Comparison of morphonuclear features in normal, benign and neoplastic thyroid tissue by digital cell image analysis.

We analyzed the morphonuclear features of thyroid cell nuclei from 10 normal tissues (10 multinodular goiters), 10 benign tissues (10 adenomas) and 10 neoplastic tissues (10 carcinomas--2 follicular, 2 medullary and 6 papillary). These morphonuclear features quantitatively described the nuclear size, DNA content and chromatin texture of 200-400 Feulgen-stained cell nuclei that were digitized by means of a cell image processor. Nuclear DNA estimations revealed that the benign thyroid tumors showed an aneuploidy level that was not different from that of the neoplastic tissues. Morphometric measurements showed a significant and positive correlation between an increase in nuclear area and the development of thyroid pathology--i.e., from normal to a neoplastic stage. We also observed a significant decrease in chromatin condensation and heterogeneity from normal to neoplastic thyroid tissue. In the specific case of thyroid tumors, such criteria were not found sufficient per se for a diagnosis of malignancy. More detailed data banks will be necessary for this purpose.