Yang Tsui-Fen, Chen Hsin-Hung, Liang Muh-Lii, Chen Chien, Chiu Jan-Wei, Wang Jia-Chi, Lai Chih-Jou, Liao Kwong-Kum, Chan Rai-Chi
Department of Physical Medicine and Rehabilitation, Taipei Veterans General Hospital, Taipei, Taiwan,
Childs Nerv Syst. 2014 Sep;30(9):1559-64. doi: 10.1007/s00381-014-2436-1. Epub 2014 May 14.
The purpose of the study is to determine corticospinal organization using intraoperative neurophysiologic monitoring (IONM) during resective epilepsy surgery for patients with congenital hemiparesis and intractable epilepsy.
Ten patients, aged 3-17, with intractable epilepsy underwent resective surgery. Transcranial stimulation (TCS) was achieved using a pair of cork screws at Cz and C3/C4, respectively. A 1 × 4 stimulating electrode strip was placed on the presumed motor cortex of the affected hemisphere for direct cortical stimulation (DCS) after craniotomy. Multipulse TCS and DCS train stimulation was delivered, with simultaneous recordings from bilateral abductor pollicis brevis and abductor halluces, to determine the corticospinal projection pattern of the paretic limbs.
The above mapping techniques revealed ipsilateral corticospinal projections from the contralesional hemisphere to target muscles in the paretic limbs in three patients, projections from both hemispheres to target muscles in three, and preserved crossed projections from the affected hemisphere in four. Nine patients were seizure free after surgery. Five had unchanged postoperative functional status, and three showed minimally improved use of the paretic hand. Two developed new motor deficits after surgery, which may have been due to a premotor syndrome in one patient, since it completely resolved within 2 weeks. The other experienced increased weakness of the paretic lower limb because a small part of the eloquent cortex was removed for better seizure control.
Using IONM to define the corticospinal projection pattern is a valuable technique that can potentially replace preoperative fMRI and transcranial magnetic stimulation in resective epilepsy surgery, particularly for younger patients.
本研究的目的是在先天性偏瘫和顽固性癫痫患者的切除性癫痫手术中,使用术中神经生理监测(IONM)来确定皮质脊髓束的组织情况。
10例年龄在3至17岁之间的顽固性癫痫患者接受了切除性手术。分别在Cz和C3/C4处使用一对螺旋电极进行经颅刺激(TCS)。开颅术后,将一条1×4的刺激电极条置于患侧半球的假定运动皮层上,用于直接皮层刺激(DCS)。进行多脉冲TCS和DCS串刺激,同时记录双侧拇短展肌和拇收肌的活动,以确定瘫痪肢体的皮质脊髓投射模式。
上述映射技术显示,3例患者中,对侧半球向瘫痪肢体的目标肌肉有同侧皮质脊髓投射;3例患者中,双侧半球均向目标肌肉投射;4例患者中,患侧半球保留交叉投射。9例患者术后无癫痫发作。5例患者术后功能状态未改变,3例患者患侧手的使用情况略有改善。2例患者术后出现新的运动功能缺损,其中1例可能是由于运动前综合征所致,因为在2周内完全恢复。另1例患者患侧下肢无力加重,因为为了更好地控制癫痫发作,切除了一小部分明确的皮层。
使用IONM来定义皮质脊髓投射模式是一项有价值的技术,在切除性癫痫手术中可能潜在地取代术前功能磁共振成像(fMRI)和经颅磁刺激,特别是对于年轻患者。
