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Systematic analysis of injectable materials and 3D rapid prototyped magnetic scaffolds: from CNS applications to soft and hard tissue repair/regeneration

机译：可注射材料和3D快速成型磁力支架的系统分析：从CNS应用到软组织修复/再生

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Over the past years, polymer-based materials have attracted research interest in the field of tissue repair and regeneration. As reported in literature, different injectable systems have been proposed, trying to reduce surgical invasiveness. In a first step of the current research, the rheological and functional features of injecatble hydrogel-based materials for central nervous system applications or soft tissue regeneration (collagen/PEG semi-IPNs) as well as for hard tissue engineering (alginate/iron-doped hydroxyapatite) were evaluated. Then, the study was also devoted to the development of 3D nanocomposite poly(ε-caprolactone)/iron-doped hydroxyapatite scaffolds for bone tissue engineering, providing a preliminary approach to assess magnetic attraction forces.

机译：在过去几年中，基于聚合物的材料吸引了组织修复和再生领域的研究兴趣。如文学所报道，已经提出了不同的注射系统，试图减少手术侵犯性。在目前研究的第一步，中枢神经系统应用或软组织再生（胶原/ PEG半IPN）以及硬组织工程（藻酸盐/铁掺杂）的基于肾上腺水凝胶基材料的流变和功能特征评估羟基磷灰石）。然后，该研究还致力于开发3D纳米复合材料聚（ε-己内酯）/铁掺杂羟基磷灰石支架的骨组织工程，提供了评估磁吸引力的初步方法。

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《International Conference on Tissue Engineering》|2013年||共7页
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作者
Teresa Russo; Ugo DAmora; Antonio Gloria; Marta Tunesi; Monica Sandri; Serena Rodilossi; Diego Albani; Gianluigi Forloni; Carmen Giordano; Alberto Cigada; Anna Tampieri; Roberto De Santis; Luigi Ambrosio;
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中图分类 T-53;
关键词
Injectable Materials; Rheology; Nanocomposites; Rapid Prototyping; Magnetic Scaffolds;

机译：注射材料;流变学;纳米复合材料;快速原型;磁性支架;

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专利

1. Production of new 3D scaffolds for bone tissue regeneration by rapid prototyping [J] . Fradique R., Correia T. R., Miguel S. P., Journal of materials science . 2016,第4期

机译：通过快速成型生产用于骨骼组织再生的新型3D支架
2. Advanced Composites for Hard-Tissue Engineering Based on PCL/Organic-Inorganic Hybrid Fillers: From the Design of 2D Substrates to 3D Rapid Prototyped Scaffolds [J] . R. De Santis, A. Gloria, T. Russo Polymer Composites . 2013,第9期

机译：基于PCL /有机-无机混合填料的硬组织工程高级复合材料：从2D基板的设计到3D快速原型支架
3. Viscoelastic Properties of Rapid Prototyped Magnetic Nanocomposite Scaffolds for Osteochondral Tissue Regeneration [J] . Roberto De Santis, Antonio Gloria, Teresa Russo, Procedia CIRP . 2016,第2期

机译：快速原型磁性纳米复合支架的骨软骨组织再生的粘弹性。
4. Systematic analysis of injectable materials and 3D rapid prototyped magnetic scaffolds: from CNS applications to soft and hard tissue repair/regeneration [C] . Teresa Russo, Ugo DAmora, Antonio Gloria, International Conference on Tissue Engineering . 2013

机译：可注射材料和3D快速成型磁力支架的系统分析：从CNS应用到软组织修复/再生
5. Development of Injectable, Stimuli-Responsive Biomaterials as Active Scaffolds for Applications in Advanced Drug Delivery and Osteochondral Tissue Regeneration. [D] . Adedoyin, Adedokun Adediji. 2018

机译：可注射的，对刺激有反应的生物材料作为活性支架的开发，用于先进的药物递送和软骨组织再生。
6. The 3 R’s for Platelet-Rich Fibrin: A Super Tri-Dimensional Biomaterial for Contemporary Naturally-Guided Oro-Maxillo-Facial Soft and Hard Tissue Repair Reconstruction and Regeneration [O] . Consuelo C. Zumarán, Marcelo V. Parra, Sergio A. Olate, 2018

机译：富含血小板的纤维蛋白的3 R：用于当代自然引导的Oro-Maxillo-面部软硬组织修复重建和再生的超级三维生物材料
7. Systematic Analysis of Injectable Materials and 3D Rapid Prototyped Magnetic Scaffolds: From CNS Applications to Soft and Hard Tissue Repair/Regeneration [O] . Russo Teresa, D’Amora Ugo, Gloria Antonio, 2013

机译：可注射材料和3D快速原型磁性支架的系统分析：从中枢神经系统应用到软硬组织修复/再生

Systematic analysis of injectable materials and 3D rapid prototyped magnetic scaffolds: from CNS applications to soft and hard tissue repair/regeneration

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