Abstract
Osteosarcoma remains one of the most common malignant primary bone tumors. Post-surgical defect repair combined with tumor suppression remains a major clinical challenge. Investigations of alternative treatments for osteosarcoma, while promising, have led to multi-drug resistance. These constraints of common treatment strategies have triggered the need for new therapeutic candidates in bone cancer treatment. Chitosan, a common biopolymer utilized in bone and tissue engineering applications, has recently been studied as a pro-apoptotic agent in metastatic cell lines like breast cancer, but has not been utilized in bone cancer applications. In this study, chitosan was directly loaded onto HA disks to evaluate its in vitro release and effects on human fetal osteoblast (hFOB) and human osteosarcoma (MG-63) cell lines. It is hypothesized that the sustained release of chitosan will decrease osteosarcoma cell proliferation and enhance proliferation of osteoblast cells. Through morphological characterization and MTT assay analysis, chitosan showed no toxicity to human fetal osteoblast (hFOB) cells. Chitosan was also shown to decrease human osteosarcoma cell viability by up to 96% compared to control samples. This suggests a pro-apoptotic mechanism against osteosarcoma as well as the potential clinical application of chitosan as a drug candidate in ceramic scaffolds at tumor resected sites.
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