Tavish Traut scite author profile

Tavish Traut

2Publications

58Citation Statements Received

148Citation Statements Given

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121

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Neurological Surgery, University of California, San Francisco

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MEG imaging of recurrent gliomas reveals functional plasticity of hemispheric language specialization

Traut

Sardesh

Bulubas

et al. 2018

Human Brain Mapping

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In patients with gliomas, changes in hemispheric specialization for language determined by magnetoencephalography (MEG) were analyzed to elucidate the impact of treatment and tumor recurrence on language networks. Demonstration of reorganization of language networks in these patients has significant implications on the prevention of postoperative functional loss and recovery. Whole‐brain activity during an auditory verb generation task was estimated from MEG recordings in a group of 73 patients with recurrent gliomas. Hemisphere of language dominance was estimated using the language laterality index (LI), a measure derived from the task. The initial scan was performed prior to resection; patients subsequently underwent surgery and adjuvant treatment. A second scan was performed upon recurrence prior to repeat resection. The relationship between the shift in LI between scans and demographics, anatomic location, pathology, and adjuvant treatment was analyzed. Laterality shifts were observed between scans; the median percent change was 29.1% across all patients. Laterality shift magnitude and relative direction were associated with the initial position of language dominance; patients with increased lateralization experienced greater shifts than those presenting more bilateral representation. A change in LI from left or right to bilateral (or vice versa) occurred in 23.3% of patients; complete switch occurred in 5.5% of patients. Patients with tumors within the language‐dominant hemisphere experienced significantly greater shifts than those with contralateral tumors. The majority of patients with glioma experience shifts in language network organization over time which correlate with the relative position of language lateralization and tumor location.

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Motor Cortical Network Plasticity in Patients With Recurrent Brain Tumors

Bulubas

Sardesh

Traut

et al. 2020

Front. Hum. Neurosci.

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Bulubas et al. Motor Cortical Network Plasticity longer period between MEG scans (p = 0.048). Also, a disengagement of wide areas in the contralesional (ipsilateral to finger movement) hemisphere at the second time point was observed. Conclusions: MEG imaging is a sensitive method for depicting the plasticity of the motor cortical network. Although the location of the primary MC undergoes only subtle changes, appreciable shifts can occur in the setting of a stronger and longer impairment of the tumor on the MC. The ipsilateral hemisphere may serve as a reservoir for functional recovery.

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Tavish Traut

MEG imaging of recurrent gliomas reveals functional plasticity of hemispheric language specialization

Motor Cortical Network Plasticity in Patients With Recurrent Brain Tumors

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