Titlebook: Cardiac Cell Culture Technologies; Microfluidic and On- Zbigniew Brzozka,Elzbieta Jastrzebska Book 2018 Springer International Publishing A

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Cardiac Cell Culture Microtechnologies Based on Stem Cells,ly the use of graphene and their other forms, which could be used for cardiac differentiation, are presented at the end of this chapter. Finally, we summarize the research focused on heart regeneration using the .-.-.-. systems, and we outline future perspectives for microsystem usage for SC differe

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W. Richard Kolk,Robert A. Lermane usage of the microsystems for such applications should be supported by elaboration of new diagnostic methods/models because the currently applied ones exhibit many drawbacks. An application of the microanalytical devices for this purpose seems to be a promising approach and solution to all mention

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https://doi.org/10.1007/978-3-662-04323-3 The microfluidic systems are also widely used for cell engineering. The microsystems have several advantages comparing with the traditional analysis, such as: using small volumes of reagents, low power consumption, flexibility, and adaptability to different experimental conditions and purposes. Add

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https://doi.org/10.1007/978-3-662-04323-3nd regeneration. They are also widely used in the studies aiming to understand and also control differentiation of various cell types as well as to design the therapeutic strategies allowing to treat various degenerative diseases and to regenerate damaged tissues and organs. Among the stem cells whi

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Linear, Polynomial, and Look-Up Table Modelsch microsystems. Various organs, . liver, skin, lung, or breast are investigated in microscale. The microsystems designed for heart cell culture and analysis (called .-.-.-.) are also fabricated. In this chapter, a characterization of the microfluidic systems for cardiac cell culture is described. I

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Unsupervised Learning Techniques in the treatment of cardiovascular diseases (CVDs). Elaboration of in vivo-like culture models of heart cells will allow the mimicking of native heart tissue and the investigation of heart cell response to the exposure of external stimuli. .-.-.-. systems can be successfully used to imitate heart t

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https://doi.org/10.1007/978-3-030-47439-3ted as a potential therapy technique for cardiovascular diseases (CVDs) and heart regeneration. To improve the investigation of SC proliferation and maturation, the .-.-.-. systems are being developed. There are many reports, which have proven that such microsystems have been successfully used for S