Abstracts

People with mesial temporal lobe epilepsy have altered thalamo-occipital brain networks

Abstract number : 112
Submission category : 5. Neuro Imaging / 5B. Functional Imaging
Year : 2020
Submission ID : 2422460
Source : www.aesnet.org
Presentation date : 12/5/2020 9:07:12 AM
Published date : Nov 21, 2020, 02:24 AM

Authors :
Kristin Wills, Vanderbilt University Medical Center; Hernán F.J. González - Vanderbilt University; Graham Johnson - Vanderbilt University; Kevin Haas - Vanderbilt University Medical Center; Victoria Morgan - Vanderbilt University Institute of Imaging Scie


Rationale:
While temporal lobe epilepsy (TLE) is a focal epilepsy, previous work demonstrates that TLE causes widespread brain-network disruptions. Impaired visuospatial attention and learning in TLE may be related to thalamic arousal nuclei connectivity. Our prior preliminary work in a smaller patient cohort suggests that patients with TLE demonstrate abnormal functional connectivity between central lateral (CL) thalamic nucleus and medial occipital lobe. Others have shown pulvinar connectivity disturbances in TLE, but it is incompletely understood how TLE affects pulvinar subnuclei. Also, the effects of epilepsy surgery on thalamic functional connectivity remains poorly understood.
Method:
In this study, we examine the effects of TLE on functional connectivity of two key thalamic arousal-nuclei: lateral pulvinar (PuL) and CL. We evaluate resting-state functional connectivity of the PuL and CL in 40 patients with TLE and 40 controls using fMRI. In 25 patients, postoperative images (>1 year) were also compared with preoperative images.
Results:
Compared to controls, patients with TLE exhibit loss of normal positive connectivity between PuL and lateral occipital lobe (p< 0.05), and a loss of normal negative connectivity between CL and medial occipital lobe (p< 0.01, paired t-tests). FMRI amplitude of low frequency fluctuation (ALFF) in TLE trended higher in ipsilateral PuL (p=0.06) but was lower in the lateral occipital (p< 0.01) and medial occipital lobe in patients versus controls (p< 0.05, paired t-tests). More abnormal ALFF in the ipsilateral lateral occipital lobe is associated with worse preoperative performance on Rey Complex Figure Test Immediate (p< 0.05, r=0.381) and Delayed scores (p< 0.05, r=0.413, Pearson’s Correlations). After surgery, connectivity between PuL and lateral occipital lobe remains abnormal in patients (p< 0.01), but connectivity between CL and medial occipital lobe improves and is no longer different from control values (p >0.05, ANOVA, post-hoc Fischer’s LSD).
Conclusion:
In conclusion, thalamic arousal nuclei exhibit abnormal connectivity with occipital lobe in TLE, and some connections may improve after surgery. Studying thalamic arousal centers may help explain distal network disturbances in TLE.
Funding:
:This work was supported by National Institutes of Health grants F31 NS106735 (HFJG), R00 NS097618 (DJE), R01 NS108445 (VLM), R01 NS110130 (VLM), R01 NS112252 (DJE), T32 EB001628- 17 (SN), T32 EB021937 (HFJG), T32 GM07347 (HFJG, GWJ), and the Vanderbilt Institute for Surgery and Engineering (VISE).
Neuro Imaging