Tanimoto A, Yuasa Y, Shinmoto H, Jinzaki M, Imai Y, Okuda S, Kuribayashi S. Superparamagnetic iron oxide-mediated hepatic signal intensity change in patients with and without cirrhosis: pulse sequence effects and Kupffer cell function.Radiology 2002 Mar;222(3):661-6
PURPOSE: To analyze superparamagnetic
iron oxide (SPIO)-mediated hepatic signal intensity change in
cirrhotic and noncirrhotic liver and to investigate the relationship
between pulse sequence effects in SPIO-enhanced magnetic resonance
(MR) imaging for hepatic cirrhosis. MATERIALS AND METHODS: Twelve
patients with and 12 patients without cirrhosis underwent T2-weighted
fast spin-echo, T2*-weighted gradient-echo (GRE), and T1-weighted
GRE MR imaging before and twice (early and late phase) after SPIO
administration. To assess the effect of SPIO, postcontrast relative
signal-to-noise ratio (SNR) changes were statistically analyzed
with repeated measurements analysis of variance for each pulse
sequence. RESULTS: No interaction was shown between groups and
data time points for any pulse sequence. There was no significant
difference in mean hepatic relative SNR change on T2-weighted
fast spin-echo images between the cirrhotic group and noncirrhotic
group (-38.6% and -40.7%, early phase; -42.2% and -49.6%, late
phase, respectively). For GRE images, statistically significant
differences in mean hepatic relative SNR change were found between
the cirrhotic group and noncirrhotic group (-14.2% and -44.5%,
early phase; -28.5% and -56.4%, late phase on T2*-weighted GRE
images (P <.001); 31.8% and 12.9%, early phase; 23.8% and 2.2%,
late phase on T1-weighted GRE images (P <.05), respectively.
CONCLUSION: Decreased overall phagocytic activity in cirrhotic
liver is more likely due to Kupffer cell dysfunction than to Kupffer
cell depletion, since magnetic susceptibility effects on T2*-weighted
GRE images depend on intracellular SPIO cluster size.
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