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    In Situ Tissue Regeneration

    In Situ Tissue Regeneration

    - Host Cell Recruitment and Biomaterial Design

    Forfatter: info mangler
    Bog
    • Format
    • Bog, paperback
    • Engelsk

    Beskrivelse

    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.

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    Detaljer
    • SprogEngelsk
    • Sidetal458
    • Udgivelsesdato12-08-2016
    • ISBN139780128022252
    • Forlag Academic Press Inc
    • FormatPaperback
    Størrelse og vægt
  • Vægt840 g
    • coffee cup img
    10 cm
    book img
    19,1 cm
    23,5 cm

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    Implantation Regeneration Recruitment Modification Differentiation Proteoglycans Surface In vitro Tissue engineering Complement Biomimetics Stem cells Collagen Neutrophils Macrophages Articular cartilage Extracellular matrix In vivo Polymers Cell differentiation Cell proliferation Regenerative Medicine Medical devices Adult Stem Cells Adaptive Immunity Mesenchymal stem cells Pluripotent Stem Cells Scaffold Mechanical stimulation Nanotopography Innate immunity Gene delivery Biomaterials Substance P Host response RNAi Kidney Disease In-Situ SiRNA Bioactive molecules Adipocytes Mechanobiology Mechanosensitive ion channel Tissue injury Tissue repair Small molecules MiRNA FDA Mechanotransduction Tendon Microenvironment Cardiac regeneration Osteoblasts Mechanosensing CXCR4 Absorb BVS AMD3100 Bioinsperiation Bone marrow stem cells (BMSCs)CD133 Cardiac progenitor cells Biological heart valves Bare metal stents (BMS)Clinical trials Bovine pericardial-derived matrix Cellular reseeding Dermal-derived matrix Ceramide-1-phosphate (C1P)Chemotaxis Extracellular matrix (ECM)Glycoproteins Endogenous cell homing endothelial progenitor cells Fibrocytes Drug-eluting stents (DES)In situ scaffold Epigenetic reprogramming Inflammatory responses In situ tissue regeneration Extracellular nucleotides Knee meniscus Mechanocoupling Mechanical force microtopography FK506 (tacrolimus)Skin regeneration Lipid Rafts Mechanosensitive pathway Peptide hydrogel scaffolds Priming phenomenon Scaffolds structure Regenerative medicine outline Renal regeneration Sphingosine-1-phosphate (S1P)SDF-1 Stem cell homing T cells.Tendon substitutes Stress relaxation spectra Tenogenic differentiation Synovial joint Mechanosignaling pathway VLA-4 Mechanosensitive molecule Mechanotherapy Renal progenitor cells Paracrine effect Scaffolding systems Muscle regeneration Perfusion decellularisation Synthetic polymer Skeletal muscle Tendon tissue engineering strategies Vascular endothelial growth factor (VEGF).Vasculogenesis Volumetric muscle loss (VML)
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