@article {Shin600, author = {J.-W. Shin and K. Chu and S.A. Shin and K.-H. Jung and S.-T. Lee and Y.-S. Lee and J. Moon and D.Y. Lee and J.S. Lee and D.S. Lee and S.K. Lee}, title = {Clinical Applications of Simultaneous PET/MR Imaging Using (R)-[11C]-Verapamil with Cyclosporin A: Preliminary Results on a Surrogate Marker of Drug-Resistant Epilepsy}, volume = {37}, number = {4}, pages = {600--606}, year = {2016}, doi = {10.3174/ajnr.A4566}, publisher = {American Journal of Neuroradiology}, abstract = {BACKGROUND AND PURPOSE: The development of resistance to antiepileptic drugs is explained well by the transporter hypothesis, which suggests that drug resistance is caused by inadequate penetration of drugs into the brain barrier as a result of increased levels of efflux transporter such as p-glycoprotein. To evaluate the brain expression of p-glycoprotein in patients with drug-resistant epilepsy, including neocortical epilepsy, we developed a noninvsive quantitative analysis including asymmetry indices based on (R)-[11C]-verapamil PET/MR imaging with cyclosporin A, a p-glycoprotein inhibitor.MATERIALS AND METHODS: Six patients with drug-resistant epilepsy, 5 patients with drug-sensitive epilepsy, and 8 healthy controls underwent dynamic (R)-[11C]-verapamil PET/MR imaging with an intravenous infusion of cyclosporin A. Asymmetry indices [(Right Region - Left Region)/(Right Region + Left Region) {\texttimes} 200\%] of the standard uptake values in each of the paired lobes were calculated.RESULTS: All patients with drug-resistant epilepsy had significantly different asymmetry from the healthy controls, whereas all patients with drug-sensitive epilepsy had asymmetry similar to that in healthy controls. In the temporal lobe, the asymmetry indices of patients with left temporal lobe drug-resistant epilepsy were more positive than those of healthy controls (healthy controls: 4.0413 {\textpm} 1.7452; patients: 7.2184 {\textpm} 1.8237; P = .048), and those of patients with right temporal drug-resistant epilepsy were more negative (patients: -1.6496 {\textpm} 3.4136; P = .044). In addition, specific regions that had significant asymmetry were different between the lateral and medial temporal lobe epilepsy groups. In the frontal lobe, the asymmetry index of patients with right frontal lobe drug-resistant epilepsy was more negative than that in healthy controls.CONCLUSIONS: We confirmed that statistical parametric mapping analysis by using asymmetry indices of (R)-[11C]-verapamil PET/MR imaging with cyclosporin A could be used as a surrogate marker for drug-resistant epilepsy, and this approach might be helpful for localizing or lateralizing the epileptic zone.AIasymmetry indexCScyclosporin ADREdrug-resistant epilepsyDSEseizure-free drug-sensitive epilepsyPgpp-glycoproteinSPAMstatistical probabilistic anatomic mappingSUVstandard uptake valueTLEtemporal lobe epilepsyVPM-PET/MR-CS(R)-[11C]-verapamil PET and MR imaging with intravenous infusion of cyclosporin A without serial arterial sampling}, issn = {0195-6108}, URL = {https://www.ajnr.org/content/37/4/600}, eprint = {https://www.ajnr.org/content/37/4/600.full.pdf}, journal = {American Journal of Neuroradiology} }