Thalamic Amnesia After Infarct: The Role of the Mammillothalamic Tract and Mediodorsal Nucleus

Overview

Journal Neurology

Specialty Neurology

Date 2015 Nov 15

PMID 26567269

Citations 31

Authors

Lola Danet

Emmanuel J Barbeau

Pierre Eustache

Melanie Planton

Nicolas Raposo

Igor Sibon

Jean-Francois Albucher

Fabrice Bonneville

Patrice Peran

Jeremie Pariente

Affiliations

Soon will be listed here.

Abstract

Objective: To improve current understanding of the mechanisms behind thalamic amnesia, as it is unclear whether it is directly related to damage to specific nuclei, in particular to the anterior or mediodorsal nuclei, or indirectly related to lesions of the mammillothalamic tract (MTT).

Methods: We recruited 12 patients with a left thalamic infarction and 25 healthy matched controls. All underwent a comprehensive neuropsychological assessment of verbal and visual memory, executive functions, language, and affect, and a high-resolution structural volumetric MRI scan. Thalamic lesions were manually segmented and automatically localized with a computerized thalamic atlas. As well as comparing patients with controls, we divided patients into subgroups with intact or damaged MTT.

Results: Only one patient had a small lesion of the anterior nucleus. Most of the lesions included the mediodorsal (n = 11) and intralaminar nuclei (n = 12). Patients performed worse than controls on the verbal memory tasks, but the 5 patients with intact MTT who showed isolated lesions of the mediodorsal nucleus (MD) only displayed moderate memory impairment. The 7 patients with a damaged MTT performed worse on the verbal memory tasks than those whose MTT was intact.

Conclusions: Lesions in the MTT and in the MD result in memory impairment, severely in the case of MTT and to a lesser extent in the case of MD, thus highlighting the roles played by these 2 structures in memory circuits.

Citing Articles

Factors behind poor cognitive outcome following a thalamic stroke.

Vidal J, Danet L, Arribarat G, Pariente J, Peran P, Albucher J J Neurol. 2025; 272(1):98.

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Exploring memory-related network via dorsal hippocampus suppression.

Han X, Cramer S, Chan D, Zhang N Netw Neurosci. 2024; 8(4):1310-1330.

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A roadmap towards standardized neuroimaging approaches for human thalamic nuclei.

Segobin S, Haast R, Kumar V, Lella A, Alkemade A, Cuadra M Nat Rev Neurosci. 2024; 25(12):792-808.

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Exploring the impact of the interthalamic adhesion on human cognition: insights from healthy subjects and thalamic stroke patients.

Vidal J, Rachita K, Servais A, Peran P, Pariente J, Bonneville F J Neurol. 2024; 271(9):5985-5996.

PMID: 39017701 PMC: 11377548. DOI: 10.1007/s00415-024-12566-z.

Robust thalamic nuclei segmentation from T1-weighted MRI using polynomial intensity transformation.

Vidal J, Danet L, Peran P, Pariente J, Cuadra M, Zahr N Brain Struct Funct. 2024; 229(5):1087-1101.

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