Titlebook: Engineered Cell Manipulation for Biomedical Application; Misturu Akashi,Takami Akagi,Michiya Matsusaki Book 2014 Springer Japan 2014 Biode

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Stella Butter,Matthias Eitelmanns for human exposure to nanoparticles will increase substantially. For the development of nanoparticles with efficacy and safety, a systematic and thorough analysis of the absorption, distribution, metabolism, and excretion (ADME) of nanoparticles is essential. In this chapter, we present the curren

阻擋

Misturu Akashi,Takami Akagi,Michiya MatsusakiTreats this cutting-edge topic in the fields of biomaterials, drug delivery systems, tissue engineering and medicine.Assembles key contributions from the interdisciplinary areas of the engineering and

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https://doi.org/10.1007/978-4-431-55139-3Biodegradable Nanoparticles; Hierarchical Cell Manipulation; Layer-by-layer Nanofilms; Layered Tissue M

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Recent Advances in 3D Tissue Models of tissues in health and disease as well as for the validation of lead compounds during drug development. The field has made impressive advances in 3D culturing cells and organoids in naturally derived materials. Novel, rationally designed, biomimetic materials have been established, which allow th

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Rapid Assembly of Cellular Aggregation Using Micro-Nano Technologiesometries and initial conditions of the cells. In this chapter, we introduce new 3D assembly techniques to fabricate different hollow tissue structures. In cellular self-assembly technique by using the micro-fabricated platform, we discuss a microlumen that facilitates the supply of oxygen and growth

凝結(jié)劑

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Engineering Electrospun Scaffolds to Encourage Cell Infiltrationectrospun scaffolds provide an abundant surface area and a densely assembled fiber architecture. However, the small pore sizes common with this technique hinder cellular infiltration and integration with host tissue. In order to address this important limitation, many researchers have proposed metho

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The Potential Use of Three-Dimensional Cellular Multilayers as a Blood Vessel Modelsue engineering and drug testing models. Based on the technology of polymer chemistry, we performed nanofilm coating with extracellular matrix to living cells by layer-by-layer assembly to induce cell–cell interaction for the adhesion. Using fibronectin–gelatin nanofilms, various cellular multilayer