Abstract
Intracellular delivery of molecules can be increased by laser-exposure of carbon black nanoparticles to cause photoporation of the cells. Here we sought to determine effects of multiple laser exposure parameters on intracellular uptake and cell viability with the goal of determining a single unifying parameter that predicts cellular bioeffects. DU145 human prostate cancer cells in suspension with nanoparticles were exposed to near-infrared nanosecond laser pulses over a range of experimental conditions. Increased bioeffects (i.e., uptake and viability loss determined by flow cytometry) were seen when increasing laser fluence, number of pulses and nanoparticle concentration, and decreasing cell concentration. Bioeffects caused by different combinations of these four parameters were generally predicted by their cumulative energy input per cell, which served as a unifying parameter. This indicates that photoporation depends on what appears to be the cumulative effect of multiple cell–nanoparticle interactions from neighboring nanoparticles during a series of laser pulses.
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