Lipid changes in relationship to cataractogenesis were studied with histochemical methods (topoptical reactions) of polarization microscopy. Frozen section of formaldehyde-fixed human lenses were used for these studies. Six lenses were transparent and 14 lenses presented early to confluent cortical opacities. Cell membrane lipids of transparent lenses showed 8.0 +/- 2.7 nm light retardation. In the early cataractous lenses the light retardation of cell membranes was 23.3 +/- 5.0 nm and that of the fusiform and globular lipids was 37.7 +/- 4.0 nm and 48.5 +/- 6.9 mn, respectively. In the non transparent cortical regions of cataractous lenses, membrane lipids were not observed. Similar to other cell membranes, normal lens membranes are composed of loosely organized lipids. In early cataract lipid density uniformly increased along the cell membranes at the clinically transparent areas, while at the areas with clinically evident fine opacities, small fusiform and globuler lipid drops were formed by even more dense lipids. Confluent cortical cataracts were associated with disappearance of membrane lipids. In our study our findings demonstrated intramembrane lipid changes associated with cataractogenesis.