Physics for Medicine Paris, Inserm U1273, ESPCI Paris, CNRS UMR 8063, PSL University, Paris, France.
ICM-Paris Brain Institute, Centre de NeuroImagerie de Recherche-CENIR, Inserm U 1127, CNRS UMR 7225, Sorbonne Université, F-75013, Paris, France.
Brain Stimul. 2024 May-Jun;17(3):636-647. doi: 10.1016/j.brs.2024.05.003. Epub 2024 May 9.
Transcranial ultrasound stimulation (TUS) is a non-invasive brain stimulation technique; when skull aberrations are compensated for, this technique allows, with millimetric accuracy, circumvention of the invasive surgical procedure associated with deep brain stimulation (DBS) and the limited spatial specificity of transcranial magnetic stimulation.
/hypothesis: We hypothesize that MR-guided low-power TUS can induce a sustained decrease of tremor power in patients suffering from medically refractive essential tremor.
The dominant hand only was targeted, and two anatomical sites were sonicated in this exploratory study: the ventral intermediate nucleus of the thalamus (VIM) and the dentato-rubro-thalamic tract (DRT). Patients (N = 9) were equipped with MR-compatible accelerometers attached to their hands to monitor their tremor in real-time during TUS.
VIM neurostimulations followed by a low-duty cycle (5 %) DRT stimulation induced a substantial decrease in the tremor power in four patients, with a minimum of 89.9 % reduction when compared with the baseline power a few minutes after the DRT stimulation. The only patient stimulated in the VIM only and with a low duty cycle (5 %) also experienced a sustained reduction of the tremor (up to 93.4 %). Four patients (N = 4) did not respond. The temperature at target was 37.2 ± 1.4 °C compared to 36.8 ± 1.4 °C for a 3 cm away control point.
MR-guided low power TUS can induce a substantial and sustained decrease of tremor power. Follow-up studies need to be conducted to reproduce the effect and better to understand the variability of the response amongst patients. MR thermometry during neurostimulations showed no significant thermal rise, supporting a mechanical effect.
经颅超声刺激(TUS)是一种非侵入性脑刺激技术;当颅骨偏差得到补偿时,该技术可以以毫米级的精度绕过与深部脑刺激(DBS)相关的侵入性手术,以及经颅磁刺激的有限空间特异性。
/假设:我们假设磁共振引导的低功率 TUS 可以诱导患有药物难治性原发性震颤的患者震颤功率持续降低。
仅靶向优势手,在这项探索性研究中对两个解剖部位进行了超声处理:丘脑腹侧中间核(VIM)和齿状核红核丘脑束(DRT)。患者(N=9)在手戴上磁共振兼容的加速度计,以在 TUS 期间实时监测他们的震颤。
VIM 神经刺激后进行低占空比(5%)DRT 刺激,在四名患者中引起震颤功率显著降低,与 DRT 刺激后几分钟的基线功率相比,最小降低幅度为 89.9%。仅在 VIM 中进行刺激且占空比低(5%)的唯一患者也经历了震颤的持续降低(高达 93.4%)。四名患者(N=4)没有反应。目标温度为 37.2±1.4°C,而 3cm 外的对照点温度为 36.8±1.4°C。
磁共振引导的低功率 TUS 可以引起震颤功率的显著和持续降低。需要进行后续研究以重现效果,并更好地理解患者之间反应的可变性。神经刺激期间的磁共振测温显示没有明显的热升高,支持机械效应。
