Table 3.
Influence of Cyp1b1 genotype on tumor incidence and multiplicity.
| Treatment | Genotype | Tumor Incidencea | Tumor Multiplicity | ||||
|---|---|---|---|---|---|---|---|
| %b | p-valuec | Ratiod | Mean±SEe | p-valuef | Ratiog | ||
| BaP | Cyp1b1+/+ | 88.89 | 1 | 1.172 | 3.88±0.67 | 0.495 | 0.682 |
| Cyp1b1−/− | 87.50 | 4.89±0.77 | |||||
| CTE | Cyp1b1+/+ | 86.21 | 1 | 1.017 | 3.96±0.62 | 0.983 | 0.837 |
| Cyp1b1−/− | 76.47 | 3.73±0.45 | |||||
| DBC | Cyp1b1+/+ | 100.00 | 7.409 × 10−3 | 2.627 | 7.82±1.00 | 0.029 | 1.950 |
| Cyp1b1−/− | 72.73 | 3.29±0.41 | |||||
Tumor incidence evaluated by cumulative tumor incidence function to account for early non-cancer related mortalities
Percent tumor incidence at 20 weeks for each condition
Statistical difference in tumor incidence between WT and null animals for each treatment group calculated by Gray’s log rank test for equality adjusted for FDR (Gray 1988)
Hazards ratio calculated for WT compared to null in each treatment group based on the proportional hazards model for the subdistribution of developing a tumor
Tumor multiplicity calculated as the mean number of tumors per tumor-bearing animal (±SE)
Statistical difference in tumor multiplicity between WT and null animals for each treatment group calculated using a generalized linear model to account for cage and cohort effects
Estimated ratio of mean tumor multiplicity for WT compared to null