Your search keyword '"Schumacher, Julia"' showing total 8 results

1. Structural and molecular cholinergic imaging markers of cognitive decline in Parkinson's disease.

Author

Schumacher, Julia, Kanel, Prabesh, Dyrba, Martin, Storch, Alexander, Bohnen, Nicolaas I, Teipel, Stefan, and Grothe, Michel J

Subjects

*PARKINSON'S disease, *COGNITION disorders, *MAGNETIC resonance imaging, *CHOLINERGIC mechanisms, *BASAL ganglia

Abstract

Cognitive decline in Parkinson's disease is related to cholinergic system degeneration, which can be assessed in vivo using structural MRI markers of basal forebrain volume and PET measures of cortical cholinergic activity. In the present study we aimed to examine the interrelation between basal forebrain degeneration and PET-measured depletion of cortical acetylcholinesterase activity as well as their relative contribution to cognitive impairment in Parkinson's disease. This cross-sectional study included 143 Parkinson's disease participants without dementia and 52 healthy control participants who underwent structural MRI, PET scanning with 11C-methyl-4-piperidinyl propionate (PMP) as a measure of cortical acetylcholinesterase activity, and a detailed cognitive assessment. Based on the fifth percentile of the overall cortical PMP PET signal from the control group, people with Parkinson's disease were subdivided into a normo-cholinergic (n = 94) and a hypo-cholinergic group (n = 49). Volumes of functionally defined posterior and anterior basal forebrain subregions were extracted using an established automated MRI volumetry approach based on a stereotactic atlas of cholinergic basal forebrain nuclei. We used Bayesian t -tests to compare basal forebrain volumes between controls, and normo- and hypo-cholinergic Parkinson's participants after covarying out age, sex and years of education. Associations between the two cholinergic imaging measures were assessed across all people with Parkinson's disease using Bayesian correlations and their respective relations with performance in different cognitive domains were assessed with Bayesian ANCOVAs. As a specificity analysis, hippocampal volume was added to the analysis. We found evidence for a reduction of posterior basal forebrain volume in the hypo-cholinergic compared to both normo-cholinergic Parkinson's disease [Bayes factor against the null model (BF10) = 8.2] and control participants (BF10 = 6.0), while for the anterior basal forebrain the evidence was inconclusive (BF10 < 3). In continuous association analyses, posterior basal forebrain volume was significantly associated with cortical PMP PET signal in a temporo-posterior distribution. The combined models for the prediction of cognitive scores showed that both cholinergic markers (posterior basal forebrain volume and cortical PMP PET signal) were independently related to multi-domain cognitive deficits, and were more important predictors for all cognitive scores, including memory scores, than hippocampal volume. We conclude that degeneration of the posterior basal forebrain in Parkinson's disease is accompanied by functional cortical changes in acetylcholinesterase activity and that both PET and MRI cholinergic imaging markers are independently associated with multi-domain cognitive deficits in Parkinson's disease without dementia. Comparatively, hippocampal atrophy only seems to have minimal involvement in the development of early cognitive impairment in Parkinson's disease. [ABSTRACT FROM AUTHOR]

Published

2023

2. Hello darkness, my old friend: 3-KETOACYL-COENZYME A SYNTHASE4 is a branch point in the regulation of triacylglycerol synthesis in Arabidopsis thaliana.

Author

Luzarowska, Urszula, Ruß, Anne-Kathrin, Joubès, Jérôme, Batsale, Marguerite, Szymański, Jędrzej, Thirumalaikumar, Venkatesh P., Luzarowski, Marcin, Wu, Si, Zhu, Feng, Endres, Niklas, Khedhayir, Sarah, Schumacher, Julia, Jasinska, Weronika, Xu, Ke, Cordoba, Sandra Marcela Correa, Weil, Simy, Skirycz, Aleksandra, Fernie, Alisdair Robert, Li-Beisson, Yonghua, and Fusari, Corina M

Published

2023

3. Cholinergic white matter pathways in dementia with Lewy bodies and Alzheimer's disease.

Author

Schumacher, Julia, Ray, Nicola J, Hamilton, Calum A, Donaghy, Paul C, Firbank, Michael, Roberts, Gemma, Allan, Louise, Durcan, Rory, Barnett, Nicola, O'Brien, John T, Taylor, John-Paul, and Thomas, Alan J

Subjects

*BRAIN, *RESEARCH, *ALZHEIMER'S disease, *LEWY body dementia, *PARASYMPATHOMIMETIC agents, *BASAL ganglia, *RESEARCH methodology, *EVALUATION research, *COMPARATIVE studies, *RESEARCH funding, *NEURODEGENERATION

Abstract

Patients who have dementia with Lewy bodies and Alzheimer's disease show early degeneration of the cholinergic nucleus basalis of Meynert. However, how white matter projections between the nucleus basalis of Meynert and the cortex are altered in neurodegenerative disease is unknown. Tractography of white matter pathways originating from the nucleus basalis of Meynert was performed using diffusion-weighted imaging in 46 patients with Alzheimer's disease dementia, 48 with dementia with Lewy bodies, 35 with mild cognitive impairment with Alzheimer's disease, 38 with mild cognitive impairment with Lewy bodies and 71 control participants. Mean diffusivity of the resulting pathways was compared between groups and related to cognition, attention, functional EEG changes and dementia conversion in the mild cognitive impairment groups. We successfully tracked a medial and a lateral pathway from the nucleus basalis of Meynert. Mean diffusivity of the lateral pathway was higher in both dementia and mild cognitive impairment groups than controls (all P < 0.03). In the patient groups, increased mean diffusivity of this pathway was related to more impaired global cognition (β = -0.22, P = 0.06) and worse performance on an attention task (β = 0.30, P = 0.03). In patients with mild cognitive impairment, loss of integrity of both nucleus basalis of Meynert pathways was associated with increased risk of dementia progression [hazard ratio (95% confidence interval), medial pathway: 2.51 (1.24-5.09); lateral pathway: 2.54 (1.24-5.19)]. Nucleus basalis of Meynert volume was reduced in all clinical groups compared to controls (all P < 0.001), but contributed less strongly to cognitive impairment and was not associated with attention or dementia conversion. EEG slowing in the patient groups as assessed by a decrease in dominant frequency was associated with smaller nucleus basalis of Meynert volumes (β = 0.22, P = 0.02) and increased mean diffusivity of the lateral pathway (β = -0.47, P = 0.003). We show that degeneration of the cholinergic nucleus basalis of Meynert in Alzheimer's disease and dementia with Lewy bodies is accompanied by an early reduction in integrity of white matter projections that originate from this structure. This is more strongly associated with cognition and attention than the volume of the nucleus basalis of Meynert itself and might be an early indicator of increased risk of dementia conversion in people with mild cognitive impairment. [ABSTRACT FROM AUTHOR]

Published

2022

4. Dementia with Lewy bodies: association of Alzheimer pathology with functional connectivity networks.

Author

Schumacher, Julia, Gunter, Jeffrey L, Przybelski, Scott A, Jones, David T, Graff-Radford, Jonathan, Savica, Rodolfo, Schwarz, Christopher G, Senjem, Matthew L, Jack, Clifford R, Lowe, Val J, Knopman, David S, Fields, Julie A, Kremers, Walter K, Petersen, Ronald C, Graff-Radford, Neill R, Ferman, Tanis J, Boeve, Bradley F, Thomas, Alan J, Taylor, John-Paul, and Kantarci, Kejal

Subjects

*LEWY body dementia, *FUNCTIONAL connectivity, *DEFAULT mode network, *ALZHEIMER'S patients, *CEREBRAL amyloid angiopathy, *BRAIN diseases, *TEMPORAL lobe, *EVALUATION research, *ALZHEIMER'S disease, *RESEARCH funding, *BRAIN, *MAGNETIC resonance imaging, *NERVOUS system, *PYRIDINE, *RESEARCH, *RESEARCH methodology, *EMISSION-computed tomography, *COMPARATIVE studies, BRAIN metabolism

Abstract

Dementia with Lewy bodies (DLB) is neuropathologically defined by the presence of α-synuclein aggregates, but many DLB cases show concurrent Alzheimer's disease pathology in the form of amyloid-β plaques and tau neurofibrillary tangles. The first objective of this study was to investigate the effect of Alzheimer's disease co-pathology on functional network changes within the default mode network (DMN) in DLB. Second, we studied how the distribution of tau pathology measured with PET relates to functional connectivity in DLB. Twenty-seven DLB, 26 Alzheimer's disease and 99 cognitively unimpaired participants (balanced on age and sex to the DLB group) underwent tau-PET with AV-1451 (flortaucipir), amyloid-β-PET with Pittsburgh compound-B (PiB) and resting-state functional MRI scans. The resing-state functional MRI data were used to assess functional connectivity within the posterior DMN. This was then correlated with overall cortical flortaucipir PET and PiB PET standardized uptake value ratio (SUVr). The strength of interregional functional connectivity was assessed using the Schaefer atlas. Tau-PET covariance was measured as the correlation in flortaucipir SUVr between any two regions across participants. The association between region-to-region functional connectivity and tau-PET covariance was assessed using linear regression. Additionally, we identified the region with highest and the region with lowest tau SUVrs (tau hot- and cold spots) and tested whether tau SUVr in all other brain regions was associated with the strength of functional connectivity to these tau hot and cold spots. A reduction in posterior DMN connectivity correlated with overall higher cortical tau- (r = -0.39, P = 0.04) and amyloid-PET uptake (r = -0.41, P = 0.03) in the DLB group, i.e. patients with DLB who have more concurrent Alzheimer's disease pathology showed a more severe loss of DMN connectivity. Higher functional connectivity between regions was associated with higher tau covariance in cognitively unimpaired, Alzheimer's disease and DLB. Furthermore, higher functional connectivity of a target region to the tau hotspot (i.e. inferior/medial temporal cortex) was related to higher flortaucipir SUVrs in the target region, whereas higher functional connectivity to the tau cold spot (i.e. sensory-motor cortex) was related to lower flortaucipir SUVr in the target region. Our findings suggest that a higher burden of Alzheimer's disease co-pathology in patients with DLB is associated with more Alzheimer's disease-like changes in functional connectivity. Furthermore, we found an association between the brain's functional network architecture and the distribution of tau pathology that has recently been described in Alzheimer's disease. We show that this relationship also exists in patients with DLB, indicating that similar mechanisms of connectivity-dependent occurrence of tau pathology might be at work in both diseases. [ABSTRACT FROM AUTHOR]

Published

2021

5. Impaired sensory evidence accumulation and network function in Lewy body dementia.

Author

O'Callaghan, Claire, Firbank, Michael, Tomassini, Alessandro, Schumacher, Julia, O'Brien, John T., and Taylor, John-Paul

Published

2021

6. Fluctuating cognition in the Lewy body dementias.

Author

O'Dowd, Seán, Schumacher, Julia, Burn, David J, Bonanni, Laura, Onofrj, Marco, Thomas, Alan, and Taylor, John-Paul

Subjects

*LEWY body dementia, *SLEEP disorders, *COGNITION disorders, *PARKINSON'S disease, *COGNITION

Abstract

Fluctuating cognition is a core diagnostic feature of dementia with Lewy bodies and is also a key clinical feature of Parkinson's disease dementia. These dementias share common pathological features and are referred to as Lewy body dementias. Whilst highly prevalent in Lewy body dementia, with up to 90% of patients experiencing the symptom at some point in the disease trajectory, clinical identification of fluctuating cognition is often challenging. Furthermore, its underlying pathophysiological processes remain unclear. However, neuroimaging and neurophysiological techniques have recently provided insight into potential drivers of the phenomenon. In this update, we review data pertaining to clinical features and underlying mechanisms of fluctuating cognition in Lewy body dementia. We collate evidence for different proposed aetiologies: fluctuating cognition as an attentional disorder, as a consequence of loss of cholinergic drive, as a manifestation of failure in neuronal efficiency and synchrony, and as a disorder of sleep/arousal. We also review data relating to putative mechanisms that have received less attention to date. Increased understanding of fluctuating cognition may help to illuminate pathophysiological mechanisms in cognitive processing in Lewy body dementia, guide future research, and facilitate the design of targeted therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2019

7. Dysfunctional brain dynamics and their origin in Lewy body dementia.

Author

Schumacher, Julia, Peraza, Luis R, Firbank, Michael, Thomas, Alan J, Kaiser, Marcus, Gallagher, Peter, O'Brien, John T, Blamire, Andrew M, and Taylor, John-Paul

Subjects

*LEWY body dementia, *ALZHEIMER'S disease, *ALZHEIMER'S patients, *BRAIN, *PARKINSON'S disease, *NEUROBEHAVIORAL disorders

Abstract

Lewy body dementia includes dementia with Lewy bodies and Parkinson's disease dementia and is characterized by transient clinical symptoms such as fluctuating cognition, which might be driven by dysfunction of the intrinsic dynamic properties of the brain. In this context we investigated whole-brain dynamics on a subsecond timescale in 42 Lewy body dementia compared to 27 Alzheimer's disease patients and 18 healthy controls using an EEG microstate analysis in a cross-sectional design. Microstates are transiently stable brain topographies whose temporal characteristics provide insight into the brain's dynamic repertoire. Our additional aim was to explore what processes in the brain drive microstate dynamics. We therefore studied associations between microstate dynamics and temporal aspects of large-scale cortical-basal ganglia-thalamic interactions using dynamic functional MRI measures given the putative role of these subcortical areas in modulating widespread cortical function and their known vulnerability to Lewy body pathology. Microstate duration was increased in Lewy body dementia for all microstate classes compared to Alzheimer's disease (P < 0.001) and healthy controls (P < 0.001), while microstate dynamics in Alzheimer's disease were largely comparable to healthy control levels, albeit with altered microstate topographies. Correspondingly, the number of distinct microstates per second was reduced in Lewy body dementia compared to healthy controls (P < 0.001) and Alzheimer's disease (P < 0.001). In the dementia with Lewy bodies group, mean microstate duration was related to the severity of cognitive fluctuations (ρ = 0.56, PFDR = 0.038). Additionally, mean microstate duration was negatively correlated with dynamic functional connectivity between the basal ganglia (r = - 0.53, P = 0.003) and thalamic networks (r = - 0.38, P = 0.04) and large-scale cortical networks such as visual and motor networks in Lewy body dementia. The results indicate a slowing of microstate dynamics and disturbances to the precise timing of microstate sequences in Lewy body dementia, which might lead to a breakdown of the intricate dynamic properties of the brain, thereby causing loss of flexibility and adaptability that is crucial for healthy brain functioning. When contrasted with the largely intact microstate dynamics in Alzheimer's disease, the alterations in dynamic properties in Lewy body dementia indicate a brain state that is less responsive to environmental demands and might give rise to the apparent slowing in thinking and intermittent confusion which typify Lewy body dementia. By using Lewy body dementia as a probe pathology we demonstrate a potential link between dynamic functional MRI fluctuations and microstate dynamics, suggesting that dynamic interactions within the cortical-basal ganglia-thalamic loop might play a role in the modulation of EEG dynamics. [ABSTRACT FROM AUTHOR]

Published

2019

8. Dynamic functional connectivity changes in Lewy body disease.

Author

Schumacher, Julia, Thomas, Alan J, and Taylor, John-Paul

Subjects

*LEWY body dementia, *PARKINSON'S disease, *MILD cognitive impairment, *COGNITION disorders

Published

2019