11/25/2023 0 Comments Jing xiangJiao, M Wan, G Guo, Y Wang, D Liu, H Xiang, J Liu, F.Ī Graph Fourier Transform Based Bidirectional Long Short-Term Memory Neural Network for Electrophysiological Source Imaging. (2022) EEG Source Imaging using GANs with Deep Image Prior. Guo, Y Jiao, M Wan, G Xiang, J Wang, S Liu, F. Jiao, M Liu, F Asan, O Nilchiani, R Ju, X Xiang, J.īrain Source Reconstruction Solution Quality Assessment with Spatial Graph Frequency Features. Spatial and Frequency Specific Artifact Reduction in Optically Pumped Magnetometer Recordings. Xiang, J Tong, H Jiang, Y Barnes-Davis, ME. Brain and Behavior.Įditorial: EEG/MEG based diagnosis for psychiatric disorders. Li, Y Chen, J Sun, J Jiang, P Xiang, J Chen, Q Hu, Z Wang, X.Ĭhanges in functional connectivity in newly diagnosed self-limited epilepsy with centrotemporal spikes and cognitive impairment: An MEG study. Ren, J Yao, Q Tian, M Li, F Chen, Y Chen, Q Xiang, J Shi, J.Īltered effective connectivity in migraine patients during emotional stimuli: a multi-frequency magnetoencephalography study. Our research can directly translate into safer, more reliable neurosurgery to treat children with severe epileptic seizures. From the clinical point of view, MEG can localize active areas of the brain targeted for surgical removal and provide more accurate spatial localization of functional areas of the brain that should be preserved. We also aim to develop new techniques to noninvasively localize seizure onset regions and ultimately avoid lengthy, costly and risky invasive intracranial recordings (or ECoG) to find the abnormal epileptic regions requiring surgical removal. Our research is some of the first to investigate these signals in children and adolescents. In addition, high-frequency neuromagnetic signals may provide unique information about brain maturation and development. Our preliminary data indicate that high-frequency brain signals are a new window for functional analysis of the brain activity. One of our areas of focus investigates high-frequency neuromagnetic signals (HFNS) associated with electric high-frequency oscillations (HFOs, ripple or fast ripple). Many of our research projects focus on signal processing and presurgical functional mapping, which could lead to safer, less invasive neurosurgical procedures for patients with epilepsy. The Magnetoencephalography (MEG) Center at Cincinnati Children’s conducts collaborative research aimed at tapping the full clinical potential for this advanced imaging technology.
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