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Iodinated lipid emulsions have been shown to have great potential as site specific contrast media for the liver and spleen. Because of unacceptable adverse reactions none of these emulsions has been adopted for clinical use. In an attempt to find an explanation for these adverse reactions we tested three iodinated lipid emulsions, EOE-13, AG 60.99 and AG 66.18. The following models were used: Computed tomography (CT) of the rabbit liver, in vivo microscopy and electron microscopy of the rat liver. The emulsions contained particles of different sizes and were used in varying doses. We found that the larger the emulsion particles, the more likely they were to be taken up by the Kupffer cells and thereby the higher the opacification of the liver achieved at CT. We also observed changes in the microcirculation of the liver when the emulsions were given in doses required to secure satisfactory opacification of the liver at CT. The main changes were 1) a marked increase in the size of the Kupffer cells, and 2) damage to the sinusoidal endothelium, both contributing to sinusoidal congestion. These changes strongly suggest activation of the macrophages and this in turn probably results in the release of toxic mediators. We suspect that the adverse reactions observed in patients when using iodinated lipid emulsions are due to these toxic mediators.
Iodinated lipid emulsions have been shown to have great potential as site specific contrast media for the liver and spleen. Because of unacceptable adverse reactions none of these emulsions has been adopted for clinical use. In an attempt to find an explanation for these adverse reactions we tested three iodinated lipid emulsions, EOE-13, AG 60.99 and AG 66.18. The following models were used: Computed tomography (CT) of the rabbit liver, in vivo microscopy and electron microscopy of the rat liver. The emulsions contained particles of different sizes and were used in varying doses. We found that the larger the emulsion particles, the more likely they were to be taken up by the Kupffer cells and thereby the higher the opacification of the liver achieved at CT. We also observed changes in the microcirculation of the liver when the emulsions were given in doses required to secure satisfactory opacification of the liver at CT. The main changes were 1) a marked increase in the size of the Kupffer cells, and 2) damage to the sinusoidal endothelium, both contributing to sinusoidal congestion. These changes strongly suggest activation of the macrophages and this in turn probably results in the release of toxic mediators. We suspect that the adverse reactions observed in patients when using iodinated lipid emulsions are due to these toxic mediators.
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