Optimization of a two-step desolvation method for preparing gelatin nanoparticles and cell uptake studies in 143B osteosarcoma cancer cells.

Abstract	PURPOSE: To establish a matrix of parameters to synthesize nanoparticles of different sizes and to investigate the cellular uptake of these nanoparticles by osteosarcoma cancer cells in order to investigate their potential as therapeutic drugdelivery carriers. METHODS: Gelatin A and B were used to synthesize nanoparticles by a two-step desolvation process. Different parameters were investigated, including temperature, pH, concentration of glutaraldehyde, type of desolvating agent and nature of gelatin. For cell uptake studies, Texas Red labeled nanoparticles were incubated with 143B osteosarcoma cells and then evaluated using confocal laser scanning microscopy (CLSM). RESULTS: The systematic investigation of the synthesis parameters showed that it is possible to prepare gelatin-based nanoparticles with different particle sizes and a narrow size distribution. Temperature and nature of the gelatin were the most important synthesis factors. Bioimaging using CLSM showed uptake of the nanoparticles by 143B osteosarcoma cancer cells. CONCLUSIONS: Osteosarcoma cancer cells take up gelatin nanoparticles. This might improve the clinical effectiveness of anti-cancer treatments if nanoparticles are used as a drug delivery system and has important implications for future cancer treatment strategies.
Authors	Shirzad Azarmi, Yuan Huang, Hua Chen, Steve McQuarrie, Douglas Abrams, Wilson Roa, Warren H Finlay, Gerald G Miller, Raimar Löbenberg
Journal	Journal of pharmacy & pharmaceutical sciences : a publication of the Canadian Society for Pharmaceutical Sciences, Societe canadienne des sciences pharmaceutiques (J Pharm Pharm Sci) Vol. 9 Issue 1 Pg. 124-32 ( 2006) ISSN: 1482-1826 [Electronic] Canada
PMID	16849014 (Publication Type: Journal Article)
Chemical References	Antineoplastic Agents Drug Carriers Gelatin Glutaral
Topics	Antineoplastic Agents (administration & dosage) Drug Carriers Drug Delivery Systems Gelatin (chemistry) Glutaral (chemistry) Humans Hydrogen-Ion Concentration Microscopy, Confocal Nanostructures Osteosarcoma (drug therapy) Particle Size Temperature Tumor Cells, Cultured

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