Novel Aspects of Nanofibers 2018
DOI: 10.5772/intechopen.73677
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Electrospinning of Functional Nanofibers for Regenerative Medicine: From Bench to Commercial Scale

Abstract: Nanofibers are an important material for regenerative medicine as they have a commensurate morphology to that of the macromolecular matrix that supports and houses the growth of cells and tissues within the body. Electrospinning is widely used to fabricate non-woven structures on the nanoscale and the versatility of the technique has widened the application of nanofibers. This is due to ease of extending nanofiber functionality through the incorporation of active materials both during and after electrospinning… Show more

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Cited by 4 publications
(2 citation statements)
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References 112 publications
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“…Electrospinning presents a technique that has been used with success to fabricate elongated nanofibers and macroporous tissue engineering constructs made thereof . Also, the fiber properties such as the diameter, interconnectedness, and porosity could be easily tuned by controlling the electrospinning parameters and adjusted for an optimal cell migration and transfer of nutrients, all the while having the nanoscale topography of the surface promote the osteoblast adhesion .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Electrospinning presents a technique that has been used with success to fabricate elongated nanofibers and macroporous tissue engineering constructs made thereof . Also, the fiber properties such as the diameter, interconnectedness, and porosity could be easily tuned by controlling the electrospinning parameters and adjusted for an optimal cell migration and transfer of nutrients, all the while having the nanoscale topography of the surface promote the osteoblast adhesion .…”
Section: Introductionmentioning
confidence: 99%
“…Electrospinning presents a technique that has been used with success to fabricate elongated nanofibers and macroporous tissue engineering constructs made thereof. 27 Also, the fiber properties such as the diameter, interconnectedness, and porosity could be easily tuned by controlling the electrospinning parameters and adjusted for an optimal cell migration and transfer of nutrients, all the while having the nanoscale topography of the surface promote the osteoblast adhesion. 28 Taking all these arguments together, in this study, we attempt to go beyond the typical deposition of pure HAP on the surface of Ti implants by incorporating CHAP into electrospun PCL nanofibrous (CHAP@PCL) and coating the Ti metal substrate with them.…”
Section: Introductionmentioning
confidence: 99%