Keyword search (4,164 papers available)

"choline" Keyword-tagged Publications:

Title Authors PubMed ID
1 In vitro evaluation of isatin-pyridine oxime hybrids as potential acetylcholinesterase inhibitors for nerve agent prophylaxis Silva MCJD; Pinto AMV; Balthar MA; Correa ABA; Bhattacharyya D; Simas ABC; Kuca K; Forgione P; França TCC; Cavalcante SFA; Kitagawa DAS; 40516590
CHEMBIOCHEM
2 Modulatory effects of M3 muscarinic acetylcholine receptor on inflammatory profiles of human memory T helper cells Gholizadeh F; Hajiaghayi M; Choi JS; Little SR; Rahbari N; Kargar M; Brotto K; Han E; Shih SCC; Darlington PJ; 40405417
BIOLOGY
3 Neuroinflammation and oxidative redox imbalance drive memory dysfunction in adolescent rats prenatally exposed to Datura Stramonium Bamisi O; Oluwalabani AO; Arogundade TT; Olajide OJ; 39303770
PSYCHOLOGY
4 The immunomodulatory effect of oral NaHCO3 is mediated by the splenic nerve: multivariate impact revealed by artificial neural networks Alvarez MR; Alkaissi H; Rieger AM; Esber GR; Acosta ME; Stephenson SI; Maurice AV; Valencia LMR; Roman CA; Alarcon JM; 38549144
CSBN
5 Increased brain cholinergic innervation in isolated REM sleep behaviour disorder from prodromal multiple system atrophy Wickens RH; Postuma RB; de Villers-Sidani É; Pelletier A; Blinder S; Gagnon JF; Soucy JP; Montplaisir J; Bedard MA; 37939636
PERFORM
6 A Cluster Analysis of Oral and Cognitive Health Indicators: An Exploratory Study on Cholinergic Activity as the Link Rohani K; Nicolau B; Madathil S; Booij L; Jafarpour D; Haricharan PB; Feine J; Alchini R; Tamimi F; de Souza R; 37608643
PSYCHOLOGY
7 Structural determination and anticholinesterase assay of C-glycosidic ellagitannins from Lawsonia inermis leaves: A study supported by DFT calculations and molecular docking Orabi MAA; Orabi EA; Abdel-Sattar ES; English AM; Hatano T; Elimam H; 36423882
CHEMBIOCHEM
8 Inhibiting amyloid beta (1-42) peptide-induced mitochondrial dysfunction prevents the degradation of synaptic proteins in the entorhinal cortex Olajide OJ; La Rue C; Bergdahl A; Chapman CA; 36275011
HKAP
9 Normal cognition in Parkinson's disease may involve hippocampal cholinergic compensation: An exploratory PET imaging study with [(18)F]-FEOBV Legault-Denis C; Aghourian M; Soucy JP; Rosa-Neto P; Dagher A; Aumont E; Wickens R; Bedard MA; 34628195
PERFORM
10 Plasma levels of one-carbon metabolism nutrients in women with anorexia nervosa Burdo J; Booij L; Kahan E; Thaler L; Israël M; Agellon LB; Nitschmann E; Wykes L; Steiger H; 32427359
PSYCHOLOGY
11 Docking and molecular dynamics studies of peripheral site ligand-oximes as reactivators of sarin-inhibited human acetylcholinesterase. de Almeida JS, Cuya Guizado TR, Guimarães AP, Ramalho TC, Gonçalves AS, de Koning MC, França TC 26612005
CHEMISTRY
12 Mechanistic studies of new oximes reactivators of human butyryl cholinesterase inhibited by cyclosarin and sarin. de Lima WE, Francisco A, da Cunha EF, Radic Z, Taylor P, França TC, Ramalho TC 27125569
CHEMISTRY
13 Brain cholinergic alterations in idiopathic REM sleep behaviour disorder: a PET imaging study with 18F-FEOBV. Bedard MA, Aghourian M, Legault-Denis C, Postuma RB, Soucy JP, Gagnon JF, Pelletier A, Montplaisir J 31078078
PERFORM

 

Title:Brain cholinergic alterations in idiopathic REM sleep behaviour disorder: a PET imaging study with 18F-FEOBV.
Authors:Bedard MAAghourian MLegault-Denis CPostuma RBSoucy JPGagnon JFPelletier AMontplaisir J
Link:https://www.ncbi.nlm.nih.gov/pubmed/31078078?dopt=Abstract
DOI:10.1016/j.sleep.2018.12.020
Publication:Sleep medicine
Keywords:AcetylcholineFEOBVPET imagingRBDREM sleepSynucleinopathy
PMID:31078078 Category:Sleep Med Date Added:2019-06-04
Dept Affiliation: PERFORM
1 NeuroQAM Centre, Université du Québec à Montréal (UQAM), Canada; McConnell Brain Imaging Centre, Montreal Neurological Institute, Canada.
2 Centre for Advanced Research in Sleep Medicine, Hôpital du Sacré-Coeur de Montréal, Canada; Department of Neurology and Neurosurgery, McGill University, Canada.
3 McConnell Brain Imaging Centre, Montreal Neurological Institute, Canada; Department of Radiology and Nuclear Medicine, Université de Montréal, Canada; PERFORM Centre, Concordia University, Canada.
4 NeuroQAM Centre, Université du Québec à Montréal (UQAM), Canada; Centre for Advanced Research in Sleep Medicine, Hôpital du Sacré-Coeur de Montréal, Canada.
5 Centre for Advanced Research in Sleep Medicine, Hôpital du Sacré-Coeur de Montréal, Canada.
6 Centre for Advanced Research in Sleep Medicine, Hôpital du Sacré-Coeur de Montréal, Canada; Department of Psychiatry, Université de Montréal, Canada. Electronic address: jy.montplaisir@umontreal.ca.

Description:

Brain cholinergic alterations in idiopathic REM sleep behaviour disorder: a PET imaging study with 18F-FEOBV.

Sleep Med. 2019 Jan 06;58:35-41

Authors: Bedard MA, Aghourian M, Legault-Denis C, Postuma RB, Soucy JP, Gagnon JF, Pelletier A, Montplaisir J

Abstract

BACKGROUND: REM sleep behaviour disorder (RBD) occurs frequently in patients with synucleinopathies such as Parkinson's disease, dementia with Lewy body, or multiple system atrophy, but may also occur as a prodromal stage of those diseases; and is termed idiopathic RBD (iRBD) when not accompanied by other symptoms. Cholinergic degeneration of the mesopontine nuclei have been described in synucleinopathies with or without RBD, but this has not yet been explored in iRBD. We sought to assess cholinergic neuronal integrity in iRBD using PET neuroimaging with the 18F-fluoroethoxybenzovesamicol (FEOBV).

METHODS: The sample included 10 participants evenly divided between healthy subjects and patients with iRBD. Polysomnography and PET imaging with FEOBV were performed in all participants. Standardized uptake value ratios (SUVRs) were compared between the two groups using voxel wise t-tests. Non-parametric correlations were also computed in patients with iRBD between FEOBV uptake and muscle tonic and phasic activity during REM sleep.

RESULTS: Compared with healthy participants, significantly higher FEOBV uptakes were observed in patients with iRBD. The largest differences were observed in specific brainstem areas corresponding to the bulbar reticular formation, pontine coeruleus/subcoeruleus complex, tegmental periacqueductal grey, and mesopontine cholinergic nuclei. FEOBV uptake in iRBD was also higher than in controls in the ventromedial area of the thalamus, deep cerebellar nuclei, and some cortical territories (including the paracentral lobule, anterior cingulate, and orbitofrontal cortex). Significant correlation was found between muscle activity during REM sleep, and SUVR increases in both the mesopontine area and paracentral cortex.

CONCLUSION: We showed here for the first time the brain cholinergic alterations in patients with iRBD. As opposed to the cholinergic depletion described previously in RBD associated with clinical Parkinson's disease, increased cholinergic innervation was found in multiple areas in iRBD. The most significant changes were observed in brainstem areas containing structures involved in the promotion of REM sleep and muscle atonia. This suggests that iRBD might be a clinical condition in which compensatory cholinergic upregulation in those areas occurs in association with the initial phases of a neurodegenerative process leading to a clinically observable synucleinopathy.

PMID: 31078078 [PubMed - as supplied by publisher]




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