Alginate microparticles loaded with basic fibroblast growth factor induce tissue coverage in a rat model of myelomeningocele

Space: StayCurrentMD Author: James S Farrelly, Anthony H Bianchi, Adele S Ricciardi, Gina L Buzzelli, Samantha L Ahle, Mollie R Freedman-Weiss, Valerie L Luks, W Mark Saltzman, David H Stitelman Published: 2019-01-01

Author / Expert

James S Farrelly, Anthony H Bianchi, Adele S Ricciardi, Gina L Buzzelli, Samantha L Ahle, Mollie R Freedman-Weiss, Valerie L Luks, W Mark Saltzman, David H Stitelman

Topic overview

Abstract

Background/Purpose

We sought to develop a minimally invasive intra-amniotic therapy for prenatal treatment of myelomeningocele (MMC) in an established rat model.

Methods

Time-dated pregnant rats were gavage-fed retinoic acid to induce MMC. Groups received intraamniotic injections at E17.5 with alginate particles loaded with fluorescent dye, basic fibroblast growth factor (Alg-HSA-bFGF), fluorescently tagged albumin (Alginate-BSA-TR), free bFGF, blank alginate particles (Alg-Blank), or PBS. Groups were analyzed at 3 h for specific particle binding or at term (E21) to determine MMC coverage.

Results

Alginate microparticles demonstrated robust binding to the MMC defect 3 h after injection. Of those specimens analyzed at E21, 150 of 239 fetuses (62.8%) were viable. Moreover, 18 of 61 (30%) treated with Alg-HSA-bFGF showed evidence of soft tissue coverage compared to 0 of 24 noninjected (P = 0.0021), 0 of 13 PBS (P = 0.0297), and 0 of 42 free bFGF (P = P 

Alginate microparticles loaded with basic fibroblast growth factor induce tissue coverage in a rat model of myelomeningocele

Author / Expert

Topic overview

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Methods

Results

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