Cartilage Tissue Engineering

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Cover of 'Cartilage Tissue Engineering'

Table of Contents

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Book Overview
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Chapter 1 Cartilage Tissue Engineering
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Chapter 2 Cartilage Tissue Engineering
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Chapter 3 Mesenchymal Stem Cells Derived from Human Bone Marrow
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Chapter 4 Cartilage Tissue Engineering
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Chapter 5 Derivation and Chondrogenic Commitment of Human Embryonic Stem Cell-Derived Mesenchymal Progenitors
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Chapter 6 Differentiation of Human Induced Pluripotent Stem Cells to Chondrocytes
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Chapter 7 Gene Transfer and Gene Silencing in Stem Cells to Promote Chondrogenesis
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Chapter 8 Hydrogels with Tunable Properties
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Chapter 9 Decellularized Extracellular Matrix Scaffolds for Cartilage Regeneration
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Chapter 10 Use of Interim Scaffolding and Neotissue Development to Produce a Scaffold-Free Living Hyaline Cartilage Graft
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Chapter 11 Bioprinted Scaffolds for Cartilage Tissue Engineering.
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Chapter 12 Scaffolds for Controlled Release of Cartilage Growth Factors
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Chapter 13 Nanostructured Capsules for Cartilage Tissue Engineering
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Chapter 14 Stratified Scaffolds for Osteochondral Tissue Engineering
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Chapter 15 Mechanobioreactors for Cartilage Tissue Engineering
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Chapter 16 Cartilage Tissue Engineering
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Chapter 17 Microbioreactors for Cartilage Tissue Engineering
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Chapter 18 Transplantation of Tissue-Engineered Cartilage in an Animal Model (Xenograft and Autograft): Construct Validation.
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Chapter 19 Cartilage Tissue Engineering
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Chapter 20 Mechanical Testing of Cartilage Constructs

Attention for Chapter 17: Microbioreactors for Cartilage Tissue Engineering

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Citations

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Chapter title	Microbioreactors for Cartilage Tissue Engineering
Chapter number	17
Book title	Cartilage Tissue Engineering
Published in	Methods in molecular biology, January 2015
DOI	10.1007/978-1-4939-2938-2_17
Pubmed ID	26445843
Book ISBNs	978-1-4939-2937-5, 978-1-4939-2938-2
Authors	Yu-Han Chang, Min-Hsien Wu
Abstract	In tissue engineering research, cell-based assays are widely utilized to fundamentally explore cellular responses to extracellular conditions. Nevertheless, the simplified cell culture models available at present have several inherent shortcomings and limitations. To tackle the issues, a wide variety of microbioreactors for cell culture have been actively proposed, especially during the past decade. Among these, micro-scale cell culture devices based on microfluidic biochip technology have particularly attracted considerable attention. In this chapter, we not only discuss the advantageous features of using micro-scale cell culture devices for cell-based assays, but also describe their fabrication, experimental setup, and application.

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Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 40 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country	Count	As %
Unknown	40	100%

Demographic breakdown

Readers by professional status	Count	As %
Student > Ph. D. Student	7	18%
Student > Bachelor	5	13%
Student > Doctoral Student	3	8%
Student > Master	3	8%
Researcher	2	5%
Other	0	0%
Unknown	20	50%

Readers by discipline	Count	As %
Engineering	9	23%
Agricultural and Biological Sciences	5	13%
Biochemistry, Genetics and Molecular Biology	2	5%
Medicine and Dentistry	2	5%
Materials Science	1	3%
Other	1	3%
Unknown	20	50%