Phosphate salts facilitate the electrospinning of hyaluronic acid fiber mats

Electrospinning is a cost effective and facile method to manufacture fiber mats appropriate for biomedical applications. Due to its high molecular weight and charged backbone, hyaluronic acid (HA) fiber mats with consistent fiber morphology have been difficult to electrospin from neutral pH solution...

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Veröffentlicht in:	Journal of materials science 2013-11, Vol.48 (22), p.7805
Hauptverfasser:	Brenner, Eric K, Schiffman, Jessica D, Toth, Laura J, Szewczyk, Janah C, Schauer, Caroline L
Format:	Artikel
Sprache:	eng
Schlagworte:	Dimethylformamide Glycerin Glycerol Hyaluronic acid Phosphates Physicians (General practice)
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description	Electrospinning is a cost effective and facile method to manufacture fiber mats appropriate for biomedical applications. Due to its high molecular weight and charged backbone, hyaluronic acid (HA) fiber mats with consistent fiber morphology have been difficult to electrospin from neutral pH solutions. Here, we present that the electrospinning of HA fibers in aqueous dimethylformamide solutions is facilitated by the addition of three phosphate salts. The salts--glycerol phosphate (GP), sodium phosphate (SP), and tripolyphosphate (TPP)--facilitated electrospinning of the solutions as characterized by conductivity measurements and fiber morphology. From tensile experiments, HA mats electrospun with SP demonstrated improved Young's modulus (12 MPa) over HA mats spun with either GP or TPP (5 and 3 MPa, respectively). This work demonstrates that a new neutral solvent system can be employed to spin HA fibers, which offers the potential for using the fibers for biomedical applications, such as a bone biomimetic.
doi_str_mv	10.1007/s10853-013-7532-l
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Due to its high molecular weight and charged backbone, hyaluronic acid (HA) fiber mats with consistent fiber morphology have been difficult to electrospin from neutral pH solutions. Here, we present that the electrospinning of HA fibers in aqueous dimethylformamide solutions is facilitated by the addition of three phosphate salts. The salts--glycerol phosphate (GP), sodium phosphate (SP), and tripolyphosphate (TPP)--facilitated electrospinning of the solutions as characterized by conductivity measurements and fiber morphology. From tensile experiments, HA mats electrospun with SP demonstrated improved Young's modulus (12 MPa) over HA mats spun with either GP or TPP (5 and 3 MPa, respectively). 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subjects	Dimethylformamide Glycerin Glycerol Hyaluronic acid Phosphates Physicians (General practice)
title	Phosphate salts facilitate the electrospinning of hyaluronic acid fiber mats
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