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422 tulosta hakusanalla "Tissue Engineering"

Advanced Principles and Techniques in Tissue Engineering

Advanced Principles and Techniques in Tissue Engineering

CALLISTO REFERENCE
2022
sidottu
Tissue engineering is a field that uses the principles of engineering, material methods and suitable biochemical and physiochemical factors in combination of cells to improve or replace biological tissues. It is related to applications that repair or replace whole tissues or a portion of tissues such as bone, cartilage, blood vessels, bladder and skin. It involves the use of a tissue scaffold for a medical purpose which helps in the formation of new viable tissue. It also uses living cells as engineering materials, for example in skin repair or replacement, it utilizes living fibroblasts, cartilage repaired with living chondrocytes, etc. It also aims to perform some biochemical functions using cells within an artificially-created support system such as the artificial pancreas or bio artificial liver. This book contains some path-breaking studies in the field of tissue engineering. It strives to provide a fair idea about this discipline and to help develop a better understanding of the latest advances within this field. This book is a resource guide for experts as well as students.
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Graft Copolymers for Biomedical and Tissue Engineering Applications

Graft Copolymers for Biomedical and Tissue Engineering Applications

Apple Academic Press Inc.
2025
sidottu
The revolutionary capabilities of the use of graft copolymers of polysaccharides in tissue engineering and biomedical applications are explored in this new volume, covering their production, uses, and future directions. Graft copolymers are innovative materials that show enormous potential for combating many healthcare issues.This book demonstrates an immense range of possible potentials, presenting groundbreaking work on chitosan-based graft copolymers as well as cutting-edge research on graft polysaccharides as excipients for solid dosage forms. The topics explore green-synthesized nanobactericides and the use graft polymers to formulate nanoparticles, highlighting the ways that nanotechnology and environmental consciousness are influencing this discipline.Detailed discussions on improving biodegradability, biocompatibility, and the development of smart hydrogels are included as well as research on bone marrow regeneration applications, demonstrating the significant role that graft copolymers play in enabling innovative biomedical solutions.Exploring the vast potential that polysaccharide-based graft copolymers have in biomedical and tissue engineering applications, this volume will be a valuable resource for biomedical specialists, clinical practitioners, pharmaceutical scientists, and medical experts.
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Stem Cells in Clinical Practice and Tissue Engineering

Stem Cells in Clinical Practice and Tissue Engineering

IntechOpen
2018
sidottu
Stem Cells in Clinical Practice and Tissue Engineering is a concise book on applied methods of stem cell differentiation and optimization using tissue engineering methods. These methods offer immediate use in clinical regenerative medicine. The present volume will serve the purpose of applied stem cell differentiation optimization methods in clinical research projects, as well as be useful to relatively experienced stem cell scientists and clinicians who might wish to develop their stem cell clinical centers or research labs further. Chapters are arranged in the order of basic concepts of stem cell differentiation, clinical applications of pluripotent stem cells in skin, cardiac, bone, dental, obesity centers, followed by tissue engineering, new materials used, and overall evaluation with their permitted legal status.
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Nanocellulose-based Hybrid Systems for Tissue Engineering

Nanocellulose-based Hybrid Systems for Tissue Engineering

ROYAL SOCIETY OF CHEMISTRY
2024
sidottu
Nanocellulose is a versatile material which is now finding applications in biomaterials science, and as a sustainable resource it is particularly attractive to the industrial and research communities. Drawing on a global authorship, this book explains how the antimicrobial and immunological properties of nanocellulose make it an ideal material for applications in tissue engineering, whether in hydrogels, scaffolds, or polymer composites. Readers will discover how to extract and characterise nanocellulose and fabricate it in a wide variety of tissue engineering scenarios. Opportunities for 3D printing are considered among a wealth of approaches. With regulatory frameworks in mind, toxicological evaluations and life-cycle assessment of materials are discussed, ensuring that this is a comprehensive source of information for anyone seeking a more sustainable approach to tissue engineering and biomaterials.
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Advances in Mesenchymal Stem Cells and Tissue Engineering

Advances in Mesenchymal Stem Cells and Tissue Engineering

Springer International Publishing AG
2023
sidottu
The fourth volume in this series is a proceedings volume based on papers presented at the 5th Innovations in Regenerative Medicine and Cancer Research conference. Chapters are written by some of the most innovative minds in stem cell and tissue engineering research, and provide a comprehensive overview of papers from the most recent conference. The volume addresses tissue engineering principles and applications, including current trends and challenges, as well as future directions. Cutting edge topics of interest include production of functional tissues, vascularization and immune responses, and functionalization of scaffolds. Volumes in this series are invaluable resources for active researchers, clinicians, and professionals in industry, as well as students across a broad range of fields.
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Advances in Mesenchymal Stem Cells and Tissue Engineering

Advances in Mesenchymal Stem Cells and Tissue Engineering

Springer International Publishing AG
2024
nidottu
The fourth volume in this series is a proceedings volume based on papers presented at the 5th Innovations in Regenerative Medicine and Cancer Research conference. Chapters are written by some of the most innovative minds in stem cell and tissue engineering research, and provide a comprehensive overview of papers from the most recent conference. The volume addresses tissue engineering principles and applications, including current trends and challenges, as well as future directions. Cutting edge topics of interest include production of functional tissues, vascularization and immune responses, and functionalization of scaffolds. Volumes in this series are invaluable resources for active researchers, clinicians, and professionals in industry, as well as students across a broad range of fields.
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Immunomodulatory Biomaterials for Cell Therapy and Tissue Engineering

Immunomodulatory Biomaterials for Cell Therapy and Tissue Engineering

Sudip Mukherjee; Boram Kim; Andrea Hernandez

Springer International Publishing AG
2024
sidottu
This book presents the recent developments in immunomodulatory biomaterials for cell-based therapies in various diseases, including diabetes, cancer, cardiovascular disease, and bone regeneration. The authors first cover the fundamentals of conventional immunology and immunomodulation, before focusing on the history, advantages, and challenges of cell therapies. Biological cell therapy has gained immense attention for various diseases due to unique advantages it has over chemical drugs regarding cost, ease of production, toxicity, and therapeutic efficacy. However, these cell-based therapies need an inert delivery system that can locally deliver cells and minimally elicit foreign body response. The book discusses the foreign body response to the immunomodulatory biomaterials as well as the current and future strategies for potential mitigation of considerable immune responses toward immunomodulatory biomaterials and devices.
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Immunomodulatory Biomaterials for Cell Therapy and Tissue Engineering

Immunomodulatory Biomaterials for Cell Therapy and Tissue Engineering

Sudip Mukherjee; Boram Kim; Andrea Hernandez

Springer International Publishing AG
2025
nidottu
This book presents the recent developments in immunomodulatory biomaterials for cell-based therapies in various diseases, including diabetes, cancer, cardiovascular disease, and bone regeneration. The authors first cover the fundamentals of conventional immunology and immunomodulation, before focusing on the history, advantages, and challenges of cell therapies. Biological cell therapy has gained immense attention for various diseases due to unique advantages it has over chemical drugs regarding cost, ease of production, toxicity, and therapeutic efficacy. However, these cell-based therapies need an inert delivery system that can locally deliver cells and minimally elicit foreign body response. The book discusses the foreign body response to the immunomodulatory biomaterials as well as the current and future strategies for potential mitigation of considerable immune responses toward immunomodulatory biomaterials and devices.
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Extrusion Bioprinting of Scaffolds for Tissue Engineering

Extrusion Bioprinting of Scaffolds for Tissue Engineering

Daniel X. B. Chen

Springer International Publishing AG
2024
sidottu
This book introduces readers to the theory and practice of extrusion bioprinting of scaffolds for tissue engineering and modeling. The text emphasizes the fundamentals and practical applications of extrusion bioprinting for scaffold fabrication, in a manner particularly suitable for those (including both undergraduate and graduate students) who wish to master the subject matter and apply it to real tissue engineering. Readers will learn how to design, fabricate, and characterize tissue scaffolds to be created by extrusion bioprinting technologies. This book: Covers tissue engineering and various scaffold fabrication techniquesPresents the general requirements imposed on scaffolds and the scaffold design processDiscusses the preparation and characterization of biomaterials and bioink for extrusion bioprintingEducates readers regarding how to bioprint and characterize scaffolds with living cells for tissue engineering and modelingIntroduces the common methods/ techniques used to measure and characterize the mechanical properties of native tissues and scaffoldsDiscusses various approaches to create vascular networks within tissue scaffolds to facilitate their functionsIntroduces the concept of controlled release and the common strategies for regulating biomolecules in tissue engineering and printed scaffoldsIncludes many case studies of bioprinting and characterizing scaffolds for tissue engineering and modeling, to reflect the recent advances in the field of bioprinting
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Biomaterial-based Additive Manufacturing in Tissue Engineering and Regeneration

Biomaterial-based Additive Manufacturing in Tissue Engineering and Regeneration

Springer International Publishing AG
2025
sidottu
Biomaterials are substances that are engineered to interact with biological systems for medical and therapeutic purposes. Biomaterial-based additive manufacturing in tissue engineering is a rapidly evolving ­ field with ongoing research and development. As technology advances, it is likely to play a pivotal role in the development of regenerative medicine and personalized healthcare. Biomaterial-based additive manufacturing, also known as 3D bioprinting utilizing biodegradable or bioavailable polymeric materials, is a cutting-edge technology with great potential and promise for tissue engineering and regeneration. This innovative approach combines biomaterial or engineered biomaterials with precise or customized printing to develop a complex three-dimensional structure that mimics the architecture and functionality of native tissues. An important aspect in development of 3D printed products for tissue engineering or regeneration is selection of biomaterials, development of bio inks using those biomaterials, cell integration, customization, vascularization, and biodegradability of the product. Although 3D bioprinting has shown promise in various applications with potential to revolutionize organ transplantation and tissue engineering, there are several challenges such as ensuring proper vascularization, improving the mechanical properties of printed products, and addressing regulatory aspects with ethical consideration. Therefore, in this book emphasis on tissue engineering and regeneration will be presented, which is an interdisciplinary ­ field that aim to restore, repair, or replace damaged or lost biological tissues. Moreover, chapters inform on recent shift in research that indicates a customized fabrication of biodegradable products, the future of tissue engineering and regeneration.
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Sustainable Scaffolds-based Strategies in Tissue Engineering and Regenerative Medicine

Sustainable Scaffolds-based Strategies in Tissue Engineering and Regenerative Medicine

Springer International Publishing AG
2025
sidottu
This book aims to provide a concise overview on the relevant research dealing with the design and fabrication methods of novel scaffolds, considering not only the technological challenges, but also the increasingly important sustainability issues. In this context, the vast options of sustainable biomaterials and eco-friendly/green methods for biomaterials synthesis and scaffold’s processing techniques are discussed. Importantly, the recent developments in the field of scaffolds-based strategies for tissue engineering and regenerative medicine applications are also provided. In brief, the book is divided into three main sections comprising 15 chapters, as follows: I - Sustainable scaffold techniques and designs in tissue engineering; II - Natural materials and eco-wastes used as sacrificial templates; and III - Biomedical applications. It will also provide a concluding section about the Editor’s opinion on the current achievements and future directions of the field. This book includes the contribution of leading and multidisciplinary experts, which will provide a in depth discussion on sustainable scaffolds for biomedical applications, thus serving as an up-to-date reference for a new generation of multidisciplinary students and researchers which aim to consider the sustainability dimension in their research activities.
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Recent Developments and Applications in Tissue Mechanics and Tissue Engineering

Recent Developments and Applications in Tissue Mechanics and Tissue Engineering

MDPI AG
2022
sidottu
Tissue mechanics and tissue engineering are multidisciplinary and interconnected fields that are studied at multiple scales by integrating knowledge in biology, solid mechanics, fluid dynamics, finite element modeling, imaging, electronics, automation, and design. Experimental, computational, and combined approaches are often used to investigate the structure-function relationships in tissues and to understand how their mechanics and biological pathways are altered in injury, disease, or regeneration.The objective of this Special Issue is to present recent methods for the investigation of tissue mechanics and tissue engineering or for combined research between the two fields.
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Molecular Advances in Dental Pulp Tissue Engineering

Molecular Advances in Dental Pulp Tissue Engineering

MDPI AG
2023
sidottu
The dental pulp, surrounded by the barriers of enamel, dentin and cementum, has several functions. It senses thermal and mechanical stimuli, defends against invading microorganisms and supports root development in young patients. Loss of dental pulp due to caries or trauma requires root canal treatment with synthetic materials. Recent advances in regenerative medicine and tissue engineering aim to restore the dentin-pulp complex using stem cells, growth factors and tailored scaffolds to achieve biological regeneration within the root canal. This Special Issue highlights scientific advances in pulp regeneration, bridging the gap between research and clinical application.
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Polymer Materials for Drug Delivery and Tissue Engineering

Polymer Materials for Drug Delivery and Tissue Engineering

MDPI AG
2023
sidottu
This reprint, devoted to the topic of "Polymer Materials for Drug Delivery and Tissue Engineering", gathers a multidisciplinary collection of articles that merge the knowledge and expertise of worldwide researchers who present their latest research in the field of polymer-based materials. This reprint brings together articles that report original research on the design and synthesis of novel drug delivery systems and scaffolds or highlight insights into polymer interactions.
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Innovations in Molecular Mechanisms and Tissue Engineering

Innovations in Molecular Mechanisms and Tissue Engineering

Birkhauser Verlag AG
2016
sidottu
This book marries stem cell biology, tissue engineering, and regenerative biology into a single, interdisciplinary volume. The chapters also explore embryonic stem cells, induced pluripotent stem cells, cardiovascular regeneration, skeletal development, inflammation, polymeric biomaterials, neural injury, cartilage regeneration, regeneration in ambystoma, models for regeneration using salamander and zebrafish, and more. The volume also discusses recent advances and their potential in developing future therapies. Innovations in Molecular Mechanisms and Tissue Engineering combines perspectives from the biomedical, bioengineering, and medical fields to present a cutting-edge, multifaceted picture of the tissue engineering and regenerative medicine fields. This installment of Springer’s Stem Cell Biology and Regenerative Medicine series is ideal for scientists, clinicians, and researchers in the fields of stem cell biology, regenerative medicine, biomedical engineering, and tissue engineering.
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Innovations in Molecular Mechanisms and Tissue Engineering

Innovations in Molecular Mechanisms and Tissue Engineering

Birkhauser Verlag AG
2018
nidottu
This book marries stem cell biology, tissue engineering, and regenerative biology into a single, interdisciplinary volume. The chapters also explore embryonic stem cells, induced pluripotent stem cells, cardiovascular regeneration, skeletal development, inflammation, polymeric biomaterials, neural injury, cartilage regeneration, regeneration in ambystoma, models for regeneration using salamander and zebrafish, and more. The volume also discusses recent advances and their potential in developing future therapies. Innovations in Molecular Mechanisms and Tissue Engineering combines perspectives from the biomedical, bioengineering, and medical fields to present a cutting-edge, multifaceted picture of the tissue engineering and regenerative medicine fields. This installment of Springer’s Stem Cell Biology and Regenerative Medicine series is ideal for scientists, clinicians, and researchers in the fields of stem cell biology, regenerative medicine, biomedical engineering, and tissue engineering.
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