towards 4d bioprinting

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Current Developments in Multifunctional Smart Materials for 3D/4D Bioprinting
Author : N.A
Publisher : N.A
Release Date : 2017
ISBN 10 :
Pages : 329 pages
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Abstract : Tissue engineering and regenerative medicine (TE&RM) has made continuous advancements by extending three-dimensional (3D) printing towards the development and fabrication of biomimetic scaffolds composed of biomimetic natural and synthetic materials. Although several clinical applications of 3D-printed scaffolds made of classical biomaterials have yielded promising results, current basic research trends have shifted towards rendering scaffolds "smart" or dynamically responsive where shape changes are induced by external stimulation (ie. electromagnetic radiation, mechanical stress, heat) or physiological changes in the local microenvironment through pre-designed mechanisms of action. Although a bulk of the research efforts have led to high-impact publications demonstrating the capabilities of these technologies, hardly any studies have been published illustrating the application of these research efforts in a clinical context. Herein, we will discuss current trends and advancements of 3D printable bioinks and highlight the most recent developments (2015-present) of 3D-printed smart materials also commonly referred to as 4D printing/programmable matter. We will conclude with a prospective opinion of this research field where innovation is synonymous with risk-taking. High-risk, high-reward research founded on revolutionary innovations are often disruptive and lead to new paradigms; conclusively the 4D printing can be disruptive, because it has the potential to change the current paradigm by changing the question from "what can we do with these materials/technologies?" to "how can we move the concept/technology forward to achieve what we need". Highlights: Programmable matter needs to translate its potential to be a disruptive technology via high quality applied research. A paradigm shift from "what can we do with these materials?" to "how can we move the concept/technology forward?" is needed. Physiological and biomechanical constraints based on tissue microenvironment are not considered in smart material design. The lack of in-depth follow-up studies have resulted in poor clinical translation of smart material concepts. Global collaborative efforts spur and facilitate development, characterisation and validation of new bioinks.

3D Bioprinting in Regenerative Engineering
Author : Ali Khademhosseini,Gulden Camci-Unal
Publisher : CRC Press
Release Date : 2018-04-17
ISBN 10 : 1315280477
Pages : 385 pages
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This book is comprehensive in nature with contributions by leading world experts in 3D bioprinting related to regenerative engineering. It includes history, incorporating the process and methods used in bioprinting. Significant sections will be reserved for the applications of the types of tissues generated by using bioprinting, along with an overview of different technologies used in bioprinting. In addition to equipment, the book also describes the different biomaterials and cells used in these approaches. Overall this is a book that includes both entry-level knowledge and advanced methods and techniques. Applications will emphasize engineering and clinical principles.

Polymer-Based Additive Manufacturing
Author : Declan M. Devine
Publisher : Springer Nature
Release Date : 2019-11-15
ISBN 10 : 3030245322
Pages : 277 pages
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This book aims to give readers a basic understanding of commonly used additive manufacturing techniques as well as the tools to fully utilise the strengths of additive manufacturing through the modelling and design phase all the way through to post processing. Guidelines for 3D-printed biomedical implants are also provided. Current biomedical applications of 3D printing are discussed, including indirect applications in the rapid manufacture of prototype tooling and direct applications in the orthopaedics, cardiovascular, drug delivery, ear-nose-throat, and tissue engineering fields. Polymer-Based Additive Manufacturing: Biomedical Applications is an ideal resource for students, researchers, and those working in industry seeking to better understand the medical applications of additive manufacturing.

3D and 4D Printing of Polymer Nanocomposite Materials
Author : Kishor Kumar Sadasivuni,Kalim Deshmukh,Mariam AlAli AlMaadeed
Publisher : Elsevier
Release Date : 2019-10-11
ISBN 10 : 0128173025
Pages : 592 pages
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3D and 4D Printing of Polymer Nanocomposite Materials: Processing, Applications, and Challenges covers advanced 3D and 4D printing processes and the latest developments in novel polymer-based printing materials, thus enabling the reader to understand and benefit from the advantages of this groundbreaking technology. The book presents processes, materials selection, and printability issues, along with sections on the preparation of polymer composite materials for 3D and 4D printing. Across the book, advanced printing techniques are covered and discussed thoroughly, including fused deposition modeling (FDM), selective laser sintering (SLS), selective laser melting (SLM), electron beam melting (EBM), inkjet 3D printing (3DP), stereolithography (SLA), and 3D plotting. Finally, major applications areas are discussed, including electronic, aerospace, construction and biomedical applications, with detailed information on the design, fabrication and processing methods required in each case. Provides a thorough, clear understanding of polymer preparation techniques and 3D and 4D printing processes, with a view to specific applications Examines synthesis, formation methodology, the dispersion of fillers, characterization, properties, and performance of polymer nanocomposites Explores the possibilities of 4D printing, covering the usage of stimuli responsive hydrogels and shape memory polymers

From Additive Manufacturing to 3D/4D Printing
Author : Jean-Claude André
Publisher : John Wiley & Sons
Release Date : 2018-03-07
ISBN 10 : 1786302322
Pages : 480 pages
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With a turnover of some 5-15 billion € / year, the additive manufacturing has industrial niches bearers thanks to processes and materials more and more optimized. While some niches still exist on the application of additive techniques in traditional fields (from jewelery to food for example), several trends emerge, using new concepts: collective production, realization of objects at once (without addition Of material), micro-fluidic, 4D printing exploiting programmable materials and materials, bio-printing, etc. There are both opportunities for new markets, promises not envisaged less than 10 years ago, but difficulties in reaching them.

Self-Assembly Lab
Author : Skylar Tibbits
Publisher : Taylor & Francis
Release Date : 2016-11-10
ISBN 10 : 1317437020
Pages : 198 pages
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What if structures could build themselves or adapt to fluctuating environments? Skylar Tibbits, Director of the Self-Assembly Lab in the Department of Architecture at MIT, Cambridge, MA, crosses the boundaries between architecture, biology, materials science and the arts, to envision a world where material components can self-assemble to provide adapting structures and optimized fabrication solutions. The book examines the three main ingredients for self-assembly, includes interviews with practitioners involved in the work and presents research projects related to these topics to provide a complete first look at exciting future technologies in construction and self-transforming material products.

3D Bioprinting in Regenerative Engineering
Author : Ali Khademhosseini,Gulden Camci-Unal
Publisher : CRC Press
Release Date : 2018-04-17
ISBN 10 : 1315280477
Pages : 385 pages
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This book is comprehensive in nature with contributions by leading world experts in 3D bioprinting related to regenerative engineering. It includes history, incorporating the process and methods used in bioprinting. Significant sections will be reserved for the applications of the types of tissues generated by using bioprinting, along with an overview of different technologies used in bioprinting. In addition to equipment, the book also describes the different biomaterials and cells used in these approaches. Overall this is a book that includes both entry-level knowledge and advanced methods and techniques. Applications will emphasize engineering and clinical principles.

3D Printing Technology in Nanomedicine
Author : Nabeel Ahmad,P. Gopinath,Rajiv Dutta
Publisher : Elsevier
Release Date : 2019-03-30
ISBN 10 : 0128158913
Pages : 202 pages
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3D Printing Technology in Nanomedicine provides an integrated and introductory look into the rapidly evolving field of nanobiotechnology. It demystifies the processes of commercialization and discusses legal and regulatory considerations. With a focus on nanoscale processes and biomedical applications, users will find this to be a comprehensive resource on how 3D printing can be utilized in a range of areas, including the diagnosis and treatment of a variety of human diseases. Examines the emerging market of 3D-printed biomaterials and their clinical applications, with a particular focus on both commercial and premarket tools Examines the promising market of 3D-printed nanoparticles, nanomaterial, biomaterials, composite nanomaterial and their clinical applications in the cardiovascular and chemotherapy realms Develops the concept of integrating different technologies along the hierarchical structure of biological systems

3D Printing of Pharmaceuticals
Author : Abdul W. Basit,Simon Gaisford
Publisher : Springer
Release Date : 2018-08-06
ISBN 10 : 3319907557
Pages : 240 pages
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3D printing is forecast to revolutionise the pharmaceutical sector, changing the face of medicine development, manufacture and use. Potential applications range from pre-clinical drug development and dosage form design through to the fabrication of functionalised implants and regenerative medicine. Within clinical pharmacy practice, printing technologies may finally lead to the concept of personalised medicines becoming a reality. This volume aims to be the definitive resource for anyone thinking of developing or using 3D printing technologies in the pharmaceutical sector, with a strong focus on the translation of printing technologies to a clinical setting. This text brings together leading experts to provide extensive information on an array of 3D printing techniques, reviewing the current printing technologies in the pharmaceutical manufacturing supply chain, in particular, highlighting the state-of-the-art applications in medicine and discussing modern drug product manufacture from a regulatory perspective. This book is a highly valuable resource for a range of demographics, including academic researchers and the pharmaceutical industry, providing a comprehensive inventory detailing the current and future applications of 3D printing in pharmaceuticals. Abdul W. Basit is Professor of Pharmaceutics at the UCL School of Pharmacy, University College London. Abdul’s research sits at the interface between pharmaceutical science and gastroenterology, forging links between basic science and clinical outcomes. He leads a large and multidisciplinary research group, and the goal of his work is to further the understanding of gastrointestinal physiology by fundamental research. So far, this knowledge has been translated into the design of new technologies and improved disease treatments, many of which are currently in late-stage clinical trials. He has published over 350 papers, book chapters and abstracts and delivered more than 250 invited research presentations. Abdul is also a serial entrepreneur and has filed 25 patents and founded 3 pharmaceutical companies (Kuecept, Intract Pharma, FabRx). Abdul is a frequent speaker at international conferences, serves as a consultant to many pharmaceutical companies and is on the advisory boards of scientific journals, healthcare organisations and charitable bodies. He is the European Editor of the International Journal of Pharmaceutics. Abdul was the recipient of the Young Investigator Award in Pharmaceutics and Pharmaceutical Technology from the American Association of Pharmaceutical Scientists (AAPS) and is the only non-North American scientist to receive this award. He was also the recipient of the Academy of Pharmaceutical Sciences (APS) award. Simon Gaisford holds a Chair in Pharmaceutics and is Head of the Department of Pharmaceutics at the UCL School of Pharmacy, University College London. He has published 110 papers, 8 book chapters and 4 authored books. His research is focused on novel technologies for manufacturing medicines, particularly using ink-jet printing and 3D printing, and he is an expert in the physico-chemical characterisation of compounds and formulations with thermal methods and calorimetry.

Cardiovascular 3D Printing
Author : Jian Yang,Alex Pui-Wai Lee,Vladimiro L. Vida
Publisher : Springer Nature
Release Date : 2020-10-19
ISBN 10 : 9811569576
Pages : 185 pages
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This book offers readers a comprehensive introduction to the techniques and application of 3D printing in cardiovascular medicine. To do so, it addresses the history, concepts, and methods of 3D printing, choice of printing materials for clinical purposes, personalized planning of cardiac surgery and transcatheter interventions with patient-specific models, enhancement of patient-physician communication, simulation of endovascular procedures, and advances in 3D bio-printing. The book particularly focuses on the application of 3D printing to improve the efficacy and safety of cardiac interventions, and to promote the realization of precision medical care. The book gathers contributions by an international team of experts in the field of cardiovascular medicine, who combine the latest findings with their own practical experience in using 3D printing to support the diagnosis and treatment of a wide range of cardiovascular diseases. They present in-depth discussions in the fields of congenital heart disease, valvular disease, coronary artery disease, cardiomyopathy, left atrial appendage occlusion, cardiac tumors and vascular diseases.

Regenerative Engineering
Author : Yusuf Khan,Cato T. Laurencin
Publisher : CRC Press
Release Date : 2018-04-19
ISBN 10 : 1498738257
Pages : 154 pages
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This book focuses on advances made in both materials science and scaffold development techniques, paying close attention to the latest and state-of-the-art research. Chapters delve into a sweeping variety of specific materials categories, from composite materials to bioactive ceramics, exploring how these materials are specifically designed for regenerative engineering applications. Also included are unique chapters on biologically-derived scaffolding, along with 3D printing technology for regenerative engineering. Features: Covers the latest developments in advanced materials for regenerative engineering and medicine. Each chapter is written by world class researchers in various aspects of this medical technology. Provides unique coverage of biologically derived scaffolding. Includes separate chapter on how 3D printing technology is related to regenerative engineering. Includes extensive references at the end of each chapter to enhance further study.

Advanced 3D-Printed Systems and Nanosystems for Drug Delivery and Tissue Engineering
Author : Lisa C. du Toit,Pradeep Kumar,Yahya E. Choonara,Viness Pillay
Publisher : Elsevier
Release Date : 2020-03-08
ISBN 10 : 0128184728
Pages : 316 pages
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Advanced 3D-Printed Systems and Nanosystems for Drug Delivery and Tissue Engineering explores the intricacies of nanostructures and 3D printed systems in terms of their design as drug delivery or tissue engineering devices, their further evaluations and diverse applications. The book highlights the most recent advances in both nanosystems and 3D-printed systems for both drug delivery and tissue engineering applications. It discusses the convergence of biofabrication with nanotechnology, constructing a directional customizable biomaterial arrangement for promoting tissue regeneration, combined with the potential for controlled bioactive delivery. These discussions provide a new viewpoint for both biomaterials scientists and pharmaceutical scientists. Shows how nanotechnology and 3D printing are being used to create systems which are intelligent, biomimetic and customizable to the patient Explores the current generation of nanostructured 3D printed medical devices Assesses the major challenges of using 3D printed nanosystems for the manufacture of new pharmaceuticals