Properties of Hydrogels Incorporating Graphene Oxide-based Nanoparticles for Tissue Engineering Purposes
Properties of Hydrogels Incorporating Graphene Oxide-based Nanoparticles for Tissue Engineering Purposes

Author: Louis Cheung

Publisher:

Published: 2016

Total Pages: 82

ISBN-13:

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Tissue engineering involves designing and fabricating scaffolds for tissue regeneration and replacement. Much research has focused on identifying the key factors that affect scaffold performance and the necessary material properties. Nanotechnological approaches have been applied towards tissue engineering and the development of novel biomaterials for scaffold fabrication, such as the incorporation of nanomaterials to supplement the properties of traditional materials. The current work involves the synthesis of graphene oxide (GO) decorated with magnetite nanoparticles to impart magnetic properties to GO, intended for providing anisotropic mechanical reinforcement in hydrogels. Co-precipitation and thermal decomposition were explored as synthesis routes, suggesting that co-precipitation yielded colloidally stable nanoparticles while thermal decomposition yielded magnetite with better crystallinity. The synthesized GO decorated with magnetite, GO-Fe3O4, was incorporated into alginate hydrogels and the mechanical properties were explored. It was shown that GO and GO-Fe3O4 enhanced hydrogel stiffness to similar extents. Due to its rigid nature, hydrogels incorporating GO-Fe3O4 tended to fracture at lower strains. Anisotropic alignment and mechanical reinforcement could not be demonstrated due to the synthesized GO-Fe3O4 having insufficient magnetic response. As another strategy to enhancing the mechanical properties of hydrogels, GO was covalently attached to alginate polymer chains (GO-EDA-alginate). Mechanical tests indicated that GO-EDA-alginate does not increase the stiffness of the hydrogel, but enhances the toughness, which can be due to improved interactions between GO and the polymer phase, leading to better energy dissipation. Finally, the use of alginate as a scaffold material was explored by investigating cell viability. It was shown that the crosslinking process was cytotoxic, although modifications to the protocol could alleviate the problem, in part. The current work demonstrates the use of GO-based nanoparticles as reinforcing nanofillers which could be extended to polymer systems beyond alginate. It is anticipated that magnetic ordering can lead to anisotropic material properties, such as mechanical properties and electrical conductivity. This material could also find application in providing mechanical stimulation to cultured cells via application of an external magnetic field.

Multifaceted Biomedical Applications of Graphene
Multifaceted Biomedical Applications of Graphene

Author: Dong-Wook Han

Publisher: Springer Nature

Published: 2022-02-17

Total Pages: 264

ISBN-13: 9811649235

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This book explains the fundamental characteristics and biofunctionality of graphene-based nanomaterials and provides up-to-date information on the full range of their biomedical applications. An introductory section gives an overview of the chemical composition and physical properties of graphene and its derivatives as well as their potential toxicity and biosafety. Detailed attention is then devoted to the potential of multifunctional graphene-based nanomaterials (MFGNs) to direct the differentiation of stem cells into specific lineages and induce tissue regeneration. Here, individual chapters address the application of MFGNs for the purposes of neurogenesis, osteo- and chrondrogenesis, myogenesis, and wound healing. Subsequent sections focus on the capability of MFGNs as agents for drug delivery, bioimaging, theranostics, and therapeutics as well as their effectiveness as biomimetic platforms for nanobiosensors, biochips, medical devices, and dental applications. The book will be essential reading for graduate students, scientists, and engineers in any of the biomedical research fields in which efforts are being made to utilize novel MFGN-incorporated composite materials and develop functional devices based on them.

Functional Nanocomposite Hydrogels
Functional Nanocomposite Hydrogels

Author: Anuj Kumar

Publisher: Elsevier

Published: 2023-06-22

Total Pages: 617

ISBN-13: 0323996396

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Functional Nanocomposite Hydrogels: Synthesis, Characterization, and Biomedical Applications reviews how the unique properties of nanoscale composite materials make them ideal candidates for use in biomedical hydrogels. The book covers a range of key nanocomposite materials for use in biomedical hydrogels, including graphene quantum dot, cellulose and collagen nanocomposites. A wide selection of biomedical applications for functional nanocomposite hydrogels is explored, from drug delivery and cancer therapy, to wound healing and bioimaging. This is a key reference for those working in the fields of biomaterials, nanotechnology, pharmacology, biomedical engineering, and anyone with a particular interest in composites and hydrogels. To improve the properties of conventional hydrogels, nanoparticles or nanostructures are incorporated into the hydrogel networks, forming a composite hydrogel with specialized functional properties which are tailored to a specific biomedical application. Reviews the benefits and challenges of nanocomposites as novel materials in biomedical hydrogels, providing the reader with a wider range of choice and improved options for hydrogel development Describes the synthesis and characterization of nanocomposite hydrogels, offering end-to-end analysis of the process Details the range of applications in biomedicine for nanocomposite hydrogels, including biosensing, antimicrobics and drug delivery

Chitosan-Based Hydrogels
Chitosan-Based Hydrogels

Author: Kangde Yao

Publisher: CRC Press

Published: 2016-04-19

Total Pages: 492

ISBN-13: 1439821151

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Due to their unique properties, chitosan-based materials have emerged as useful resources in a variety of medicines, drug controlled-release carriers, tissue engineering scaffolds, and immobilized enzymes. But many of these materials have yet to reach the commercial market. Therefore, more work must be completed to fill the gap between research and

Hydrogels for Tissue Engineering and Regenerative Medicine
Hydrogels for Tissue Engineering and Regenerative Medicine

Author: J. Miguel Oliveira

Publisher: Academic Press

Published: 2023-09-29

Total Pages: 851

ISBN-13: 0128242256

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Hydrogels for Tissue Engineering and Regenerative Medicine: From Fundaments to Applications provides the reader with a comprehensive, concise and thoroughly up-to-date resource on the different types of hydrogels in tissue engineering and regenerative medicine. The book is divided into three main sections that describe biological activities and the structural and physicochemical properties of hydrogels, along with a wide range of applications, including their combination with emerging technologies. Written by a diverse range of international academics for professionals, researchers, undergraduate and graduate students, this groundbreaking publication fills a gap in literature needed in the tissue engineering and regenerative medicine field. Reviews the fundamentals and recent advances of hydrogels in tissue engineering and regenerative medicine applications Presents state-of-the-art methodologies for the synthesis and processing of different types of hydrogels Includes contributions by leading experts in engineering, the life sciences, microbiology and clinical medicine

Nano Hydrogels
Nano Hydrogels

Author: Jiya Jose

Publisher: Springer Nature

Published: 2021-01-04

Total Pages: 304

ISBN-13: 9811571384

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This book introduces the reader to important aspects of the nano-hydrogels. It covers the development of hydrogels and their biology, chemistry and properties. Focus is also given to innovative characterization techniques and advances in structural design, with special emphasis on molecular structure, dynamic behavior and structural modifications of hydrogels. This book serves as a consolidated reference work for the diverse aspects of hydrogels, creating a valuable resource for students and researchers in academia and industry.

Extrusion Bioprinting of Scaffolds for Tissue Engineering Applications
Extrusion Bioprinting of Scaffolds for Tissue Engineering Applications

Author: Daniel X. B. Chen

Publisher: Springer

Published: 2018-12-13

Total Pages: 171

ISBN-13: 3030034607

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This book introduces readers to the theory and practice of extrusion bio-printing of scaffolds for tissue engineering applications. The author emphasizes the fundamentals and practical applications of extrusion bio-printing to scaffold fabrication, in a manner particularly suitable for those who wish to master the subject matter and apply it to real tissue engineering applications. Readers will learn to design, fabricate, and characterize tissue scaffolds to be created by means of extrusion bio-printing technology.

Graphene-based Materials in Health and Environment
Graphene-based Materials in Health and Environment

Author: Gil Gonçalves

Publisher: Springer

Published: 2016-12-10

Total Pages: 358

ISBN-13: 3319456393

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This book provides a comprehensive overview of the potential use of graphene-based materials in two important societal areas: medicine and the environment. It discusses how new graphene-based materials can be creatively used for biological purposes, for example as delivery vehicles for diagnostics or therapeutics, ultrasensitive sensors, smart responsive substrates for artificial-tissue design and biomarkers. Moreover, it presents new insights into their use as sorbent or photocatalytic materials for environmental decontamination in water and gas-phase desalination membranes and as sensors for contaminant monitoring, giving relevance to the current discussions on the possible toxicological effects of graphene-based materials.

Multifunctional Hydrogels
Multifunctional Hydrogels

Author: José García-Torres

Publisher: CRC Press

Published: 2024-04-19

Total Pages: 413

ISBN-13: 1040009999

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Hydrogels are important polymer-based materials with innate fascinating properties and applications: they are three-dimensional, hydrophilic, polymeric networks that can absorb large amounts of water or aqueous fluids and are biocompatible, mechanically flexible, and soft. The incorporation of functionalities to develop smart and bioactive platforms has led to a myriad of applications. This book offers a comprehensive overview of multifunctional hydrogels, covering fundamentals, properties, and advanced applications in a progressive way. While each chapter can be read stand-alone, together they clearly describe the fundamental concepts of design, synthesis, and fabrication, as well as properties and performances of smart multifunctional hydrogels and their advanced applications in the biomedical, environmental, and robotics fields. This book: • Introduces readers to different hydrogel materials and the polymer types used to fabricate them. • Discusses conducting polymer hydrogels, nanocomposite hydrogels, and self-healing hydrogels. • Covers synthesis methodologies and fabrication techniques commonly used to confer certain structures and/or architectures. • Shows how hydrogels can be modified to incorporate new functionalities able to respond to physical and/or chemical changes. • Examines applications including bioelectronics, sensors and biosensors, tissue engineering, drug delivery, antipathogen applications, cancer theranostics, environmental applications, and soft robotics, with chapters showcasing the main advances achieved up to date in every field. Multifunctional Hydrogels: From Basic Concepts to Advanced Applications serves as a valuable resource for academic and industry researchers from interdisciplinary fields including materials science, chemistry, chemical engineering, bioengineering, physics, and pharmaceutical engineering.

Hydrogels
Hydrogels

Author: Shahid Ali Khan

Publisher: Walter de Gruyter GmbH & Co KG

Published: 2024-01-29

Total Pages: 185

ISBN-13: 3111334228

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With the advancement in medicinal chemistry and material science, several highly specific, biocompatible and non-toxic therapeutic agents have been discovered and successfully applied for various clinical applications. Many of the conventional constraints of clinical therapies have been replaced and overcome by the multifaceted applications of material science and nanotechnology. Recently, material science-based therapeutic agents are the major global pharmaceutical market and are believed to mount exponentially shortly. Among the various therapeutic agents, hydrogels are one of the most widely applied materials used in the treatment of various diseases, and one of the most diverse materials that are used for multipurpose applications. Hydrogels were the first biomaterials used for Human being. Hydrogels are polymeric linkages, water-insoluble, however, sometimes established as a colloidal gel in water. Hydrogels are the superabsorbent materials because it can absorb more than 90% water, and hence regarded as natural living tissue. Mechanically strong hydrogels were synthesized by the advent of new synthetic strategies. Owing to the swollen properties, three-dimensional polymer network, and strong mechanical characteristics, these are widely used in catalysis, adsorption, drug delivery systems for proteins, contact lenses, wound dressings, wound healing, bone regeneration, tissue engineering, baby diapers, food rheology, and many others. Due to their diverse applications, hydrogels are considered one of the smartest materials in pharmaceutics, and are eco-friendly materials, cheap, and have good recyclability. They are used as therapeutic agents in different health sectors. As they are very sensitive to target, therefore it is considered favorite and preferred choice in biomedical sectors. Patients are psychologically scared of surgeries regarding huge expenses and failure. So researchers are working on hydrogels as alternative surgical replacement. In most cases, they have successfully achieved research on hydrogels in bones and tissues repairment. It might be hope of life for serious patients in future. The domain of this work will cover state of the art potentials and applications in various technological areas.