Data were obtained from 209 patients who underwent spine surgery with intra-operative mMEP monitoring in the tibialis anterior (TA) and abductor hallucis (AH) muscles. The mMEP generation, pattern-specific mMEP loss and recovery, and the accuracy of individual mMEP changes in predicting postoperative motor deficit were assessed.
Generation rate of mMEPs was higher in the AH than in the TA (p < 0.001). The mMEP in the TA was more sensitive in detecting mMEP loss than in the AH (p < 0.001); however, mMEP in the AH was more sensitive in detecting mMEP recovery (p < 0.001). The mMEPs in the TA had high sensitivity in predicting sustained postoperative motor deficits. By contrast, mMEPs in the AH showed a high positive predictive value.
Although mMEPs were generated at a high rate in the AH, mMEP in the TA can play an important complementary role in intra-operative mMEP monitoring, because mMEP in the TA can be more sensitive to potential neural damage.
Using a combination of muscles with individual sensitivities and clinical significances will improve intra-operative mMEP monitoring strategies.