Overview

Advanced Technologies for Sustainable Biomedical Applications explores innovative technological advancements that contribute to the sustainability and efficiency of biomedical applications. This book provides a comprehensive overview of how cutting-edge technologies in materials, bioprinting, biotribology, and biocorrosion address current challenges in the biomedical field, enhance patient care, and promote environmental sustainability. Discusses the latest advances in materials and mechanics Probes the intricate relationship between biology and tribology in biological systems to enhance the longevity and performance of biomedical devices, reducing environmental impact Delves into principles, advancements, and applications of bioprinting, focusing on its transformative role in regenerative medicine, personalized healthcare, and sustainable organ transplantation Covers sustainable nanomanufacturing techniques Emphasizing the integration of advanced technologies, this essential reference provides readers in materials engineering and biotechnology with the tools to create holistic and sustainable biomedical solutions.

Full Product Details

Author:   Amit Aherwar (Madhav Institute of Technology & Science, Gwalior) ,  Catalin I. Pruncu ,  Binnur Sagbas ,  Luciano Lamberti
Publisher:   Taylor & Francis Ltd
Imprint:   CRC Press
Weight:   1.160kg
ISBN:  

9781032902203

ISBN 10:   1032902205
Pages:   524
Publication Date:   27 October 2025
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Hardback
Publisher's Status:   Active
Availability:   Not yet available  
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Table of Contents

0. Front Matter. 1. Engagement of AI in bioinformatics and computational biology. Section I. Materials and Mechanics. 2. Nanomaterials and their challenges for biomedical applications. 3. Functionally Graded Cellular Structures for Biomaterials in Orthopedics. 4. Harnessing Nature: Sustainable Advancements in Biomedical Applications. 5. Magnesium-based Materials for Biomedical Applications. 6. Soft Robotic Systems for Sustainable Biomedical Applications. Section II. Bioprinting. 7. Sustainable bioprinted tissue-engineered constructs based on biopolymers for medical applications and tissue regeneration. 8. 3D bioprinting of biopolymer-based scaffolds for tissue engineering. 9. Nano Manufacturing within the biomedical field. 10. Biowaste derived Sustainable Biomaterials for Tissue Engineering Applications: Opportunities and Challenges. 11 Material and processes used for medical devices manufactured with 4D printing. 12. Nanohydroxyapatite-Reinforced UHMWPE Composites: A Sustainable Approach for Next-Generation Dental Implants. 13. Medical Device made of 4D Printing: from manufacturing to application.14. Ti6Al4V 3D printed lattice structures for biomedical applications. Section III. Biotribology and Biotribocorrosion. 15. Tribological behaviour of Natural Fiber reinforced UHMWPE Composites for Knee Prosthetics. 16. Mechanical characterization of Kenaf, HDPE reinforced UHMWPE Composite for Lower Knee Prosthetic Socket: A Review. 17. Future Trends And Emerging Sustainable Technologies In Biomedical Field. 18. Machine Learning in 3D Bioprinting: Enhancing Biomaterials for Regenerative Medicine.

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Author Information

Amit Aherwar is an Assistant Professor in the Department of Mechanical Engineering, Madhav Institute of Technology and Science, Deemed University, Gwalior, Madhya Pradesh, India. Catalin I. Pruncu is an Associate Lecturer at Buckinghamshire New University, UK. He is a former Research Fellow of the Department of Design, Manufacturing and Engineering Management, University of Strathclyde, UK. Binnur Sagbas is the head of the Surface Technologies Laboratory at Yildiz Technical University (YTU), Turkey, and the coordinator of the YTU–Additive Manufacturing Research group. Luciano Lamberti is a Professor of Mechanical Design in the Dipartimento di Meccanica, Matematica and Management at the Politecnico di Bari, Italy.

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