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Engineering of Functional Skeletal Tissues (Topics in Bone Biology)

  • 178 Pages
  • 0.96 MB
  • 4559 Downloads
  • English

Springer
Physiology, Science, Medical / Nursing, Science/Mathematics, Allied Health Services - Physical Therapy, Orthopedics, Surgery - General, "Topics in Bone Biology" series, Medical / Orthopedics, bioengineering, skeletal function and rehabilitation, skeletal tissue engineering, Life Sciences - Anatomy & Physiology, Bone regeneration, Tissue engine
ContributionsFelix Bronner (Editor), Mary C. Farach-Carson (Editor), Antonios G. Mikos (Editor)
The Physical Object
FormatHardcover
ID Numbers
Open LibraryOL11955068M
ISBN 101852339624
ISBN 139781852339623

This volume, the third in the series Topics in Bone Biology, discusses current knowledge of bone replacement. It is designed to integrate biological and engineering knowledge.

Download Engineering of Functional Skeletal Tissues (Topics in Bone Biology) PDF

The biology of stem cells and cell signals, knowledge needed to make stem cell engineered bone tissue a reality and how to prevent bone allograft infection is : Hardcover.

: Engineering of Functional Skeletal Tissues (Topics in Bone Biology Book 3) eBook: Felix Bronner, Mary C. Farach-Carson, Antonios G. Mikos: Kindle Store. The book is of interest to bioengineers, orthopedists, reconstructive surgeons, dentists, physiotherapists and all who work in the fields of skeletal and dental tissue engineering and rehabilitation, as well as basic bone scientists interested in translational research.

This volume, the third in the series Topics in Bone Biology, discusses current knowledge of bone replacement. It is designed to integrate biological and engineering knowledge. The biology of stem cells and cell signals, knowledge needed to make stem cell engineered bone tissue a reality and how to prevent bone allograft infection is discussed.

Print book: EnglishView all editions and formats Summary: This is the 3rd volume in a series of reviews centered on the single major topic of bone replacement, discussing the biology of stem cells and cell signals, the knowledge needed to make stem cell-engineered bone tissue a reality, and how to prevent bone allograft infection.

This is the 3rd volume in a series of reviews centered on the single major topic of bone replacement, discussing the biology of stem cells and cell signals, the knowledge needed to make stem cell-engineered bone tissue a reality, and how to prevent bone allograft infection.

The book is of interest to bioengineers, orthopedists, reconstructive surgeons, dentists, physiotherapists and all who work in the fields of skeletal and dental tissue engineering and. Engineering of Functional Skeletal Tissues PDF Free Download E-BOOK DESCRIPTION This is the 3rd volume in a series of reviews centered on the single major topic of bone replacement, discussing the biology of stem cells and cell signals, the knowledge needed to make stem cell-engineered bone tissue a reality, and how to prevent bone allograft infection.

Engineering of Functional Skeletal Tissues Volume 3 in the Series Topics in Bone Biology Series Editors: Felix Bronner and Mary C.

Farach-Carson. Download ebook Engineering of Functional Skeletal Tissues pdf. This is the 3rd volume in a series of reviews centered on the single major topic of bone replacement, discussing the biology of stem cells and cell signals, the knowledge needed to make stem cell-engineered bone tissue a reality, and how to prevent bone allograft infection.

As in previous editions, this book creates a comprehensive work that strikes a balance among the diversity of subjects that are related to tissue engineering, including biology, chemistry, material science, and engineering, among others, while also emphasizing those research areas that are likely to be of clinical value in the future.

This article is going to curiosity bioengineers, orthopedists, reconstructive surgeons, dentists, physiotherapists and all working in the fields of skeletal and dental tissue engineering and rehabilitation, in addition to primary bone scientists in translational analysis.

Focusing on bone replacement, this volume discusses the biology of stem cells and cell signals, knowledge needed to make stem cell engineered, bone tissue a reality and how to prevent bone allograft infection.

This text is of interest to bioengineers, orthopedists, reconstructive surgeons, dentists, and. Chapters written by well-known researchers discuss these matters and provide guidelines and a summary of the current state of technology in functional tissue engineering.

The book will be useful to students and researchers as it will increase awareness among tissue engineers of the importance of restoring "function" when engineering tissue constructs, and identifying the critical structural and. Now in its fourth edition, Principles of Tissue Engineering has been the definite resource in the field of tissue engineering for more than a decade.

The fourth edition provides an update on this rapidly progressing field, combining the prerequisites for a general understanding of tissue growth and development, the tools and theoretical information needed to design tissues and organs, as well as a. "Functional Tissue Engineering is a useful compilation of research by contributors involved in developing tissues.

It is not easy to extract a decent book from a conference, but the editors have done a very good job. it will be an invaluable source for those starting a PhD.

Chapters in part 3 study methods for functionalizing scaffolds to support a variety of in vivo functions whilst the final set of chapters provides an important review of the most significant applications of functional 3D scaffolds within tissue engineering.

This book is a valuable resource for biomaterial scientists and biomedical engineers in academia and industry, with interests in tissue engineering and. Purchase Functional 3D Tissue Engineering Scaffolds - 1st Edition.

Print Book & E-Book. ISBNOn the other hand, the emergence of tissue-engineering technology in the past decade presents another attractive treatment option, where engineered tissue substitutes could be used for the functional and aesthetic reconstruction of damaged skeletal muscle.

Compared with the delivery of isolated muscle precursor cells in a suspension or a temporary matrix, the in vitro fabrication of mature artificial muscle. " Engineering human pluripotent stem cells into a functional skeletal muscle tissue.

" Nature Communications 9, no. 1 (). Hung X. Nguyen, Robert D. Kirkton, and Nenad Bursac.

Details Engineering of Functional Skeletal Tissues (Topics in Bone Biology) PDF

Challenge 1: Fabrication of Dense Skeletal Muscle Tissues with Adequate Dimensions, Uniform Cell Alignment, and Reproducible Architecture. From a biomimetic perspective, functional engineered skeletal muscle tissues should exhibit native-like structural properties and, specifically, contain densely packed and uniformly aligned myofibers throughout a relatively large tissue volume.

19]. Skeletal muscle tissue engineering depends on the regenerative properties of the satellite cells and their potential for proliferation and differentiation, since these primary skeletal muscle cells can be harvested from adult muscle and successfully grown in vitro[15, 20].

Important requirements of engineering functional skeletal muscle Cited by:   In vivo tissue engineering of functional skeletal muscle by freshly isolated satellite cells embedded in a photopolymerizable hydrogel.

REFERENCES. Rosenblatt J. D., Lunt A. I., Parry A. J., Partridge T. () Culturing satellite cells from living single muscle fiber by:   As an alternative, tissue engineering represents a promising approach for the functional restoration of damaged muscle tissue. A typical tissue‐engineering process involves the design and fabrication of a scaffold that closely mimics the native skeletal‐muscle extracellular matrix (ECM), allowing organization of cells into a physiologically Cited by:   The generation of functional skeletal muscle tissue from human pluripotent stem cells has not been reported.

Here, the authors describe engineering of contractile skeletal muscle bundles in Cited by: We aim to develop engineered muscle tissues for basic studies in vitro and replacement therapies in the last several years, we have established methods to precisely control engineered muscle tissue architecture, maintain a muscle stem cell pool within the engineered tissues, improve their force producing capacity to a level of native muscle, and generate tissue implants capable of.

Fundamentals of Tissue Engineering and Regenerative Medicine 9 1. Pre-made porous scaffolds Raw materials Native tissues Confluent cells Cell sheet Cell seeding Lamination Cell-seeded scaffolds Cell-seeded scaffolds Multiple cell sheets Implantation Defective tissues Tissue engineering scaffolds ical Chemical Fibrous For example, electrospunFile Size: 9MB.

R econstruction of skeletal muscle after injury or in pathological conditions remains a complex and unsolved task, despite the present knowledge of the biological processes underlying muscle regeneration (). In vitro approaches based on fabrication of functional muscle before in vivo transplantation showed several limitations (), due to the intrinsic complexity of large‐organ reconstruction.

The field of skeletal muscle tissue engineering has taken great strides since Vandenburgh's first work in using cultured avian myotubes in collagen-coated tissue culture plates [].Since that time, the ability to engineer skeletal muscle and other tissues in vitro has ushered in a new era of tissue engineering and regenerative medicine.

Promising research is currently being performed in Cited by: Skeletal muscle tissue engineering aims to fabricate tissue constructs to replace or restore diseased or injured skeletal muscle tissues in the body. Several biomaterials and microscale technologies have been used in muscle tissue engineering.

However, it is still challenging to mimic the function and structure of the native muscle tissues. Three-dimensional (3D) bioprinting is a powerful tool Author: Rasoul Seyedmahmoud, Betül Çelebi-Saltik, Natan Barros, Rohollah Nasiri, Ethan Banton, Amir Shamloo. requires the application of principles of tissue engineering to bone ().

Tissue engineering is the science of design and fabrication of new tissues for functional restoration of impaired organs and replacement of lost parts due to cancer, disease and trauma (3, 8).

Description Engineering of Functional Skeletal Tissues (Topics in Bone Biology) EPUB

Among.Loss of skeletal muscle profoundly affects the health and well-being of patients, and there currently is no way to replace lost muscle. We believe that a key step in the development of a prosthesis for reconstruction of dysfunctional muscular tissue is the ability to reconstitute the in vivo-like 3-dimensional (3D) organization of skeletal muscle in vitro with isolated satellite by: 6.Chapters in part 3 study methods for functionalizing scaffolds to support a variety of in vivo functions whilst the final set of chapters provides an important review of the most significant applications of functional 3D scaffolds within tissue engineering.

This book is a valuable resource for biomaterial scientists and biomedical engineers in.