Field recordings of transcranial magnetic stimulation in human brain postmortem models - Équipe NeuroPain du CRNL : Intégration Centrale de la Douleur chez l'Homme
Article Dans Une Revue Pain Reports Année : 2024

Field recordings of transcranial magnetic stimulation in human brain postmortem models

Résumé

Introduction: The ability of repetitive transcranial magnetic stimulation (rTMS) to deliver a magnetic field (MF) in deep brain targets is debated and poorly documented. Objective: To quantify the decay of MF in the human brain. Methods: Magnetic field was generated by single pulses of TMS delivered at maximum intensity using a flat or angulated coil. Magnetic field was recorded by a 3D-magnetic probe. Decay was measured in the air using both coils and in the head of 10 postmortem human heads with the flat coil being positioned tangential to the scalp. Magnetic field decay was interpreted as a function of distance to the coil for 6 potential brain targets of noninvasive brain stimulation: the primary motor cortex (M1, mean depth: 28.5 mm), dorsolateral prefrontal cortex (DLPFC: 28 mm), secondary somatosensory cortex (S2: 35.5 mm), posterior and anterior insulae (PI: 38.5 mm; AI: 43.5 mm), and midcingulate cortex (MCC: 57.5 mm). Results: In air, the maximal MF intensities at coil center were 0.88 and 0.77 T for the flat and angulated coils, respectively. The maximal intracranial MF intensity in the cadaver model was 0.34 T, with a ;50% decay at 15 mm and a ;75% MF decay at 30 mm. The decay of the MF in air was similar for the flat coil and significantly less attenuated with the angulated coil (a ;50% decay at 20 mm and a ;75% MF decay at 45 mm). Conclusions: Transcranial magnetic stimulation coil MFs decay in brain structures similarly as in air, attenuation with distance being significantly lower with angulated coils. Reaching brain targets deeper than 20 mm such as the insula or Ant érior Cingulate Cortex seems feasible only when using angulated coils. The abacus of MF attenuation provided here can be used to adjust modalities of deep brain stimulation with rTMS in future research protocols.
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Dates et versions

hal-04465046 , version 1 (19-02-2024)

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Charles Quesada, Camille Fauchon, Benjamin Pommier, Florian Bergandi, Roland Peyron, et al.. Field recordings of transcranial magnetic stimulation in human brain postmortem models. Pain Reports, 2024, 9, ⟨10.1097/pr9.0000000000001134⟩. ⟨hal-04465046⟩
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