Objective: To confirm a relationship between histomorphology of glioblastomas and amplification of the gene for the epidermal growth factor receptor (EGFR) as the most important molecular biologic alteration in these tumors.
Study design: In paraffin sections of surgical specimens from 71 primary resected glioblastomas, tumor cell nuclei in the region with the highest proliferative activity (Ki-67 immunostaining) were investigated morphometrically. Shape variables (roundness factor, Fourier amplitudes) and nuclear area were measured. Additionally, the numerical density of Ki-67-positive tumor cell nuclei was estimated. Differential polymerase chain reaction (PCR) was performed from paraffin sections of the same tumor area. The signals for the EGFR gene and IFN gamma reference gene were quantified densitometrically.
Results: Cases with distinct EGFR gene amplification (EGFR/IFN ratios > 5) revealed significantly lower mean values for several Fourier amplitudes, indicating a more regular nuclear shape when compared with cases without evidence of EGFR gene amplification (EGFR/IFN-ratios < or = 1). The Ki-67 index and nuclear area showed no significant differences between these groups. Although a large variation in nuclear morphology was observed for cases without evidence of EGFR gene amplification, discriminant analysis based on morphometric variables provided a good separation of these cases from cases with distinct EGFR gene amplification, with a high percentage of statistically correct reclassified cases.
Conclusion: Our results provide evidence of a relationship between genetic alterations and histomorphology of glioblastomas.