Cells and Biomaterials for Intervertebral Disc Regeneration PDF Download

Author: Sibylle Grad
Publisher: Springer Nature
ISBN: 3031025806
Category : Science
Languages : en
Pages : 96

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Book Description
Disorders related to the intervertebral disc (IVD) are common causes of morbidity and of severe life quality deterioration. IVD degeneration, although in many cases asymptomatic, is often the origin of painful neck and back diseases. In Western societies IVD related pain and disability account for enormous health care costs as a result of work absenteeism and thus lost production, disability benefits, medical and insurance expenses. Although only a small percentage of patients with disc disorders finally will undergo surgery, spinal surgery has been one of the fastest growing disciplines in the musculoskeletal field in recent years. Nevertheless, current treatment options are still a matter of controversial discussion. In particular, they hardly can restore normal spine biomechanics and prevent degeneration of adjacent tissues. While degeneration affects all areas of the IVD, the most constant and noticeable changes occur in the gel-like central part, the nucleus pulposus (NP). Recent emphasis has therefore been put in biological ways to regenerate the NP; however, there are a number of obstacles to overcome, considering the exceptional biological and biomechanical environment of this tissue. Different biological approaches such as molecular, gene, and cell based therapies have been investigated and have shown promising results in both in vitro and in vivo studies. Nonetheless, considerable hurdles still exist in their application for IVD regeneration in human patients. The choice of the cells and the choice of the cell carrier suitable for implantation pose major challenges for research and development activities. This lecture recapitulates the basics of IVD structure, function, and degeneration mechanisms. The first part reviews the recent progress in the field of disc and stem cell based regenerative approaches. In the second part, most appropriate biomaterials that have been evaluated as cell or molecule carrier to cope with degenerative disc disease are outlined. The potential and limitations of cell- and biomaterial-based treatment strategies and perspectives for future clinical applications are discussed. Table of Contents: Cell Therapy for Nucleus Pulposus Regeneration / Recent Advances in Biomaterial Based Tissue Engineering for Intervertebral Disc Regeneration

Author: Sibylle Grad
Publisher: Morgan & Claypool Publishers
ISBN: 1608454649
Category : Medical
Languages : en
Pages : 96

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Book Description
Disorders related to the intervertebral disc (IVD) are common causes of morbidity and of severe life quality deterioration. IVD degeneration, although in many cases asymptomatic, is often the origin of painful neck and back diseases. In Western societies IVD related pain and disability account for enormous health care costs as a result of work absenteeism and thus lost production, disability benefits, medical and insurance expenses. Although only a small percentage of patients with disc disorders finally will undergo surgery, spinal surgery has been one of the fastest growing disciplines in the musculoskeletal field in recent years. Nevertheless, current treatment options are still a matter of controversial discussion. In particular, they hardly can restore normal spine biomechanics and prevent degeneration of adjacent tissues. While degeneration affects all areas of the IVD, the most constant and noticeable changes occur in the gel-like central part, the nucleus pulposus (NP). Recent emphasis has therefore been put in biological ways to regenerate the NP; however, there are a number of obstacles to overcome, considering the exceptional biological and biomechanical environment of this tissue. Different biological approaches such as molecular, gene, and cell based therapies have been investigated and have shown promising results in both in vitro and in vivo studies. Nonetheless, considerable hurdles still exist in their application for IVD regeneration in human patients. The choice of the cells and the choice of the cell carrier suitable for implantation pose major challenges for research and development activities. This lecture recapitulates the basics of IVD structure, function, and degeneration mechanisms. The first part reviews the recent progress in the field of disc and stem cell based regenerative approaches. In the second part, most appropriate biomaterials that have been evaluated as cell or molecule carrier to cope with degenerative disc disease are outlined. The potential and limitations of cell- and biomaterial-based treatment strategies and perspectives for future clinical applications are discussed. Table of Contents: Cell Therapy for Nucleus Pulposus Regeneration / Recent Advances in Biomaterial Based Tissue Engineering for Intervertebral Disc Regeneration

Author: Luigi Ambrosio
Publisher: Elsevier
ISBN: 0857096192
Category : Medical
Languages : en
Pages : 645

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Book Description
There have been important developments in materials and therapies for the treatment of spinal conditions. Biomaterials for spinal surgery summarises this research and how it is being applied for the benefit of patients. After an introduction to the subject, part one reviews fundamental issues such as spinal conditions and their pathologies, spinal loads, modelling and osteobiologic agents in spinal surgery. Part two discusses the use of bone substitutes and artificial intervertebral discs whilst part three covers topics such as the use of injectable biomaterials like calcium phosphate for vertebroplasty and kyphoplasty as well as scoliosis implants. The final part of the book summarises developments in regenerative therapies such as the use of stem cells for intervertebral disc regeneration. With its distinguished editors and international team of contributors, Biomaterials for spinal surgery is a standard reference for both those developing new biomaterials and therapies for spinal surgery and those using them in clinical practice. Summarises recent developments in materials and therapies for the treatment of spinal conditions and examines how it is being applied for the benefit of patients Reviews fundamental issues such as spinal conditions and their pathologies, spinal loads, modelling and osteobiologic agents in spinal surgery Discusses the use of bone substitutes and artificial intervertebral discs and covers topics such as the use of injectable biomaterials like calcium phosphate for vertebroplasty and kyphoplasty

Author: Jun Zou
Publisher: World Scientific
ISBN: 9813238585
Category : Medical
Languages : en
Pages : 160

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Book Description
Low back pain is a common disorder in the clinical treatment of the Department of Orthopedics. Lumbar intervertebral disc degeneration is a main reason for the chronic pain and the process is difficult to reverse. Traditional treatment methods include conservative treatment and surgical treatment. Although the clinical symptoms caused by intervertebral disc degeneration can be alleviated to a certain extent, these treatment methods do not solve the fundamental issues and they also produce corresponding complications. The rise of tissue engineering technology and its applications in different fields have brought new ideas for the treatment of intervertebral disc degeneration. This book discusses the fundamentals as well as more recent developments in stem cell therapy and tissue engineering technology and offers an alternative for treating degeneration of intervertebral discs.

Author: Roger Hartl
Publisher: Thieme
ISBN: 1638531501
Category : Medical
Languages : en
Pages : 447

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Book Description
Top Experts Share Clinical Insights on Biological Interventions for Spine-Related Disease Although there have been significant advancements in minimally invasive spinal surgery techniques in the last few decades, optimal outcomes for chronic low back pain remain elusive. A number of promising clinical trials have been conducted using tissue engineering and biological interventions for disc degeneration. Written by renowned innovators, this is the first book that covers implementation of these groundbreaking approaches for disc disease. The text begins with key fundamentals including anatomy and physiology, pathophysiology, imaging and biomechanics to delineate healthy versus diseased spine. Subsequent sections discuss treatment strategies, research findings, and future developments. Throughout each chapter, renowned spine surgeons and scientists share clinical pearls gleaned from hands-on experience. Key Highlights The current state of the art in biological and tissue engineering procedures for spinal disorders Treatment methodologies including nucleus replacement and repair, annulus fibrosus repair, total disc transplantation, and mechanical total disc replacement Innovative treatment strategies for disc regeneration, such as genes and proteins Growth factors including platelet-rich plasma (PRP), which has shown promise for the stimulation and acceleration of bone and soft tissue healing Cell-based therapy for spinal disc regeneration and repair including the use of stem cells and chondrocytes In-depth discussion of research including animal versus human model, in-vitro, and a summary of biologic clinical trials This is a must-have resource for trainee and practicing orthopaedic surgeons and neurosurgeons who treat patients for spine-related conditions. It is essential reading for all clinicians who have an interest in cutting-edge tissue engineering and biological treatment interventions.

Author: Irving M. Shapiro
Publisher: Springer Science & Business Media
ISBN: 3709115353
Category : Medical
Languages : en
Pages : 440

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Book Description
The intervertebral disc is a complex structure that separates opposing vertebrae, permits a wide range of motion, and accommodates high biomechanical forces. Disc degeneration leads to a loss of function and is often associated with excruciating pain. Written by leading scientists and clinicians, the first part of the book provides a review of the basic biology of the disc in health and disease. The second part considers strategies to mitigate the effects of disc degeneration and discusses the possibility of engineering replacement tissues. The final section is devoted to approaches to model normal development and elucidate the pathogenesis of degenerative disc disease using animal, organ and cell culture techniques. The book bridges the gap between the basic and clinical sciences; the target audience includes basic scientists, orthopaedists and neurologists, while at the same time appealing to the needs of graduate students, medical students, interns and fellows.

Author: Julie Elizabeth Speer
Publisher:
ISBN:
Category :
Languages : en
Pages : 0

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Book Description
Low back pain and degenerative conditions of the intervertebral disc (IVD) represent major global socioeconomic and medical burdens. The structures that comprise the IVD including the anulus fibrosis and the nucleus pulposus (NP) work together to stabilize the axial skeleton and distribute mechanical forces. However, the degenerative cascade, which is thought to begin with changes to the NP, results in alterations to the disc that can be seen across length scales including elongated cell shapes, tissue dehydration, and loss of disc height. Patients who present clinically with these changes may also experience altered biomechanics, pain upon motion, impairments to their physical function, or associated disabilities. The NP has a limited intrinsic ability for repair, and therefore, biomaterial strategies are of interest as disease modifying, therapeutic options for repairing the tissue and delivering cell sources to defect sites. Cells, including NP cells, are able to sense and respond to cues from both native and engineered microenvironments. As a function of IVD degeneration and with the stiffening of the surrounding extracellular matrix, NP cells shift from an anabolic to a catabolic state and concomitantly become more elongated, lose their characteristic vacuoles, and demonstrate altered gene expression profiles. Previous studies have demonstrated an ability for laminin-presenting hydrogels to promote NP cells to assume behaviors characteristic of the juvenile phenotype including robust clustering of rounded cells, biosynthesis of sulfated glycosaminoglycans amongst other extracellular matrix proteins, and expression of NP cell phenotypic markers. While these effects have previously been observed, the mechanisms underlying the NP cell-laminin interactions have remained unclear. Understanding the interactions between NP cells and laminins provides insights into the mechanobiology of degenerative NP cells and can be used to inform the design of biomaterials for intervertebral disc regeneration. The studies presented in this dissertation aimed to elucidate the integrin subunits which facilitate the interactions between laminin-presenting biomaterials and degenerative human NP cells and the role of integrins in modulating NP cell behaviors. The results demonstrate that integrin [alpha]3 is a primary mediator of NP cell interactions to full-length laminin and that blocking this integrin subunit reduces intracellular signaling, biosynthesis, expression of NP cell markers, and promotes altered cytoskeletal organization. Integrin subunits were also shown to mediate cell attachment to a library of hydrogels formulated by conjugating laminin-mimetic peptides to a poly(ethylene) glycol (PEG) backbone. Data presented herein also demonstrate that stiff (10.5 kPa) peptide-functionalized hydrogels were able to promote similar cell behaviors as soft (0.3 kPa) PEG gels presenting full-length laminin. This finding indicates that biomaterials can be formulated that leverage the advantages of both short peptides (controlled sites of cellular interaction and economic value) and stiff in situ forming hydrogels (improved injection and mechanical properties, no UV crosslinking) while eliciting similar effects as soft gels made with the full-length protein. Furthermore, culture on a PEG-peptide gel induced global transcriptomic changes in degenerative NP cells including an upregulation of genes associated with notochordal morphogenesis and a concomitant downregulation of genes related to cell cycle progression and cellular contractility. Overall, this dissertation serves to identify the integrin subunits by which NP cells interact with laminin-presenting substrates and the signaling pathways that transduce cues from the extracellular microenvironment to regulate cell behaviors and drive the juvenile NP cell phenotype. Additionally, the results of both mechanistic and exploratory studies characterize clinically relevant biomaterials which could be utilized to deliver cells to the degenerative disc space and to promote tissue regeneration and reversal of pathology.

Author: Julia M Polak
Publisher: World Scientific
ISBN: 1908978902
Category : Science
Languages : en
Pages : 947

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Book Description
Advances in Tissue Engineering is a unique volume and the first of its kind to bring together leading names in the field of tissue engineering and stem cell research. A relatively young science, tissue engineering can be seen in both scientific and sociological contexts and successes in the field are now leading to clinical reality. This book attempts to define the path from basic science to practical application. A contribution from the UK Stem Cell Bank and opinions of venture capitalists offer a variety of viewpoints, and exciting new areas of stem cell biology are highlighted. With over fifty stellar contributors, this book presents the most up-to-date information in this very topical and exciting field./a

Author: Raquel Madeira Gonçalves
Publisher: CRC Press
ISBN: 1351030167
Category : Medical
Languages : en
Pages : 279

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Book Description
Intervertebral disc degeneration is one of the major causes of lower back pain for which the common therapeutic interventions are not efficient. A search for alternative therapies for lower back pain and intervertebral disc degeneration includes cell-based therapies. Unfortunately, intervertebral disc degeneration is avascular and thus a hostile environment for cell survival. Furthermore, cellular characterization in intervertebral disc degeneration, and particularly in the nucleus pulposus, is controversial, mainly due to lack of specific markers and species variability. This book adds to the knowledge on cellular and molecular therapies for intervertebral disc degeneration and associated lower back pain. Key Selling Features: Describes the ontogeny and phenotype of intervertebral disc cells Reviews the role that inflammation plays in disco-genic pain Highlights the types of cells that might be used as sources for treating degenerating intervertebral discs Summarizes current alternative therapies Explores methods for cell delivery into degenerated intervertebral discs

Author: Ngan Huang
Publisher: World Scientific
ISBN: 9813147768
Category : Science
Languages : en
Pages : 567

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Book Description
Tissue engineering integrates knowledge and tools from biological sciences and engineering for tissue regeneration. A challenge for tissue engineering is to identify appropriate cell sources. The recent advancement of stem cell biology provides enormous opportunities to engineer stem cells for tissue engineering. The impact of stem cell technology on tissue engineering will be revolutionary.This book covers state-of-the-art knowledge on the potential of stem cells for the regeneration of a wide range of tissues and organs, including cardiovascular, musculoskeletal, neurological and skin tissues. The technology platforms for studying and engineering stem cells, such as hydrogel and biomaterials development, microfluidics system and microscale patterning, are also illustrated. Regulatory challenges and quality control for clinical translation are also detailed. This book provides an comprehensive update on the advancement in the field of stem cells and regenerative medicine, and serves as a valuable resource for both researchers and students.