The objectives of this research were to study the optimal condition for cultivating Antrodia cinnamomea in airlift reactors for inhibiting the growth of human hepatocellular carcinoma cell (Hep G2) and human cervical epithelioid carcinoma cell (HeLa cell). The experimental design divided into three parts. In the first part, various airlift reactors including bubble column reactor, airlift reactor with solid draft tube and airlift reactor with net draft tube were investigated for their suitability for cultivating A. cinnamomea. And the stirred tank reactor was used as control. The results indicated that the airlift reactor with solid draft tube operating at aeration rate 0.1 vvm could yield the highest amount of the mycelium (3.13 g/L after 7 days of fermentation). The second part of this research investigated the optimal fermentation conditions for A. cinnamomea for producing the highest amount of triterpenes. Using the airlift reactor with solid draft tube, it was found that when the reactor was operated at 0.1 vvm and 25℃ for 42 days, the mycelium concentration (5.02 g/L) and the crude triterpene content were more than that at 22 and 28℃. The operating scale was increased from 5L to 500L airlift reactor for the third part of this study. It was found that under the optimal fermentation condition, the mycelium in the fermentation broth reached 5.5 g/L in only 28 days, as compared to the 42 days of the 5L reactor. During the second and third part of this study, the inhibition effect on the growth of Hep G2 and HeLa cell by the filtrate and the ethanol extract of the mycelium of A. cinnamomea was investigated. The results indicated that the growth inhibitory effect of the filtrate and the ethanol extract of the mycelium increased with fermentation time. Moreover, the inhibitory effect of the fermentation products cultivated at 25℃ was higher than that at 22 or 28℃. The IC50 of the ethanol extract of the mycelium cultivated at 25℃ for 21 days was 20μg/ml.