Magnetoencephalography in presurgical epilepsy evaluation

Pataraia, Ekaterina; Baumgartner, Christoph; Lindinger, G.; Deecke, Lüder

doi:10.1007/s10143-001-0197-2

Cited by 77 publications

(43 citation statements)

References 113 publications

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“…We have provided the example of somatosensory processing, but this could readily be extrapolated to more cognitive functions such as attention, language, and emotion, as well as the components typically ascribed to them. For some, this ''reference-dependent'' attribute has been viewed as the principal shortcoming of EEG versus magnetoencephalography (MEG; [50,69,70]). However, as will be shown throughout this tutorial and elsewhere in this special issue [55], alternative and easy-touse analyses can be performed on EEG/ERP data (as well as MEG/MEF data) that do allow researchers to address fundamental neurophysiologic questions.…”

Section: Waveform Analyses: Limitations and Pitfallsmentioning

confidence: 99%

Topographic ERP Analyses: A Step-by-Step Tutorial Review

2008

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In this tutorial review, we detail both the rationale for as well as the implementation of a set of analyses of surface-recorded event-related potentials (ERPs) that uses the reference-free spatial (i.e. topographic) information available from high-density electrode montages to render statistical information concerning modulations in response strength, latency, and topography both between and within experimental conditions. In these and other ways these topographic analysis methods allow the experimenter to glean additional information and neurophysiologic interpretability beyond what is available from canonical waveform analyses. In this tutorial we present the example of somatosensory evoked potentials (SEPs) in response to stimulation of each hand to illustrate these points. For each step of these analyses, we provide the reader with both a conceptual and mathematical description of how the analysis is carried out, what it yields, and how to interpret its statistical outcome. We show that these topographic analysis methods are intuitive and easy-to-use approaches that can remove much of the guesswork often confronting ERP researchers and also assist in identifying the information contained within highdensity ERP datasets.

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Section: Waveform Analyses: Limitations and Pitfallsmentioning

confidence: 99%

Topographic ERP Analyses: A Step-by-Step Tutorial Review

2008

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“…The question of the correct reference electrode has been intensively debated in the literature Gencer et al, 1996;Junghofer et al, 1999;Pascual-Marqui and Lehmann, 1993;Tomberg et al, 1990]. And the reference-problem has been taken as a major disadvantage of EEG versus MEG [Pataraia et al, 2002;Wikswo et al, 1993;Williamson et al, 1991]. Yet, many studies have shown that-while the choice of the reference heavily influences waveform analysis-it is actually irrelevant for the analysis of topographic maps (as done in the present study) and for source localization (as done in the present study) as long as the reference is correctly included in the model.…”

Section: Eeg Recordingmentioning

confidence: 99%

The timing of temporoparietal and frontal activations during mental own body transformations from different visuospatial perspectives

Schwabe¹,

Lenggenhager²,

Blanke³

2009

Human Brain Mapping

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Abstract:The perspective from where the world is perceived is an important aspect of the bodily self and may break down in neurological conditions such as out-of-body experiences (OBEs). These striking disturbances are characterized by disembodiment, an external perspective and have been observed after temporoparietal damage. Using mental own body imagery, recent neuroimaging work has linked perspectival changes to the temporoparietal cortex. Because the disembodied perspective during OBEs is elevated in the majority of cases, we tested whether an elevated perspective will interfere with such temporoparietal mechanisms mental own body imagery. We designed stimuli of life-sized humans rotated around the vertical axis and rendered as if viewed from three different perspectives: elevated, lowered, and normal. Reaction times (RTs) in an own body transformation task, but not the control condition, were dependent on the rotation angle. Furthermore, RTs were shorter for the elevated as compared with the normal or lowered perspective. Using high-density EEG and evoked potential (EP) mapping, we found a bilateral temporoparietal and frontal activation at %330-420 ms after stimulus onset that was dependent on the rotation angle, but not on the perspective. This activation was also found in response-locked EPs. In the time period %210-330 ms we found a temporally distinct posterior temporal activation with its duration being dependent on the perspective, but not the rotation angle. Collectively, the present findings suggest that temporoparietal and frontal as well as posterior temporal activations and their timing are crucial neuronal correlates of the bodily self as studied by mental imagery.

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“…Synchronized neuronal currents induce weak magnetic fields that can be detected with multichannel sensors placed over the patient' s scalp (9)(10)(11). Superconducting quantum inference devices (SQUIDS) allow detection of small cortical field differences and large shielded rooms cooled by liquid helium and are used to minimize distortion of signal from outside magnetic fields.…”

Section: Magnetoencephalographymentioning

confidence: 99%

“…Mathematical models infer the location of signal generators on the cortex, overlaying them on synchronized MR images. Magnetoencephalography (MEG) has been utilized in localization of seizure foci, language centers, and primary somatosensory cortices (9)(10)(11). One technique involves placement of standard fiducial markers on the patient' s scalp, completion of an MRI, and integration of MRI and MEG studies, yielding a magnetic source image (MSI), that can be integrated with standard intraoperative navigation systems.…”

Section: Magnetoencephalographymentioning

confidence: 99%

Cortical Mapping in the Resection of Malignant Cerebral Gliomas

Zakaria

Prabhu

2017

Glioblastoma

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Cerebral gliomas are diffuse intrinsic primary brain tumors that are most commonly encountered in the frontal, temporal, and parietal lobes, and that can present with an array of symptoms including alterations in mental status, speech and language difficulties, motor or sensory abnormalities, and seizures. Maximal safe surgical debulking of the tumor reduces mass effect, provides a precise histological diagnosis, and facilitates genetic analysis that may shed light on the response to therapies and prognosis, reduces the oncological burden of the tumor facilitating the effectiveness of adjuvant treatments such as radiation and chemotherapy, and may reduce seizures. Preoperative and intraoperative cortical mapping strategies are used to delineate the relationship of the tumor with adjacent eloquent and association cortical areas to provide a maximal functionally safe surgical resection. This chapter describes the protocols used at our institution for the surgical management of patients with malignant gliomas in proximity to or involving eloquent cortical areas.

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Magnetoencephalography in presurgical epilepsy evaluation

Cited by 77 publications

References 113 publications

Topographic ERP Analyses: A Step-by-Step Tutorial Review

Topographic ERP Analyses: A Step-by-Step Tutorial Review

The timing of temporoparietal and frontal activations during mental own body transformations from different visuospatial perspectives

Cortical Mapping in the Resection of Malignant Cerebral Gliomas

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