AI Article Synopsis
- Polymer-based drug delivery systems using PLGA/PEG microparticles show promise for targeting cancer cells in brain tissue following surgical resection.
- The study confirmed non-toxicity and structural integrity of these microparticles during radiotherapy and demonstrated sustained release of drugs like trichostatin A, etoposide, and methotrexate over weeks.
- Overall, this delivery system presents a novel method for administering chemotherapy directly in the brain, potentially enhancing treatment outcomes for malignant tumors.
Article Abstract
Introduction: Polymer-based delivery systems offer innovative intra-cavity administration of drugs, with the potential to better target micro-deposits of cancer cells in brain parenchyma beyond the resected cavity. Here we evaluate clinical utility, toxicity and sustained drug release capability of a novel formulation of poly(lactic-co-glycolic acid) (PLGA)/poly(ethylene glycol) (PEG) microparticles.
Methods: PLGA/PEG microparticle-based matrices were molded around an ex vivo brain pseudo-resection cavity and analyzed using magnetic resonance imaging and computerized tomography. In vitro toxicity of the polymer was assessed using tumor and endothelial cells and drug release from trichostatin A-, etoposide- and methotrexate-loaded matrices was determined. To verify activity of released agents, tumor cells were seeded onto drug-loaded matrices and viability assessed.
Results: PLGA/PEG matrices can be molded around a pseudo-resection cavity wall with no polymer-related artifact on clinical scans. The polymer withstands fractionated radiotherapy, with no disruption of microparticle structure. No toxicity was evident when tumor or endothelial cells were grown on control matrices in vitro. Trichostatin A, etoposide and methotrexate were released from the matrices over a 3-4 week period in vitro and etoposide released over 3 days in vivo, with released agents retaining cytotoxic capabilities. PLGA/PEG microparticle-based matrices molded around a resection cavity wall are distinguishable in clinical scanning modalities. Matrices are non-toxic in vitro suggesting good biocompatibility in vivo. Active trichostatin A, etoposide and methotrexate can be incorporated and released gradually from matrices, with radiotherapy unlikely to interfere with release.
Conclusion: The PLGA/PEG delivery system offers an innovative intra-cavity approach to administer chemotherapeutics for improved local control of malignant brain tumors.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3796488 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0077435 | PLOS |
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