This book focuses on the mechanobiological principles in tissue engineering with a particular emphasis on the multiscale aspects of the translation of mechanical forces from bioreactors down to the cellular level. The book contributes to a better understanding of the design and use of bioreactors for tissue engineering and the use of mechanical loading to optimize in vitro cell culture conditions. It covers experimental and computational approaches and the combination of both to show the benefits that computational modelling can bring to experimentalists when studying in vitro cell culture within a scaffold. With topics from multidisciplinary fields of the life sciences, medicine, and engineering, this work provides a novel approach to the use of engineering tools for the optimization of biological processes and its application to regenerative medicine. The volume is a valuable resource for researchers and graduate students studying mechanobiology and tissue engineering. For undergraduate students it also provides deep insight into tissue engineering and its use in the design of bioreactors. The book is supplemented with extensive references for all chapters to help the reader to progress through the study of each topic.
This book focuses on the mechanobiological principles in tissue engineering with a particular emphasis on the multiscale aspects of the translation of mechanical forces from bioreactors down to the cellular level. The book contributes to a better understanding of the design and use of bioreactors for tissue engineering and the use of mechanical loading to optimize in vitro cell culture conditions. It covers experimental and computational approaches and the combination of both to show the benefits that computational modelling can bring to experimentalists when studying in vitro cell culture within a scaffold. With topics from multidisciplinary fields of the life sciences, medicine, and engineering, this work provides a novel approach to the use of engineering tools for the optimization of biological processes and its application to regenerative medicine. The volume is a valuable resource for researchers and graduate students studying mechanobiology and tissue engineering. For undergraduate students it also provides deep insight into tissue engineering and its use in the design of bioreactors. The book is supplemented with extensive references for all chapters to help the reader to progress through the study of each topic.
In Formation of a Religious Landscape: Shi'i Higher Learning in Safavid Iran, Maryam Moazzen offers the first systematic examination of Shi'i educational institution and practices by exploring the ways in which religious knowledge was produced, authenticated, and transmitted in the second half of Safavid rule (1588-1722). By analyzing the deeds of endowment of the Madrasa-yi Sulṭānī and other mosque-madrasas built by the Safavid elite, this study sheds light on the organizing mechanisms and structures utilized by such educational foundations. Based on the large number of ijazāsand other primary sources including waqfiyyas, biographical dictionaries and autobiographies, this study also reconstructs the Safavid madrasas' curriculum and describes the pedagogical methods used to transmit religious knowledge as well as issues that faced Shi'i higher learning in early modern times.
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