What’s That (Blue) Spot on my MRI? Multimodal Neuroimaging of the Locus Coeruleus in Neurodegenerative Disease

Kelberman, Michael A.; Keilholz, Shella

doi:10.3389/fnins.2020.583421

Cited by 38 publications

(35 citation statements)

References 220 publications

(267 reference statements)

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“…Our finding that structural disintegration of the LC is mostly present in the caudal part is in apparent contrast to post-mortem studies, which reported a uniform neuronal loss over the entire LC with PD and a preferential degeneration of rostral LC in Alzheimer's disease (44,45,(50)(51)(52). A post-mortem study in seven patients with PD and three healthy control cases found similar relative cell loss in rostral, middle and caudal LC sections ( 45), yet the greatest absolute cell loss was noted in the middle section.…”

Section: Spatial Gradient Of Signal Loss In the Locus Coeruleuscontrasting

confidence: 99%

The locus coeruleus shows a spatial pattern of structural disintegration in Parkinson’s disease

Madelung

Meder

Fuglsang

et al. 2021

Preprint

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Background Parkinson's disease (PD) leads to a loss of neuromelanin positive, noradrenergic neurons in the locus coeruleus (LC) which has been implicated in non-motor dysfunction. "Neuromelanin sensitive" magnetic resonance imaging (MRI) has emerged as a promising tool for mapping the structural integrity of LC in vivo. Objectives To identify spatial patterns of structural LC disintegration in PD and regions in the LC where structural disintegration is associated with specific non-motor dysfunctions. Methods 42 patients with PD and 24 age-matched healthy volunteers underwent ultra-high field MRI of the LC using a "neuromelanin sensitive" magnetization transfer weighted (MTw) sequence. The contrast-to-noise ratio of the MTw signal (CNRMTw) served as an estimate of structural integrity, slice- and voxel-wise analyses of CNRMTw were performed to map the spatial pattern of structural disintegration, complemented by Principal Component Analysis (PCA). We also tested for correlations between CNRMTw and the severity of non-motor symptoms. Results Mean CNRMTw of LC was reduced in patients relative to controls. The attenuation of CNRMTw was not uniformly expressed in LC, but confined to the middle and caudal LC. CNRMTw attenuation in caudal LC scaled with the orthostatic drop in systolic blood pressure and apathy ratings. PCA identified a bilaterally expressed component that was more weakly expressed in patients. This component was characterized by a gradual change in CNRMTw along the rostro-caudal and dorso-ventral axes of the nucleus. The individual expression score of this component reflected the overall severity of non-motor symptoms. Conclusion PD related structural disintegration of LC mainly affects its caudal part and may determine the individual expression of specific non-motor symptoms such as orthostatic dysregulation or apathy.

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Section: Spatial Gradient Of Signal Loss In the Locus Coeruleuscontrasting

confidence: 99%

The locus coeruleus shows a spatial pattern of structural disintegration in Parkinson’s disease

Madelung

Meder

Fuglsang

et al. 2021

Preprint

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“…This supports a previously theorized buffering role of the LC, due to its high lifetime noradrenergic turnover and neuronal density, in protecting against the detrimental effects of accumulating AD-related pathology (Clewett et al 2015;Robertson 2013). Although the exact role of brainstem degeneration in cognitive dysfunction is not wellunderstood, degeneration of the LC appears to be related to cognitive function in normal aging (Dahl et al 2019;Langley et al 2020) and correlates with cognitive abilities and pathological protein accumulation in animal models of AD (Chalermpalanupap et al 2017;James et al 2020;Kelberman et al 2020). Of note, we found attenuated brainbehavior relationships in the biomarker-confirmed MCI due to AD group compared to the overall MCI group, likely due to the smaller sample size.…”

Section: Discussionsupporting

confidence: 82%

Brainstem substructures and cognition in prodromal Alzheimer’s disease

Dutt

Mather

et al. 2021

Brain Imaging and Behavior

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Neuropathological research suggests the tau pathology of Alzheimer’s disease may originate in brainstem nuclei, yet it remains unknown whether tau-mediated degeneration of brainstem nuclei influences cognitive impairment in prodromal Alzheimer’s disease. The present study examined cognitive domains impacted in prodromal Alzheimer’s disease and brainstem substructure volume in cognitively normal older adults (n = 814) and those with mild cognitive impairment (n = 542). Subsamples of cognitively normal (n = 112) and mild cognitive impairment (n = 202) also had cerebrospinal fluid Alzheimer’s disease biomarker characterization. Region-of-interest and voxel-level analyses related whole brainstem, midbrain, pons, and locus coeruleus volumes to cognition with multiple linear regression models corrected for age, sex, education, apolipoprotein-ε4 carrier status, and MRI magnet strength. Within mild cognitive impairment participants, smaller midbrain and locus coeruleus volumes were significantly related to poorer performance on tests of attention and executive function, and the relationship between locus coeruleus volume and executive abilities remained significant in the mild cognitive impairment subsample with biomarker-confirmed Alzheimer’s disease. A brainstem-masked voxel-wise regression further demonstrated an association between locus coeruleus volume and executive abilities. Brainstem volumes were not significantly related to memory processes. Study findings implicate midbrain and locus coeruleus volume in attention and executive deficits in mild cognitive impairment. Together with prior neuropathological studies, our data suggest a link between Alzheimer’s disease-related degeneration of brainstem nuclei and cognitive deficits in prodromal Alzheimer’s disease.

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“…74 Based on such mechanistic insights, it will be interesting to probe whether the enhanced appearance of cyclic alternating patterns in cases of sleep-related breathing disorders, such as sleep apnea, can be controlled with noradrenergic antagonists. 54 Furthermore, there is strong evidence that LC and sleep disruptions could be linked in post-traumatic stress disorders; 18 in neurodegenerative diseases, such as Alzheimer's and Parkinson's disease; 75 and in insomnia. 5 We are now able to concretize questions into possible noradrenergic origins of a large variety of primary and secondary sleep disorders, in which hyperarousals, autonomic arousals, and movement-related arousals prominently feature.…”

Section: The Cellular and Ionic Mechanisms Underlying Noradrenergic Control Of Sleep-spindle Clusteringmentioning

confidence: 99%

Noradrenergic circuit control of non-REM sleep substates

et al. 2021

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What’s That (Blue) Spot on my MRI? Multimodal Neuroimaging of the Locus Coeruleus in Neurodegenerative Disease

Cited by 38 publications

References 220 publications

The locus coeruleus shows a spatial pattern of structural disintegration in Parkinson’s disease

The locus coeruleus shows a spatial pattern of structural disintegration in Parkinson’s disease

Brainstem substructures and cognition in prodromal Alzheimer’s disease

Noradrenergic circuit control of non-REM sleep substates

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