AI Article Synopsis
- Recent phase III trials show LED systems are more effective than broad-spectrum lamps for treating actinic keratosis with photodynamic therapy (PDT).
- A study compared three PDT lamp types and their ability to kill ALA-loaded A431 cells, highlighting a new LED system designed for better compatibility with photosensitizer absorption.
- Results indicate that the newer LED was the most effective in inducing cell death, confirming the importance of matching light emissions with treatment parameters.
Article Abstract
LED illumination systems were found to be more efficacious than broad spectrum lamps in recent phase III trials on photodynamic treatment of actinic keratosis. However, a detailed comparison of the light doses emitted at the appropriate spectral range and its correlation to photodynamic effects is thus far not available for the most frequently used devices. Here, we compared the spectral emissions of three different PDT lamps with their potency of inducing cell death in ALA-loaded A431 cells, including a new system equipped with more advanced LEDs matching the photosensitizer absorption peak more precisely and emitting more homogeneous light over time. Cells were exposed to two different ALA concentrations, incubated for 1 or 3h and then illuminated by one of two different LED or a broad-spectrum system at four different light doses, whereupon viability was assessed. Maximal doses were selected in accordance to clinically applied light doses in recent phase III studies and the manufacturers' recommendations. The data gathered here clearly demonstrate that the two LED systems were significantly more effective in inducing cell death than the broad spectrum system. Most efficient was the newer LED system, in agreement with emission parameters that more accurately corresponded to the photosensitizer's absorption peak.
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| http://dx.doi.org/10.1016/j.pdpdt.2016.03.001 | DOI Listing |
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