Wound Healing, and the Myofibroblast: A Historical and Biological Perspective is the fruit of an interdisciplinary and international collaboration involving a historian of medicine (Dr. Zampieri), a physician (Dr. Coen), and a researcher (Prof. Gabbiani, world-renowned for his discovery of the myofibroblast). This book aims to draw a concise yet complete description of the conceptual evolution of wound healing, fibrosis and fibrosis-related pathologies from antiquity to present time, as well as commenting on the role of the myofibroblast and the key cell type essential for tissue repair and fibrosis (from its identification in 1971 throughout its 50-years-old history). By viewing this complex and century-long history from different perspectives, the book's authors aim to draw an exhaustive overview, with the hope of inspiring new and fruitful basic and clinical research. Interdisciplinary collaboration: complementary views from medical historian, a physician and a researcher A concise but detailed history of fibrosis, readers can discover the major scientific breakthroughs along this history Includes the pathophysiology of various fibrotic diseases Explores the role of myofibroblast in fibrosis development
Wound Healing, and the Myofibroblast: A Historical and Biological Perspective is the fruit of an interdisciplinary and international collaboration involving a historian of medicine (Dr. Zampieri), a physician (Dr. Coen), and a researcher (Prof. Gabbiani, world-renowned for his discovery of the myofibroblast). This book aims to draw a concise yet complete description of the conceptual evolution of wound healing, fibrosis and fibrosis-related pathologies from antiquity to present time, as well as commenting on the role of the myofibroblast and the key cell type essential for tissue repair and fibrosis (from its identification in 1971 throughout its 50-years-old history). By viewing this complex and century-long history from different perspectives, the book's authors aim to draw an exhaustive overview, with the hope of inspiring new and fruitful basic and clinical research. Interdisciplinary collaboration: complementary views from medical historian, a physician and a researcher A concise but detailed history of fibrosis, readers can discover the major scientific breakthroughs along this history Includes the pathophysiology of various fibrotic diseases Explores the role of myofibroblast in fibrosis development
This book deals with averaging dynamics, a paradigmatic example of network based dynamics in multi-agent systems. The book presents all the fundamental results on linear averaging dynamics, proposing a unified and updated viewpoint of many models and convergence results scattered in the literature. Starting from the classical evolution of the powers of a fixed stochastic matrix, the text then considers more general evolutions of products of a sequence of stochastic matrices, either deterministic or randomized. The theory needed for a full understanding of the models is constructed without assuming any knowledge of Markov chains or Perron–Frobenius theory. Jointly with their analysis of the convergence of averaging dynamics, the authors derive the properties of stochastic matrices. These properties are related to the topological structure of the associated graph, which, in the book’s perspective, represents the communication between agents. Special attention is paid to how these properties scale as the network grows in size. Finally, the understanding of stochastic matrices is applied to the study of other problems in multi-agent coordination: averaging with stubborn agents and estimation from relative measurements. The dynamics described in the book find application in the study of opinion dynamics in social networks, of information fusion in sensor networks, and of the collective motion of animal groups and teams of unmanned vehicles. Introduction to Averaging Dynamics over Networks will be of material interest to researchers in systems and control studying coordinated or distributed control, networked systems or multiagent systems and to graduate students pursuing courses in these areas.
This volume presents a collection of courses introducing the reader to the recent progress with attention being paid to laying solid grounds and developing various basic tools. It presents new results on phase transitions for gradient lattice models.
This book offers the revised and completed notes of lectures given at the 2007 conference, "Quantum Potential Theory: Structures and Applications to Physics." These lectures provide an introduction to the theory and discuss various applications.
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