From nano-to macro-scale: Nanotechnology approaches for spatially controlled delivery of bioactive factors for bone and cartilage engineering

SantoV.E.; GomesM.E.; ManoJ.F.; ReisR.L.

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From nano-to macro-scale: Nanotechnology approaches for spatially controlled delivery of bioactive factors for bone and cartilage engineering

机译：从纳米到宏观：在空间上控制骨骼和软骨工程中生物活性因子的纳米技术方法

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The field of biomaterials has advanced towards the molecular and nanoscale design of bioactive systems for tissue engineering, regenerative medicine and drug delivery. Spatial cues are displayed in the 3D extracellular matrix and can include signaling gradients, such as those observed during chemotaxis. Architectures range from the nanometer to the centimeter length scales as exemplified by extracellular matrix fibers, cells and macroscopic shapes. The main focus of this review is the application of a biomimetic approach by the combination of architectural cues, obtained through the application of micro-and nanofabrication techniques, with the ability to sequester and release growth factors and other bioactive agents in a spatiotemporal controlled manner for bone and cartilage engineering.

机译：生物材料领域已朝着用于组织工程，再生医学和药物输送的生物活性系统的分子和纳米级设计发展。空间提示显示在3D细胞外矩阵中，并且可以包括信号梯度，例如在趋化过程中观察到的那些。结构范围从纳米级到厘米级，如细胞外基质纤维，细胞和宏观形状所示。本综述的主要重点是结合仿生方法的应用，该仿生方法是通过应用微和纳米加工技术获得的建筑线索的结合，并能够以时空受控的方式隔离和释放生长因子和其他生物活性剂。骨骼和软骨工程。

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《Nanomedicine 》 |2012年第7期| 共22页
作者
SantoV.E.; GomesM.E.; ManoJ.F.; ReisR.L.;
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正文语种 eng
中图分类航空航天医学工程 ;
关键词
bone regeneration; cartilage regeneration; controlled release; gradients; growth factors; intracellular delivery; layer-by-layer; regenerative medicine; self-assembly; tissue engineering;

机译：骨再生;软骨再生;控释;梯度;生长因子;细胞内传递;层层递质;再生医学;自组装;组织工程;

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1. From nano-to macro-scale: Nanotechnology approaches for spatially controlled delivery of bioactive factors for bone and cartilage engineering [J] . SantoV.E., GomesM.E., ManoJ.F., Nanomedicine . 2012 ,第7期

机译：从纳米到宏观：在空间上控制骨骼和软骨工程中生物活性因子的纳米技术方法
2. Controlled release strategies for bone, cartilage, and osteochondral engineering-part ii: Challenges on the evolution from single to multiple bioactive factor delivery [J] . Tissue engineering, Part B. Reviews . 2013 ,第4期

机译：骨，软骨和骨软骨工程的控释策略-第二部分：从单一生物活性因子到多种生物活性因子传递的挑战
3. Spatial regulation of controlled bioactive factor delivery for bone tissue engineering [J] . Samorezov Julia E., Alsberg Eben Advanced drug delivery reviews . 2015 ,第Null期

机译：骨组织工程中可控制的生物活性因子传递的空间调节
4. Osteochondral Tissue Engineering Constructs with a Cartilage Part Made of Poly(L-Lactic Acid) / Starch Blend and a Bioactive Poly(L-Lactic Acid) Composite Layer for Subchondral Bone [C] . S. Ghosh, J. C. Viana, R. L. Reis, International Symposium on Ceramics in Medicine . 2006

机译：骨质色组织工程构建与由聚（L-乳酸）/淀粉共混物制成的软骨部件和用于副骨的生物活性聚（L-乳酸）复合层制成
5. Engineering synthetic bone graft substitutes with improved mechanical properties, enhanced bioactivity, and on-demand growth factor delivery. [D] . Meagher, Matthew J. 2015

机译：工程合成的骨移植替代品，具有改善的机械性能，增强的生物活性和按需生长因子传递的功能。
6. Controlled Release Strategies for Bone Cartilage and Osteochondral Engineering—Part II: Challenges on the Evolution from Single to Multiple Bioactive Factor Delivery [O] . Vítor E. Santo, Manuela E. Gomes, João F. Mano, -1

机译：骨软骨和骨软骨工程的控制释放策略-第二部分：从单一生物活性因子到多种生物活性因子传递的挑战
7. Controlled release strategies for bone, cartilage, and osteochondral engineering : Part II : challenges on the evolution from single to multiple bioactive factor delivery [O] . Santo, Vitor E., Gomes, Manuela E., Mano, J. F., 2013

机译：骨，软骨和骨软骨工程的控释策略：第二部分：从单一生物活性因子到多种生物活性因子传递的挑战

From nano-to macro-scale: Nanotechnology approaches for spatially controlled delivery of bioactive factors for bone and cartilage engineering

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