Thus, it is also not dependent on the accumulated MS dose. However, the slope of the MS concentration–response relationship for 18 months selleck products inhalation is approximately 3-fold steeper than that of the 5 + 4-month schedule (Fig. 5 and Fig. 7), which could erroneously be interpreted as an increased response due to a higher accumulated dose. A more detailed analysis of tumor multiplicity data obtained in the previous Study 1 (Stinn et al., 2012), though, revealed that there is an increase in the slope of the MS concentration–response relationship with the duration of the post-inhalation
period or, rather, with the age of the mice upon final dissection (Fig. 9A), while there is no increase in this slope
upon prolonged MS inhalation periods to the same final study duration or age (Fig. 9B). An age-dependent impact on the slope GSK2118436 chemical structure of the concentration–response relationship can indeed be expected in view of the supra-linear age-dependence of the spontaneous tumor development (Fig. 8). Considering a similar development of spontaneous and induced tumors, steeper dose–response relationships should be expected in long-term rather than in shorter-term chronic studies. Comparing various exposure scenarios, the factor between induced and control tumor multiplicities seems to be the most robust measure of tumorigenesis in this model. Within a given study design with specified inhalation and post-inhalation periods, though, the concentration–response relationship should still be the main parameter to be evaluated CHIR-99021 clinical trial in studies with the objective to compare MS generated from different cigarette types. For this purpose, the current dataset on MDDs provides information that can be used to determine group sizes to fit a certain study design and to provide the required discriminatory
power. The MDDs that can be obtained for the MS tumorigenesis model – if used according to OECD guidelines (Organisation for Economic Co-operation and Development, 2009) in terms of dose levels and group size, are compatible to the discriminatory power that was determined for chemical, in vitro, and subchronic inhalation studies with MS (Oldham et al., 2012). Pulmonary tumorigenesis in the A/J mouse is dependent on the presence and transcriptional activity of a mutated Kras oncogene ( Chen et al., 1994 and To et al., 2006). Previous studies in mouse lung tumorigenesis models showed a lack of mutational effects on Kras by smoke inhalation, which has been interpreted as being indicative of a tumor promoting rather than an initiating activity of smoke ( Wang et al., 2005 and Witschi et al., 2002). This would be consistent with the results of applications of the two-stage carcinogenesis model to epidemiological data ( Hazelton et al., 2005).