Vestibular loss causes hippocampal atrophy and impaired spatial memory in humans.
@article{Brandt2005VestibularLC,
title={Vestibular loss causes hippocampal atrophy and impaired spatial memory in humans.},
author={Thomas Brandt and Franz Schautzer and Derek A Hamilton and Roland Br{\"u}ning and Hans Joachim Markowitsch and Roger Kalla and Cynthia L. Darlington and Paul Smith and Michael Strupp},
journal={Brain : a journal of neurology},
year={2005},
volume={128 Pt 11},
pages={
2732-41
}
}The human hippocampal formation plays a crucial role in various aspects of memory processing. Most literature on the human hippocampus stresses its non-spatial memory functions, but older work in rodents and some other species emphasized the role of the hippocampus in spatial learning and memory as well. A few human studies also point to a direct relation between hippocampal size, navigation and spatial memory. Conversely, the importance of the vestibular system for navigation and spatial…
440 Citations
Spatial memory and hippocampal volume in humans with unilateral vestibular deafferentation
- Psychology, BiologyHippocampus
- 2007
No significant deficits in spatial memory and navigation could be demonstrated in the patients with left vestibular failure, whereas patients with right Vestibular loss showed a tendency to perform worse on the respective tests.
Balance before Reason in Rats and Humans
- Biology, PsychologyAnnals of the New York Academy of Sciences
- 2009
These studies demonstrate the importance of balance for the most fundamental of cognitive processes and suggest that information about head acceleration and orientation must have been critical to the evolution of brain structures such as the hippocampus.
The Effects of Bilateral Vestibular Loss on Hippocampal Volume, Neuronal Number, and Cell Proliferation in Rats
- Biology, PsychologyFront. Neur.
- 2012
The results suggest a dissociation between the effects of BVD on spatial memory and hippocampal structure in rats and humans, which cannot be explained by an injury-induced increase in cell proliferation.
Influence of vestibular input on spatial and nonspatial memory and on hippocampal NMDA receptors
- Biology, PsychologyHippocampus
- 2012
Findings show that the lack of vestibular information induced specific deficits in spatial memory in a rat model of bilateral labyrinthectomy, and quantitative autoradiographic data suggest the involvement of the glutamatergic system in spatialMemory processes related to vestibul information.
A New Perspective on Vestibular Assessment
- Psychology, BiologyThe Hearing Journal
- 2019
Results of these studies support the contention that vestibular loss does, in fact, alter brain function at the cellular level, and that these changes have an effect on behavior.
Hippocampal gray matter volume in bilateral vestibular failure
- Biology, PsychologyHuman brain mapping
- 2016
It is proposed that GMV reduction in the hippocampus of BVF patients is related to the severity of vestibular‐induced disability which is in line with combined hippocampal atrophy and disorders of spatial navigation in complete Vestibular deafferentation due to bilateral nerve section.
Cognitive deficits in patients with a chronic vestibular failure
- Psychology, BiologyJournal of Neurology
- 2016
The results demonstrate that vestibular failure can lead to cognitive impairments beyond the spatial navigation deficits described earlier, and raise the question whether BVF patients may profit from specific cognitive training in addition to physiotherapy.
Hippocampal synaptic transmission and LTP in vivo are intact following bilateral vestibular deafferentation in the rat
- Biology, PsychologyHippocampus
- 2010
The results suggest that although BVD interferes with the encoding, consolidation, and/or retrieval of spatial memories and the function of place cells, these changes are not related to detectable in vivo decrements in basal synaptic transmission or LTP, at least in the investigated pathways.
The Effects of Complete Vestibular Deafferentation on Spatial Memory and the Hippocampus in the Rat: The Dunedin Experience.
- Biology, PsychologyMultisensory research
- 2015
The deficits in the radial arm maze, the foraging task and the spatial T maze, in particular, suggest hippocampal dysfunction following BVD, and this is supported by the finding that both hippocampal place cells and theta rhythm are dysfunctional in BVD rats.
Move it or lose it—Is stimulation of the vestibular system necessary for normal spatial memory?
- Psychology, BiologyHippocampus
- 2010
The evolutionary age of this primitive sensory system as well as how it detects self‐motion (i.e., detection of acceleration vs. velocity) may be the reasons for its unique contribution to spatial memory.
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