The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (MEG) signals (and, optionally, electroencephalographic (EEG) signals) produced by electrically active tissue of the brain. These signals are recorded by a computerized data acquisition system, displayed, and may then be interpreted by trained physicians to help localize these active areas. The locations may then be correlated with anatomical information of the brain. MEG is routinely used to identify the locations of visual, auditory, somatosensory, and motor cortex in the brain when used in conjunction with evoked response averaging devices. MEG is also used to non-invasively locate regions of epileptic activity within the brain. The localization information provided by MEG may be used, in conjunction with other diagnostic data, in neurosurgical planning.
OLX,OLY
Source Localization Software For Electroencephalograph Or Magnetoencephalograph,
Source Localization Software For Electroencephalograph Or Magnetoencephalograph,Magnetoencephalograph
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (MEG) signals (and, optionally, electroencephalographic (EEG) signals) produced by electrically active tissue of the brain. These signals are recorded by a computerized data acquisition system, displayed, and may then be interpreted by trained physicians to help localize these active areas. The locations may then be correlated with anatomical information of the brain. MEG is routinely used to identify the locations of visual, auditory, somatosensory, and motor cortex in the brain when used in conjunction with evoked response averaging devices. MEG is also used to non-invasively locate regions of epileptic activity within the brain. The localization information provided by MEG may be used, in conjunction with other diagnostic data, in neurosurgical planning.
OLX,OLY
Source Localization Software For Electroencephalograph Or Magnetoencephalograph,
Source Localization Software For Electroencephalograph Or Magnetoencephalograph,Magnetoencephalograph
The TRIUX™ neo non-invasively measures the magnetoencephalographic (MEG) signals
The TRIUX™ neo non-invasively measures the magnetoencephalographic (MEG) signals (and, optionally, electroencephalographic (EEG) signals) produced by electrically active tissue of the brain. These signals are recorded by a computerized data acquisition system, displayed, and may then be interpreted by trained physicians to help localize these active areas. The locations may then be correlated with anatomical information of the brain. MEG is routinely used to identify the locations of visual, auditory, somatosensory, and motor cortex in the brain when used in conjunction with evoked response averaging devices. MEG is also used to non-invasively locate regions of epileptic activity within the brain. The localization information provided by MEG may be used, in conjunction with other diagnostic data, in neurosurgical planning.
MaxFilter™ is used with Elekta Neuromag®, Elekta Neuromag® TRIUX and TRIUX™ neo
MaxFilter™ is used with Elekta Neuromag®, Elekta Neuromag® TRIUX and TRIUX™ neo in suppressing magnetic interference and in reducing measurement artifacts.
A comprehensive analysis suite for magnetoencephalographic and electroencephalog
A comprehensive analysis suite for magnetoencephalographic and electroencephalographic data acquired with Elekta Neuromag®, Elekta Neuromag® TRIUX and TRIUX™ neo.
OLX
Source Localization Software For Electroencephalograph Or Magnetoencephalograph
The TRIUX™ neo non-invasively measures the magnetoencephalographic (MEG) signals
The TRIUX™ neo non-invasively measures the magnetoencephalographic (MEG) signals (and, optionally, electroencephalographic (EEG) signals) produced by electrically active tissue of the brain. These signals are recorded by a computerized data acquisition system, displayed, and may then be interpreted by trained physicians to help localize these active areas. The locations may then be correlated with anatomical information of the brain. MEG is routinely used to identify the locations of visual, auditory, somatosensory, and motor cortex in the brain when used in conjunction with evoked response averaging devices. MEG is also used to non-invasively locate regions of epileptic activity within the brain. The localization information provided by MEG may be used, in conjunction with other diagnostic data, in neurosurgical planning.
MaxFilter™ is used with Elekta Neuromag®, Elekta Neuromag® TRIUX and TRIUX™ neo
MaxFilter™ is used with Elekta Neuromag®, Elekta Neuromag® TRIUX and TRIUX™ neo in suppressing magnetic interference and in reducing measurement artifacts.
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (MEG) signals (and, optionally, electroencephalographic (EEG) signals) produced by electrically active tissue of the brain. These signals are recorded by a computerized data acquisition system, displayed, and may then be interpreted by trained physicians to help localize these active areas. The locations may then be correlated with anatomical information of the brain. MEG is routinely used to identify the locations of visual, auditory, somatosensory, and motor cortex in the brain when used in conjunction with evoked response averaging devices. MEG is also used to non-invasively locate regions of epileptic activity within the brain. The localization information provided by MEG may be used, in conjunction with other diagnostic data, in neurosurgical planning.
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (
The Elekta Neuromag® TRIUX non-invasively measures the magnetoencephalographic (MEG) signals (and, optionally, electroencephalographic (EEG) signals) produced by electrically active tissue of the brain. These signals are recorded by a computerized data acquisition system, displayed, and may then be interpreted by trained physicians to help localize these active areas. The locations may then be correlated with anatomical information of the brain. MEG is routinely used to identify the locations of visual, auditory, somatosensory, and motor cortex in the brain when used in conjunction with evoked response averaging devices. MEG is also used to non-invasively locate regions of epileptic activity within the brain. The localization information provided by MEG may be used, in conjunction with other diagnostic data, in neurosurgical planning.