Light and electron microscopy of liver in hyperlipoproteinemic patients under long-term gemfibrozil treatment.

The effects of long-term gemfibrozil (Lopid) therapy on human liver structure are not known. Studies of this nature are becoming essential in determining the risk/benefit ratio since gemfibrozil is an effective agent for the control of hyperlipoproteinemia types IIa, IIb, and IV. Particularly, gemfibrozil is effective when dietary management or available therapeutic control fail to reduce serum cholesterol and triglycerides as well as normalizing the lipoprotein pattern. Percutaneous liver biopsies of 9 patients on long-term gemfibrozil therapy were evaluated by light microscopy, interference contrast optics and transmission electron microscopy. The distribution of patients according to lipoprotein phenotype was 3 Type IIa, 3 Type IIb, and 3 Type IV. Their lipoprotein patterns approached normal and the serum lipids were controlled during gemfibrozil therapy. By light microscopy, the lobular architecture and other parameters were within normal limits. Varying degrees of fatty change were found as would be expected. No preferential lobular disposition of the fat globules was evident. Coalescence of fat droplets, nuclear displacement and fatty cysts were noted. Differential interference contrast microscopy revealed several degrees of contrast amplitude in these droplets suggesting a heterogeneous lipid deposition in hepatocytes. The subcellular analysis revealed a moderate degree of glycogen deposition, absence of nuclear abnormalities and unremarkable mitochondria; the rough endoplasmic reticulum was not significantly altered and smooth surfaced membranes appeared proliferated. Detailed analysis of the peroxisome population showed matrix rarefaction, marginal plate formation and spurious densities though no significant proliferation occurred. Distribution of peroxisomes in hepatocytes varied widely from cell to cell and in different lobular areas. This study confirmed the association of hepatic fatty change with hyperlipoproteinemia irrespective of the pattern observed in circulating lipoproteins. Peroxisome proliferation, as seen in rodents when receiving gemfibrozil, did not occur and the structure of these subcellular organelles was not compromised. It was concluded that the long-term administration of this compound did not show adverse effects on the hepatocyte in hyperlipoproteinemia.