Direct localization of subthalamic nucleus supplemented by single-track electrophysiological guidance in deep brain stimulation lead implantation: techniques and clinical results.

Background/aims: In subthalamic nucleus (STN) deep brain stimulation (DBS) lead implantation, it is still controversial whether it is more appropriate to employ indirect or direct methods in magnetic resonance imaging (MRI)-based tentative targeting and to select single- or multiple-track recording in electrophysiological definitive targeting. The efficacy of single-track electrophysiological recording through direct targeting was compared with the conventional indirect targeting methods in light of the identified STN thickness and clinical results.

Methods: The identified mean STN thickness, pre- and 6-month postoperative Unified Parkinson's Disease Rating Scale (UPDRS), dose change of L-dopa and dopaminergic agonists were compared in indirect (midcommissural point-based, 44 procedures) and direct (image-based, 44 procedures) targeting methods.

Brain shift: an error factor during implantation of deep brain stimulation electrodes.

Object: The goal of this study was to focus on the tendency of brain shift during stereotactic neurosurgery and the shift's impact on the unilateral and bilateral implantation of electrodes for deep brain stimulation (DBS).

Methods: Eight unilateral and 10 bilateral DBS electrodes at 10 nuclei ventrales intermedii and 18 subthalamic nuclei were implanted in patients at Kaizuka Hospital with the aid of magnetic resonance (MR) imaging-guided and microelectrode-guided methods. Brain shift was assessed as changes in the 3D coordinates of the anterior and posterior commissures (AC and PC) with MR images before and immediately after the implantation surgery.

Mechanical injury of the subthalamic area during stereotactic surgery followed by improvement of trunk, neck, and face tremor--case report--.

A 50-year-old man had undergone right nucleus ventrointermedius (Vim) thalamotomy 1 year previously, resulting in the disappearance of left hand tremor. However, he presented with right distal and proximal tremor including the axial trunk, neck, and head. Deep brain stimulation (DBS) of the left Vim for these symptoms was unsuccessful.

Inferior temporal sulcus approach for amygdalohippocampectomy guided by a laser beam of stereotactic navigator.

Objective: To describe a surgical technique for a minimally invasive transcortical transventricular amygdalohippocampectomy via the inferior temporal sulcus (ITS) using a stereotactic navigator.

Methods: Seven patients with medically intractable mesial temporal lobe epilepsy underwent an amygdalohippocampectomy via the ITS. By use of a laser-guided navigation system, the epileptogenic foci of the mesial temporal lobe were resected through a small linear operative route that was made by a brain speculum inserted from the ITS to the anterolateral floor of the temporal horn in the lateral ventricle.

Implantation of deep brain stimulation electrodes in unshaved patients. Technical note.

Although hair removal prior to neurosurgery may increase the risk of infection, the practice of shaving the patient's entire head is still common, particularly in implant surgery. The authors describe a technique for implanting a deep brain stimulation electrode without shaving the patient's hair and present a retrospective analysis of 261 implantations in 221 cases.

Localization of epileptogenic zone in temporal lobe epilepsy by ictal scalp EEG.

Our aim was to evaluate the ability to localize the epileptogenic zone in temporal lobe epilepsy (TLE) by ictal scalp electroencephalogram (EEG). Using simultaneous video recording, we analysed scalp EEG activity during ictal periods in 38 patients (30 patients with medial TLE (MTLE) and eight with lateral TLE (LTLE)). In 14 patients, intracranial ictal EEGs were recorded with depth electrodes, and simultaneous recordings of scalp and intracranial EEG were performed in 11 patients.