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Biomaterials and Bioactive Molecules to Drive Differentiation in Striated Muscle Tissue Engineering
Tissue engineering is an innovative, multidisciplinary approach which combines (bio)materials, cells and growth factors with the aim to obtain neo-organogenesis to repair or replenish damaged tissues and organs. The generation of engineered tissues and organs (e. g. skin and bladder) has entered into the clinical practice in response to the chronic lack of organ donors. In particular, for the skeletal and cardiac muscles the translational potential of tissue engineering approaches has clearly been shown, even though the construction of this tissue lags behind others given the hierarchical, highly organized architecture of striated muscles. Cardiovascular disease is the leading cause of death...
Physico-Chemical Control of Cell Function
Extracellular Matrix (ECM) has been considered for a long time merely a scaffold sustaining cell and tissue function. Despite this simplistic view shared by many, nowadays ECM and their mechanic-physical and chemical characteristic acquired a progressive larger role actively regulating cell life: survival, proliferation, gene expression and differentiation. The interplay between cells and the ECM is continuously controlled at the cell level in a dynamic way. While cells synthesize the raw components of the ECM, this in turn impacts on cell function by providing chemical, topographical and mechanical hints. Such stimuli have been proven to control several aspects of cell function, including s...
Material-based Mechanobiology
Mechanobiology is a new research field that investigates how the physical forces and changes in mechanical properties of cells and tissues contribute to their development, physiology and disease. One unique feature in the mechanical regulation, distinct from chemical/biochemical one, is that it can directly react with the multi-layered architectures of living systems, ranging from nano-scale proteins, subcellular organelles, cells, tissues, organs to whole bodies; one could term it “mechanoarchitectonics”. Another important aspect is its time-dependent dynamic feature. Not only time evolution in cells and extracellular matrices, but their intrinsic viscoelastic nature makes mechanical in...
Cellular In Vitro Testing
Growing cells in 2D under static conditions has long been the gold standard of cell culture, despite this method not being representative of the complex in vivo environment. The use of animal models also has clear ethical and scientific limitations, and increasingly the 3Rs (replacement, refinement, reduction) in relation to animal models are being
Tissue Engineering for Tissue and Organ Regeneration
Tissue Engineering may offer new treatment alternatives for organ replacement or repair deteriorated organs. Among the clinical applications of Tissue Engineering are the production of artificial skin for burn patients, tissue engineered trachea, cartilage for knee-replacement procedures, urinary bladder replacement, urethra substitutes and cellular therapies for the treatment of urinary incontinence. The Tissue Engineering approach has major advantages over traditional organ transplantation and circumvents the problem of organ shortage. Tissues reconstructed from readily available biopsy material induce only minimal or no immunogenicity when reimplanted in the patient. This book is aimed at anyone interested in the application of Tissue Engineering in different organ systems. It offers insights into a wide variety of strategies applying the principles of Tissue Engineering to tissue and organ regeneration.
Adult Stem Cell Standardization
The ambitious goal of this book is to gather the most innovative and scientifically robust knowledge and technologies on stem cells and involve investigators from academy and industry in formulating recommendations to standardize the isolation and manipulation of stem cells using solid and well-documented knowledge.
Myocardial Tissue Engineering
Myocardial tissue engineering (MTE), a concept that intends to prolong patients’ life after cardiac damage by supporting or restoring heart function, is continuously improving. Common MTE strategies include an engineered ‘vehicle’, which may be a porous scaffold or a dense substrate or patch, made of either natural or synthetic polymeric materials. The function of the substrate is to aid transportation of cells into the diseased region of the heart and support their integration. This book, which contains chapters written by leading experts in MTE, gives a complete analysis of the area and presents the latest advances in the field. The chapters cover all relevant aspects of MTE strategi...
Advanced Therapies for Cardiac Regeneration
The Research Topic is organized in the framework of the project BIORECAR (grant number: 772168; http://www.biorecar.polito.it/index.html)
21st Century Nanoscience
This 21st Century Nanoscience Handbook will be the most comprehensive, up-to-date large reference work for the field of nanoscience. Handbook of Nanophysics, by the same editor, published in the fall of 2010, was embraced as the first comprehensive reference to consider both fundamental and applied aspects of nanophysics. This follow-up project has been conceived as a necessary expansion and full update that considers the significant advances made in the field since 2010. It goes well beyond the physics as warranted by recent developments in the field. Key Features: Provides the most comprehensive, up-to-date large reference work for the field. Chapters written by international experts in th...
