Dieter Jaeger
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Explore the profile of Dieter Jaeger including associated specialties, affiliations and a list of published articles.
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55
Citations
1416
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Recent Articles
1.
Meyer-Baese L, Jaeger D, Keilholz S
J Neurophysiol
. 2025 Jan;
133(2):644-660.
PMID: 39819035
The brain is a complex neural network whose functional dynamics offer valuable insights into behavioral performance and health. Advances in fMRI have provided a unique window into studying human brain...
2.
Heffernan K, Martinez I, Jaeger D, Khakh B, Smith Y, Galvan A
J Comp Neurol
. 2024 Sep;
532(8):e25665.
PMID: 39235147
Astrocytes intricately weave within the neuropil, giving rise to characteristic bushy morphologies. Pioneering studies suggested that primate astrocytes are more complex due to increased branch numbers and territory size compared...
3.
Cortical Networks Relating to Arousal Are Differentially Coupled to Neural Activity and Hemodynamics
Meyer-Baese L, Morrissette A, Wang Y, Le Chatelier B, Borden P, Keilholz S, et al.
J Neurosci
. 2024 May;
44(25).
PMID: 38769007
Even in the absence of specific sensory input or a behavioral task, the brain produces structured patterns of activity. This organized activity is modulated by changes in arousal. Here, we...
4.
Cavarretta F, Jaeger D
eNeuro
. 2023 Nov;
10(12).
PMID: 37989589
The ventromedial motor thalamus (VM) is implicated in multiple motor functions and occupies a central position in the cortico-basal ganglia-thalamocortical loop. It integrates glutamatergic inputs from motor cortex (MC) and...
5.
Ledderose J, Zolnik T, Toumazou M, Trimbuch T, Rosenmund C, Eickholt B, et al.
Cereb Cortex
. 2023 Oct;
33(23):11354-11372.
PMID: 37851709
Neocortical layer 1 has been proposed to be at the center for top-down and bottom-up integration. It is a locus for interactions between long-range inputs, layer 1 interneurons, and apical...
6.
Lu X, Wang Y, Liu Z, Gou Y, Jaeger D, St-Pierre F
Nat Commun
. 2023 Oct;
14(1):6423.
PMID: 37828037
Widefield imaging with genetically encoded voltage indicators (GEVIs) is a promising approach for understanding the role of large cortical networks in the neural coding of behavior. However, the limited performance...
7.
Prichard A, Garza K, Shridhar A, He C, Bitarafan S, Pybus A, et al.
Sci Adv
. 2023 Aug;
9(32):eadf5672.
PMID: 37556553
Microglia transform in response to changes in sensory or neural activity, such as sensory deprivation. However, little is known about how specific frequencies of neural activity, or brain rhythms, affect...
8.
Borden P, Wright N, Morrissette A, Jaeger D, Haider B, Stanley G
Neuron
. 2022 Jul;
110(17):2836-2853.e8.
PMID: 35803270
The thalamus controls transmission of sensory signals from periphery to cortex, ultimately shaping perception. Despite this significant role, dynamic thalamic gating and the consequences for downstream cortical sensory representations have...
9.
Takahashi N, Moberg S, Zolnik T, Catanese J, Sachdev R, Larkum M, et al.
Curr Biol
. 2021 Jul;
31(18):4148-4155.e4.
PMID: 34302741
Prompt execution of planned motor action is essential for survival. The interactions between frontal cortical circuits and the basal ganglia are central to goal-oriented action selection and initiation. In rodents,...
10.
Bichler E, Cavarretta F, Jaeger D
eNeuro
. 2021 Jan;
8(1).
PMID: 33509950
The activity of basal ganglia input receiving motor thalamus (BGMT) makes a critical impact on motor cortical processing, but modification in BGMT processing with Parkinsonian conditions has not be investigated...