Therapeutic Advances in Neurological Disorders (Jun 2020)

Stereo-crossed ablation guided by stereoelectroencephalography for epilepsy: comprehensive coagulations a network of multi-electrodes

  • Peng-Hu Wei,
  • Xiao-Tong Fan,
  • Yi-He Wang,
  • Chao Lu,
  • Si-Qi Ou,
  • Fei Meng,
  • Mu-Yang Li,
  • Hua-Qiang Zhang,
  • Si-Chang Chen,
  • Yang An,
  • Yan-Feng Yang,
  • Lian-Kun Ren,
  • Yong-Zhi Shan,
  • Guo-Guang Zhao

DOI
https://doi.org/10.1177/1756286420928657
Journal volume & issue
Vol. 13

Abstract

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Background: Introducing multiple different stereoelectroencephalography electrodes in a three-dimensional (3D) network to create a 3D-lesioning field or stereo-crossed radiofrequency thermocoagulation (scRF-TC) might create larger lesioning size; however, this has not been quantified to date. This study aimed to quantify the configurations essential for scRF-TC. Methods: By using polyacrylamide gel (PAG), we investigated the effect of electrode conformation (angled/parallel/multiple edges) and electrode distance of creating an electrode network. Volume, time, and temperature were analyzed quantitatively with magnetic resonance imaging, video analysis, and machine learning. A network of electrodes to the pathological left area 47 was created in a patient; the seizure outcome and coverage range were further observed. Results: After the compatibility test between the PAG and brain tissue, the sufficient distance of contacts (from different electrodes) for confluent lesioning was 7 mm with the PAG. Connection to the lesioning field could be achieved even with a different arrangement of electrodes. One contact could achieve at least six connections with different peripheral contacts. Coagulation with a network of electrodes can create more significant lesioning sizes, 1.81–2.12 times those of the classic approaches. The confluent lesioning field created by scRF-TC had a volume of 38.7 cm 3 ; the low metabolic area was adequately covered. The representative patient was free of seizures throughout the 12-month follow up. Conclusion: Lesioning with electrodes in a network manner is practical for adequate 3D coverage. A secondary craniotomy could be potentially prevented by combining both monitoring and a large volume of lesions.