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Integration of Biomaterials for Gene Therapy

Author: Rishabha Malviya

Publisher: John Wiley & Sons

Published: 2023-11-14

Total Pages: 468

ISBN-13: 139417473X

INTEGRATION OF BIOMATERIALS FOR GENE THERAPY Brings industrial practitioners and researchers together to discuss how the deeper integration of biomaterial platforms could play a significant role in enabling breakthroughs in the application of gene editing for the treatment of human disease. This book comprises research and review articles from leading researchers with multidisciplinary experience. It discusses many broad topics, including nanoparticle-enabled gene therapy, inorganic nanocarrier-based gene delivery, non-viral delivery of nucleic acid, biocompatible hydrogels, silk, and polysaccharides-based gene delivery. Other gene delivery topics discussed include the use of smart and engineered biomaterials, combined therapy with growth factors and cell transportation, and the prospects and challenges in the treatment of different diseases, including cancer. This book bridges the knowledge of pharmaceutics, engineering, basic science, and clinical research fields in a way that will help the research community expedite the clinical application of these therapies for various diseases and conditions. Audience A broad range of researchers, scientists, and engineers in diverse fields such as materials science, biomedicine, biomedical engineering, biology, chemistry, physics, biotechnology, pharmacology, toxicology, and formulation scientists.

Integrated Biomaterials Science

Author: Rolando Barbucci

Publisher: Springer Science & Business Media

Published: 2007-05-08

Total Pages: 1048

ISBN-13: 0306475839

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Integrated Biomaterials Science provides an intriguing insight into the world of biomaterials. It explores the materials and technology which have brought advances in new biomaterials, highlighting the way in which modern biology and medicine are synergistically linked to other key scientific disciplines-physics, chemistry, and engineering. In doing so, Integrated Biomaterials Science contains chapters on tissue engineering and gene therapy, standards and parameters of biomaterials, applications and interactions within the industrial world, as well as potential aspects of patent regulations. Integrated Biomaterials Science serves as a comprehensive guide to understanding this dynamic field, yet is designed so that chapters may be read and understood independently, depending on the needs of the reader. Integrated Biomaterials Science is attractive to a broad audience interested in a deeper understanding of this evolving field, and serves as a key resource for researchers and students of biomaterials courses, providing all with an opportunity to probe further.

Engineering Substrate-mediated Gene Delivery

Author: Tatiana Segura

Publisher:

Published: 2004

Total Pages:

ISBN-13:

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Integration of gene therapy and biomaterials can be used to stimulate tissue regeneration by directing the actions of progenitor cells, either endogenous or transplanted. The scaffold, typically a biodegradable and biocompatible polymeric structure, must function to provide the cells with the mechanical support required for growth and with the biochemical signals to guide tissue regeneration. Delivering DNA encoding for biologically active proteins within the scaffold is a versatile approach to guide tissue regeneration that can target most cellular processes. However, systems for efficient and controlled DNA delivery and expression by cells, a process termed transfection, remain to be developed. A novel DNA delivery strategy, termed substrate-mediated delivery, that enhances and localizes transfection from a biomaterial was developed. First, a strategy to deliver DNA by immobilization to a cell adhesive substrate was developed. In this approach, DNA is complexed with a cationic polymer to alter the surface charge density, reduce the effective hydrodynamic radius, and protect against degradation. The resulting DNA/cationic polymer complex is then immobilized to the substrate by two mechanisms: (i) tethering using the neutravidin-biotin interaction and (ii) electrostatic using an ionic bond between the negatively charged surface and the positively charged complex. Using neutravidin modified polystyrene substrates, where immobilization by electrostatic interactions is limited, efficient transfection represented a balance between binding and release of the complex. Transfection by the DNA modified polystyrene substrates produced 100-fold higher expression than through bolus delivery of DNA, the traditional approach. Second, hydrogels composed of hyaluronic acid and collagen were developed as the cell adhesive substrate to translate the system to in vivo applications. These hydrogels are biodegradable and can be topographically patterned to guide cell growth. In vivo implantation of the hydrogels in a rabbit ear wound healing model enhanced healing. Finally, transfections mediated by complexes immobilized to the hydrogel resulted in up to 48% of NIH/3T3 cells expressing the transgene, and with expression spatially regulated along the topographical pattern. The delivery of DNA from a biocompatible and biodegradable hydrogel can enhance the applicability of non-viral gene delivery to tissue engineering applications.

Tissue Engineering And Novel Delivery Systems

Author: Michael J. Yaszemski

Publisher: CRC Press

Published: 2003-11-04

Total Pages: 660

ISBN-13: 9780203913338

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Essential to anyone working in the field, this reference focuses on latest advancements in tissue construction, repair and regeneration focusing on developments in gene and drug therapy, the evolution of tissue-engineered products, and new technologies for the design of functional tissues and organ systems.

Mineral-based Biomaterials for Non-viral Gene Therapies

Author: Andrew Salim Khalil

Publisher:

Published: 2017

Total Pages: 258

ISBN-13:

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Gene delivery offers the promise for treatments of numerous clinical conditions currently considered untreatable via the introduction of exogenous nucleic acids to cells in vivo. Examples of these potential treatments include germ-line genome corrections, somatic corrections of deficient genes via either gene supplementation or gene editing and correction, as well as controlling expression of therapeutic proteins in situ. Gene delivery for controlling expression of therapeutic proteins has the advantages of high specificity as well as adaptability due to its programmable nature. However, gene delivery faces several challenges and limitations that have, to date, prevented any significant clinical adoption of gene therapies. These limitations primarily surround issues of safety and efficacy of gene transfer in vivo. In this thesis, we first review different gene delivery technologies and their advantages and disadvantages for different applications. We follow this with primary research detailing the development of a novel non-viral gene delivery technology based on mineral coatings applied to microparticles for delivery of messenger RNA (mRNA). The approach taken here leverages the innate biomolecule stabilizing properties of these mineral coatings to complement the innate advantages of mRNA delivery relative to DNA, while obviating key disadvantages. Specifically, we develop mineral-coated microparticles for mRNA delivery to overexpress therapeutic proteins in vivo, and demonstrate the effectiveness in two murine chronic wound models.

Biomaterials for Delivery and Targeting of Proteins and Nucleic Acids

Author: Ram I. Mahato

Publisher: CRC Press

Published: 2004-12-28

Total Pages: 708

ISBN-13: 0203492323

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Newcomers to the field of biopharmaceuticals require an understanding of the basic principles and underlying methodology involved in developing protein- and nucleic acid-based therapies for genetic and acquired diseases. Biomaterials for Delivery and Targeting of Proteins and Nucleic Acids introduces the principles of polymer science and che

Polymers and Nanomaterials for Gene Therapy

Author: Ravin Narain

Publisher: Woodhead Publishing

Published: 2016-01-09

Total Pages: 303

ISBN-13: 0081005210

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Polymers and Nanomaterials for Gene Therapy provides the latest information on gene therapy, a topic that has attracted significant attention over the past two decades for the treatment of inherited and acquired genetic diseases. Major research efforts are currently focused on designing suitable carrier vectors that compact and protect oligonucleotides for gene therapy. The book explores the most recent developments in the field of polymer science and nanotechnology, and how these advancements have helped in the design of advanced materials. Non-viral vector systems, including cationic lipids, polymers, dendrimers, peptides and nanoparticles, are potential routes for compacting DNA for systemic delivery. However, unlike viral analogues that have no difficulty in overcoming cellular barriers and immune defense mechanisms, non-viral gene carriers consistently exhibit significant reduced transfection efficiency due to numerous extra- and intracellular obstacles. Therefore, biocompatibility and potential for large-scale production make these compounds increasingly attractive for gene therapy. This book contains chapters on the engineering of polymers and nanomaterials for gene therapy, and how they can form complexes with DNA and avoid both in vitro and in vivo barriers. Other chapters describe in vitro, ex vivo, in vivo gene therapy studies, and the current issues affecting non-viral gene therapy. Explores current challenges in the research of genetic diseases Discusses polymers for gene therapy and their function in designing advanced materials Provides examples of organic and inorganic nanomaterials for gene therapy Includes labeling, targeting, and assays Looks at characterization, physico-(bio)chemical properties, and applications

Tissue Engineering, Stem Cells, and Gene Therapies

Author: Y. Murat Elçin

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 334

ISBN-13: 146150063X

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Recent years have seen an upsurge of significant interest in cell-based technologies. A range of productive and lively debate have taken place relating to tissue engineering, namely the construction of tissues and whole organs using molecularly-designed resorbable biomaterials to create tissue de novo, the potential use of human embryonic stem cells for transplantation and regenerative medicine, with similar potential for adult-derived stem cells, and gene therapy, in relation to cell transplantation. New findings in biomimetic materials, cell signalling pathways, extracellular matrix receptors and ligands, growth factors, and the human genome project, all present particularly motivating sources for the development of research in the evergrowing biomedical field. The purpose of this book is to stimulate further the work in biomedicine and to make the issues of related scientific disciplines accessible to a wider readership by characterising the current state of research in the biomedical field. The lectures and a selection of the presentations from BlOMED 200- th The 9 International Symposium on Biomedical Science and Technology, held in September 2002 in Turkey- constitute the basis for the volume. Tissue engineering, stem cells, cell and gene therapies were the major topics presented and discussed in the symposium. This book is intended to serve as an up-to-date synopsis of the major developments of our area through the work reflected in BlOMED 2002, though not covering all aspects of the topics, due to the natural restrictions within a volume of this kind.

Biomaterials Science

Author: Yitzhak Rosen

Publisher: CRC Press

Published: 2012-06-06

Total Pages: 330

ISBN-13: 1439804052

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"This book is essential when designing, developing and studying biomedical materials. provides an excellent review-from a patient, disease, and even genetic point of view-of materials engineering for the biomedical field. This well presented book strongly insists on how the materials can influence patients' needs, the ultimate drive for biomedic

Emerging Trends in Cell and Gene Therapy

Author: Michael K. Danquah

Publisher: Springer Science & Business Media

Published: 2013-06-14

Total Pages: 712

ISBN-13: 162703417X

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Examples from various organs and diseases illustrate the potential benefit obtained when both therapeutic approaches are combined with delivery strategies. Representing the combined effort of several leading international research and clinical experts, this book, Emerging Trends in Cell and Gene Therapy, provides a complete account on and brings into sharp focus current trends and state-of-the-art in important areas at the interface of cell- and gene-based therapies. This book addresses the current fragmented understanding regarding these two research areas and fills the vast unmet educational need and interest of both students and researchers in academia and industry. Main features of the book: · Biological aspects of stem cell sources, differentiation and engineering. · Application of microfluidics to study stem cell dynamics · Potential clinical application of stem cells and gene therapy to specific human disease. · Utilization of biomaterials and stem cells in regenerative medicine with particular emphasis on spinal cord repair, ligament and bone tissue engineering. · Biomimetic multiscale topography for cell alignment.