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Literature DB >> 25125992

Biomimetic electrospun nanofibrous structures for tissue engineering.

Abstract

Biomimetic nanofibrous scaffolds mimicking important features of the native extracellular matrix provide a promising strategy to restore functions or achieve favorable responses for tissue regeneration. This review provides a brief overview of current state-of-the-art research designing and using biomimetic electrospun nanofibers as scaffolds for tissue engineering. It begins with a brief introduction of electrospinning and nanofibers, with a focus on issues related to the biomimetic design aspects. The review next focuses on several typical biomimetic nanofibrous structures (e.g. aligned, aligned to random, spiral, tubular, and sheath membrane) that have great potential for tissue engineering scaffolds, and describes their fabrication, advantages, and applications in tissue engineering. The review concludes with perspectives on challenges and future directions for design, fabrication, and utilization of scaffolds based on electrospun nanofibers.

Entities: Chemical Disease Gene Species

Year: 2013 PMID： 25125992 PMCID： PMC4130655 DOI： 10.1016/j.mattod.2013.06.005

Source DB: PubMed Journal: Mater Today (Kidlington) ISSN： 1369-7021 Impact factor: 31.041

61 in total

1. Microfluidic 3D bone tissue model for high-throughput evaluation of wound-healing and infection-preventing biomaterials.

Authors: Joung-Hyun Lee; Yexin Gu; Hongjun Wang; Woo Y Lee
Journal: Biomaterials Date: 2011-11-05 Impact factor: 12.479

2. Multilayer polypeptide nanoscale coatings incorporating IL-12 for the prevention of biomedical device-associated infections.

Authors: Bingyun Li; Bingbing Jiang; Brandon M Boyce; Brock A Lindsey
Journal: Biomaterials Date: 2009-02-12 Impact factor: 12.479

3. A review on electrospinning design and nanofibre assemblies.

Authors: W E Teo; S Ramakrishna
Journal: Nanotechnology Date: 2006-06-30 Impact factor: 3.874

4. Polypeptide multilayer film co-delivers oppositely-charged drug molecules in sustained manners.

Authors: Bingbing Jiang; Elizabeth Defusco; Bingyun Li
Journal: Biomacromolecules Date: 2010-11-08 Impact factor: 6.988

5. Biomedical Applications of Biodegradable Polymers.

Authors: Bret D Ulery; Lakshmi S Nair; Cato T Laurencin
Journal: J Polym Sci B Polym Phys Date: 2011-06-15

6. Peptide Self-Assembly for Crafting Functional Biological Materials.

Authors: John B Matson; R Helen Zha; Samuel I Stupp
Journal: Curr Opin Solid State Mater Sci Date: 2011-12 Impact factor: 11.354

7. Guidance of glial cell migration and axonal growth on electrospun nanofibers of poly-epsilon-caprolactone and a collagen/poly-epsilon-caprolactone blend.

Authors: Eva Schnell; Kristina Klinkhammer; Simone Balzer; Gary Brook; Doris Klee; Paul Dalton; Jörg Mey
Journal: Biomaterials Date: 2007-03-19 Impact factor: 12.479

8. Fabrication of highly porous poly (ɛ-caprolactone) fibers for novel tissue scaffold via water-bath electrospinning.

Authors: Hem Raj Pant; Madhav Prasad Neupane; Bishweshwar Pant; Gopal Panthi; Hyun-Ju Oh; Min Ho Lee; Hak Yong Kim
Journal: Colloids Surf B Biointerfaces Date: 2011-07-26 Impact factor: 5.268

9. Polymer surfaces structured with random or aligned electrospun nanofibers to promote the adhesion of blood platelets.

Authors: Ling-Shu Wan; Zhi-Kang Xu
Journal: J Biomed Mater Res A Date: 2009-04 Impact factor: 4.396

Review 10. Stem cells in veterinary medicine--attempts at regenerating equine tendon after injury.

Authors: Lucy E Richardson; Jayesh Dudhia; Peter D Clegg; Roger Smith
Journal: Trends Biotechnol Date: 2007-08-09 Impact factor: 19.536

95 in total

1. Discovery and Characterization of a Potent and Specific Peptide Ligand Targeting Endothelial Progenitor Cells and Endothelial Cells for Tissue Regeneration.

Authors: Dake Hao; Wenwu Xiao; Ruiwu Liu; Priyadarsini Kumar; Yuanpei Li; Ping Zhou; Fuzheng Guo; Diana L Farmer; Kit S Lam; Fengshan Wang; Aijun Wang
Journal: ACS Chem Biol Date: 2017-03-02 Impact factor: 5.100

2. Nanotechnology-Based Approaches for Guiding Neural Regeneration.

Authors: Shreyas Shah; Aniruddh Solanki; Ki-Bum Lee
Journal: Acc Chem Res Date: 2015-12-14 Impact factor: 22.384

3. Osteogenic Differentiation and Mineralization on Compact Multilayer nHA-PCL Electrospun Scaffolds in a Perfusion Bioreactor.

Authors: Maliheh Yaghoobi; Sameereh Hashemi-Najafabadi; Masoud Soleimani; Ebrahim Vasheghani-Farahani; Seyyed Mohammad Mousavi
Journal: Iran J Biotechnol Date: 2016-06 Impact factor: 1.671

4. Mechanical characterization of electrospun gelatin scaffolds cross-linked by glucose.

Authors: Kaido Siimon; Hele Siimon; Martin Järvekülg
Journal: J Mater Sci Mater Med Date: 2015-01-13 Impact factor: 3.896

5. Electrospinning and Electrospun Nanofibers: Methods, Materials, and Applications.

Authors: Jiajia Xue; Tong Wu; Yunqian Dai; Younan Xia
Journal: Chem Rev Date: 2019-03-27 Impact factor: 60.622

6. Quantification of Confocal Images Using LabVIEW for Tissue Engineering Applications.

Authors: Lauren Sfakis; Tim Kamaldinov; Melinda Larsen; James Castracane; Alexander Khmaladze
Journal: Tissue Eng Part C Methods Date: 2016-11 Impact factor: 3.056

7. Physicochemical and biological characteristics of BMP-2/IGF-1-loaded three-dimensional coaxial electrospun fibrous membranes for bone defect repair.

Authors: Lihua Yin; Shaohua Yang; Miaomiao He; Yuchen Chang; Kaijuan Wang; Yidan Zhu; Yuhui Liu; Yaoren Chang; Zhanhai Yu
Journal: J Mater Sci Mater Med Date: 2017-05-12 Impact factor: 3.896