Production and characterization of hyaluronic acid microparticles for the controlled delivery of growth factors using a spray/dehydration method

last updated: 2016-10-07
ProjectBIBS :: publications list
TitleProduction and characterization of hyaluronic acid microparticles for the controlled delivery of growth factors using a spray/dehydration method
Publication TypePapers in Scientific Journals
Year of Publication2016
AuthorsBabo P. S., Reis R. L., and Gomes M. E.
Abstract

Hyaluronic acid is the main polysaccharide present in the connective tissue. Besides its structural function as backbone of the extracellular matrix, hyaluronic acid plays staple roles in several biological processes including the modulation of inflammation and wound healing processes. The application of hyaluronic acid in regenerative medicine, either as cells and/or drug/growth factors delivery vehicles, relies on its ability to be cross-linked using a plethora of reactions, producing stable hydrogels. In this work, we propose a novel method for the production of hyaluronic acid microparticles that presents several advantages over others that have been used. Basically, droplets of hyaluronic acid solution produced with a nozzle are collected in an isopropanol dehydration bath, and stabilized after crosslinking with adipic acid dihydrazide, using a cabodiimide-based chemistry. The size and morphology of the hyaluronic acid microparticles produced by this method varied with the molecular weight and concentration of the hyaluronic acid solution, the nozzle chamber pressure, the distance between the nozzle and the crosslinking solution, and the number of crosslinking steps. The degree of crosslinking of the hyaluronic acid microparticles produced was tunable and allowed to control the rate of the degradation promoted by hyaluronidase. Moreover, the particles were loaded with platelet lysate, a hemoderivative rich in cytokines with interest for regenerative medicine applications. The hyaluronic acid microparticles showed potential to bind selectively to positively charged molecules, as the factors present in the platelet lysate. It is envisioned that these can be further released in a sustained manner by ion exchange or by the degradation of the hyaluronic acid microparticles matrix promoted by extracellular matrix remodeling.

JournalJournal Of Biomaterials Applications
Date Published2016-09-16
ISSN0885-3282
DOI10.1177/0885328216669475
KeywordsDrug Delivery System, Hyaluronic acid microparticles, Platelet lysate
RightsclosedAccess
Peer reviewedyes
Statuspublished

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