fracture Mechanics 183 It Takes Energy to Propagate a Crack 188 Beyond the Linear Theory: Real Cracks Have Ears 189 Crack Growth and Fatigue 191 5.3 Fatigue Behavior of Bone 191 The S N Curve 191 Fatigue Damage in Bone 192 5.4 Creep Behavior of Bone and its Relationship to Fatigue 193 5.5 Fatigue Behavior of Fiber Reinforced Composite Laminates 196 The Birth and Growth of Cracks 197 Material Strength and Fiber Diameter 197 The Road to Failure 198 xii Contents 5.6 Osteonal Bone as a Fibrous Lamellar Composite Material 200 Osteonal Bone s Road to Failure 200 Bone Toughness 202 Controlled Crack Propagation Studies 202 Mathematical Analysis of Osteonal Pullout 203 Comparing Theory with Data 204 Crack Initiation 206 Crack Stopping 207 Strain Rate 208 Effect of Remodeling 208 5.7 Modeling Fatigue Damage Effects in Osteonal Bone 209 Why Would Cracks Be Stopped in Tension but Not in Compression? 212 If Cracks Are Self Limiting in Tensile Fatigue but Not in Compressive Fatigue, Why Is Fatigue Life Longer in Compression Than in Tension? 213 5.8 The Role of Fatigue in Activating Bone Remodeling 214 Random or Directed Repair 214 The Historical Perspective 215 Microdamage and Bone Fragility in the Elderly 216 5.9 Modeling Stress Fractures 217 5.10 Summary and Additional Reading 222 5.12 Exercises 223 Chapter 6. Mechanical Adaptability of the Skeleton 225 6.1 Introduction 225 6.2 The Historical Context 226 The Mechanical Adaptability Hypothesis 230 Clinical Problems and Mechanical Adaptability 232 6.3 Self Correction of Abnormally Curved Bones 233 Frost s Flexural Neutralization Theory 233 Stress Gradients and Fluid Flows 234 Related Experimental Results 236 6.4 Some Important Experiments 237 Measurement of Strain in Living Animals 237 Osteotomy Experiments: Surgically Overloaded Bones 240 Canine Disuse Experiments 241 The Porcine Exercise Experiment 242 Avian Isolated Ulna Experiments 242 Rat Tibia Bending Experiments 243 Summary 244 6.5 Some Additional Theories 245 Pauwels Stress Magnitude Theory: Control of Modeling Drifts 245 Adaptive Elasticity Theory: Control of Density or Modeling Drifts 247 Contents xiii What Controls Osteonal Tunneling Directions? 248 Adaptive Finite Element Models: Control of Density 251 Self Trabeculating Models: Control of Density and Trabecular Alignment 254 Synthesis 259 Frost s Mechanostat Theory 260 Relationship of Mechanically Adaptive Responses to Other Control Factors 262 Mechanical Adaptability and Damage Repair 263 6.6 Mechanical Adaptability in Cartilage 264 The Carter Wong Chondral Calcification Theory 264 Frost s Chondral Modeling Theory 266 6.7 Mechanical Adaptability and Evolutionary Adaptability 268 Somatic Vs. Evolutionary Adaptation 268 A Nonskeletal Example 269 Somatic Change in the Skeleton 270 Somatic Vs. Evolutionary Effects 270 6.8 Summary and Further Reading 271 6.9 Exercises 271 Chapter 7. Synovial Joint Mechanics 275 7.1 Introduction 275 Functions of a Joint 276 Joint Diseases 276 7.2 Mechanical Properties of Cartilage 278 Initial Points 278 Structure of Articular Cartilage 279 Permeability 280 Indentation Testing 281 Tensile Tests 281 Biphasic Theory of Articular Cartilage 283 7.3 Lubrication of Joints 289 Friction 289 Wear 290 Types of Lubrication 291 Synovial Joint Lubrication 300 Diversity of Joint Architecture 303 7.4 Summary and Further Reading 305 7.5 Exercises 305 Chapter 8. Mechanical Properties of Ligament and Tendon 309 8.1 Introduction 309 8.2 Functional Considerations 310 Ligament 310 xiv Contents Tendon 310 8.3 Structure and Composition 311 Ligament 311 Tendon 312 8.4 Mechanical Behavior 315 Quasistatic Tensile Properties 315 Viscoelastic Properties 318 Mathematical Modeling 320 Age and Mechanical Behavior 323 8.5 Mechanical Testing 324 Determination of Resting Length 326 Architectural Implications 326 Testing Environment 327 8.6 Functions at the Junctions 329 The Myotendinous Junction 329 Insertions: Sites of Ligament to Bone and Tendon to Bone Attachment 330 8.7 Functional Adaptation and Specialization 332 Determinants of Tendon Architecture 333 Sites of Tendon Compression 335 Flexors and Extensors 338 8.8 Pathology and Healing 339 Ligament 339 Tendon 340 Immobilization, Exercise, and Passive Motion 340 8.9 Surgical Repair 342 Anterior Cruciate Ligament 342 Supraspinatus Tendon (Rotator Cuff) 344 Flexor Tendons of the Hand 345 8.10 Summary and Further Reading 346 8.11 Exercises 347 Bibliography 349 Index 381
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spelling	Martin, R. Bruce Verfasser aut Skeletal tissue mechanics R. Bruce Martin ; David B. Burr ; Neil A. Sharkey New York [u.a.] Springer 1998 XIV, 392 S. Ill. txt rdacontent n rdamedia nc rdacarrier Biomechanics Bone and Bones physiology Bone and Bones physiology examination questions Bones Mechanical properties Cartilage Mechanical properties Cartilage physiology Cartilage physiology examination questions Joints physiology Joints physiology examination questions Biomechanik (DE-588)4006880-8 gnd rswk-swf Skelett (DE-588)4133111-4 gnd rswk-swf Knochen (DE-588)4128031-3 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 aut Sharkey, Neil A. Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008273326&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Martin, R. Bruce Burr, David B. Sharkey, Neil A. Skeletal tissue mechanics Biomechanics Bone and Bones physiology Bone and Bones physiology examination questions Bones Mechanical properties Cartilage Mechanical properties Cartilage physiology Cartilage physiology examination questions Joints physiology Joints physiology examination questions Biomechanik (DE-588)4006880-8 gnd Skelett (DE-588)4133111-4 gnd Knochen (DE-588)4128031-3 gnd
subject_GND	(DE-588)4006880-8 (DE-588)4133111-4 (DE-588)4128031-3
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
title_fullStr	Skeletal tissue mechanics R. Bruce Martin ; David B. Burr ; Neil A. Sharkey
title_full_unstemmed	Skeletal tissue mechanics R. Bruce Martin ; David B. Burr ; Neil A. Sharkey
title_short	Skeletal tissue mechanics
title_sort	skeletal tissue mechanics
topic	Biomechanics Bone and Bones physiology Bone and Bones physiology examination questions Bones Mechanical properties Cartilage Mechanical properties Cartilage physiology Cartilage physiology examination questions Joints physiology Joints physiology examination questions Biomechanik (DE-588)4006880-8 gnd Skelett (DE-588)4133111-4 gnd Knochen (DE-588)4128031-3 gnd
topic_facet	Biomechanics Bone and Bones physiology Bone and Bones physiology examination questions Bones Mechanical properties Cartilage Mechanical properties Cartilage physiology Cartilage physiology examination questions Joints physiology Joints physiology examination questions Biomechanik Skelett Knochen
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008273326&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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