|
Title: |
Trabecular & Cortical Bone |
| Sub-title: |
Morphology, Biomechanics & Clinical Implications |
Search Result:
| Edited by: |
Varsha Subramanium |
| ISBN10-13: |
1628087668 : 9781628087666 |
| Format: |
Hardback |
| Size: |
230x155mm |
| Pages: |
173 |
| Weight: |
.474 Kg. |
| Published: |
Nova Science Publishers, Inc (US) - October 2013 |
| List Price: |
194.99 Pounds Sterling |
| Availability: |
In Stock
Qty Available: 2 |
| Subjects: |
Anatomy : Physiology |
| In this book, the authors present topical research in the study of the morphology, biomechanics and clinical implications of trabecular and cortical bone. Topics discussed include trabecular bone biomechanics and morphology; cortical bone as an enduring depot of bone-seeking contaminants and the evaluation of cortical bone resportion rate on the basis of a contaminant (90SR) measurement in humans; evaluation of apparent stress and strain at fracture of human trabecular bone under quasi-static compression load using micro-CT finite elements simulation; application of computational modelling to predict the effect of exercise on whole bone strength; advancements in cortical bone imaging; morphology of the pelvis (acetabulum) and femur; the release kinetics of bone morphogenetic proteins from demineralised cortical bone grafts; and preservation of cortical bone in oral and maxillofacial surgery procedures. |
| Table of Contents: |
| Preface; Trabecular Bone: Morphology, Biomechanics & Clinical Implications; Cortical Bone as an Enduring Depot of Bone-Seeking Contaminants - Evaluation of Cortical Bone Resorption Rate on the Basis of a Contaminant (90SR): Measurement in Humans; Evaluation of Apparent Stress & Strain at Fracture of Human Trabecular Bone under Quasi-Static Compression Load using Micro-CT Finite Element Simulation; Application of Computational Modeling to Predict the Effect of Exercise on Whole Bone Strength; Advancements in Cortical Bone Imaging; Morphology of the Pelvis (Acetabulum) & Femur; The Release Kinetics of Bone Morphogenetic Proteins from Demineralized Cortical Bone Grafts; Preservation of Cortical Bone in Oral & Maxillofacial Surgery Procedures; Index. |
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