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Author: Yoon Kyung Kim Publisher: ISBN: 9781303444975 Category : Languages : en Pages : 111
Book Description
The foreign body response to biomaterial implants has been a major challenge in translating many medical devices into the clinic. The presence of inflammatory cells around the implanted device prevents its functional interaction with the surrounding tissue, and although some inflammation may be desirable to mediate the healing process, a persistent inflammatory response will eventually lead to device failure. Significant efforts to reduce foreign body response have been largely focused on developing hydrophilic and anti-fouling coating materials, however, simply preventing protein adsorption and immune cell adhesion has only had moderate success at reducing inflammation in vivo. In this thesis, we describe a novel approach to mitigate the foreign body response, whereby materials are designed to mimic host tissue by displaying endogenously expressed immunomodulatory molecules that interact with specific inhibitory receptors expressed on immune cells. More specifically, biomaterial surfaces are coated with the recombinantly produced immunomodulatory molecule, CD200, which interacts with the inhibitory receptor CD200R on myeloid cells, preventing material-induced host response by suppressing activation of infiltrated myeloid cells. In Chapter One, a brief introduction and background information is presented, followed by a description of the production and purification of recombinant CD200 protein from both mammalian cells and bacterial cells in Chapter Two. In Chapter Three, we examine whether immobilization of CD200 onto polystyrene surfaces influences on suppressing the activation of macrophages. We found that CD200 indeed suppresses the release of inflammatory mediators secreted by macrophage cells in vitro, and elicited less inflammation in vivo when compared to uncoated materials after subcutaneous implantation. In Chapter Four, we examine whether CD200 influences tissue regeneration after spinal cord injury. CD200-embedded fibrin gel was implanted to spinal cord injured mice, and the effect of CD200 on inflammation and regenerative process was examined. Lastly, Chapter Five concludes the work performed in this Ph.D. study and presents future directions. This work suggests that coating of endogenously expressed immunomodulatory proteins can be used as a strategy to reduce inflammatory response to biomaterials and may potentially be generalized to implants throughout the body.
Author: Yoon Kyung Kim Publisher: ISBN: 9781303444975 Category : Languages : en Pages : 111
Book Description
The foreign body response to biomaterial implants has been a major challenge in translating many medical devices into the clinic. The presence of inflammatory cells around the implanted device prevents its functional interaction with the surrounding tissue, and although some inflammation may be desirable to mediate the healing process, a persistent inflammatory response will eventually lead to device failure. Significant efforts to reduce foreign body response have been largely focused on developing hydrophilic and anti-fouling coating materials, however, simply preventing protein adsorption and immune cell adhesion has only had moderate success at reducing inflammation in vivo. In this thesis, we describe a novel approach to mitigate the foreign body response, whereby materials are designed to mimic host tissue by displaying endogenously expressed immunomodulatory molecules that interact with specific inhibitory receptors expressed on immune cells. More specifically, biomaterial surfaces are coated with the recombinantly produced immunomodulatory molecule, CD200, which interacts with the inhibitory receptor CD200R on myeloid cells, preventing material-induced host response by suppressing activation of infiltrated myeloid cells. In Chapter One, a brief introduction and background information is presented, followed by a description of the production and purification of recombinant CD200 protein from both mammalian cells and bacterial cells in Chapter Two. In Chapter Three, we examine whether immobilization of CD200 onto polystyrene surfaces influences on suppressing the activation of macrophages. We found that CD200 indeed suppresses the release of inflammatory mediators secreted by macrophage cells in vitro, and elicited less inflammation in vivo when compared to uncoated materials after subcutaneous implantation. In Chapter Four, we examine whether CD200 influences tissue regeneration after spinal cord injury. CD200-embedded fibrin gel was implanted to spinal cord injured mice, and the effect of CD200 on inflammation and regenerative process was examined. Lastly, Chapter Five concludes the work performed in this Ph.D. study and presents future directions. This work suggests that coating of endogenously expressed immunomodulatory proteins can be used as a strategy to reduce inflammatory response to biomaterials and may potentially be generalized to implants throughout the body.
Author: Stephen F. Badylak Publisher: Woodhead Publishing ISBN: 0128214562 Category : Technology & Engineering Languages : en Pages : 296
Book Description
Biomaterials have existed for millennia as mechanical replacement structures following disease or injury. Biomaterial design has changed markedly from structural support with an "inert immune profile as the primary objective to designs that elicit an integrative local tissue response and a pro-repair immune cell phenotype. Immunomodulatory Biomaterials: Regulating the Immune Response with Biomaterials to Affect Clinical Outcome offers a single, comprehensive reference on biomaterials for modulation of the host response, for materials scientists, tissue engineers and those working in regenerative medicine. This book details methods, materials and strategies designed to regulate the host immune response following surgical implantation and thus facilitate specific local cell infiltration and tissue deposition. There has been a dramatic transformation in our understanding of the role of the immune system, both innate and adaptive; these changes include recognition of the plasticity of immune cells, especially macrophages, cross-talk between the immune system and stem cells, and the necessity for in situ transition between inflammatory and regulatory immune cell phenotypes. The exploitation of these findings and the design and manufacture of new biomaterials is occurring at an astounding pace. There is currently no book directed at the interdisciplinary principles guiding the design, manufacture, testing, and clinical translation of biomaterials that proactively regulate the host tissue immune response. The challenge for academia, industry, and regulatory agencies to encourage innovation while assuring safety and maximizing efficacy has never been greater. Given the highly interdisciplinary requirements for the design, manufacture and use of immunomodulatory biomaterials, this book will prove a useful single resource across disciplines. - Holistically covers the design, manufacture, testing, and clinical translation of biomaterials that proactively regulate the host tissue immune response - Provides a single reference for understanding and utilizing the host response in biomaterials design - An international collaboration of leading researchers in the field offering a novel insight into this fast-growing area
Author: Nihal Engin Vrana Publisher: CRC Press ISBN: 1351377566 Category : Medical Languages : en Pages : 249
Book Description
The interactions of the biomaterials with the host immune system is crucial for their functionality. This book aims to provide the reader with a better understanding of the role of the immune system in biomaterial applications. For this end, the book has dedicated chapters for i) explaining immune cells taking part in immune response to biomaterials/immune systems interface; ii) the effect of biomaterial shape, form and physicochemical properties on the response of immune system; iii) biofilm formation on implanted materials as a failure of immune system/biomaterial interactions; iv) tissue-specific effects of immune response and its consequences for tissue engineering and regenerative medicine; v) immune reaction in a clinical context (periodontology). In the field of biomaterials there are significant advances in using immunomodulation techniques to improve the success rates of implantable materials. For better understanding of such techniques it is required to have a full grasp of the biomaterial–immune system interactions. This would greatly enhance the understanding of why the human body reacts to implants in a certain way and how to improve the clinical outcomes by developing immune-instructive biomaterials. Provides keen insight into biomaterial–immune cell interactions Presents an explanation of state-of-the-art methodologies in immunomodulation Offers a concise and simple-to-understand treatment of biomaterial–immune cell interactions for materials scientists in a biology heavy topic Explores a comprehensive overview of biomaterial related complications Provides extensive references at the end of each chapter to enhance study for this very hot research area
Author: Stephen F. Badylak Publisher: Academic Press ISBN: 0128005009 Category : Medical Languages : en Pages : 470
Book Description
Host Response to Biomaterials: The Impact of Host Response on Biomaterial Selection explains the various categories of biomaterials and their significance for clinical applications, focusing on the host response to each biomaterial. It is one of the first books to connect immunology and biomaterials with regard to host response. The text also explores the role of the immune system in host response, and covers the regulatory environment for biomaterials, along with the benefits of synthetic versus natural biomaterials, and the transition from simple to complex biomaterial solutions. Fields covered include, but are not limited to, orthopaedic surgery, dentistry, general surgery, neurosurgery, urology, and regenerative medicine. - Explains the various categories of biomaterials and their significance for clinical applications - Contains a range of extensive coverage, including, but not limited to, orthopedic, surgery, dental, general surgery, neurosurgery, lower urinary tract, and regenerative medicine - Includes regulations regarding combination devices
Author: Bruna Corradetti Publisher: Springer ISBN: 3319454331 Category : Technology & Engineering Languages : en Pages : 254
Book Description
This book provides a comprehensive overview of the cascade of events activated in the body following the implant of biomaterials and devices. It is one of the first books to shed light on the role of the host immune response on therapeutic efficacy, and reviews the state-of-the-art for both basic science and medical applications. The text examines advantages and disadvantages of the use of synthetic versus natural biomaterials. Particular emphasis is placed on the role of biomimicry in the development of smart strategies able to modulate infiltrating immune cells, thus reducing side effects (such as acute and chronic inflammation, fibrosis and/or implant rejection) and improving the therapeutic outcome (healing, tissue restoration). Current cutting-edge approaches in tissue engineering, regenerative medicine, and nanomedicine offer the latest insights into the role immunomodulation in improving tolerance during tissue transplant in the treatment of orthopaedic, pancreatic, and hepatic diseases. "Immune Response to Implanted Materials and Devices" is intended for an audience of graduate students and professional researchers in both academia and industry interested in the development of smart strategies, which are able to exploit the self-healing properties of the body and achieve functional tissue restoration.
Author: Amanda L. Facklam Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Biomaterials are used in a variety of therapeutics including vaccines, engineered tissues, and cell therapies. Biomaterials enable a range of functionalities such as localized delivery, sustained release, and responsiveness. In the context of cell therapies, biomaterials can protect encapsulated cells from immune attack while allowing for nutrient and oxygen exchange. While this approach holds greats potential, the immune response to biomaterials remains a major challenge to the field. Upon implantation of a material, the immune system will initiate the foreign body response, a cascade of inflammatory activity resulting in material fibrosis. For encapsulated cell therapies, biomaterial fibrosis can result in diminished cell functionality or even cell death. To address this challenge, it is critical to design biomaterials which can modulate the host immune response to mitigate fibrosis. In this thesis, we characterize the effect of biomaterial properties on immune responses after implantation. First, we describe how physical properties of alginate capsules can affect the success of encapsulated cell therapy. We find that capsules with lower permeability to IgG and higher strength enable longer encapsulated islet cures in diabetic mice. Furthermore, we show that differences in islet cure lengths were largely dependent on differential capsule immune responses. Next, we describe the effects of E9, an anti-fibrotic biomaterial coating, on macrophage behavior. We find that E9 downregulates CD86 surface expression when immobilized on a biomaterial surface. In addition, E9 downregulates the secretion of several cytokines including MCP-1 and VEGF and upregulates the secretion of IL-1[beta] from macrophages. Next, we describe our work identifying the functional protein targets of E9 to gain further insight into its mechanism of action. We find that Macrophage migration inhibitory factor and Thioredoxin bind E9 and may have roles in its anti-fibrotic activity. Through this work, we identify macrophage proteins and signaling pathways involved in the mechanism of action of E9, leading to an improved understanding of the foreign body response. Overall, by characterizing the effect of material properties on immune responses, we enable rational design of next-generation immunomodulatory biomaterials.
Author: Sang Jin Lee Publisher: Academic Press ISBN: 012802500X Category : Medical Languages : en Pages : 460
Book Description
In Situ Tissue Regeneration: Host Cell Recruitment and Biomaterial Design explores the body's ability to mobilize endogenous stem cells to the site of injury and details the latest strategies developed for inducing and supporting the body's own regenerating capacity. From the perspective of regenerative medicine and tissue engineering, this book describes the mechanism of host cell recruitment, cell sourcing, cellular and molecular roles in cell differentiation, navigational cues and niche signals, and a tissue-specific smart biomaterial system that can be applied to a wide range of therapies. The work is divided into four sections to provide a thorough overview and helpful hints for future discoveries: endogenous cell sources; biochemical and physical cues; smart biomaterial development; and applications. - Explores the body's ability to mobilize endogenous stem cells to the site of injury - Details the latest strategies developed for inducing and supporting the body's own regenerating capacity - Presents smart biomaterials in cell-based tissue engineering applications—from the cell level to applications—in the first unified volume - Features chapter authors and editors who are authorities in this emerging field - Prioritizes a discussion of the future direction of smart biomaterials for in situ tissue regeneration, which will affect an emerging and lucrative industry
Author: Timothy Deming Publisher: Springer Science & Business Media ISBN: 3642271391 Category : Technology & Engineering Languages : en Pages : 184
Book Description
Synthesis of Polypeptides by Ring-Opening Polymerization of α-Amino Acid N-Carboxyanhydrides, by Jianjun Cheng and Timothy J. Deming.- Peptide Synthesis and Self-Assembly, by S. Maude, L. R. Tai, R. P. W. Davies, B. Liu, S. A. Harris, P. J. Kocienski and A. Aggeli.- Elastomeric Polypeptides, by Mark B. van Eldijk, Christopher L. McGann, Kristi L. Kiick andJan C. M. van Hest.- Self-Assembled Polypeptide and Polypeptide Hybrid Vesicles: From Synthesis to Application, by Uh-Joo Choe, Victor Z. Sun, James-Kevin Y. Tan and Daniel T. Kamei.- Peptide-Based and Polypeptide-Based Hydrogels for Drug Delivery and Tissue Engineering, by Aysegul Altunbas and Darrin J. Pochan.-
Author: Nihal Engin Vrana Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact.
Author: Mitsuhiro Ebara Publisher: Springer ISBN: 4431544003 Category : Technology & Engineering Languages : en Pages : 380
Book Description
This book provides comprehensive coverage of smart biomaterials and their potential applications, a field that is developing at a very rapid pace. Because smart biomaterials are an emerging class of biomaterials that respond to small changes in external stimuli with large discontinuous changes in their physical properties, they have been designed to act as an “on–off” switch for, among others, bio separation, immunoanalysis, drug delivery technologies, gene therapy, diagnostics, bio sensors and artificial muscles. After an introduction to the topic and the history of smart biomaterials, the author gives the reader an in-depth look at the properties, mechanics, and characterization of smart biomaterials including hydrogels, particles, assemblies, surfaces, fibers and conjugates. Information on the wide range of applications for these materials follows, including drug delivery, tissue engineering, diagnostics, biosensors, bio separation and actuators. In addition, recent advances in shape memory biomaterials as active components of medical devices are also presented.
Author: Yoon Kyung Kim
Author: Yoon Kyung Kim
Author: Stephen F. Badylak
Author: Nihal Engin Vrana
Author: Stephen F. Badylak
Author: Bruna Corradetti
Author: Amanda L. Facklam
Author: Sang Jin Lee
Author: Timothy Deming
Author: Nihal Engin Vrana
Author: Mitsuhiro Ebara