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Biomaterials nanoarchitectonics

Biomaterials Nanoarchitectonics, written from the perspectives of authors form NIMS and other researchers worldwide, provides readers with an explanation of the theory and techniques of nanoarchitectonics, exploring its applications in biomedical fields, including regenerative medicine, drug deliver...

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Other Authors: Ebara, Mitsuhiro,, ScienceDirect (Online service)
Format: eBook
Language: English
Published: Oxford : William Andrew is an imprint of Elsevier, [2016]
Physical Description: 1 online resource : illustrations.
Series: Micro & nano technologies.
Subjects:
Nanostructured materials.
Biomedical materials.
Nanotechnology.
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520 |a Biomaterials Nanoarchitectonics, written from the perspectives of authors form NIMS and other researchers worldwide, provides readers with an explanation of the theory and techniques of nanoarchitectonics, exploring its applications in biomedical fields, including regenerative medicine, drug delivery, and diagnostic and treatment systems based on pathogenic mechanisms. The book also explains the use of nanomaterials that enable 'materials therapy', in which the materials themselves elicit a sustainable, curative effect from living tissue. 
505 0 |a Cover; Title Page; Copyright Page; Contents; List of Contributors; 1 -- Introductory Guide to Nanoarchitectonics; 1.1 -- From Nanotechnology to Nanoarchitectonics; 1.2 -- Challenges in Biomaterials Research; References; 2 -- Drug and Gene Delivery Technologies; 2.1 -- Nanoparticles; 2.1.1 -- Introduction; 2.1.2 -- Micelles; 2.1.3 -- Vesicles; 2.1.4 -- Conjugated Nanoparticles; 2.1.5 -- Conclusions and Future Trends; References; 2.2 -- Supermolecules; 2.2.1 -- Introduction: Basics of Supramolecular Chemistry; 2.2.2 -- Drug Delivery Systems With Host-Guest Systems. 
505 8 |a 2.2.3 -- Drug Delivery Systems With Supramolecular Assemblies2.2.4 -- Interfacial Supramolecular Systems for Mechanically Controlled Drug Delivery Systems; 2.2.5 -- Conclusions and Future Perspectives; References; 2.3 -- Injectable Hydrogels; 2.3.1 -- Introduction; 2.3.2 -- Chemical Gel (Covalent Network) Systems; 2.3.2.1 -- In Situ Polymerization Systems; 2.3.2.2 -- Two-Polymer Solutions Mixing Systems; 2.3.2.3 -- Enzymatic Reaction Systems; 2.3.3 -- Physical Gel (Noncovalent Network) Systems; 2.3.3.1 -- Temperature-Responsive Systems; 2.3.3.1.1 -- Amphiphilic Block Copolymers. 
505 8 |a 2.3.3.1.2 -- Multiblock Copolymer Systems2.3.3.1.3 -- Graft Copolymer Systems; 2.3.3.1.4 -- Graft Copolymer Drug Conjugate; 2.3.3.1.5 -- Branched Copolymer Systems; 2.3.3.2 -- Stereocomplex Formation System; 2.3.4 -- Conclusions and Future Trends; References; 2.4 -- Nature-Inspired Polymers; 2.4.1 -- Introduction; 2.4.2 -- Carbohydrate-Inspired Polymers; 2.4.3 -- Peptide/Protein-Inspired Polymers; 2.4.4 -- Conclusion and Future Trends; References; 3 -- Regenerative Medicines; 3.1 -- Preparation of Polymer Scaffolds by Ice Particulate Method for Tissue Engineering; 3.1.1 -- Introduction. 
505 8 |a 3.1.2 -- Preparation of Funnel-Like Polymer Porous Scaffolds3.1.3 -- Preparation of Micropatterned Polymer Porous Scaffolds; 3.1.4 -- Preparation of Porous Scaffolds of Biodegradable Synthetic Polymers; 3.1.5 -- Preparation of Porous Scaffolds of Biodegradable Naturally Derived Polymers; 3.1.6 -- Conclusions and Future Trends; References; 3.2 -- Cell Sheet Technologies; 3.2.1 -- Introduction; 3.2.2 -- Nanostructure of Thermoresponsive Cell Culture Surfaces Facilitates Cell Sheet Formation and Manipulation. 
505 8 |a 3.2.3 -- ECM-Mimicking Nanostructure on Thermoresponsive Cell Culture Surfaces for Creating Functional Cell Sheets3.2.4 -- Spatially Organized Three-Dimensional Tissue Reconstruction Using Cell Sheet Technologies; 3.2.4.1 -- Creation of Heterotypic Cell Sheet-Based Tissues; 3.2.4.2 -- Creation of Aligned Tissues by Using Anisotropic Cell Sheets; 3.2.5 -- Conclusions and Future Trends; References; 3.3 -- Cell Manipulation Technologies; 3.3.1 -- Introduction; 3.3.2 -- Development History of Photoactivatable Substrates. 
505 8 |a 3.3.2.1 -- First Generation: Photoactivatable Substrates Based on Physisorbed Blocking Agents. 
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