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Literature DB >> 27877323

Electrospun nanofibrous materials for tissue engineering and drug delivery.

Abstract

The electrospinning technique, which was invented about 100 years ago, has attracted more attention in recent years due to its possible biomedical applications. Electrospun fibers with high surface area to volume ratio and structures mimicking extracellular matrix (ECM) have shown great potential in tissue engineering and drug delivery. In order to develop electrospun fibers for these applications, different biocompatible materials have been used to fabricate fibers with different structures and morphologies, such as single fibers with different composition and structures (blending and core-shell composite fibers) and fiber assemblies (fiber bundles, membranes and scaffolds). This review summarizes the electrospinning techniques which control the composition and structures of the nanofibrous materials. It also outlines possible applications of these fibrous materials in skin, blood vessels, nervous system and bone tissue engineering, as well as in drug delivery.

Keywords: drug delivery; electrospinning; nanofiber; tissue engineering

Year: 2010 PMID： 27877323 PMCID： PMC5090550 DOI： 10.1088/1468-6996/11/1/014108

Source DB: PubMed Journal: Sci Technol Adv Mater ISSN： 1468-6996 Impact factor: 8.090

62 in total

1. Biodegradable electrospun fibers for drug delivery.

Authors: Jing Zeng; Xiaoyi Xu; Xuesi Chen; Qizhi Liang; Xinchao Bian; Lixin Yang; Xiabin Jing
Journal: J Control Release Date: 2003-10-30 Impact factor: 9.776

Review 2. Nanofiber technology: designing the next generation of tissue engineering scaffolds.

Authors: Catherine P Barnes; Scott A Sell; Eugene D Boland; David G Simpson; Gary L Bowlin
Journal: Adv Drug Deliv Rev Date: 2007-08-25 Impact factor: 15.470

3. Biomimicking extracellular matrix: cell adhesive RGD peptide modified electrospun poly(D,L-lactic-co-glycolic acid) nanofiber mesh.

Authors: Taek Gyoung Kim; Tae Gwan Park
Journal: Tissue Eng Date: 2006-02

4. Coating electrospun poly(epsilon-caprolactone) fibers with gelatin and calcium phosphate and their use as biomimetic scaffolds for bone tissue engineering.

Authors: Xiaoran Li; Jingwei Xie; Xiaoyan Yuan; Younan Xia
Journal: Langmuir Date: 2008-12-16 Impact factor: 3.882

5. A review on electrospinning design and nanofibre assemblies.

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

6. Fabrication and in vitro biomineralization of bioactive glass (BG) nanofibres.

Authors: Wei Xia; Daming Zhang; Jiang Chang
Journal: Nanotechnology Date: 2007-02-28 Impact factor: 3.874

Review 7. Tissue engineering.

Authors: R Langer; J P Vacanti
Journal: Science Date: 1993-05-14 Impact factor: 47.728

8. In situ growth of hydroxyapatite within electrospun poly(DL-lactide) fibers.

Authors: Wenguo Cui; Xiaohong Li; Shaobing Zhou; Jie Weng
Journal: J Biomed Mater Res A Date: 2007-09-15 Impact factor: 4.396

9. 3-D Nanofibrous electrospun multilayered construct is an alternative ECM mimicking scaffold.

Authors: S Srouji; T Kizhner; E Suss-Tobi; E Livne; E Zussman
Journal: J Mater Sci Mater Med Date: 2007-08-15 Impact factor: 3.896

10. Neurite infiltration and cellular response to electrospun polycaprolactone scaffolds implanted into the brain.

Authors: David R Nisbet; Andrew E Rodda; Malcolm K Horne; John S Forsythe; David I Finkelstein
Journal: Biomaterials Date: 2009-06-04 Impact factor: 12.479

28 in total

Review 1. Stem Cells in Functional Bladder Engineering.

Authors: Jakub Smolar; Souzan Salemi; Maya Horst; Tullio Sulser; Daniel Eberli
Journal: Transfus Med Hemother Date: 2016-08-31 Impact factor: 3.747

2. Effect of scaffold morphology and cell co-culture on tenogenic differentiation of HADMSC on centrifugal melt electrospun poly (L‑lactic acid) fibrous meshes.

Authors: Shaohua Wu; Hao Peng; Xiuhong Li; Philipp N Streubel; Yong Liu; Bin Duan
Journal: Biofabrication Date: 2017-11-14 Impact factor: 9.954

3. Sustained-release Griffithsin nanoparticle-fiber composites against HIV-1 and HSV-2 infections.

Authors: Kevin M Tyo; Amanda B Lasnik; Longyun Zhang; Mohamed Mahmoud; Alfred B Jenson; Joshua L Fuqua; Kenneth E Palmer; Jill M Steinbach-Rankins
Journal: J Control Release Date: 2020-02-05 Impact factor: 9.776

4. Preparation, characterization, and release of amoxicillin from electrospun fibrous wound dressing patches.

Authors: Panagiotis Sofokleous; Eleanor Stride; Mohan Edirisinghe
Journal: Pharm Res Date: 2013-04-25 Impact factor: 4.200

Review 5. Fibrous scaffolds for building hearts and heart parts.

Authors: A K Capulli; L A MacQueen; Sean P Sheehy; K K Parker
Journal: Adv Drug Deliv Rev Date: 2015-12-04 Impact factor: 15.470

6. Cotton wool-like poly(lactic acid)/vaterite composite scaffolds releasing soluble silica for bone tissue engineering.

Authors: Akiko Obata; Hiroki Ozasa; Toshihiro Kasuga; Julian R Jones
Journal: J Mater Sci Mater Med Date: 2013-04-20 Impact factor: 3.896

7. Fabrication and Characterization of Griffithsin-modified Fiber Scaffolds for Prevention of Sexually Transmitted Infections.

Authors: Hung R Vuong; Kevin M Tyo; Jill M Steinbach-Rankins
Journal: J Vis Exp Date: 2017-10-31 Impact factor: 1.355