Extreme Tissue Engineering: Concepts and Strategies for Tissue Fabrication

( 1 )

Overview

Extreme Tissue Engineering is an engaging introduction to Tissue Engineering and Regenerative Medicine (TERM), allowing the reader to understand, discern and place into context the mass of scientific, multi-disciplinary data currently flooding the field. It is designed to provide interdisciplinary, ground-up explanations in a digestible, entertaining way, creating a text which is relevant to all students of TERM regardless of their route into the field. Organised into three main sections: chapters 1 to 3 ...

See more details below
Other sellers (Hardcover)
  • All (8) from $97.47   
  • New (6) from $97.47   
  • Used (2) from $159.94   
Extreme Tissue Engineering: Concepts and Strategies for Tissue Fabrication

Available on NOOK devices and apps  
  • NOOK Devices
  • Samsung Galaxy Tab 4 NOOK 7.0
  • Samsung Galaxy Tab 4 NOOK 10.1
  • NOOK HD Tablet
  • NOOK HD+ Tablet
  • NOOK eReaders
  • NOOK Color
  • NOOK Tablet
  • Tablet/Phone
  • NOOK for Windows 8 Tablet
  • NOOK for iOS
  • NOOK for Android
  • NOOK Kids for iPad
  • PC/Mac
  • NOOK for Windows 8
  • NOOK for PC
  • NOOK for Mac
  • NOOK for Web

Want a NOOK? Explore Now

NOOK Book (eBook)
$60.99
BN.com price
(Save 42%)$106.95 List Price

Overview

Extreme Tissue Engineering is an engaging introduction to Tissue Engineering and Regenerative Medicine (TERM), allowing the reader to understand, discern and place into context the mass of scientific, multi-disciplinary data currently flooding the field. It is designed to provide interdisciplinary, ground-up explanations in a digestible, entertaining way, creating a text which is relevant to all students of TERM regardless of their route into the field. Organised into three main sections: chapters 1 to 3 introduce and explain the general problems; chapters 4 to 6 identify and refine how the main factors interact to create the problems and opportunities we know all too well; chapters 7 to 9 argue us through the ways we can use leading-edge (extreme) concepts to build our advanced solutions. Students and researchers in areas such as stem cell and developmental biology, tissue repair, implantology and surgical sciences, biomaterials sciences and nanobiomedicine, bioengineering, bio-processing and monitoring technologies - from undergraduate and masters to doctoral and post-doctoral research levels - will find Extreme Tissue Engineering a stimulating and inspiring text. Written in a fluid, entertaining style, Extreme Tissue Engineering is introductory yet challenging, richly illustrated and truly interdisciplinary.

Read More Show Less

Product Details

  • ISBN-13: 9780470974476
  • Publisher: Wiley
  • Publication date: 1/22/2013
  • Edition number: 1
  • Pages: 268
  • Product dimensions: 7.30 (w) x 9.80 (h) x 0.80 (d)

Meet the Author

Robert A. Brown is Professor of Tissue Engineering and Director of the Centre for Tissue Regeneration Science at University College London, UK. He is also co-ordinator of the London Tissue Engineering Consortium (Tissue Bioreactor Science) and the British Tissue Engineering Network (BRITE Net), as well as current President of the Tissue and Cell Engineering Society (TCES). Professor Brown has published over 180 peer-reviewed publications and 18 patents/applications, collaborating across industry and academia to promote interdisciplinary research in Tissue Engineering and Regenerative Medicine

Read More Show Less

Table of Contents

Preface: Extreme Tissue Engineering – a User’s Guide xi

1 Which Tissue Engineering Tribe Are You From? 1

1.1 Why do we need to engineer tissues at all? 1

1.1.1 Will the real tissue engineering and regenerative medicine please stand up? 2

1.1.2 Other people’s definitions 3

1.1.3 Defining our tissue engineering: fixing where we are on the scale-hierarchy 4

1.2 Bio-integration as a fundamental component of engineering tissues 7

1.2.1 Bio-scientists and physical scientists/engineers: understanding diversity in TERM 8

1.3 What are the ‘tribes’ of tissue engineering? 10

1.3.1 Special needs for special characteristics: why is networking essential for TERM? 13

1.4 Surprises from tissue engineering (Veselius to Vacanti) 16

1.5 So really is there any difference between tissue engineering and regenerative medicine? 20

1.5.1 Questions never really asked: repair versus regeneration? 20

1.5.2 Understanding the full spectrum: tissue replacement repair and regeneration 23

1.6 Conclusions 27

1.7 Summarizing definitions 28

Annex 1 Other people’s definitions of tissue engineering 29

Annex 2 Other people’s definitions of regenerative medicine 30

Further reading 30

2 Checking Out the Tissue Groupings and the Small Print 33

2.1 Checking the small print: what did we agree to engineer? 33

2.2 Identifying special tissue needs problems and opportunities 37

2.3 When is ‘aiming high’ just ‘over the top’? 39

2.4 Opportunities risks and problems 41

2.4.1 Experimental model tissues (as distinct from spare-parts and fully regenerated tissues) 41

2.4.2 The pressing need for 3D model tissues 42

2.4.3 Tissue models can be useful spin-offs on the way to implants 42

2.5 Special needs for model tissues 44

2.5.1 Cell selection: constancy versus correctness 44

2.5.2 Support matrices – can synthetics fake it? 45

2.5.3 Tissue dimensions: when size does matter! 46

2.6 Opportunities and sub-divisions for engineering clinical implant tissues 46

2.6.1 Making physiological implants: spare parts or complete replacement? 47

2.6.2 Making pathological and aphysiological constructs: inventing new parts and new uses 47

2.6.3 Learning to use the plethora of tissue requirements as an opportunity 48

2.7 Overall summary 49

Further reading 49

3 What Cells ‘Hear’ When We Say ‘3D’ 51

3.1 Sensing your environment in three dimensions: seeing the cues 51

3.2 What is this 3D cell culture thing? 54

3.3 Is 3D for cells more than a stack of 2Ds? 55

3.4 On in and between tissues: what is it like to be a cell? 58

3.5 Different forms of cell-space: 2D 3D pseudo-3D and 4D cell culture 62

3.5.1 What has ‘3D’ ever done for me? 62

3.5.2 Introducing extracellular matrix 63

3.5.3 Diffusion and mass transport 65

3.5.4 Oxygen mass transport and gradients in 3D engineered tissues: scaling Mount Doom 66

3.6 Matrix-rich cell-rich and pseudo-3D cell cultures 69

3.7 4D cultures – or cultures with a 4th dimension? 71

3.8 Building our own personal understanding of cell position in its 3D space 73

3.9 Conclusion 75

Further reading 75

4 Making Support-Scaffolds Containing Living Cells 77

4.1 Two in one: maintaining a synergy means keeping a good duet together 77

4.2 Choosing cells and support-scaffolds is like matching carriers with cargo 78

4.3 How like the ‘real thing’ must a scaffold be to fool its resident cells? 80

4.4 Tissue prosthetics and cell prosthetics – what does it matter? 83

4.5 Types of cell support material for tissue engineering – composition or architecture? 85

4.5.1 Surface or bulk – what does it mean to the cells? 85

4.5.2 Bulk material breakdown and the local ‘cell economy’ 85

4.6 Three generic types of bulk composition for support materials 86

4.6.1 Synthetic materials for cell supports 88

4.6.2 Natural native polymer materials for cell supports 90

4.6.3 Hybrids: composite cell support materials having synthetic and natural components 98

4.7 Conclusions 100

Further reading 101

5 Making the Shapes for Cells in Support-Scaffolds 103

5.1 3D shape and the size hierarchy of support materials 104

5.2 What do we think ‘substrate shape’ might control? 106

5.3 How we fabricate tissue structures affects what we get out in the end: bottom up or top down? 107

5.4 What shall we seed into our cell-support materials? 110

5.4.1 Cell loading: guiding the willing bribing the reluctant or trapping the unwary? 111

5.4.2 Getting cells onto/into pre-fabricated constructs (the willing and the reluctant) 114

5.4.3 Trapping the unwary: Seeding cells into self-assembling gel-forming materials 115

5.5 Acquiring our cells: recruiting the enthusiastic or press-ganging the resistant 118

5.5.1 From cell expansion to selection and differentiation 121

5.6 Cargo crew or stowaway? 124

5.6.1 Crew-type cells: helping with the journey 124

5.6.2 Cargo-type cells: building the bulk tissue 125

5.6.3 Stowaway or ballast-type cells 128

5.7 Chapter summary 128

Further reading 129

6 Asymmetry: 3D Complexity and Layer Engineering – Worth the Hassle? 131

6.1 Degrees of tissue asymmetry 133

6.2 Making simple anisotropic/asymmetrical structures 134

6.3 Thinking asymmetrically 137

6.4 How do we know which scale to engineer first? 140

6.5 Making a virtue of hierarchical complexity: because we have to 144

6.6 Cell-layering and matrix-layering 147

6.7 No such thing as too many layers: theory and practice of tissue layer engineering 151

6.7.1 Examples of layer engineering 153

6.8 Other forms of tissue fabrication in layers and zones 158

6.8.1 Section summary 158

6.9 Familiar asymmetrical construction components: everyday ‘layer engineering’ 159

6.10 Summary 160

7 Other Ways to Grow Tissues? 163

7.1 General philosophies for repair replacement and regeneration 163

7.1.1 What does reconstructive surgery have to teach us? 165

7.1.2 Clues from the natural growth of tissues 166

7.2 What part of grow do we not understand? 167

7.2.1 Childhood growth of soft connective tissues: a good focus? 169

7.2.2 Mechanically induced ‘growth’ of tissues in children 170

7.2.3 Mechanically induced ‘growth’ of adult tissue 171

7.2.4 Growth has a mirror image – ‘ungrowth’ or shrinkage-remodelling 172

7.3 If growth and ungrowth maintain a tensional homeostasis what are its controls? 173

7.3.1 Tension-driven growth and tensional homeostasis – the cell’s perspective? 174

7.3.2 Mechanically reactive collagen remodelling – the ‘constant tailor’ theory 177

7.4 Can we already generate tension-driven growth in in vivo tissue engineering? 178

7.4.1 Mechanical loading of existing tissues 178

7.5 Conclusions: what can we learn from engineered growth? 179

Appendix to Chapter 7 179

Further reading 182

8 Bioreactors and All That Bio-Engineering Jazz 185

8.1 What are ‘tissue bioreactors’ and why do we need them? 186

8.1.1 Rumblings of unease in the smaller communities 186

8.1.2 Hunting for special cells or special cues 187

8.1.3 Farming – culture or engineered fabrication 188

8.2 Bioreactors: origins of tissue bioreactor logic and its problems 190

8.2.1 What have tissue engineers ever done for bioreactor technology? 190

8.2.2 The 3D caveat 191

8.2.3 Fundamental difference between biochemical and tissue bioreactors: 3D solid material fabrication 193

8.2.4 Why should a little thing like ‘matrix’ change so much? 194

8.2.5 The place of tissue bioreactors in tissue engineering logic: what happened to all the good analogies? 195

8.3 Current strategies for tissue bioreactor process control: views of Christmas past and present 199

8.3.1 Bioreactor enabling factors 200

8.3.2 Cell and architecture control 203

8.4 Extreme tissue engineering solutions to the tissue bioreactor paradox: a view of Christmas future? 209

8.4.1 In vivo versus in vitro tissue bioreactors: the new ‘nature versus nurture’ question? 209

8.4.2 Do we need tissue bioreactors at all? 210

8.5 Overall summary – how can bioreactors help us in the future? 212

Further reading 214

9 Towards 4D Fabrication: Time Monitoring Function and Process Dynamics 217

9.1 Controlling the dynamics of what we make: what can we control? 218

9.2 Can we make tissue bioreactor processes work – another way forward? 222

9.2.1 Blending the process systems: balancing the Yin and the Yang 224

9.2.2 Making the most of hybrid strategies: refining the timing and sequence 226

9.2.3 A real example of making tissues directly 230

9.3 The 4th dimension applied to bioreactor design 232

9.3.1 Change change change! 232

9.3.2 For bioreactor monitoring what are we really talking about? 233

9.3.3 Monitoring and processes – chickens and eggs: which come first? 234

9.4 What sort of monitoring: how do we do it? 238

9.4.1 Selecting parameters to be monitored 238

9.4.2 What is so special about our particular ‘glass slipper’? 241

9.5 The take-home message 245

Further reading 246

10 Epilogue: Where Can Extreme Tissue Engineering Go Next? 247

10.1 So where can extreme tissue engineering go next? 247

Index 249

Read More Show Less

Customer Reviews

Average Rating 5
( 1 )
Rating Distribution

5 Star

(1)

4 Star

(0)

3 Star

(0)

2 Star

(0)

1 Star

(0)

Your Rating:

Your Name: Create a Pen Name or

Barnes & Noble.com Review Rules

Our reader reviews allow you to share your comments on titles you liked, or didn't, with others. By submitting an online review, you are representing to Barnes & Noble.com that all information contained in your review is original and accurate in all respects, and that the submission of such content by you and the posting of such content by Barnes & Noble.com does not and will not violate the rights of any third party. Please follow the rules below to help ensure that your review can be posted.

Reviews by Our Customers Under the Age of 13

We highly value and respect everyone's opinion concerning the titles we offer. However, we cannot allow persons under the age of 13 to have accounts at BN.com or to post customer reviews. Please see our Terms of Use for more details.

What to exclude from your review:

Please do not write about reviews, commentary, or information posted on the product page. If you see any errors in the information on the product page, please send us an email.

Reviews should not contain any of the following:

  • - HTML tags, profanity, obscenities, vulgarities, or comments that defame anyone
  • - Time-sensitive information such as tour dates, signings, lectures, etc.
  • - Single-word reviews. Other people will read your review to discover why you liked or didn't like the title. Be descriptive.
  • - Comments focusing on the author or that may ruin the ending for others
  • - Phone numbers, addresses, URLs
  • - Pricing and availability information or alternative ordering information
  • - Advertisements or commercial solicitation

Reminder:

  • - By submitting a review, you grant to Barnes & Noble.com and its sublicensees the royalty-free, perpetual, irrevocable right and license to use the review in accordance with the Barnes & Noble.com Terms of Use.
  • - Barnes & Noble.com reserves the right not to post any review -- particularly those that do not follow the terms and conditions of these Rules. Barnes & Noble.com also reserves the right to remove any review at any time without notice.
  • - See Terms of Use for other conditions and disclaimers.
Search for Products You'd Like to Recommend

Recommend other products that relate to your review. Just search for them below and share!

Create a Pen Name

Your Pen Name is your unique identity on BN.com. It will appear on the reviews you write and other website activities. Your Pen Name cannot be edited, changed or deleted once submitted.

 
Your Pen Name can be any combination of alphanumeric characters (plus - and _), and must be at least two characters long.

Continue Anonymously
Sort by: Showing 1 Customer Reviews
  • Posted March 8, 2013

     This is the first book that I have seen which adopts an innovat

     This is the first book that I have seen which adopts an innovative approach to the understanding and enjoying tissue engineering by general readers, by young students approaching the field, by teachers and by researchers in a wide range of fields. The book covers all aspects of tissue engineering, from the basic principles to the latest developments and is inspiring for possible future research lines. It is well organized into sections covering general problems, identification of key factors and concepts relevant for leading edge solutions. Examples are given from fields quite different from tissue engineering and from everyday experience, which makes the book very readable by readers with very different backgrounds. Even though the book is readable by newcomers in the field, it treats technical aspects in good depth and achieving worthwhile syntheses. 

    Was this review helpful? Yes  No   Report this review
Sort by: Showing 1 Customer Reviews

If you find inappropriate content, please report it to Barnes & Noble
Why is this product inappropriate?
Comments (optional)