Usman Ali scite author profile

Small-diameter blood vessels (SDBVs) are still a challenging task to prepare due to the occurrence of thrombosis formation, intimal hyperplasia, and aneurysmal dilation. Electrospinning technique, as a promising tissue engineering approach, can fabricate polymer fibrous scaffolds that satisfy requirements on the construction of extracellular matrix (ECM) of native blood vessel and promote the adhesion, proliferation, and growth of cells. In this review, we summarize the polymers that are deployed for the fabrication of SDBVs and classify them into three categories, synthetic polymers, natural polymers, and hybrid polymers. Furthermore, the biomechanical properties and the biological activities of the electrospun SBVs including anti-thrombogenic ability and cell response are discussed. Polymer blends seem to be a strategic way to fabricate SDBVs because it combines both suitable biomechanical properties coming from synthetic polymers and favorable sites to cell attachment coming from natural polymers.

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Electrospinning of Continuous Nanofiber Bundles and Twisted Nanofiber Yarns

Ali¹,

Zhou²,

Wang³

et al. 2011

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Needleless electrospinning using sprocket wheel disk spinneret

et al. 2017

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Usman Ali

Direct electrospinning of highly twisted, continuous nanofiber yarns

Electrospun Fibrous Scaffolds for Small-Diameter Blood Vessels: A Review

Electrospinning of Continuous Nanofiber Bundles and Twisted Nanofiber Yarns

Needleless electrospinning using sprocket wheel disk spinneret

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