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| Preface | ||
| Contributors | ||
| 1 | How Does Nature Build a Tissue? | 3 |
| 2 | Ligament Healing: Present Status and the Future of Functional Tissue Engineering | 17 |
| 3 | Native Properties of Cardiovascular Tissues: Guidelines for Functional Tissue Engineering | 35 |
| 4 | Functional Properties of Native Articular Cartilage | 46 |
| 5 | Excitability and Contractility of Skeletal Muscle: Measurements and Interpretations | 69 |
| 6 | Functional Requirements for the Engineering of a Blood Vessel Substitute | 87 |
| 7 | In Vivo Force and Strain of Tendon, Ligament, and Capsule | 96 |
| 8 | Requirements for Biological Replacement of the Articular Cartilage at the Knee Joint | 106 |
| 9 | Functional Requirements: Cartilage | 117 |
| 10 | Design Parameters for Functional Tissue Engineering | 129 |
| 11 | Tissue Engineering a Heart: Critical Issues | 139 |
| 12 | Design Parameters for Engineering Bone Regeneration | 146 |
| 13 | Tissue Engineering of Bone: The Potential Uses of Gene Therapy for Difficult Bone Loss Problems | 162 |
| 14 | Engineered Skeletal Muscle: Functional Tissues, Organs, and Interfaces | 178 |
| 15 | Bioengineering the Growth of Articular Cartilage | 194 |
| 16 | Functional Tissue Engineering: Assessment of Function in Tendon and Ligament Repair | 213 |
| 17 | The Role of Mechanical Forces in Tissue Engineering of Articular Cartilage | 227 |
| 18 | Biomechanics of Native and Engineered Heart Valves Tissues | 243 |
| 19 | Assessment of Function in Tissue-Engineered Grafts | 258 |
| 20 | Assessment of the Performance of Engineered Tissues in Humans Requires the Development of Highly Sensitive and Quantitative Noninvasive Outcome Measures | |
| 21 | Functional Tissue Engineering and the Role of Biomechanical Signaling in Articular Cartilage Repair | 277 |
| 22 | Regulation of Cellular Response to Mechanical Signals by Matrix Design | 291 |
| 23 | Artificial Soft Tissue Fabrication from Cell-Contracted Biopolymers | 305 |
| 24 | Cytomechanics: Signaling to Mechanical Load in Connective Tissue Cells and Role in Tissue Engineering | 318 |
| 25 | The Role of Biomechanics in Analysis of Cardiovascular Diseases: Regulation of the Fluid Shear Response by Inflammatory Mediators | 337 |
| 26 | A Full Spectrum of Functional Tissue-engineered Blood Vessels: From Macroscopic to Microscopic | 347 |
| 27 | Engineering Functional Cartilage and Cardiac Tissue: In Vitro Culture Parameters | 360 |
| 28 | Tissue Engineering Skeletal Muscle | 377 |
| 29 | From Concept Toward the Clinic: Preclinical Evaluation of Tissue-Engineered Constructs | 395 |
| 30 | Trends in the FDA | 400 |
| Index | 405 |
| Price | Condition | Delivery | Seller | Action |
| $99.99 | Digital |
| WonderClub |
Alan White
reviewed Functional Tissue Engineering on June 01, 2016
Functional Tissue Engineering
If you are interested in the science of "memory," this is a great book.
Author follows the research of UC Irvine, neuroscientist Gary Lynch for years as his group makes discovery after discovery.
Gary Lynch is an aggressive, arrogant genius.
That is actually common.
When I was at Stanford and Harvard, I met some geniuses that were like that.
They are a lot of fun. Some people don't like them because they are nonconformist. But is part of their nonconformity that motivates them to pursue new scientific ideas.
Gary Lynch has lots of clever, funny quotes. The discoveries on the path to understanding long term potentiation and long term memory are discussed in considerable entertaining detail.
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Add Functional Tissue Engineering, Tissue engineering is a new field at the interface of engineering and biology that uses implanted cells, scaffolds, DNA, proteins, protein fragments, and inductive molecules to repair or replace injured or diseased tissues and organs. Functional Tissue E, Functional Tissue Engineering to your collection on WonderClub |