Biological effects of air pollution on the function of human skin equivalents.

The World Health Organization reports that 99% of the global population are exposed to pollution levels higher than the recommended air quality guidelines. Pollution-induced changes in the skin have begun to surface; however, the effects require further investigation so that effective protective strategies can be developed. This study aimed to investigate some of the aging-associated effects caused by ozone and particulate matter (PM) on human skin equivalents.

Adaptive responses to air pollution in human dermal fibroblasts and their potential roles in aging.

The damaging effects of air pollution on the skin are becoming increasingly researched and the outcomes of this research are now a major influence in the selection and development of protective ingredients for skincare formulations. However, extensive research has not yet been conducted into the specific cellular defense systems that are being affected after exposure to such pollutants. Research investigating the affected systems is integral to the development of suitable interventions that are capable of augmenting the systems most impacted by air pollutant exposure.

Exposing human primary dermal fibroblasts to particulate matter induces changes associated with skin aging.

With a large proportion of the world's population living in areas where air quality does not meet current WHO guidelines, combined with the knowledge that pollutants can interact with human skin, it is now of even greater importance that the effects of air pollutant exposure on human skin be investigated. To evaluate the damaging effects of a known component of air pollution (particulate matter) on human primary dermal fibroblasts. These studies were undertaken by exposing primary human dermal fibroblasts to different concentrations of particulate matter and analyzing the effects over time using resazurin reduction assays.