PLoS ONE (Jan 2022)

Imaging visuospatial memory in temporal lobe epilepsy—Results of an fMRI study

  • Victor Schmidbauer,
  • Karl-Heinz Nenning,
  • Michelle Schwarz,
  • Olivia Foesleitner,
  • Gudrun Mayr-Geisl,
  • Mehmet Salih Yildirim,
  • Susanne Pirker,
  • Doris Moser,
  • Daniela Denk,
  • Daniela Prayer,
  • Karin Trimmel,
  • Georg Langs,
  • Christoph Baumgartner,
  • Ekaterina Pataraia,
  • Gregor Kasprian,
  • Silvia Bonelli

Journal volume & issue
Vol. 17, no. 2

Abstract

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Purpose Impairment of cognitive functions is commonly observed in temporal lobe epilepsy (TLE). The aim of this study was to assess visuospatial memory functions and memory-related networks using an adapted version of Roland’s Hometown Walking (RHWT) functional MRI (fMRI) task in patients with TLE. Methods We used fMRI to study activation patterns based on a visuospatial memory paradigm in 32 TLE patients (9 right; 23 left) and also within subgroups of lesional and non-lesional TLE. To test for performance, a correlational analysis of fMRI activation patterns and out-of-scanner neuropsychological visuospatial memory testing was performed. Additionally, we assessed memory-related networks using functional connectivity (FC). Results Greater contralateral than ipsilateral mesiotemporal (parahippocampal gyrus/hippocampus) activation was observed in left (n = 23)/right (n = 9) TLE. In lesional left TLE (n = 17), significant activations were seen in right more than left mesiotemporal areas (parahippocampal gyrus), while non-lesional left TLE patients (n = 6) showed significant bilateral (left>right) activations in mesiotemporal structures (parahippocampal gyrus). In left TLE, visuospatial cognitive testing correlated with fMRI activations in left (parahippocampal gyrus) and right mesiotemporal structures (hippocampus), characterized by greater fMRI activation being associated with better memory scores. In right TLE, higher scores in visuospatial memory testing were associated with greater fMRI activations in left and right insular regions. FC patterns of memory-related networks differ in right and left TLE. Conclusion While TLE in general leads to asymmetrical mesiotemporal activation, lesion-induced and non-lesional TLE patients reveal different memory fMRI activation patterns. In right TLE, insular regions try to compensate for impaired right mesiotemporal structures during the performance of visuospatial tasks. Underlying functional visuospatial memory networks differ in right and left TLE.