asa was showcased in an interactive workshop by Dr. Susan Bowyer, Ph.D. at the American Clinical Magnetoencephalography Society (ACMEGS) annual meeting. The meeting took place in San Antonio, Texas from February 6-12, 2012. Dr. Bowyer presented MEG analysis using asa, on cases with Evoked Eloquent Cortex Responses.
The data was recorded with a whole head 4D Neuroimaging (BTi) MEG system. After importing the data into asa, the data were band-pass filtered between 3 and 50 Hz. Next, the data were averaged and finally, a latency marker was placed at the peak that would be used for source analysis.
As a preparatory step for source analysis, a 3D (BEM) head model was created with segmentation using the patient`s individual MRI.
Dr. Bowyer used a combination of swLORETA and dipole fit for her presentation on MEG source analysis in asa. For Dr. Bowyer, the swLORETA calculated an initial solution, visualized in data-output and in the 3D brain-space. She then automatically fed the maximum of this solution into the dipole fit algorithm. The swLORETA was calculated first in order to prevent the dipole fit algorithm from getting stuck at a local maximum. The a priori information coming from the maximum result of the swLORETA solution not only avoids the unlikely but undesirable pitfall, it also ensures that the dipole fit outputs the highest possible localization accuracy.
The presented showcase contained data of a 15 years old female who had history of intractable right arm simple parietal sensory seizures, sometimes accompanied by contractions of the right arm muscle from elbow to wrist. She had a left parietal tumor removed 5 months prior to MEG study. She continued to have sensory seizures in her right arm from 0-5 times per day. MEG was performed to plan a second surgery, such as multiple subpial transections into the epileptogenic focus to relieve these sensory type seizures. The MEG and EEG recordings were abnormal and showed focal slowing seen in the left parietal and temporal regions.
The resulting image below is from the final output of Dr. Bowyer`s data and was used in her presentation. Averaged traces are shown on the rightmost window. In the center window, one can see the dipole fit result visualized in the MRI slices as well as on the curvilinear surface. The dipole was calculated on somatosensory evoked fields (SEF) and localized to the post central gyrus in the anterior margin on the tumor resection.
About Dr. Susan Bowyer
Dr. Susan Bowyer, Ph.D. is a medical physicist and neuroimaging scientist in the Neuromagnetism Lab of Henry Ford Hospital in Detroit, Michigan.
About asa
The software package integrates all current MEG file formats and allows users to open and read MEG/EEG data without the need to export the files. asa supports a wide range of data formats for import and analysis, including the 4D BTi format, and other the CTF and Neuromag MEG data formats. Additionally, the software automatically reads the 3D positions of the SQUID (Superconducting Quantum Interference Device) magnetometers. Apart from creating individual head models, the asa software comes with the MNI (Montreal Neurological Institute)-standard and Collins-standard brains.
MUSIC metric to estimate regions with high likehood of focal electrical activity.