Photodynamic therapy (PDT) is increasingly used to treat superficial skin lesions, such as actinic keratosis (AK) and non-melanoma skin cancers, and has been demonstrated to be an effective and safe alternative to surgery. It is performed by applying a photosensitizing pro-drug, amino -levulinic acid (ALA) and then allowing the conversion to the metabolite Protoporphyrin IX (PpIX). While attempts to measure the concentration of this drug in the skin have been performed before, there remains limited research on an individuals' baseline level of PpIX which could lead to the customization of PDT. With the development of a new handheld, smart phone-associated device to measure red fluoresce intensity of PpIX, this measurement is now feasible. This is an observational single center quantitative study in which the investigators will take measurements of red fluoresce intensity of PpIX at various locations. This will then be correlated with the individuals age, oral temperature, diet, and skin type. The investigators hypothesize that the levels of PpIX will depend on all of these factors, including anatomical location. All data will be collected into the data collection form and then analyzed. The investigators will assess for how anatomical location, skin pigmentation, oral temperature, and other factors influence PpIX levels. Fitzpatrick skin type will be assessed by the provider to assess skin pigmentation. All of these factors will be correlated to the PpIX levels in 5 anatomical locations (forehead, cheeks, forearms, hands, and bald scalp where applicable) to determine which factors most greatly influence the red fluoresce intensity of PpIX.
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Change in Protoporphyrin IX levels on the skin
Timeframe: At baseline