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Titlebook: Learning from Nature How to Design New Implantable Biomaterials: From Biomineralization Fundamentals; Proceedings of the N R. L. Reis,S. We

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發(fā)表于 2025-3-21 16:13:48 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書目名稱Learning from Nature How to Design New Implantable Biomaterials: From Biomineralization Fundamentals
副標(biāo)題Proceedings of the N
編輯R. L. Reis,S. Weiner
視頻videohttp://file.papertrans.cn/583/582944/582944.mp4
叢書名稱NATO Science Series II: Mathematics, Physics and Chemistry
圖書封面Titlebook: Learning from Nature How to Design New Implantable Biomaterials: From Biomineralization Fundamentals; Proceedings of the N R. L. Reis,S. We
描述The development of materials for any replacement or regeneration application should be based on the thorough understanding of the structure to be substituted. This is true in many fields, but particularly exigent in substitution and regeneration medicine. The demands upon the material properties largely depend on the site of application and the function it has to restore. Ideally, a replacement material should mimic the living tissue from a mechanical, chemical, biological and functional point of view. Of course this is much easier to write down than to implement in clinical practice. Mineralized tissues such as bones, tooth and shells have attracted, in the last few years, considerable interest as natural anisotropic composite structures with adequate mechanical properties. In fact, Nature is and will continue to be the best materials scientist ever. Who better than nature can design complex structures and control the intricate phenomena (processing routes) that lead to the final shape and structure (from the macro to the nano level) of living creatures? Who can combine biological and physico-chemical mechanisms in such a way that can build ideal structure-properties relationships
出版日期Conference proceedings 20051st edition
關(guān)鍵詞Biomaterial; Brainstorming; Natur; Tissue Engineering; biomedical materials; bone; cells; science; tissue; bi
版次1
doihttps://doi.org/10.1007/1-4020-2648-X
isbn_softcover978-1-4020-2647-8
isbn_ebook978-1-4020-2648-5Series ISSN 1568-2609
issn_series 1568-2609
copyrightSpringer Science+Business Media B.V. 2005
The information of publication is updating

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978-1-4020-2647-8Springer Science+Business Media B.V. 2005
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https://doi.org/10.1007/1-4020-2648-XBiomaterial; Brainstorming; Natur; Tissue Engineering; biomedical materials; bone; cells; science; tissue; bi
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Learning from Marine Creatures How to Design Micro-Lensesolutions. Ultimately, these biological principles will improve our current capabilities to fabricate optical elements and contribute to the construction of novel, adaptive, micro-scale optical devices.
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Inkjet Printing for Biomimetic and Biomedical Materialsiminary tests of this approach, the use of inkjet printing to form lines and layers of polymers, reaction between successive drops to produce layers of gels about 100nm thick, addition of enzymes into these gels and there use to produce mineralized structures.
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Tissue Engineering of Mineralized Tissues: The Essential Elementsthe regeneration of hard tissues, like bone will be addressed. This review will also focus on the available in vitro systems for the culturing of cells-polymers constructs. Finally it will discussed the biofuctionality testing, and the several animal models that are avai lable for evaluating the developed proofs of concept.
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