The second indicator was the IAQ Ca

The second indicator was the IAQ Cancer Risk Indicator (CRI).This was created using the available unit risk (UR) estimated values that reflect a dose which corresponds to a specific level of cancer risk. UR values were extracted from a database provided by the OEHHA (CalEPA, the Cancer Potency Values) which offered a more complete collection (see Table 3). The inhalation unit risk (UR ¼ 1) can be defined as the upper-bound excess lifetime cancer risk
estimated as the result of continuous exposure to an agent at a concentration of 1 mgm3 in the air over a lifetime of 70 years (IRIS,2013). The lifetime cancer risk (LCR) attributable to inhalation exposures was calculated multiplying each UR estimated value by the daily average concentration (expressed in mg m3) of each compound (LCR ¼ C*UR). The individual cancer risk of each VOC was additive; therefore, the global lifetime cancer risk was calculated as
the sum of the LCRs of the individual compounds (Ramírez et al.,2012). Hence, to define a comprehensive LCR for each site, a global LCR (LCRsite)was obtained by summing each specific LCR for all of the chemicals detected at that site (LCRsite ¼ PLCRi). In accordance with previous studies, compounds with an attributable cancer risk over 104 were considered to be a “definite risk”, those between 105 and 104 were “probable risk” and between 105 and 106 was a “possible risk”. A value of 1*106 for an LCR is recommended by USEPA (Robson and Toscano, 2007) as an “acceptable risk” for each compound.