PT - JOURNAL ARTICLE AU - Milos Dordevic AU - Julia Gruber AU - Friedhelm C Schmitt AU - Notger Mueller TI - Impairments in path integration, rotational memory and balancing in patients with temporal lobe epilepsy AID - 10.1136/bmjno-2020-000077 DP - 2020 Sep 01 TA - BMJ Neurology Open PG - e000077 VI - 2 IP - 2 4099 - http://neurologyopen.bmj.com/content/2/2/e000077.short 4100 - http://neurologyopen.bmj.com/content/2/2/e000077.full SO - BMJ Neurol Open2020 Sep 01; 2 AB - Objectives The vestibulo-medial temporal lobe (MTL) axis model proposes that the vestibular system and the MTL are tightly linked both structurally and functionally so that alterations of one structure should entail disturbances in the other. Accordingly, patients with temporal lobe epilepsy (TLE) with their functional and possible structural temporal lobe pathology should show deficits in vestibular-related behaviour. This study aimed at assessing behavioural deficits related to a suspected disturbance of the vestibulo-MTL axis in patients with TLE.Methods Twenty patients with TLE (46.7±15.1 years, seven females) and their age-matched and gender-matched controls (46.7±15.1, seven females) underwent three test batteries that challenged vestibular and MTL functions: balancing, path integration (triangle completion test) and rotational memory. In addition, participants underwent a structural MRI for grey matter analysis using voxel-based morphometry.Results Compared with controls, patients with TLE showed significantly inferior performance in all three behavioural tests, with large effect sizes. There were no significant grey matter differences between the two groups.Conclusion These results indicate a potential disturbance in the vestibulo-MTL axis in TLE; these are to be verified by future large-scale studies. In the current study, these behavioural deficits emerged without evidence of any brain volume differences between the patients and their controls as depicted by high-resolution MRI. This speaks for a dissociation between functional and structural alterations in TLE.