Sustained Delivery of Doxorubicin via Acetalated Dextran Scaffold Prevents Glioblastoma Recurrence after Surgical Resection

Abstract: The primary cause of mortality for glioblastoma (GBM) is local tumor recurrence following standard-of-care therapies, including surgical resection. With most tumors recurring near the site of surgical resection, local delivery of chemotherapy at the time of surgery is a promising strategy. Herein drug loaded polymer scaffolds with two distinct degradation profiles were fabricated to investigate the effect of local drug delivery rate on GBM recurrence following surgical resection. The novel biopolymer, acetalat… Show more

“…Similarly, anti-cancer drug-loaded electrospun fibrous scaffolds fabricated from the biopolymer acetalated dextran (Ace-DEX) were discovered to have tailored drug release profile due to its tunable degradation rates [45]. Taking advantage of these unique properties, Ace-DEX nanofibers were fabricated to treat GBM recurrence following surgical resection, and proven to have a higher long-term survival rate (57%) compared to PLA nanofibers (20%) [46]. In another study, a drug-loaded sheet-and disc-shaped sub-micro fiber implant for postsurgical glioma therapy was developed, taking advantage of their different drug release properties and the implantability of the fibrous scaffold in the tumor resection area [47].…”

Functional Electrospun Fibers for Local Therapy of Cancer

“…Similarly, anti-cancer drug-loaded electrospun fibrous scaffolds fabricated from the biopolymer acetalated dextran (Ace-DEX) were discovered to have tailored drug release profile due to its tunable degradation rates [45]. Taking advantage of these unique properties, Ace-DEX nanofibers were fabricated to treat GBM recurrence following surgical resection, and proven to have a higher long-term survival rate (57%) compared to PLA nanofibers (20%) [46]. In another study, a drug-loaded sheet-and disc-shaped sub-micro fiber implant for postsurgical glioma therapy was developed, taking advantage of their different drug release properties and the implantability of the fibrous scaffold in the tumor resection area [47].…”

Functional Electrospun Fibers for Local Therapy of Cancer

“…For example, Ace-DEX, synthesized from 2-ethoxypropene, have been thoroughly investigated. [12][13][14][15][16][17] Compared with Ac-DEX, Ace-DEX has similar physiochemical properties and pH-dependent degradation by hydrolysis. 12 The most significant difference is the degradation products (acetone and ethanol), instead of acetone and methanol as in the case of Ac-DEX.…”

Acetalated dextran based nano- and microparticles: synthesis, fabrication, and therapeutic applications

“…These PLGA wafers used a pre-encapsulation process and reported 25% long-term survivors (survived >120 days compared to median survival of 28 days) in the F344 rat model [ 141 ]. Other chemotherapeutic agents that have been explored for sustained local delivery via polymeric implants include taxol, camptothecin, minocycline, doxorubicin, and others [ 142 , 143 , 144 , 145 , 146 , 147 , 148 , 149 , 150 , 151 , 152 , 153 , 154 , 155 , 156 ]. Novel polymeric implants and microchips can be used to deliver several drugs locally at varying time points in a controlled manner, and various formulations such as nanoparticles, liposomes, and microparticles can also be delivered via these implants.…”

Addressing BBB Heterogeneity: A New Paradigm for Drug Delivery to Brain Tumors