Figure 2. Sperm Whale Skin Cells Are More Resistant to Particulate Cr(VI) Clastogenicity than Human Skin.

This figure shows that exposure to particulate Cr(VI) induces clastogenicity in human and sperm whale skin cells in a concentration-dependent manner. Clastogenicity is presented as a percent of metaphases with chromosome damage and total chromosome damage in 100 metaphases for each cell line. (A) Particulate Cr(VI)-induced percent of metaphases with chromosome damage. Significant differences between the two cell lines were observed (difference between sperm whale and human skin cells for percent of metaphases with damage at 1 μg /cm² was −22.7% based on the fitted values; CI = −17.0% to −28.3%; p<0.001). Untreated control values were subtracted from each concentration. The percent metaphases with damage for untreated controls was 2% for both sperm whale and human cells. (B) Particulate Cr(VI)-induced total chromosome damage in 100 metaphase. Significant differences between the two cell lines were observed (difference for total damage in 100 metaphases at 1 μg /cm² was −31.4 based on the fitted values; CI= −25.2 to −37.7; p<0.001.). Untreated control values were subtracted from each concentration. The total damage in 100 metaphases for untreated controls was 2 for sperm whale cells and 3 for human cells. Data represent the average of at least 3 independent experiments. Error bars = standard error of the mean. NM – no metaphases observed.