Magnetic Resonance Imaging and Magnetization Transfer in Experimental Myonecrosis in the Rat

Abstract

Experimental myonecrosi–induced by injection of notexin into rat tibialis anterior muscle–and subsequent regeneration were studied from 1 h to 20 days postinjury with magnetic resonance imaging using conventional and magnetization transfer sequences, and these findings were correlated with histopathology. MR images revealed necrosis within 1 h postinjection. Histopathologically, necrotized fibers enlarged and intercellular spaces widened, indicating intracellular and extracellular edema, which began to decrease after 48 h, whereafter the formation of new myofibers predominated. T₂ increased progressively until 7.5 h, while T₁ increased until 24 h. Magnetization transfer contrast (MTC) and magnetization transfer rate (R_wm) decreased rapidly postinjection; the decrease in R_wm lasted longer than in MTC (96 h versus 48 h, respectively). Spin echo, inversion recovery and magnetization transfer sequences revealed the lesions equally effectively. MR images and relaxation parameters reflect well the extent of histopathological injury and edema in the acute phase, whereas specific tissue changes in the regenerative phase were not detectable by MRI. MT imaging and especially magnetization transfer rate are as sensitive as conventional T2 contrast to alterations in water imbalance.