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W3039643003 endingPage "1168" @default.
W3039643003 startingPage "1155" @default.
W3039643003 abstract "PurposeDespite the availability of numerous pharmacologic and nonpharmacologic antiseizure therapies, a fraction of patients with epilepsy remain refractory to current treatment options, underscoring the need for novel drugs and neuromodulatory therapies. Transcranial magnetic stimulation (TMS), coupled with either electromyography or electroencephalography, enables rapid measurement of the cortical excitation/inhibition ratio, which is pathologically shifted toward excess excitability in patients with epilepsy. In this review, we summarize: (1) TMS protocols that have been deployed to identify promising compounds in the antiepilepsy drug (AED)-development pipeline, and (2) the therapeutic potential of TMS in the treatment of drug-resistant seizures.MethodsA focused literature review of the use of TMS in epilepsy, using a PubMed search, was performed. Over 70 articles were included that pertained to: (1) the use of TMS-EMG and TMS-EEG in elucidating the mechanisms of action of AEDs and in discovering potential new AEDs; and (2) the use of repetitive TMS in the treatment of seizures.FindingsStudies from the literature have reported that AEDs alter TMS-derived metrics, typically by leading to a net increase in cortical inhibition with successful therapy. Preclinical TMS work in rodent models of epilepsy has led to the development of novel antiseizure drug compounds. Clinical translational studies of TMS have been used to determine guidelines on the dosages of other agents in the AED pipeline in preparation for clinical trials. Several studies have described the use of therapeutic repetitive TMS in both the ictal and interictal states of epilepsy, with inconsistent results.ImplicationsTMS has diagnostic and therapeutic potential in epilepsy. TMS-derived markers can enable early-stage measures of AED target engagement, and can facilitate studies of the pharmacokinetic and pharmacodynamic properties of AEDs. TMS may also be used in the early prediction of the efficacy of different AEDs in treating patients, and in direct neuromodulation of epileptic networks. From the therapeutics perspective, despite favorable results in some trials, the optimization of treatment paradigms and the determination of ideal candidates for TMS are still needed. Finally, preclinical experiments of TMS have provided mechanistic insight into its effects on the excitation/inhibition ratio, and may facilitate rational drug–device coupling paradigms. Overall, the capacity of TMS in both the modulation and measurement of changes in cortical excitability highlights its unique role in advancing antiepilepsy therapeutics" @default.
W3039643003 created "2020-07-10" @default.
W3039643003 creator A5007945051 @default.
W3039643003 creator A5071835218 @default.
W3039643003 creator A5082838071 @default.
W3039643003 date "2020-07-01" @default.
W3039643003 modified "2023-10-12" @default.
W3039643003 title "Review of Transcranial Magnetic Stimulation in Epilepsy" @default.
W3039643003 cites W1486067275 @default.
W3039643003 cites W1596837735 @default.
W3039643003 cites W1922034607 @default.
W3039643003 cites W1968817828 @default.
W3039643003 cites W1976446154 @default.
W3039643003 cites W1978873677 @default.
W3039643003 cites W1980734822 @default.
W3039643003 cites W1983638496 @default.
W3039643003 cites W1989601252 @default.
W3039643003 cites W1992885267 @default.
W3039643003 cites W1996853648 @default.
W3039643003 cites W2001954021 @default.
W3039643003 cites W2003710403 @default.
W3039643003 cites W2011922909 @default.
W3039643003 cites W2014319388 @default.
W3039643003 cites W2014493574 @default.
W3039643003 cites W2020037494 @default.
W3039643003 cites W2020522090 @default.
W3039643003 cites W2021796609 @default.
W3039643003 cites W2022790058 @default.
W3039643003 cites W2022896379 @default.
W3039643003 cites W2037858188 @default.
W3039643003 cites W2038628077 @default.
W3039643003 cites W2041884036 @default.
W3039643003 cites W2043700415 @default.
W3039643003 cites W2044524497 @default.
W3039643003 cites W2046394766 @default.
W3039643003 cites W2049990060 @default.
W3039643003 cites W2052071238 @default.
W3039643003 cites W2062103870 @default.
W3039643003 cites W2062292540 @default.
W3039643003 cites W2064027031 @default.
W3039643003 cites W2065379428 @default.
W3039643003 cites W2068312819 @default.
W3039643003 cites W2068432827 @default.
W3039643003 cites W2074955389 @default.
W3039643003 cites W2087201735 @default.
W3039643003 cites W2088757139 @default.
W3039643003 cites W2089185104 @default.
W3039643003 cites W2092143206 @default.
W3039643003 cites W2098850452 @default.
W3039643003 cites W2103596611 @default.
W3039643003 cites W2105766222 @default.
W3039643003 cites W2113078968 @default.
W3039643003 cites W2117052856 @default.
W3039643003 cites W2118789647 @default.
W3039643003 cites W2120936243 @default.
W3039643003 cites W2121047670 @default.
W3039643003 cites W2122239141 @default.
W3039643003 cites W2133434651 @default.
W3039643003 cites W2134686712 @default.
W3039643003 cites W2136606052 @default.
W3039643003 cites W2143817103 @default.
W3039643003 cites W2146051854 @default.
W3039643003 cites W2147993897 @default.
W3039643003 cites W2148537751 @default.
W3039643003 cites W2151175002 @default.
W3039643003 cites W2152531253 @default.
W3039643003 cites W2154896651 @default.
W3039643003 cites W2156092714 @default.
W3039643003 cites W2158862815 @default.
W3039643003 cites W2161689559 @default.
W3039643003 cites W2168413703 @default.
W3039643003 cites W2195554774 @default.
W3039643003 cites W2295986788 @default.
W3039643003 cites W2304740303 @default.
W3039643003 cites W2418441009 @default.
W3039643003 cites W2492290132 @default.
W3039643003 cites W2528596420 @default.
W3039643003 cites W2587729725 @default.
W3039643003 cites W2594931647 @default.
W3039643003 cites W2767090117 @default.
W3039643003 cites W2906165929 @default.
W3039643003 cites W2912218404 @default.
W3039643003 cites W2978879395 @default.
W3039643003 cites W3009191857 @default.
W3039643003 cites W3009243352 @default.
W3039643003 doi "https://doi.org/10.1016/j.clinthera.2020.05.016" @default.
W3039643003 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32624320" @default.
W3039643003 hasPublicationYear "2020" @default.
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