Flow cytometric analysis of head and neck carcinoma DNA index and S-fraction from paraffin-embedded sections: comparison with malignancy grading.

Archival, paraffin-embedded, pathology specimens representing pretreatment tissue biopsies from 73 patients with epidermoid carcinoma of the head and neck were analyzed for DNA Index and %S-phase cells by flow cytometry and were scored for quantitative histomorphology. The DNA fluorescence/light scatter size patterns derived from paraffin-embedded specimens were shown to be essentially the same as those from mechanically disaggregated, ethanol-fixed cells obtained from the same tissue specimen. Patterns ranged from lymphocyte-like to highly abnormal DNA Index cytokinetic patterns. The DNA Index values ranged from 0.70 to 3.50 (median 1.42), with an aneuploidy frequency of 63/73 (86%). DNA distribution %S ranged from 4% to 45% (mean 19), with the microscopic malignancy grading showing broad heterogeneity (mean 2.1, range 1.0-3.0, where 1.0-1.7 = well differentiated, 1.8-2.3 = moderately differentiated, 2.4-3.0 = poorly differentiated). Cross-comparison of these data showed that (1) the tumor %S was dependent on DNA Index (higher %S at higher ploidy), (2) low to high malignancy tumors were randomly distributed between diploid/near diploid tumors and high-degree DNA abnormality tumors, and (3) proliferative activity values broadly overlapped between low to high malignancy scored tumors. However, those carcinomas characterized by high DNA Index (greater than or equal to 1.50) and high %S-phase fractions (greater than or equal to 20) had a five fold higher incidence of high-degree malignancy, invasive tumors than diploid/near diploid (%S less than or equal to 19) tumors.