Titlebook: Microsystems for Enhanced Control of Cell Behavior; Fundamentals, Design Andrés Díaz Lantada Book 2016 The Editor(s) (if applicable) and Th

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Brief Introduction to Biomedical Microsystems for Interacting with Cellsvities, scaffolds for tissue engineering, cell-based sensors and actuators and microsystems for modeling life by controlling cells using microfluidic environments. This chapter provides an introduction to these different types of biomedical microdevices and to the related basic concepts, to which we

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Systematic Methodologies for the Development of Biomedical Microdevicesdical microsystems. The typical product development stages are covered: (detection of a relevant need, planning and specifications, conceptual design, basic engineering, detailed engineering, production and product market life) and the systematic methodologies commonly applied are also analyzed, pro

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Multi-scale and Multi-physical/Biochemical Modeling in Bio-MEMSproving functionalities of traditional systems, linking the different scales and using multi-scale modeling approaches can increase the predictive capability and applicability of modeling to a wide range of applications. In addition, as modern (bio)engineering systems typically involve different are

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Rapid Prototyping of Biomedical Microsystems for Interacting at a Cellular Levelases of study linked to microfluidic biodevices for disease modeling, to cell culture platforms for understanding cell behavior, to labs-on-chips and organs-on-chips and to tissue engineering scaffolds. The different technologies detailed in present chapter are also illustrated by means of applicati

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Nanomanufacturing Technologies for Biomedical Microsystems Interacting at a Molecular Scalealizations for optimal performance, as several of these manufacturing technologies will be applied thoroughly along the Handbook for the development of different cases of study. The different technologies detailed in present chapter are also illustrated by means of different application examples rel

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