Journal
CURRENT OPINION IN BIOMEDICAL ENGINEERING
Volume 2, Issue -, Pages 49-57Publisher
ELSEVIER
DOI: 10.1016/j.cobme.2017.05.007
Keywords
Biomaterials; Electrohydrodynamic; Scaffold; 3D printing
Categories
Funding
- German Research Foundation [DA 1034/4-1]
- German Research Foundation (DFG) State Major Instrumentation Programme [INST105022/58-1 FUGG]
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The recent development of electrostatic writing (electrowriting) with molten jets provides an opportunity to tackle some significant challenges within tissue engineering. The process uses an applied voltage to generate a stable fluid jet with a predictable path, that is continuously deposited onto a collector. The fiber diameter is variable during the process, and is applicable to polymers with a history of clinical use. Melt electrowriting therefore has potential for clinical translation if the biological efficacy of the implant can be improved over existing gold standards. It provides a unique opportunity for laboratories to perform low-cost, high resolution, additive manufacturing research that is well positioned for clinical translation, using existing regulatory frameworks.
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