SN-38-loaded Nanofiber Matrices for Local Control of Pediatric Solid Tumors After Subtotal Resection Surgery

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2015 Dec 24

PMID 26695118

Citations 13

Authors

Carles Monterrubio

Guillem Pascual-Pasto

Francisco Cano

Monica Vila-Ubach

Alejandro Manzanares

Paula Schaiquevich

Jose A Tornero

Alejandro Sosnik

Jaume Mora

Angel M Carcaboso

Affiliations

Soon will be listed here.

Abstract

In addition to surgery, local tumor control in pediatric oncology requires new treatments as an alternative to radiotherapy. SN-38 is an anticancer drug with proved activity against several pediatric solid tumors including neuroblastoma, rhabdomyosarcoma and Ewing sarcoma. Taking advantage of the extremely low aqueous solubility of SN-38, we have developed a novel drug delivery system (DDS) consisting of matrices made of poly(lactic acid) electrospun polymer nanofibers loaded with SN-38 microcrystals for local release in difficult-to-treat pediatric solid tumors. To model the clinical scenario, we conducted extensive preclinical experiments to characterize the biodistribution of the released SN-38 using microdialysis sampling in vivo. We observed that the drug achieves high concentrations in the virtual space of the surgical bed and penetrates a maximum distance of 2 mm within the tumor bulk. Subsequently, we developed a model of subtotal tumor resection in clinically relevant pediatric patient-derived xenografts and used such models to provide evidence of the activity of the SN-38 DDS to inhibit tumor regrowth. We propose that this novel DDS could represent a potential future strategy to avoid harmful radiation therapy as a primary tumor control together with surgery.

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