Ultrasonic therapies for seizures and drug-resistant epilepsy.
Authors: Cornelssen C, Finlinson E, Rolston JD, Wilcox KS
Ultrasonic therapy is an increasingly promising approach for the treatment of seizures and drug-resistant epilepsy (DRE). Therapeutic focused ultrasound (FUS) uses thermal or nonthermal energy to either ablate neural tissue or modulate neural activity through high- or low-intensity FUS (HIFU, LIFU), respectively. Both HIFU and LIFU approaches have been investigated for reducing seizure activity in DRE, and additional FUS applications include disrupting the blood-brain barrier in the presence of microbubbles for targeted-drug delivery to the seizure foci. Here, we review the preclinical and clinical studies that have used FUS to treat seizures. Additionally, we review effective FUS parameters and consider limitations and future directions of FUS with respect to the treatment of DRE. While detailed studies to optimize FUS applications are ongoing, FUS has established itself as a potential noninvasive alternative for the treatment of DRE and other neurological disorders.
Introduction
Purpose
Other
Study Objective
To review preclinical and clinical studies of focused ultrasound (FUS) for treating seizures and drug-resistant epilepsy, including effective parameters, limitations, and future directions.
Disease model
drug-resistant epilepsy (DRE)
Outcomes and Safety
Summary of Outcomes
Focused ultrasound (FUS) produced seizure suppression in preclinical models and can ablate seizure foci or reversibly open the blood–brain barrier for targeted drug delivery; clinically, MRgFUS/HIFU has been used in early epilepsy trials for lesioning while LIFU showed seizure suppression in animal studies. Successful FUS parameters reported include low-intensity focused ultrasound (LIFU) for neuromodulation/seizure suppression, high-intensity/thermal MRgFUS (HIFU) for ablation, and FUS with microbubbles for BBB disruption and targeted antiseizure drug delivery.
Safety-related matter
The excerpt does not report any specific adverse effects; it notes that detailed studies to optimize FUS applications are ongoing and that future work will drive innovation and improve safety and efficacy.
Brain Region
Ultrasound Parameters
Focal Characteristics
Focal depth: None; Focal length: None; Aperture size: None
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