Title:
Biomaterials in Asia: in commemoration of the 1st Asian Biomaterials Congress, Tsukuba, Japan, 6-8 December 2007
Conference Author:
Publication Information:
London, UK : World Scientific Publishing Company, 2008
Physical Description:
xxviii, 528 p. : ill. (some col.) ; 24 cm.
ISBN:
9789812835741
Added Author:
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
---|---|---|---|---|---|
Searching... | 30000010197739 | R857.M3 A73 2008 | Open Access Book | Proceedings, Conference, Workshop etc. | Searching... |
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Summary
Summary
This is a Pageburst digital textbook; the product description may vary from the print textbook.
Musculoskeletal Rehabilitation, Volume 2: Scientific Foundations and Principles of Practice provides a thorough review of the basic science information concerning the tissues of the musculoskeletal system impacted by injury or disease, as well as the guiding principles upon which rehabilitation interventions are based. This volume divides information into two sections: scientific foundations and principles of intervention, providing readers with a guiding set of clinical foundations and principles upon which they can easily develop treatment interventions for specific impairments and functional limitations.
Clinical application case studies help readers apply what they learn in the classroom to real life situations. Evidence-based content uses over 5,000 references to support the basic science information principles for rehabilitation interventions and provide the best evidence and physiological reasoning for treatment. Over 180 tables and 275 text boxes highlight key points within the text for better understanding. Expert editors David Magee, PhD, PT, James Zachazewski, DPT, SCS, ATC, Sandy Quillen, PT, PhD, SCS, FACSM and over 70 contributors provide authoritative guidance on the foundations and principles of musculoskeletal rehabilitation practice.
Table of Contents
Preface | p. v |
Organizing Committee | p. xiii |
Contributor Contact Details | p. xxi |
Part I General | |
1 Biomaterials and Mechanical Stimulation in Tissue Engineering | p. 3 |
2 Osteoinduction and Ostogenic Genes Expression Regulated by Ca-P Bioceramics | p. 24 |
3 Why is the Clinical Application of Tissue Engineering So Slow? | p. 35 |
4 Temperature-responsive Cell Culture Surfaces for Cell Sheet Tissue Engineering | p. 55 |
Part II Tissue Engineering | |
5 Adipose Tissue-derived Mesenchymal Stem Cells have Lower Osteogenic Potential than Bone Marrow-derived Mesenchymal Stem Cells | p. 73 |
6 Amelogenin Overexpression in Tooth Development | p. 87 |
7 Mechano-active Tissue Engineering | p. 98 |
8 Biomaterials for In Vitro Expansion of Stem Cells | p. 116 |
Part III Polymeric Biomaterials | |
9 Design of Artificial Extracellular Matrices and Their Application for Regenerative Medicine | p. 143 |
10 Nano-to-macro Architectures Polycaprolactone-based Biomaterials in Tissue Engineering | p. 159 |
11 Nanofiber-based Scaffolds for Tissue Engineering | p. 182 |
12 Electrospun Composite Nanofibrous Scaffolds for Tissue Engineering | p. 194 |
13 Synthetic/Natural Hybrid Scaffold for Cartilage and Disc Regenerations | p. 207 |
14 Novel Hydrogel Systems as Injectable Scaffolds for Tissue Engineering | p. 222 |
15 Manipulation of Stem Cell Functions on Grafted Polymer Surfaces | p. 234 |
16 Gamma-ray Irradiated Poly(L-lactide) for Bone Repair | p. 254 |
Part IV Metallic Biomaterials | |
17 Titanium Alloys with High Biological and Mechanical Biocompatibility | p. 269 |
18 Biofunctionalization of Metals | p. 292 |
19 Research on Biological Characteristic of Silver Nanoparticle | p. 303 |
Part V Bioceramics | |
20 Hydrothermal Synthesis of Hydroxyapatite Ceramics for Medical Application | p. 317 |
21 Bone Regeneration Materials Based on Calcium Phosphate Ceramics | p. 327 |
22 Silicate-based Bioactive Materials for Bone Regeneration | p. 343 |
23 Biomimetics: Bio-inspired Engineering of Human Tissue Scaffolding for Regenerative Medicine | p. 364 |
Part VI Drug Delivery System | |
24 Nanobiomaterials Taking Aim at Drug and Gene Delivery | p. 389 |
25 Delivery Technology of Growth Factors to Realize Tissue Regeneration Therapy | p. 402 |
26 Biostable Gradient Coating Implants with Drug Release | p. 416 |
27 Design of Supramolecular Polyrotaxanes for DNA Delivery | p. 431 |
Part VII Biomechanics | |
28 Biomechanical Aspects of Natural Articular Cartilage and Regenerated Cartilage | p. 445 |
29 Wear Characteristics of a Monopivot Centrifugal Blood Pump for Circulatory Support | p. 457 |
Part VIII Evaluation and Standardization | |
30 In Vitro Biodegradation of Poly(Lactic-co-Glycolic Acid) Porous Scaffolds | p. 467 |
31 Non-invasive Evaluation Technique for Cartilage Tissue Engineering | p. 482 |
32 Analytical TEM Study of Biomineral Phases | p. 494 |
33 High-throughput Cytometry Using Antibody Arrays | p. 506 |
34 Estimation of Endurance Performance of Hip Stems Using Finite Element Analysis | p. 517 |