Novel formula for cell kinetics in xenograft model of hepatocellular carcinoma using histologically calculable parameters

The growth rate of tumors should be assessed in terms of both tumor cell pr oliferation and death. The former is considered to be determined by growth fraction and cell-cycle time, whereas the latter is mainly determined by ap optosis, especially in tumors with a low level of necrosis. While most hepa tocellular carcinomas (HCCs) in a relatively early stage contain only a sma ll amount of necrosis, the growth rate supposedly depends mainly on growth fraction, cell-cycle time, and apoptosis. However, their quantitative relat ionship remains unknown. We have derived a novel theoretical formula for de termining this relationship in nonnecrotic HCC, using Ki-67-positive index, apoptotic score, and a correction factor, all calculable by histological a ssessment without injecting labeling agents. Furthermore, we confirmed the reliability of this formula, using a xenograft model of human HCC with less than 15% necrosis. In this model the values of cell-cycle time calculated from the formula were very close to those estimated by a conventional doubl e-labeling method and showed high correlations. Since our novel formula can clarify the cell kinetics without cumbersome labeling procedures, it is ex pected to be clinically applicable to HCC with a small portion of necrosis, using the radiographically measured growth rate and the histologically ass essed cell kinetic parameters. (C) 1999 Academic Press.