Unità Operativa di Neurofisiopatologia, CTO, Rome, Italy.
Neurosurgery. 2012 Sep;71(1 Suppl Operative):96-103. doi: 10.1227/NEU.0b013e318249c726.
Pedunculopontine tegmental nucleus (PPTg) deep brain stimulation (DBS) has been used in patients with Parkinson disease.
To verify the position of the DBS lead within the pons during PPTg targeting.
In 10 Parkinson disease patients undergoing electrode implantation in the PPTg, somatosensory evoked potentials were recorded after median nerve stimulation from the 4 DBS electrode contacts and from 2 scalp leads placed in the frontal and parietal regions.
The DBS electrode recorded a P16 potential (latency at contact 0, 16.33 ± 0.76 ms). There was a P16 latency shift of 0.18 ± 0.07 ms from contact 0 (lower) to contact 3 (upper). The scalp electrodes recorded the P14 far-field response (latency, 15.44 ± 0.63 ms) and the cortical N20 potential (latency, 21.58 ± 1.42 ms). The P16 potentials recorded by the intracranial electrode contacts are generated by the volley traveling along the medial lemniscus, whereas the scalp P14 potential represents a far-field response generated at the Obex level. Considering that the distance between the electrode contacts 0 and 3 is 6 mm, the distance of the electrode contact 0 from the Obex (ΔObex) was calculated by the equation: ΔObex = 6 × Δlatency P14- PPTg0/Δlatency PPTg0-PPTg3. The Obex-to-brainstem electrode distance obtained by the neurophysiological method confirmed that the electrode was located within the pons in all patients. Moreover, this distance was very similar to that issued from the individual brain magnetic resonance imaging.
Somatosensory evoked potentials may be a helpful tool for calculating the macroelectrode position within the pons during PPTg targeting.
已将丘底核(PPTg)脑深部电刺激(DBS)用于帕金森病患者。
验证在 PPTg 靶向时 DBS 导联在脑桥内的位置。
在 10 例接受 PPTg 电极植入的帕金森病患者中,从 4 个 DBS 电极接触点和放置在前额和顶区的 2 个头皮导联记录正中神经刺激后的体感诱发电位。
DBS 电极记录到 P16 电位(接触 0 的潜伏期,16.33±0.76 ms)。从接触 0(下)到接触 3(上),P16 潜伏期变化了 0.18±0.07 ms。头皮电极记录到 P14 远场反应(潜伏期,15.44±0.63 ms)和皮质 N20 电位(潜伏期,21.58±1.42 ms)。颅内电极接触点记录的 P16 电位是由沿着内侧丘系传播的冲动产生的,而头皮 P14 电位代表在 Obex 水平产生的远场反应。考虑到电极接触 0 和 3 之间的距离为 6 mm,通过公式计算电极接触 0 到 Obex(ΔObex)的距离:ΔObex=6×Δlatency P14-PPTg0/Δlatency PPTg0-PPTg3。神经生理方法获得的 Obex-脑干电极距离证实,在所有患者中电极均位于脑桥内。此外,该距离与个体脑磁共振成像结果非常相似。
体感诱发电位可能是在 PPTg 靶向时计算脑桥内宏观电极位置的有用工具。
