Stereotactic placement of depth electrodes in medically intractable epilepsy

González-Martínez, Jorge; Mullin, Jeffrey P.; Vadera, Sumeet; Bulacio, Juan; Hughes, Gwyneth; Jones, Stephen E.; Enatsu, Rei; Najm, Imad

doi:10.3171/2013.11.jns13635

Cited by 176 publications

(151 citation statements)

References 18 publications

(22 reference statements)

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“…The majority of these electrodes (i.e., 2584 electrodes) were implanted in orthogonal orientation relative to the sagittal plane, with 79 additional electrodes implanted obliquely to target the superior frontal gyrus, posterior orbitofrontal cortex, superior parietal lobule, and/or insula. Within our series, the first 122 patients were prospectively implanted using a stereotactic Leksell frame-based technique that has recently been described by our group; 9 unique to only a small number of centers in North America, the remaining 78 patients were prospectively implanted with the aid of a stereotactic ROSA robotic device (Medtech).…”

Section: Methodsmentioning

confidence: 99%

“…9 In prospective fashion and following the acquisition of a stereotactic ROSA device at our institution, the remaining 78 patients of this series underwent frameless SEEG implantation under direct robotic guidance. The success rate of both techniques was comparable despite the technological advances in SEEG electrode placement, with successful identification of the epileptogenic zone in 93 patients (76.2%) undergoing the Leksell frame-based technique and in 61 patients (78.2%) undergoing frameless robotic guidance for SEEG implantation.…”

Section: Technique Of Seeg Electrode Implantationmentioning

confidence: 99%

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The stereotactic approach for mapping epileptic networks: a prospective study of 200 patients

Serletis

Bulacio

Bingaman

et al. 2014

JNS

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153

117

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Object Stereoelectroencephalography (SEEG) is a methodology that permits accurate 3D in vivo electroclinical recordings of epileptiform activity. Among other general indications for invasive intracranial electroencephalography (EEG) monitoring, its advantages include access to deep cortical structures, its ability to localize the epileptogenic zone when subdural grids have failed to do so, and its utility in the context of possible multifocal seizure onsets with the need for bihemispheric explorations. In this context, the authors present a brief historical overview of the technique and report on their experience with 2 SEEG techniques (conventional Leksell frame-based stereotaxy and frameless stereotaxy under robotic guidance) for the purpose of invasively monitoring difficult-to-localize refractory focal epilepsy. Methods Over a period of 4 years, the authors prospectively identified 200 patients with refractory epilepsy who collectively underwent 2663 tailored SEEG electrode implantations for invasive intracranial EEG monitoring and extraoperative mapping. The first 122 patients underwent conventional Leksell frame-based SEEG electrode placement; the remaining 78 patients underwent frameless stereotaxy under robotic guidance, following acquisition of a stereotactic ROSA robotic device at the authors' institution. Electrodes were placed according to a preimplantation hypothesis of the presumed epileptogenic zone, based on a standardized preoperative workup including video-EEG monitoring, MRI, PET, ictal SPECT, and neuropsychological assessment. Demographic features, seizure semiology, number and location of implanted SEEG electrodes, and location of the epileptogenic zone were recorded and analyzed for all patients. For patients undergoing subsequent craniotomy for resection, the type of resection and procedure-related complications were prospectively recorded. These results were analyzed and correlated with pathological diagnosis and postoperative seizure outcomes. Results The epileptogenic zone was confirmed by SEEG in 154 patients (77%), of which 134 (87%) underwent subsequent craniotomy for epileptogenic zone resection. Within this cohort, 90 patients had a minimum follow-up of at least 12 months; therein, 61 patients (67.8%) remained seizure free, with an average follow-up period of 2.4 years. The most common pathological diagnosis was focal cortical dysplasia Type I (55 patients, 61.1%). Per electrode, the surgical complications included wound infection (0.08%), hemorrhagic complications (0.08%), and a transient neurological deficit (0.04%) in a total of 5 patients (2.5%). One patient (0.5%) ultimately died due to intracerebral hematoma directly ensuing from SEEG electrode placement. Conclusions Based on these results, SEEG methodology is safe, reliable, and effective. It is associated with minimal morbidity and mortality, and serves as a practical, minimally invasive approach to extraoperative localization of the epileptogenic zone in patients with refractory epilepsy.

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Section: Methodsmentioning

confidence: 99%

Section: Technique Of Seeg Electrode Implantationmentioning

confidence: 99%

The stereotactic approach for mapping epileptic networks: a prospective study of 200 patients

Serletis

Bulacio

Bingaman

et al. 2014

JNS

Self Cite

153

117

View full text Add to dashboard Cite

show abstract

“…Second, individually tailored implants may be designed to interrogate network structures up-and down-stream from the presumed symptomatogenic zone. 8,9 Furthermore, our group is beyond the scope of this article, but several features unique to SEEG planning deserve mention. Stereo-EEG enables recording of the entire cortical grey matter from gyrus to sulcal depth, so it may be advantageous in certain situations for entry to be slightly off the gyral crown.…”

Section: Stereotactic Eegmentioning

confidence: 99%

“…Thermal ablation for focal epilepsy was initially described using radiofrequency (RF) thermocoagulation probes. In our experience to date at Jefferson, 27 patients have undergone implantation of a total of 342 electodes (mean 12.7, range [5][6][7][8][9][10][11][12][13][14][15][16][17]. No patient experienced permanent morbidity or mortality related to the SEEG…”

Section: Laser Interstitial Thermotherapymentioning

confidence: 99%

Advancements in Stereotactic Epilepsy Surgery: Stereo-EEG, Laser Interstitial Thermotherapy, and Responsive Neurostimulation

Lang¹,

Chitale²,

Sharan³

et al. 2016

JHN Journal

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“…The ROSA device has aided neurosurgeons with a multitude of minimally invasive procedures, which include lead placement for deep brain stimulators, brain biopsies, 9 depth electrode placement for seizure monitoring, 4 laser ablation of epileptogenic foci, 5,13 and spinal pedicle screw fixation. 10 This robotic surgical assistant empowers the neurosurgeon to perform precise, stereotactic gestures with the aid of stereotaxy and surgical instrument stabilization.…”

mentioning

confidence: 99%

Robot-assisted endoscopic third ventriculostomy: institutional experience in 9 patients

Hoshide¹,

Calayag²,

Meltzer³

et al. 2017

Journal of Neurosurgery: Pediatrics

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OBJECTIVEThe endoscopic third ventriculostomy (ETV) is an established and effective treatment for obstructive hydrocephalus. In its most common application, surgeons plan their entry point and the endoscope trajectory for the procedure based on anatomical landmarks, then control the endoscope freehand. Recent studies report an incidence of neural injuries as high as 16.6% of all ETVs performed in North America. The authors have introduced the ROSA system to their ETV procedure to stereotactically optimize endoscope trajectories, to reduce risk of traction on neural structures by the endoscope, and to provide a stable mechanical holder of the endoscope. Here, they present their series in which the ROSA system was used for ETVs.METHODSAt the authors’ institution, they performed ETVs with the ROSA system in 9 consecutive patients within an 8-month period. Patients had to have a favorable expected response to ETV (ETV Success Score ≥ 70) with no additional endoscopic procedures (e.g., choroid plexus cauterization, septum pellucidum fenestration). The modality of image registration (CT, MRI, surface mapping, or bone fiducials) was dependent on the case.RESULTSNine pediatric patients with an age range of 1.5 to 16 years, 4 girls and 5 boys, with ETV Success Scores ranging from 70 to 90, underwent successful ETV surgery with the ROSA system within an 8-month period. Their intracranial pathologies included tectal tumors (n = 3), communicating hydrocephalus from hemorrhage or meningeal disease (n = 2), congenital aqueductal stenosis (n = 1), compressive porencephalic cyst (n = 1), Chiari I malformation (n = 1), and pineal region mass (n = 1). Robotic assistance was limited to the ventricular access in the first 2 procedures, but was used for the entirety of the procedure for the following 7 cases. Four of these cases were combined with another procedural objective (3 stereotactic tectal mass biopsies, 1 Chiari decompression). A learning curve was observed with each subsequent surgery as registration and surgical times became shorter and more efficient. All patients had complete resolution of their preprocedural symptoms. There were no complications.CONCLUSIONSThe ROSA system provides a stable, precise, and minimally invasive approach to ETVs.

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Stereotactic placement of depth electrodes in medically intractable epilepsy

Cited by 176 publications

References 18 publications

The stereotactic approach for mapping epileptic networks: a prospective study of 200 patients

The stereotactic approach for mapping epileptic networks: a prospective study of 200 patients

Advancements in Stereotactic Epilepsy Surgery: Stereo-EEG, Laser Interstitial Thermotherapy, and Responsive Neurostimulation

Robot-assisted endoscopic third ventriculostomy: institutional experience in 9 patients

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