Stephen G Lomber
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Explore the profile of Stephen G Lomber including associated specialties, affiliations and a list of published articles.
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110
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1813
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Recent Articles
1.
Sacco A, Gordon S, Lomber S
Neuroimage
. 2025 Jan;
308:121047.
PMID: 39863004
In response to sensory deprivation, the brain adapts to efficiently navigate a modified perceptual environment through a process referred to as compensatory crossmodal plasticity, allowing the remaining senses to repurpose...
2.
Zhu S, Bao X, Lomber S
J Neurophysiol
. 2025 Jan;
133(2):684-696.
PMID: 39819102
The loss of a sensory modality triggers a phenomenon known as cross-modal plasticity, where areas of the brain responsible for the lost sensory modality are reorganized and repurposed to the...
3.
Bao X, Barnes P, Lomber S
Front Syst Neurosci
. 2024 Dec;
18:1367525.
PMID: 39703809
Evoked potentials can be used as an intraoperative monitoring measure in neurological surgery. Auditory evoked potentials (AEPs), or specifically brainstem auditory evoked responses (BAERs), are known for being minimally affected...
4.
Gordon S, Sacco A, Lomber S
Neuroimage
. 2024 Sep;
299:120826.
PMID: 39244076
Skull stripping is a fundamental preprocessing step in modern neuroimaging analyses that consists of removing non-brain voxels from structural images. When performed entirely manually, this laborious step can be rate-limiting...
5.
Sacco A, Gordon S, Lomber S
Neuroimage
. 2024 Aug;
299:120813.
PMID: 39182711
In response to sensory deprivation, the brain adapts according to contemporary demands to efficiently navigate a modified perceptual environment. This reorganization may result in improved processing of the remaining senses-a...
6.
Bao X, Lomber S
Sci Rep
. 2024 Mar;
14(1):7177.
PMID: 38531940
Visual modulation of the auditory system is not only a neural substrate for multisensory processing, but also serves as a backup input underlying cross-modal plasticity in deaf individuals. Event-related potential...
7.
Sacco A, Gordon S, Lomber S
Neuroimage
. 2024 Mar;
290:120554.
PMID: 38431180
Following sensory deprivation, areas and networks in the brain may adapt and reorganize to compensate for the loss of input. These adaptations are manifestations of compensatory crossmodal plasticity, which has...
8.
Shams M, Thier P, Lomber S, Merrikhi Y
J Neurophysiol
. 2023 Oct;
130(5):1243-1251.
PMID: 37850785
The frontal eye field (FEF) plays a key role in initiating rapid eye movements known as saccades. Accumulation models have been proposed to explain the dynamic of these neurons and...
9.
Merrikhi Y, Mirzaei A, Kok M, Meredith M, Lomber S
Eur J Neurosci
. 2023 Jul;
58(4):3058-3073.
PMID: 37408361
Many neural areas, where patterned activity is lost following deafness, have the capacity to become activated by the remaining sensory systems. This crossmodal plasticity can be measured at perceptual/behavioural as...
10.
Mitzelfelt T, Bao X, Barnes P, Lomber S
Front Neurosci
. 2023 Mar;
17:997357.
PMID: 36937669
Introduction: Congenitally deaf cats perform better on visual localization tasks than hearing cats, and this advantage has been attributed to the posterior auditory field. Successful visual localization requires both visual...