Near-Field Electrospinning and Melt Electrowriting of Biomedical Polymers-Progress and Limitations

被引:41
作者
King, William E., III [1 ,2 ]
Bowlin, Gary L. [1 ]
机构
[1] Univ Memphis, Dept Biomed Engn, Memphis, TN 38152 USA
[2] Univ Tennessee, Hlth Sci Ctr, Dept Biomed Engn, Memphis, TN 38163 USA
来源
POLYMERS | 2021年 / 13卷 / 07期
关键词
near-field electrospinning; melt electrowrite; fiber write; biomedical polymer;
D O I
10.3390/polym13071097
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
Near-field electrospinning (NFES) and melt electrowriting (MEW) are the process of extruding a fiber due to the force exerted by an electric field and collecting the fiber before bending instabilities occur. When paired with precise relative motion between the polymer source and the collector, a fiber can be directly written as dictated by preprogrammed geometry. As a result, this precise fiber control results in another dimension of scaffold tailorability for biomedical applications. In this review, biomedically relevant polymers that to date have manufactured fibers by NFES/MEW are explored and the present limitations in direct fiber writing of standardization in published setup details, fiber write throughput, and increased ease in the creation of complex scaffold geometries are discussed.
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页数:23
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共 102 条
[1]   Effects of Gradient and Offset Architectures on the Mechanical and Biological Properties of 3-D Melt Electrowritten (MEW) Scaffolds [J].
Abbasi, Naghmeh ;
Abdal-hay, Abdalla ;
Hamlet, Stephen ;
Graham, Elizabeth ;
Ivanovski, Saso .
ACS BIOMATERIALS SCIENCE & ENGINEERING, 2019, 5 (07) :3448-3461
[2]   Electrohydrodynamic Direct Writing of Biomedical Polymers and Composites [J].
Ahmad, Zeeshan ;
Rasekh, Manoochehr ;
Edirisinghe, Mohan .
MACROMOLECULAR MATERIALS AND ENGINEERING, 2010, 295 (04) :315-319
[3]   A Parameter Study for 3D-Printing Organized Nanofibrous Collagen Scaffolds Using Direct-Write Electrospinning [J].
Alexander, Frank A., Jr. ;
Johnson, Lee ;
Williams, Krystaufeux ;
Packer, Kyle .
MATERIALS, 2019, 12 (24)
[4]   A Review of the Properties and Applications of Poly (Methyl Methacrylate) (PMMA) [J].
Ali, Umar ;
Abd Karim, Khairil Juhanni Bt. ;
Buang, Nor Aziah .
POLYMER REVIEWS, 2015, 55 (04) :678-705
[5]   A review of polyvinyl alcohol and its uses in cartilage and orthopedic applications [J].
Baker, Maribel I. ;
Walsh, Steven P. ;
Schwartz, Zvi ;
Boyan, Barbara D. .
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART B-APPLIED BIOMATERIALS, 2012, 100B (05) :1451-1457
[6]   A Computer-Controlled Near-Field Electrospinning Setup and Its Graphic User Interface for Precision Patterning of Functional Nanofibers on 2D and 3D Substrates [J].
Bisht, Gobind ;
Nesterenko, Sergiy ;
Kulinsky, Lawrence ;
Madou, Marc .
JALA, 2012, 17 (04) :302-308
[7]   Controlled Continuous Patterning of Polymeric Nanofibers on Three-Dimensional Substrates Using Low-Voltage Near-Field Electrospinning [J].
Bisht, Gobind S. ;
Canton, Giulia ;
Mirsepassi, Alireza ;
Kuinsky, Lawrence ;
Oh, Seajin ;
Dunn-Rankin, Derek ;
Madou, Marc J. .
NANO LETTERS, 2011, 11 (04) :1831-1837
[8]   Design and Fabrication of Tubular Scaffolds via Direct Writing in a Melt Electrospinning Mode [J].
Brown, Toby D. ;
Slotosch, Anna ;
Thibaudeau, Laure ;
Taubenberger, Anna ;
Loessner, Daniela ;
Vaquette, Cedryck ;
Dalton, Paul D. ;
Hutmacher, Dietmar W. .
BIOINTERPHASES, 2012, 7 (1-4) :1-16
[9]   Melt Electrowriting Allows Tailored Microstructural and Mechanical Design of Scaffolds to Advance Functional Human Myocardial Tissue Formation [J].
Castilho, Miguel ;
van Mil, Alain ;
Maher, Malachy ;
Metz, Corina H. G. ;
Hochleitner, Gernot ;
Groll, Juergen ;
Doevendans, Pieter A. ;
Ito, Keita ;
Sluijter, Joost P. G. ;
Malda, Jos .
ADVANCED FUNCTIONAL MATERIALS, 2018, 28 (40)
[10]   Scaffolding in tissue engineering: general approaches and tissue-specific considerations [J].
Chan, B. P. ;
Leong, K. W. .
EUROPEAN SPINE JOURNAL, 2008, 17 (Suppl 4) :S467-S479
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