6 Prospects of functional nano-manufactured scaffolds in tissue engineering applications
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Sriparna De
Abstract
Functional nano-manufactured biocomposites hold immense significance in healthcare applications due to their unique ability to revolutionize diagnosis, treatment, and patient care. These advanced materials, composed of nanoparticles embedded within biocompatible matrices, offer unprecedented opportunities to enhance the precision, sensitivity, and efficiency of medical devices and therapies. This article explores the multifaceted contributions of functional nanocomposites tissue engineering applications. Tissue engineering has the potential to restore damaged tissues by combining cells with specific scaffolds, typically made of natural or synthetic polymers. Monolayered scaffolds may not fully mimic complex tissue environments; multilayered scaffolds are advantageous for tissues such as the osteochondral, cutaneous, and vascular type. This review focuses on recent advances in designing bilayered scaffolds for regenerating various tissues, discussing their anatomy, fabrication, experimental results, limitations, and challenges in scaling up production for clinical studies.
Abstract
Functional nano-manufactured biocomposites hold immense significance in healthcare applications due to their unique ability to revolutionize diagnosis, treatment, and patient care. These advanced materials, composed of nanoparticles embedded within biocompatible matrices, offer unprecedented opportunities to enhance the precision, sensitivity, and efficiency of medical devices and therapies. This article explores the multifaceted contributions of functional nanocomposites tissue engineering applications. Tissue engineering has the potential to restore damaged tissues by combining cells with specific scaffolds, typically made of natural or synthetic polymers. Monolayered scaffolds may not fully mimic complex tissue environments; multilayered scaffolds are advantageous for tissues such as the osteochondral, cutaneous, and vascular type. This review focuses on recent advances in designing bilayered scaffolds for regenerating various tissues, discussing their anatomy, fabrication, experimental results, limitations, and challenges in scaling up production for clinical studies.
Kapitel in diesem Buch
- Frontmatter I
- Aim and Scope VII
- Acknowledgment IX
- Preface XI
- List of Contributing Authors XIII
- Contents XVII
- 1 Bio-based materials: origin, synthesis, and properties 1
- 2 Bio-based polymers: processing and applications 25
- 3 Cellulose: biomedical and engineering applications 43
- 4 Chitosan in orthopedics: current advancements and future prospects 59
- 5 Bio-based materials in drug delivery 79
- 6 Prospects of functional nano-manufactured scaffolds in tissue engineering applications 107
- 7 Additive manufacturing in fabrication of orthopedic implants 127
- 8 Analysis of surface acoustic wave in a polymer-coated piezo-electro-magnetic structure with micro-inertia effect 163
- 9 Biodegradable polymers-based proton exchange membrane for fuel cells 183
- 10 Bio-based carbon materials for applications in supercapacitors: an energy storage system 193
- 11 Bio-based materials in advanced packaging applications 205
- 12 Biorefinery development feedstocks derived and possible solutions for a sustainable environment 233
- 13 Biolubricants and its application in engineering 271
- 14 Bio-based materials in advance separation processes 297
- 15 The influence of imperfect interface of shear wave propagation on layered bio-based plate material: computational study of bio-based systems 319
- 16 Bio-based materials for adsorption and catalysis 333
- About the editors 345
- Index 347
Kapitel in diesem Buch
- Frontmatter I
- Aim and Scope VII
- Acknowledgment IX
- Preface XI
- List of Contributing Authors XIII
- Contents XVII
- 1 Bio-based materials: origin, synthesis, and properties 1
- 2 Bio-based polymers: processing and applications 25
- 3 Cellulose: biomedical and engineering applications 43
- 4 Chitosan in orthopedics: current advancements and future prospects 59
- 5 Bio-based materials in drug delivery 79
- 6 Prospects of functional nano-manufactured scaffolds in tissue engineering applications 107
- 7 Additive manufacturing in fabrication of orthopedic implants 127
- 8 Analysis of surface acoustic wave in a polymer-coated piezo-electro-magnetic structure with micro-inertia effect 163
- 9 Biodegradable polymers-based proton exchange membrane for fuel cells 183
- 10 Bio-based carbon materials for applications in supercapacitors: an energy storage system 193
- 11 Bio-based materials in advanced packaging applications 205
- 12 Biorefinery development feedstocks derived and possible solutions for a sustainable environment 233
- 13 Biolubricants and its application in engineering 271
- 14 Bio-based materials in advance separation processes 297
- 15 The influence of imperfect interface of shear wave propagation on layered bio-based plate material: computational study of bio-based systems 319
- 16 Bio-based materials for adsorption and catalysis 333
- About the editors 345
- Index 347
