John P Aggleton
Overview
Explore the profile of John P Aggleton including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
152
Citations
5770
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
11.
Coad B, Ghomroudi P, Sims R, Aggleton J, Vann S, Metzler-Baddeley C
Neurobiol Aging
. 2022 Mar;
113:39-54.
PMID: 35303671
Characterizing age- and risk-related hippocampal vulnerabilities may inform about the neural underpinnings of cognitive decline. We studied the impact of three risk-factors, Apolipoprotein (APOE)-ε4, a family history of dementia, and...
12.
Lomi E, Mathiasen M, Cheng H, Zhang N, Aggleton J, Mitchell A, et al.
Neurobiol Learn Mem
. 2021 Sep;
185:107525.
PMID: 34555510
Retrosplenial cortex (RSC) lies at the interface between sensory and cognitive networks in the brain and mediates between these, although it is not yet known how. It has two distinct...
13.
Aggleton J, Yanakieva S, Sengpiel F, Nelson A
Neurobiol Learn Mem
. 2021 Sep;
185:107516.
PMID: 34481970
Retrosplenial cortex contains two principal subdivisions, area 29 (granular) and area 30 (dysgranular). Their respective anatomical connections in the rat brain reveal that area 29 is the primary recipient of...
14.
Mathiasen M, Nelson A, Amin E, OMara S, Aggleton J
eNeuro
. 2021 Jul;
8(5).
PMID: 34301721
Both nucleus reuniens and the anterior thalamic nuclei are densely interconnected with medial cortical and hippocampal areas, connections that reflect their respective contributions to learning and memory. To better appreciate...
15.
Frost B, Martin S, Cafalchio M, Islam M, Aggleton J, OMara S
J Neurosci
. 2021 Jun;
41(30):6511-6525.
PMID: 34131030
Just as hippocampal lesions are principally responsible for "temporal lobe" amnesia, lesions affecting the anterior thalamic nuclei seem principally responsible for a similar loss of memory, "diencephalic" amnesia. Compared with...
16.
Bubb E, Aggleton J, OMara S, Nelson A
Cereb Cortex
. 2020 Nov;
31(4):2169-2186.
PMID: 33251536
In a changing environment, organisms need to decide when to select items that resemble previously rewarded stimuli and when it is best to switch to other stimulus types. Here, we...
17.
Mole J, Fasano F, Evans J, Sims R, Kidd E, Aggleton J, et al.
Sci Rep
. 2020 Nov;
10(1):19787.
PMID: 33188215
APOE-ε4 is a main genetic risk factor for developing late onset Alzheimer's disease (LOAD) and is thought to interact adversely with other risk factors on the brain. However, evidence regarding...
18.
Mathiasen M, OMara S, Aggleton J
Neurosci Biobehav Rev
. 2020 Oct;
119:268-280.
PMID: 33069688
Two thalamic sites are of especial significance for understanding hippocampal - diencephalic interactions: the anterior thalamic nuclei and nucleus reuniens. Both nuclei have dense, direct interconnections with the hippocampal formation,...
19.
Bubb E, Nelson A, Cozens T, Aggleton J
Brain Neurosci Adv
. 2020 Sep;
4:2398212820957160.
PMID: 32964131
Despite considerable interest in the properties of the cingulum bundle, descriptions of the composition of this major pathway in the rodent brain have not kept pace with advances in tract...
20.
Aggleton J, Nelson A
Brain Neurosci Adv
. 2020 Sep;
4:2398212820933471.
PMID: 32954003
Rodents will spontaneously learn the location of an individual object, an ability captured by the object-in-place test. This review considers the network of structures supporting this behavioural test, as well...