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6. Approaches to Early Parkinson's Disease Subtyping.

Author

Hu, Michele, Skjærbæk, Casper, and Borghammer, Per

Subjects
*PARKINSON'S disease, *SLEEP interruptions, *DRUG discovery, *PERIPHERAL nervous system, *SYMPTOMS
Abstract

Parkinson's disease (PD) unfolds with pathological processes and neurodegeneration well before the emergence of noticeable motor symptoms, providing a window for early identification. The extended prodromal phase allows the use of risk stratification measures and prodromal markers to pinpoint individuals likely to develop PD. Importantly, a growing body of evidence emphasizes the heterogeneity within prodromal and clinically diagnosed PD. The disease likely comprises distinct subtypes exhibiting diverse clinical manifestations, pathophysiological mechanisms, and patterns of α-synuclein progression in the central and peripheral nervous systems. There is a pressing need to refine the definition and early identification of these prodromal subtypes. This requires a comprehensive strategy that integrates genetic, pathological, imaging, and multi-omics markers, alongside careful observation of subtle motor and non-motor symptoms. Such multi-dimensional classification of early PD subtypes will improve our understanding of underlying disease pathophysiology, improve predictions of clinical endpoints, progression trajectory and medication response, contribute to drug discovery and personalized medicine by identifying subtype-specific disease mechanisms, and facilitate drug trials by reducing confounding effects of heterogeneity. Here we explore different subtyping methodologies in prodromal and clinical PD, focusing on clinical, imaging, genetic and molecular subtyping approaches. We also emphasize the need for refined, theoretical a priori disease models. These will be prerequisite to understanding the biological underpinnings of biological subtypes, which have been defined by large scale data-driven approaches and multi-omics fingerprints. Plain Language Summary: Parkinson's disease is an incurable neurodegenerative disorder characterized by a 20-year prodromal phase before an individual is formally diagnosed. During this prodromal or early disease phase, non-motor symptoms gradually accumulate including a reduced ability to smell, sleep disturbance, constipation, depression, anxiety, and memory problems. Subtle motor symptoms including slowness of movement, stiffness, and tremor may be present, but not to the extent required for a clinical diagnosis. Each individual with prodromal Parkinson's disease is affected with a unique combination of these symptoms which progress at different rates. Subtyping attempts to understand this variability by defining groups of patients with sets of key features at a clinical, genetic, imaging, or molecular level. This article reviews subtyping approaches and how they might improve our understanding of how Parkinson's disease evolves. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Impaired cholinergic integrity of the colon and pancreas in dementia with Lewy bodies

Author

Instituto de Salud Carlos III, European Commission, Aase og Ejnar Danielsens Fond, Michael J. Fox Foundation for Parkinson's Research, Lundbeck Foundation, Grothe, Michel J. [0000-0003-2600-9022], Okkels, Niels, Horsager, Jacob, Fedorova, Tatyana D., Knudsen, Karoline, Skjærbæk, Casper, Andersen, Katrine B., Labrador-Espinosa, Miguel, Vestergård, Karsten, Mortensen, Janne, Klit, Henriette, Møller, Mette, Danielsen, Erik H., Johnsen, Erik L., Bekan, Goran, Hansen, Kim V., Munk, Ole L., Damholdt, Malene F., Kjeldsen, Pernille L., Hansen, Allan K., Gottrup, Hanne, Grothe, Michel J., Borghammer, Per, Instituto de Salud Carlos III, European Commission, Aase og Ejnar Danielsens Fond, Michael J. Fox Foundation for Parkinson's Research, Lundbeck Foundation, Grothe, Michel J. [0000-0003-2600-9022], Okkels, Niels, Horsager, Jacob, Fedorova, Tatyana D., Knudsen, Karoline, Skjærbæk, Casper, Andersen, Katrine B., Labrador-Espinosa, Miguel, Vestergård, Karsten, Mortensen, Janne, Klit, Henriette, Møller, Mette, Danielsen, Erik H., Johnsen, Erik L., Bekan, Goran, Hansen, Kim V., Munk, Ole L., Damholdt, Malene F., Kjeldsen, Pernille L., Hansen, Allan K., Gottrup, Hanne, Grothe, Michel J., and Borghammer, Per

Abstract

Dementia with Lewy bodies is characterized by a high burden of autonomic dysfunction and Lewy pathology in peripheral organs and components of the sympathetic and parasympathetic nervous system. Parasympathetic terminals may be quantified with 18F-fluoroetoxybenzovesamicol, a PET tracer that binds to the vesicular acetylcholine transporter in cholinergic presynaptic terminals. Parasympathetic imaging may be useful for diagnostics, improving our understanding of autonomic dysfunction and for clarifying the spatiotemporal relationship of neuronal degeneration in prodromal disease. Therefore, we aimed to investigate the cholinergic parasympathetic integrity in peripheral organs and central autonomic regions of subjects with dementia with Lewy bodies and its association with subjective and objective measures of autonomic dysfunction. We hypothesized that organs with known parasympathetic innervation, especially the pancreas and colon, would have impaired cholinergic integrity. To achieve these aims, we conducted a cross-sectional comparison study including 23 newly diagnosed non-diabetic subjects with dementia with Lewy bodies (74 ± 6 years, 83% male) and 21 elderly control subjects (74 ± 6 years, 67% male). We obtained whole-body images to quantify PET uptake in peripheral organs and brain images to quantify PET uptake in regions of the brainstem and hypothalamus. Autonomic dysfunction was assessed with questionnaires and measurements of orthostatic blood pressure. Subjects with dementia with Lewy bodies displayed reduced cholinergic tracer uptake in the pancreas (32% reduction, P = 0.0003) and colon (19% reduction, P = 0.0048), but not in organs with little or no parasympathetic innervation. Tracer uptake in a region of the medulla oblongata overlapping the dorsal motor nucleus of the vagus correlated with autonomic symptoms (rs = −0.54, P = 0.0077) and changes in orthostatic blood pressure (rs = 0.76, P < 0.0001). Tracer uptake in the pedunculopontine region correlat

Published
2024

10. Impaired cholinergic integrity of the colon and pancreas in dementia with Lewy bodies.

Author

Okkels, Niels, Horsager, Jacob, Fedorova, Tatyana D, Knudsen, Karoline, Skjærbæk, Casper, Andersen, Katrine B, Labrador-Espinosa, Miguel, Vestergaard, Karsten, Mortensen, Janne K, Klit, Henriette, Møller, Mette, Danielsen, Erik H, Johnsen, Erik L, Bekan, Goran, Hansen, Kim V, Munk, Ole L, Damholdt, Malene F, Kjeldsen, Pernille L, Hansen, Allan K, and Gottrup, Hanne

Subjects
LEWY body dementia, PARASYMPATHETIC nervous system, ORTHOSTATIC intolerance, PANCREAS, COLON (Anatomy), DYSAUTONOMIA, SYMPATHETIC nervous system
Abstract

Dementia with Lewy bodies is characterized by a high burden of autonomic dysfunction and Lewy pathology in peripheral organs and components of the sympathetic and parasympathetic nervous system. Parasympathetic terminals may be quantified with 18F-fluoroetoxybenzovesamicol, a PET tracer that binds to the vesicular acetylcholine transporter in cholinergic presynaptic terminals. Parasympathetic imaging may be useful for diagnostics, improving our understanding of autonomic dysfunction and for clarifying the spatiotemporal relationship of neuronal degeneration in prodromal disease. Therefore, we aimed to investigate the cholinergic parasympathetic integrity in peripheral organs and central autonomic regions of subjects with dementia with Lewy bodies and its association with subjective and objective measures of autonomic dysfunction. We hypothesized that organs with known parasympathetic innervation, especially the pancreas and colon, would have impaired cholinergic integrity. To achieve these aims, we conducted a cross-sectional comparison study including 23 newly diagnosed non-diabetic subjects with dementia with Lewy bodies (74 ± 6 years, 83% male) and 21 elderly control subjects (74 ± 6 years, 67% male). We obtained whole-body images to quantify PET uptake in peripheral organs and brain images to quantify PET uptake in regions of the brainstem and hypothalamus. Autonomic dysfunction was assessed with questionnaires and measurements of orthostatic blood pressure. Subjects with dementia with Lewy bodies displayed reduced cholinergic tracer uptake in the pancreas (32% reduction, P = 0.0003) and colon (19% reduction, P = 0.0048), but not in organs with little or no parasympathetic innervation. Tracer uptake in a region of the medulla oblongata overlapping the dorsal motor nucleus of the vagus correlated with autonomic symptoms (rs = −0.54, P = 0.0077) and changes in orthostatic blood pressure (rs = 0.76, P < 0.0001). Tracer uptake in the pedunculopontine region correlated with autonomic symptoms (rs = −0.52, P = 0.0104) and a measure of non-motor symptoms (rs = −0.47, P = 0.0230). In conclusion, our findings provide the first imaging-based evidence of impaired cholinergic integrity of the pancreas and colon in dementia with Lewy bodies. The observed changes may reflect parasympathetic denervation, implying that this process is initiated well before the point of diagnosis. The findings also support that cholinergic denervation in the brainstem contributes to dysautonomia. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Analysis of peripheral blood immune cells from people with Parkinson's disease

Author

Singh, Ankita, Ferreira, Sara A, Jeyaseelan, Tulieca, Knudsen, Karoline, Fedorova, Tatyana, Horsager, Jacob, Okkels, Niels, Skjaerbaek, Casper, Andersen, Katrine, Degn, Søren E, Lin, Lin, Borghammer, Per, and Romero-Ramos, Marina

Abstract

A-synuclein pathology is associated to Parkinson’s disease (PD) neurodegeneration, which affects central and peripheral nervous systems. Accordingly, degenerative signs are observed in the midbrain and putamen, but also in the autonomic system, such as gut and heart denervation. In parallel to the neuronal event and linked to PD progression, adaptive and innate immune changes occur in the brain and periphery. The progression of these pathological events might be related to disease subtypes and might be associated to disease onset and evolution of the prion-like spreading of a-synuclein aggregation. Based on this, the existance of two PD subtypes have been hypothesized: brain-first and body-first. Particularly in the body-first, which is proposed to start in the digestive tube, the vagus nerve is affected very early. This is of relevance since the vagus nerve’s immunomodulatory role will be compromised early in this PD subtype, which might promote inflammation. Thus, we hypothesized a differential immune response in PD subtypes also influenced by sex, that might be of relevance for the disease progression. Here we have performed single-cell transcriptome and Adaptive Immune Receptor Repertoire sequencing analyses of the peripheral blood mononuclear cells from healthy controls (n=10) and PD patients: prodromal (iRBD) (n=10), de novo PD (4 years from diagnose, n=10). Our preliminary bioinformatic data analysis shows a significant change in the adaptive cell compartment. &nbsp

Published
2023
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12. Severe cholinergic terminal loss in newly diagnosed dementia with Lewy bodies

Author

Okkels, Niels, Horsager, Jacob, Labrador-Espinosa, Miguel, Kjeldsen, Pernille L., Damholdt, Malene F., Mortensen, Janne, Vestergård, Karsten, Knudsen, Karoline, Andersen, Katrine B., Fedorova, Tatyana D., Skjærbæk, Casper, Gottrup, Hanne, Hansen, Allan K., Grothe, Michel J., and Borghammer, Per

Abstract

Cholinergic changes play a fundamental role in the natural history of Dementia with Lewy bodies and Lewy body disease in general. Despite important achievements in the field of cholinergic research, significant challenges remain. We conducted a study with four main objectives: First, to examine the integrity of cholinergic terminals in newly diagnosed Dementia with Lewy bodies. Second, to disentangle the cholinergic contribution to dementia by comparing cholinergic changes in Lewy body patients with and without dementia. Third, to investigate the in vivo relationship between cholinergic terminal loss and atrophy of cholinergic cell clusters in the basal forebrain at different stages of Lewy body disease. Fourth, to test whether any asymmetrical degeneration in cholinergic terminals would correlate with motor dysfunction and hypometabolism.To achieve these objectives, we conducted a comparative cross-sectional study of 25 newly diagnosed Dementia with Lewy bodies patients (age 74 ± 5 years, 84% male), 15 healthy control subjects (age 75 ± 6 years, 67% male), and 15 Parkinson’s disease patients without dementia (age 70 ± 7 years, 60% male). All participants underwent [18F]fluoroetoxybenzovesamicol PET and high-resolution structural MRI. In addition, we collected clinical [18F]fluorodeoxyglucose PET images. Brain images were normalized to standard space and regional tracer uptake and volumetric indices of basal forebrain degeneration were extracted.Patients with dementia showed spatially distinct reductions in cholinergic terminals across the cerebral cortex, limbic system, thalamus, and brainstem. Also, cholinergic terminal binding in cortical and limbic regions correlated quantitatively and spatially with atrophy of the basal forebrain. By contrast, patients without dementia showed decreased cholinergic terminal binding in the cerebral cortex despite preserved basal forebrain volumes. In patients with dementia, cholinergic terminal reductions were most severe in limbic regions and least severe in occipital regions compared to those without dementia. Interhemispheric asymmetry of cholinergic terminals correlated with asymmetry of brain metabolism and lateralized motor function.In conclusion, this study provides robust evidence for severe cholinergic terminal loss in newly diagnosed Dementia with Lewy bodies, which correlates with structural imaging measures of cholinergic basal forebrain degeneration. In patients without dementia, our findings suggest that loss of cholinergic terminal function occurs before neuronal cell degeneration. Moreover, the study supports that degeneration of the cholinergic system is important for brain metabolism and may be linked with degeneration in other transmitter systems. Our findings have implications for understanding how cholinergic system pathology contributes to the clinical features of Lewy body disease, changes in brain metabolism, and disease progression patterns.

Published
2023

14. Distribution of cholinergic nerve terminals in the aged human brain measured with [18F]FEOBV PET and its correlation with histological data

Author

Instituto de Salud Carlos III, European Commission, Lundbeck Foundation, Michael J. Fox Foundation for Parkinson's Research, Okkels, Niels, Horsager, Jacob, Labrador, Miguel Ángel, Hansen, Frederik O., Andersen, Katrine B., Just, Mie Kristine, Fedorova, Tatyana D., Skjærbæk, Casper, Munk, Ole L., Hansen, Kim V., Gottrup, Hanne, Hansen, Allan K., Grothe, Michel J., Borghammer, Per, Instituto de Salud Carlos III, European Commission, Lundbeck Foundation, Michael J. Fox Foundation for Parkinson's Research, Okkels, Niels, Horsager, Jacob, Labrador, Miguel Ángel, Hansen, Frederik O., Andersen, Katrine B., Just, Mie Kristine, Fedorova, Tatyana D., Skjærbæk, Casper, Munk, Ole L., Hansen, Kim V., Gottrup, Hanne, Hansen, Allan K., Grothe, Michel J., and Borghammer, Per

Abstract

[Introduction] [18F]fluoroetoxybenzovesamicol ([18F]FEOBV) is a positron emission topography (PET) tracer for the vesicular acetylcholine transporter (VAChT), a protein located predominantly in synaptic vesicles in cholinergic nerve terminals. We aimed to use [18F]FEOBV PET to study the cholinergic topography of the healthy human brain., [Materials and methods] [18F]FEOBV PET brain data volumes of healthy elderly humans were normalized to standard space and intensity-normalized to the white matter. Stereotactic atlases of regions of interest were superimposed to describe and quantify tracer distribution. The spatial distribution of [18F]FEOBV PET uptake was compared with histological and gene expression data., [Results] Twenty participants of both sexes and a mean age of 73.9 ± 6.0 years, age-range [64; 86], were recruited. Highest tracer binding was present in the striatum, some thalamic nuclei, and the basal forebrain. Intermediate binding was found in most nuclei of the brainstem, thalamus, and hypothalamus; the vermis and flocculonodular lobe; and the hippocampus, amygdala, insula, cingulate, olfactory cortex, and Heschl's gyrus. Lowest binding was present in most areas of the cerebral cortex, and in the cerebellar nuclei and hemispheres. The spatial distribution of tracer correlated with immunohistochemical post-mortem data, as well as with regional expression levels of SLC18A3, the VAChT coding gene., [Discussion] Our in vivo findings confirm the regional cholinergic distribution in specific brain structures as described post-mortem. A positive spatial correlation between tracer distribution and regional gene expression levels further corroborates [18F]FEOBV PET as a validated tool for in vivo cholinergic imaging. The study represents an advancement in the continued efforts to delineate the spatial topography of the human cholinergic system in vivo.

Published
2023

15. Severe cholinergic terminal loss in newly diagnosed dementia with Lewy bodies

Author

Aase and Ejnar Danielsen Foundation, Instituto de Salud Carlos III, European Commission, Lundbeck Foundation, Michael J. Fox Foundation for Parkinson's Research, Okkels, Niels, Horsager, Jacob, Labrador, Miguel Ángel, Kjeldsen, Pernille L., Damholdt, Malene F., Mortensen, Janne, Vestergård, Karsten, Knudsen, Karoline, Andersen, Katrine B., Fedorova, Tatyana D., Skjærbæk, Casper, Gottrup, Hanne, Hansen, Allan K., Grothe, Michel J., Borghammer, Per, Aase and Ejnar Danielsen Foundation, Instituto de Salud Carlos III, European Commission, Lundbeck Foundation, Michael J. Fox Foundation for Parkinson's Research, Okkels, Niels, Horsager, Jacob, Labrador, Miguel Ángel, Kjeldsen, Pernille L., Damholdt, Malene F., Mortensen, Janne, Vestergård, Karsten, Knudsen, Karoline, Andersen, Katrine B., Fedorova, Tatyana D., Skjærbæk, Casper, Gottrup, Hanne, Hansen, Allan K., Grothe, Michel J., and Borghammer, Per

Abstract

Cholinergic changes play a fundamental role in the natural history of dementia with Lewy bodies and Lewy body disease in general. Despite important achievements in the field of cholinergic research, significant challenges remain. We conducted a study with four main objectives: (i) to examine the integrity of cholinergic terminals in newly diagnosed dementia with Lewy bodies; (ii) to disentangle the cholinergic contribution to dementia by comparing cholinergic changes in Lewy body patients with and without dementia; (iii) to investigate the in vivo relationship between cholinergic terminal loss and atrophy of cholinergic cell clusters in the basal forebrain at different stages of Lewy body disease; and (iv) to test whether any asymmetrical degeneration in cholinergic terminals would correlate with motor dysfunction and hypometabolism. To achieve these objectives, we conducted a comparative cross-sectional study of 25 newly diagnosed dementia with Lewy bodies patients (age 74 ± 5 years, 84% male), 15 healthy control subjects (age 75 ± 6 years, 67% male) and 15 Parkinson's disease patients without dementia (age 70 ± 7 years, 60% male). All participants underwent 18F-fluoroetoxybenzovesamicol PET and high-resolution structural MRI. In addition, we collected clinical 18F-fluorodeoxyglucose PET images. Brain images were normalized to standard space and regional tracer uptake and volumetric indices of basal forebrain degeneration were extracted. Patients with dementia showed spatially distinct reductions in cholinergic terminals across the cerebral cortex, limbic system, thalamus and brainstem. Also, cholinergic terminal binding in cortical and limbic regions correlated quantitatively and spatially with atrophy of the basal forebrain. In contrast, patients without dementia showed decreased cholinergic terminal binding in the cerebral cortex despite preserved basal forebrain volumes. In patients with dementia, cholinergic terminal reductions were most severe in limbic regio

Published
2023

18. Reduced Synaptic Density in Patients with Lewy Body Dementia: An [11 C]UCB-J PET Imaging Study.

Author

Andersen, Katrine B., Hansen, Allan K., Damholdt, Malene F., Horsager, Jacob, Skjærbæk, Casper, Gottrup, Hanne, Klit, Henriette, Schacht, Anna Christina, Danielsen, Erik H., Brooks, David J., Borghammer, Per, and Skjaerbaek, Casper

Abstract

Background: Patients with Parkinson's disease (PD) often develop dementia, but the underlying substrate is incompletely understood. Generalized synaptic degeneration may contribute to dysfunction and cognitive decline in Lewy body dementias, but in vivo evidence is lacking.Objective: The objective of this study was to assess the density of synapses in non-demented PD (nPD) subjects (N = 21), patients with PD-dementia or Dementia with Lewy bodies (DLB) (N = 13), and age-matched healthy controls (N = 15).Method: Using in vivo PET imaging and the novel synaptic-vesicle-glycoprotein 2A (SV2A) radioligand [11C]UCB-J, SUVR-1 values were obtained for 12 pre-defined regions. Volumes-of-interest were defined on MRI T1 scans. Voxel-level between-group comparisons of [11C]UCB-J SUVR-1 were performed. All subjects underwent neuropsychological assessment. Correlations between [11C]UCB- J PET and domain-specific cognitive functioning were examined.Results: nPD patients only demonstrated significantly reduced SUVR-1 values in the substantia nigra (SN) compared to HC. DLB/PDD patients demonstrated reduced SUVR-1 values in SN and all cortical VOIs except for the hippocampus and amygdala. The voxel-based analysis supported the VOI results. Significant correlation was seen between middle frontal gyrus [11C]UCB-J SUVR-1 and performance on tests of executive function.Conclusion: Widespread cortical reduction of synaptic density was documented in a cohort of DLB/PDD subjects using in vivo [11C]UCB-J PET. Our study confirms previously reported synaptic loss in SN of nPD patients. [11C]UCB-J binding in selected cortical VOIs of the DLB/PDD patients correlated with their levels of cognitive function across relevant neuropsychological domains. These findings suggest that the loss of synaptic density contributes to cognitive impairment in nPD and DLB/PDD. © 2021 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published
2021
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19. Vagus Nerve Cross-Sectional Area in Patients With Parkinson's Disease—An Ultrasound Case-Control Study

Author

Horsager, Jacob, primary, Walter, Uwe, additional, Fedorova, Tatyana D., additional, Andersen, Katrine B., additional, Skjærbæk, Casper, additional, Knudsen, Karoline, additional, Okkels, Niels, additional, von Weitzel-Mudersbach, Paul, additional, Dyrskog, Stig Eric, additional, Bergholt, Bo, additional, and Borghammer, Per, additional

Published
2021
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20. Preserved noradrenergic function in Parkinson's disease patients with rest tremor

Author

Kinnerup, Martin B., Sommerauer, Michael, Damholdt, Malene F., Schaldemose, Jeppe L., Ismail, Rola, Terkelsen, Astrid J., Staer, Kristian, Hansen, Allan, Fedorova, Tatyana D., Knudsen, Karoline, Skjaerbaek, Casper, Borghammer, Per, Pavese, Nicola, Brooks, David J., Nahimi, Adjmal, Kinnerup, Martin B., Sommerauer, Michael, Damholdt, Malene F., Schaldemose, Jeppe L., Ismail, Rola, Terkelsen, Astrid J., Staer, Kristian, Hansen, Allan, Fedorova, Tatyana D., Knudsen, Karoline, Skjaerbaek, Casper, Borghammer, Per, Pavese, Nicola, Brooks, David J., and Nahimi, Adjmal

Abstract

Noradrenergic neurotransmission may play an important role in tremor modulation through its innervation of key structures of the central tremor circuits. Here, Parkinson's disease (PD) patients with (PDT+) or without (PDT-) rest tremor had C-11-methylreboxetine(C-11-MeNER) positron emission tomography (PET) to test the hypothesis that noradrenaline terminal function was relatively preserved in PDT+ compared to PDT-. Methods: Sixty-five PD patients and 28 healthy controls (HC) were scanned with C-11-MeNER PET. Patients were categorized as PDT+ if subscores in UPDRS-III item 3 or MDS-UPDRS-III item 17 was >= 2; remaining were categorized as PDT-. Simplified reference tissue model 2 distribution volume ratios (DVR) for C-11-MeNER were calculated for thalamus, dorsal and median raphe, locus coeruleus (LC) and red nucleus using time activity curves (TACs) obtained from volumes of interest (VOI). Data were statistically interrogated with a general linear mixed model using 'region', and 'group' as factors and the interaction of 'region x group' was examined. Results: Tremor positive PD patients had a significantly higher mean C-11-MeNER DVR compared to PDT- in LC and thalamus. The PDT+ mean LC DVR was similar to that of HC. PDT+ mean C-11-MeNER DVRs were significantly lower than HC in the dorsal raphe while the PDT- group showed significantly lower mean C-11-MeNER DVR across all regions compared to HC. Conclusion: While both PD (T+) and PD (T-) groups showed a significant loss of noradrenaline terminal function compared to controls, noradrenergic neurons were relatively preserved in PDT+ in LC and thalamus. The greater loss of noradrenergic transporters in PDT- in LC and thalamus compared with PDT+ is in line with earlier in-vitro studies and could potentially contribute to their tremor negative phenotype.

Published
2021

21. Preserved noradrenergic function in Parkinson's disease patients with rest tremor

Author

Kinnerup, Martin B., primary, Sommerauer, Michael, additional, Damholdt, Malene F., additional, Schaldemose, Jeppe L., additional, Ismail, Rola, additional, Terkelsen, Astrid J., additional, Stær, Kristian, additional, Hansen, Allan, additional, Fedorova, Tatyana D., additional, Knudsen, Karoline, additional, Skjærbæk, Casper, additional, Borghammer, Per, additional, Pavese, Nicola, additional, Brooks, David J., additional, and Nahimi, Adjmal, additional

Published
2021
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25. Brain-first versus body-first Parkinson’s disease: a multimodal imaging case-control study

Author

Horsager, Jacob, primary, Andersen, Katrine B, additional, Knudsen, Karoline, additional, Skjærbæk, Casper, additional, Fedorova, Tatyana D, additional, Okkels, Niels, additional, Schaeffer, Eva, additional, Bonkat, Sarah K, additional, Geday, Jacob, additional, Otto, Marit, additional, Sommerauer, Michael, additional, Danielsen, Erik H, additional, Bech, Einar, additional, Kraft, Jonas, additional, Munk, Ole L, additional, Hansen, Sandra D, additional, Pavese, Nicola, additional, Göder, Robert, additional, Brooks, David J, additional, Berg, Daniela, additional, and Borghammer, Per, additional

Published
2020
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26. [18F]FEOBV positron emission tomography may not be a suitable method to measure parasympathetic denervation in patients with Parkinson's disease.

Author

Horsager, Jacob, Okkels, Niels, Fedorova, Tatyana D., Knudsen, Karoline, Skjærbæk, Casper, Van Den Berge, Nathalie, Jacobsen, Jan, Munk, Ole Lajord, Danielsen, Erik Hvid, Bender, Dirk, Brooks, David J., and Borghammer, Per

Abstract

Introduction: The peripheral autonomic nervous system may be involved years before onset of motor symptoms in some patients with Parkinson's disease (PD). Specific imaging techniques to quantify the cholinergic nervous system in peripheral organs are an unmet need. We tested the hypothesis that patients with PD display decreased [18F]FEOBV uptake in peripheral organs - a sign of parasympathetic denervation.Methods: We included 15 PD patients and 15 age- and sex matched healthy controls for a 70 min whole-body dynamic positron emission tomography (PET) acquisition. Compartmental modelling was used for tracer kinetic analyses of adrenal gland, pancreas, myocardium, spleen, renal cortex, muscle and colon. Standard uptake values (SUV) at 60-70 min post injection were also extracted for these organs. Additionally, SUVs were also determined in the total colon, prostate, parotid and submandibular glands.Results: We found no statistically significant difference of [18F]FEOBV binding parameters in any organs between patients with PD and healthy controls, although trends were observed. The pancreas SUV showed a 14% reduction in patients (P = 0.021, not statistically significant after multiple comparison correction). We observed a trend towards lower SUVs in the pancreas, colon, adrenal gland, and myocardium of PD patients with versus without probable REM sleep behavior disorder.Conclusion: [18F]FEOBV PET may not be a sensitive marker for parasympathetic degeneration in patients with PD. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Impaired cholinergic integrity of the colon and pancreas in dementia with Lewy bodies.

Author

Okkels N, Horsager J, Fedorova TD, Knudsen K, Skjærbæk C, Andersen KB, Labrador-Espinosa M, Vestergaard K, Mortensen JK, Klit H, Møller M, Danielsen EH, Johnsen EL, Bekan G, Hansen KV, Munk OL, Damholdt MF, Kjeldsen PL, Hansen AK, Gottrup H, Grothe MJ, and Borghammer P

Subjects
Humans, Male, Aged, Female, Cross-Sectional Studies, Pancreas pathology, Cholinergic Agents, Colon pathology, Lewy Body Disease diagnostic imaging, Lewy Body Disease pathology, Autonomic Nervous System Diseases diagnostic imaging, Autonomic Nervous System Diseases etiology
Abstract

Dementia with Lewy bodies is characterized by a high burden of autonomic dysfunction and Lewy pathology in peripheral organs and components of the sympathetic and parasympathetic nervous system. Parasympathetic terminals may be quantified with 18F-fluoroetoxybenzovesamicol, a PET tracer that binds to the vesicular acetylcholine transporter in cholinergic presynaptic terminals. Parasympathetic imaging may be useful for diagnostics, improving our understanding of autonomic dysfunction and for clarifying the spatiotemporal relationship of neuronal degeneration in prodromal disease. Therefore, we aimed to investigate the cholinergic parasympathetic integrity in peripheral organs and central autonomic regions of subjects with dementia with Lewy bodies and its association with subjective and objective measures of autonomic dysfunction. We hypothesized that organs with known parasympathetic innervation, especially the pancreas and colon, would have impaired cholinergic integrity. To achieve these aims, we conducted a cross-sectional comparison study including 23 newly diagnosed non-diabetic subjects with dementia with Lewy bodies (74 ± 6 years, 83% male) and 21 elderly control subjects (74 ± 6 years, 67% male). We obtained whole-body images to quantify PET uptake in peripheral organs and brain images to quantify PET uptake in regions of the brainstem and hypothalamus. Autonomic dysfunction was assessed with questionnaires and measurements of orthostatic blood pressure. Subjects with dementia with Lewy bodies displayed reduced cholinergic tracer uptake in the pancreas (32% reduction, P = 0.0003) and colon (19% reduction, P = 0.0048), but not in organs with little or no parasympathetic innervation. Tracer uptake in a region of the medulla oblongata overlapping the dorsal motor nucleus of the vagus correlated with autonomic symptoms (rs = -0.54, P = 0.0077) and changes in orthostatic blood pressure (rs = 0.76, P < 0.0001). Tracer uptake in the pedunculopontine region correlated with autonomic symptoms (rs = -0.52, P = 0.0104) and a measure of non-motor symptoms (rs = -0.47, P = 0.0230). In conclusion, our findings provide the first imaging-based evidence of impaired cholinergic integrity of the pancreas and colon in dementia with Lewy bodies. The observed changes may reflect parasympathetic denervation, implying that this process is initiated well before the point of diagnosis. The findings also support that cholinergic denervation in the brainstem contributes to dysautonomia., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2024
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28. Severe cholinergic terminal loss in newly diagnosed dementia with Lewy bodies.

Author

Okkels N, Horsager J, Labrador-Espinosa M, Kjeldsen PL, Damholdt MF, Mortensen J, Vestergård K, Knudsen K, Andersen KB, Fedorova TD, Skjærbæk C, Gottrup H, Hansen AK, Grothe MJ, and Borghammer P

Subjects
Humans, Male, Aged, Aged, 80 and over, Middle Aged, Female, Lewy Bodies metabolism, Cross-Sectional Studies, Cholinergic Agents, Atrophy pathology, Lewy Body Disease metabolism
Abstract

Cholinergic changes play a fundamental role in the natural history of dementia with Lewy bodies and Lewy body disease in general. Despite important achievements in the field of cholinergic research, significant challenges remain. We conducted a study with four main objectives: (i) to examine the integrity of cholinergic terminals in newly diagnosed dementia with Lewy bodies; (ii) to disentangle the cholinergic contribution to dementia by comparing cholinergic changes in Lewy body patients with and without dementia; (iii) to investigate the in vivo relationship between cholinergic terminal loss and atrophy of cholinergic cell clusters in the basal forebrain at different stages of Lewy body disease; and (iv) to test whether any asymmetrical degeneration in cholinergic terminals would correlate with motor dysfunction and hypometabolism. To achieve these objectives, we conducted a comparative cross-sectional study of 25 newly diagnosed dementia with Lewy bodies patients (age 74 ± 5 years, 84% male), 15 healthy control subjects (age 75 ± 6 years, 67% male) and 15 Parkinson's disease patients without dementia (age 70 ± 7 years, 60% male). All participants underwent 18F-fluoroetoxybenzovesamicol PET and high-resolution structural MRI. In addition, we collected clinical 18F-fluorodeoxyglucose PET images. Brain images were normalized to standard space and regional tracer uptake and volumetric indices of basal forebrain degeneration were extracted. Patients with dementia showed spatially distinct reductions in cholinergic terminals across the cerebral cortex, limbic system, thalamus and brainstem. Also, cholinergic terminal binding in cortical and limbic regions correlated quantitatively and spatially with atrophy of the basal forebrain. In contrast, patients without dementia showed decreased cholinergic terminal binding in the cerebral cortex despite preserved basal forebrain volumes. In patients with dementia, cholinergic terminal reductions were most severe in limbic regions and least severe in occipital regions compared to those without dementia. Interhemispheric asymmetry of cholinergic terminals correlated with asymmetry of brain metabolism and lateralized motor function. In conclusion, this study provides robust evidence for severe cholinergic terminal loss in newly diagnosed dementia with Lewy bodies, which correlates with structural imaging measures of cholinergic basal forebrain degeneration. In patients without dementia, our findings suggest that loss of cholinergic terminal function occurs 'before' neuronal cell degeneration. Moreover, the study supports that degeneration of the cholinergic system is important for brain metabolism and may be linked with degeneration in other transmitter systems. Our findings have implications for understanding how cholinergic system pathology contributes to the clinical features of Lewy body disease, changes in brain metabolism and disease progression patterns., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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29. Thyroid [ 123 I]MIBG uptake in Parkinson's disease and diabetes mellitus.

Author

Fedorova TD, Knudsen K, Rasmussen TK, Horsager J, Nahimi A, Skjærbæk C, Schaeffer E, Berg D, Terkelsen AJ, and Borghammer P

Abstract

Thyroid [ 123 I]MIBG uptake is proposed as a tool for differentiating between Parkinson's disease (PD) and diabetes mellitus (DM) on [ 123 I]MIBG scintigraphies since both patient groups show decreased cardiac uptake. One study compared thyroid [ 123 I]MIBG uptake in DM and PD patients and reported reduced [ 123 I]MIBG uptake only in the PD group. Here, we investigated thyroid [ 123 I]MIBG uptake in patients with PD and DM and found severely reduced thyroid [ 123 I]MIBG uptake in DM. Larger studies are needed to substantiate whether DM patients are more or less likely to exhibit decreased thyroid MIBG uptake compared to controls and PD patients., Competing Interests: None, (© 2023 The Authors.)

Published
2023
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30. Reduced Synaptic Density in Patients with Lewy Body Dementia: An [ 11 C]UCB-J PET Imaging Study.

Author

Andersen KB, Hansen AK, Damholdt MF, Horsager J, Skjaerbaek C, Gottrup H, Klit H, Schacht AC, Danielsen EH, Brooks DJ, and Borghammer P

Subjects
Humans, Positron-Emission Tomography, Alzheimer Disease, Cognitive Dysfunction, Lewy Body Disease diagnostic imaging, Parkinson Disease diagnostic imaging
Abstract

Background: Patients with Parkinson's disease (PD) often develop dementia, but the underlying substrate is incompletely understood. Generalized synaptic degeneration may contribute to dysfunction and cognitive decline in Lewy body dementias, but in vivo evidence is lacking., Objective: The objective of this study was to assess the density of synapses in non-demented PD (nPD) subjects (N = 21), patients with PD-dementia or Dementia with Lewy bodies (DLB) (N = 13), and age-matched healthy controls (N = 15)., Method: Using in vivo PET imaging and the novel synaptic-vesicle-glycoprotein 2A (SV2A) radioligand [11C]UCB-J, SUVR-1 values were obtained for 12 pre-defined regions. Volumes-of-interest were defined on MRI T1 scans. Voxel-level between-group comparisons of [11C]UCB-J SUVR-1 were performed. All subjects underwent neuropsychological assessment. Correlations between [11C]UCB- J PET and domain-specific cognitive functioning were examined., Results: nPD patients only demonstrated significantly reduced SUVR-1 values in the substantia nigra (SN) compared to HC. DLB/PDD patients demonstrated reduced SUVR-1 values in SN and all cortical VOIs except for the hippocampus and amygdala. The voxel-based analysis supported the VOI results. Significant correlation was seen between middle frontal gyrus [11C]UCB-J SUVR-1 and performance on tests of executive function., Conclusion: Widespread cortical reduction of synaptic density was documented in a cohort of DLB/PDD subjects using in vivo [11C]UCB-J PET. Our study confirms previously reported synaptic loss in SN of nPD patients. [11C]UCB-J binding in selected cortical VOIs of the DLB/PDD patients correlated with their levels of cognitive function across relevant neuropsychological domains. These findings suggest that the loss of synaptic density contributes to cognitive impairment in nPD and DLB/PDD. © 2021 International Parkinson and Movement Disorder Society., (© 2021 International Parkinson and Movement Disorder Society.)

Published
2021
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