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Biotherapeutics: Bone Scaffolds Based on Degradable Vaterite/PEG‐Composite Microgels (Adv. Healthcare Mater. 11/2020)
Advanced Healthcare Materials ( IF 10.0 ) Pub Date : 2020-06-10 , DOI: 10.1002/adhm.202070030 Elena Stengelin , Alena Kuzmina , Guillermo L. Beltramo , Martha F. Koziol , Laura Besch , Romina Schröder , Ronald E. Unger , Wolfgang Tremel , Sebastian Seiffert
Advanced Healthcare Materials ( IF 10.0 ) Pub Date : 2020-06-10 , DOI: 10.1002/adhm.202070030 Elena Stengelin , Alena Kuzmina , Guillermo L. Beltramo , Martha F. Koziol , Laura Besch , Romina Schröder , Ronald E. Unger , Wolfgang Tremel , Sebastian Seiffert
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In article number 1901820 by Sebastian Seiffert and co‐workers, degradable vaterite/PEG‐composite microgels are templated by droplet‐based microfluidic technology. A key aspect of the material development is the fundamental understanding of the gel structure‐property relationships, and their connection to tissue engineering, by tailoring the microgel properties on micro‐, meso‐, and macroscopic levels. The co‐encapsulation of cells provides an in vitro platform for metabolic bone regeneration studies and a step towards new bone tissue regeneration materials.
中文翻译:
生物治疗药物:基于可降解球ate石/ PEG复合微凝胶的骨支架(Adv。Healthcare Mater。11/2020)
Sebastian Seiffert及其同事的论文编号1901820中,可降解的球v石/ PEG复合微凝胶通过基于液滴的微流体技术进行模板化。材料开发的一个关键方面是,通过在微观,中观和宏观层面上调整微凝胶的性质,对凝胶的结构-性质关系及其与组织工程的关系有基本的了解。细胞的共包封为代谢性骨再生研究提供了一个体外平台,并为新的骨组织再生材料迈出了一步。
更新日期:2020-06-10
中文翻译:
生物治疗药物:基于可降解球ate石/ PEG复合微凝胶的骨支架(Adv。Healthcare Mater。11/2020)
Sebastian Seiffert及其同事的论文编号1901820中,可降解的球v石/ PEG复合微凝胶通过基于液滴的微流体技术进行模板化。材料开发的一个关键方面是,通过在微观,中观和宏观层面上调整微凝胶的性质,对凝胶的结构-性质关系及其与组织工程的关系有基本的了解。细胞的共包封为代谢性骨再生研究提供了一个体外平台,并为新的骨组织再生材料迈出了一步。
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