Estimate of the maximum amount of dust adhering to skin and the upper limit of dust-skin adherence factor for young adults: An example from Changchun, China

Contaminants present in dust adhering to the skin can pose a significant risk to human health through dermal absorption and hand-to-mouth contact. The adhesion capacity of dust differs significantly from that of soil due to its physicochemical properties . Therefore, applying the raw soil exposure parameters to estimate the health risks associated with dermal exposure to dust may lead to erroneous conclusions. In this study, we quantified the maximum amount of dust that adhered to the skin (MAD max ) and the upper limit of dust-skin adherence factor (DSAF max ) in 26 adults using element markers as a proxy for dust. The volunteers were exposed to dust and rinse water samples were collected from their hands, forearms, lower legs, and feet. We analyzed both the raw dust samples and the rinse water samples for 11 element markers, including Be, V, Cr, Mn, Co, Ni, Cu, Zn, Se, Ba, and Pb. The results showed that the MAD max of indoor dust and outdoor dust increased by 0.08–0.62 mg and 0.33–0.56 mg following a 1 cm 2 increase in skin surface area, respectively. Based on best dust element markers, the body part-weighted dust-skin adherences (WDSAF max s) of indoor dust and outdoor dust were 0.35 and 0.64 mg/cm 2 , respectively. A smaller particle size and higher moisture content resulted in a larger DSAF max . Only when indoor dust concentrations exceed 24.2 mg/m 3 or outdoor dust concentrations exceed 44.3 mg/m 3 , can the WDSAF max be applied directly in the health risk assessment of dermal exposure to dust. The method from this study can be re-applied in different regions, and the adherence data can help to improve future studies on the health effects of dermal exposure to dust.