Instructive Graphene Oxide Biomaterials for Neural Tissue Engineering
Author: John Richard Brewster
Publisher:
Published: 2021
Total Pages:
ISBN-13:
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Biomaterials for Neural Tissue Engineering
Author: Oguzhan Gunduz
Publisher: Elsevier
Published: 2023-04-18
Total Pages: 482
ISBN-13: 0323906745
DOWNLOAD EBOOKBiomaterials for Neural Tissue Engineering covers a range of materials and technologies used for regenerating or repairing neural tissue. With a strong focus on biomaterials and scaffolds, the book examines the testing and evaluation pathway for in-vitro and in-vivo testing trials. This book introduces the reader to the fundamentals of the nervous system from a tissue engineering perspective and goes on to describe contemporary technologies used in the development of neural repair materials, as well as currently available biomaterials suitable for neural tissue repair and regeneration. This detailed reference is ideal for those who are new to using biomaterials in tissue engineering, particularly those interested in the nervous system, including academics and early career researchers in the fields of materials science, regenerative medicine, biomedical engineering and clinical sciences. Provides readers entering the field with a core introduction to neural tissue engineering processes and real-world applications Comprehensively examines a variety of biomaterial approaches Discusses the most current in-vitro and in-vivo testing and their importance in treating nervous system disorders Details a broad range of natural and synthetic biomaterials used to engineer neural tissue
Handbook of Graphene
Author: Sulaiman Wadi Harun
Publisher: John Wiley & Sons
Published: 2019-06-12
Total Pages: 344
ISBN-13: 1119469783
DOWNLOAD EBOOKThe seventh volume in a series of handbooks on graphene research and applications The Handbook of Graphene, Volume 7: Biomaterials presents an overview of various graphene research initiatives and specific biomedical applications, where the properties of graphene are used differently. The book shares information on how graphene and graphene-based materials are utilized for the following types of applications: bio-targeting; medical and biomedical; drug delivery; antibacterial; and biological, biosensing and bioimaging. Topics covered include the role of graphene-based materials in: regenerative medicine; resistive memories and transistors; and implants in biomedicine. The impact of graphene-based biomaterials on biomedical applications is discussed, as are graphene-based systems in the delivery of therapeutics to the brain and central nervous system.
Engineering Biomaterials for Neural Applications
Author: Elisa López-Dolado
Publisher: Springer Nature
Published: 2022-03-25
Total Pages: 327
ISBN-13: 3030814009
DOWNLOAD EBOOKThis book describes past and present advances in engineering materials for neural applications, with special emphasis on their usefulness for traumatic brain and spinal cord injuries. The book presents major physio-pathological features of traumatic injuries at the brain and spinal cord as examples of diseases hampering the central nervous tissue. By incorporating knowledge from the perspective of experts with diverse backgrounds, this book gives insight into the understanding of these multifaceted pathologies and the materials science approaches that aim to cure them. The interdisciplinary nature of this book makes it a perfect candidate for the interest of a broad audience, from clinicians working on neural diseases to scientists whose work focuses on the nervous tissue (neuroscientists) and/or materials science. Undergraduate and PhD students can also benefit from the knowledge and discussion included in this book.
Multifaceted Biomedical Applications of Graphene
Author: Dong-Wook Han
Publisher: Springer Nature
Published: 2022-02-17
Total Pages: 264
ISBN-13: 9811649235
DOWNLOAD EBOOKThis 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.
Modifications of Graphene Oxide-based composites biomaterial promote human Wharton’s Jelly derived Mesenchymal Stem Cells. Functionalization and characterization
Author: Y. Umul Hanim
Publisher: GRIN Verlag
Published: 2017-12-08
Total Pages: 29
ISBN-13: 3668590052
DOWNLOAD EBOOKResearch Paper (postgraduate) from the year 2017 in the subject Biology - Miscellaneous, grade: 3.00, , course: biotechnology, language: English, abstract: The successful in developing a straightforward preparative route in biomaterial composite fabrication with the great promising Umbilical Cord Matrix derived mesenchymal stem cells (MSCs) known as Wharton’s Jelly also well known as fetal MSC. WJMSC has been created a reliable modernist and briskest innovative research method especially in manipulation of Graphene Oxide (GO) as a new biomaterials loaded with an ample advantages in regard of synthetic materials that applicable for a replacement or regenerating a living system. Bio-interface in mesenchymal stem cell certainly brighten the hope of all stripes scientist researchers in aspiration of biomaterial application whilst can impact the benefit in the fields of biomedical, biotechnology, bioengineering, pharmacology and biosensors yet the finding remain a number of challenges in the fast-growing field. The purpose of this review, we enumerated the key aspect an earmark that will be focused on GO functionalization, and GO-WJMSC characterization, accordingly to GO-WJMSC application in enhanced the proliferation, and multipotency for a brighter future potential of GO-stem cells applicability.
Graphene-based Materials in Health and Environment
Author: Gil Gonçalves
Publisher: Springer
Published: 2016-12-10
Total Pages: 358
ISBN-13: 3319456393
DOWNLOAD EBOOKThis 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.
Properties of Hydrogels Incorporating Graphene Oxide-based Nanoparticles for Tissue Engineering Purposes
Author: Louis Cheung
Publisher:
Published: 2016
Total Pages: 82
ISBN-13:
DOWNLOAD EBOOKTissue 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.
Engineering Biomaterials for Neural Applications
Author: Elizabeth Nance
Publisher: Springer Nature
Published: 2022-10-28
Total Pages: 354
ISBN-13: 3031114094
DOWNLOAD EBOOKThis contributed volume explores the ways in which researchers engineer new biomaterials for the challenging problems of the peripheral and central nervous systems. These biomaterials are uniquely positioned for use in creating in vitro models of injury and disease, testing therapeutic treatments, understanding neural development, and mapping the multi-scalar environment of the brain. This book informs readers from biology, chemistry, materials science, engineering, and neuroscience on cutting edge research in engineering technologies, from fundamental material development through pre-clinical studies. The book also highlights target applications in three areas of research: (1) engineering neural models and materials, (2) probing biological underpinnings of neurological function and disease, and (3) designing therapeutic and diagnostic treatments for neurological disease.
Engineering Materials for Stem Cell Regeneration
Author: Faheem A. Sheikh
Publisher: Springer Nature
Published: 2021-10-23
Total Pages: 709
ISBN-13: 9811644209
DOWNLOAD EBOOKThis book reviews the interface of stem cell biology and biomaterials for regenerative medicine. It presents the applications of biomaterials to support stem cell growth and regeneration. The book discusses the stem cell interactions’ with nanofiber, gradient biomaterial, polymer- and ceramic biomaterials, integrating top-down and bottom-up approaches, adhesive properties of stem cells on materials, cell-laden hydrogels, micro-and nanospheres, de-cellularization techniques, and use of porous scaffolds. Further, this book provides a basic introduction to the fabrication techniques for creating various biomaterials that can be used for stem cell differentiation. It also elucidates the properties of stem cells, their characteristic features, tissue culture technology, properties of pluripotency, osteogenesis, and biomaterial interaction with de-cellularized organs, cell lineage in vivo and in vitro, gene expression, embryonic development, and cell differentiation. Further, the book reviews the latest applications of bio-instructive scaffold for supporting stem cell differentiation and tissue regeneration. The book also presents stem cell for dental, alveolar bone and cardiac regeneration. Lastly, it introduces engineered stem cells for delivering small molecule therapeutics and their potential biomedical applications.
