10F | Dead and live cells (log10) | Treatment × life × time | Three-way ANOVA | Ftreat × life × time(4,18) = 0.595 | p = 0.671 |
| | | Ftreat × life(4,18) = 4.656 | p < 0.009 |
| | | Ftreat × time(2,18) = 0.265 | p = 0.770 |
| | | Flife × time(2,18) = 1.481 | p = 0.254 |
| | | Ftreat(2,18) = 0.544 | p = 0.590 |
| | | Flife(2,18) = 50.494 | p < 0.001 |
| | | Ftime(1,18) = 0.695 | p = 0.415 |
Live | MicroC vs MicroPh vs DMEM | One-way ANOVA | 5 d (log10) F(2,6) = 8.774 | p = 0.017 |
| | 9 d F(2,6) = 14.103 | p = 0.005 |
Dead | One-way ANOVA | 5 d F(2,6) = 1.476 | p = 0.301 |
| | | | 9 d F(2,6) = 8.563 | p = 0.017 |
10G | Bipolar | MicroC vs MicroPh vs DMEM | Kruskal Wallis | 5 d H(2) = 7.624 | p = 0.071 |
| | 9 d H(2) = 7.624 | p = 0.071 |
Stellate | Kruskal Wallis | 5 d H(2) = 5.956 | p = 0.025 |
One-way ANOVA | | 9 d F(2,6) = 15.331 | p = 0.004 |
Early ramified | One-way ANOVA | 5 d F(2,6) = 1.469 | p = 0.303 |
Kruskal Wallis | | 9 d H(2) = 2.000 | p = 0.829 |
| | 5 d F(2,6) = 7.249 | p = 0.025 |
Late ramified | One-way ANOVA | 9 d F(2,6) = 1.880 | p = 0.232 |