about
Fibrillar amyloid plaque formation precedes microglial activationAnalyzing dendritic spine pathology in Alzheimer's disease: problems and opportunitiesAlterations of the microvascular network in sclerotic hippocampi from patients with epilepsy.Seeding and transgenic overexpression of alpha-synuclein triggers dendritic spine pathology in the neocortexPericellular innervation of neurons expressing abnormally hyperphosphorylated tau in the hippocampal formation of Alzheimer's disease patients.Correlation of two-photon in vivo imaging and FIB/SEM microscopyIntraneuronal APP and extracellular Aβ independently cause dendritic spine pathology in transgenic mouse models of Alzheimer's disease.Spatial distribution of neurons innervated by chandelier cells.Diminished perisomatic GABAergic terminals on cortical neurons adjacent to amyloid plaques.High plasticity of axonal pathology in Alzheimer's disease mouse models.Selective alterations of neurons and circuits related to early memory loss in Alzheimer's disease.The influence of phospho-τ on dendritic spines of cortical pyramidal neurons in patients with Alzheimer's disease.GABAergic complex basket formations in the human neocortex.Dense and overlapping innervation of pyramidal neurons by chandelier cells.Acetylcholinesterase protein level is preserved in the Alzheimer's brain.Differential distribution of neurons in the gyral white matter of the human cerebral cortex.FIB/SEM technology and Alzheimer's disease: three-dimensional analysis of human cortical synapses.Pharmacological inhibition of BACE1 impairs synaptic plasticity and cognitive functions.Abnormal tau phosphorylation in the thorny excrescences of CA3 hippocampal neurons in patients with Alzheimer's disease.Three-dimensional analysis of synapses in the transentorhinal cortex of Alzheimer's disease patients.Ambient Glutamate Promotes Paroxysmal Hyperactivity in Cortical Pyramidal Neurons at Amyloid Plaques via Presynaptic mGluR1 Receptors.Colocalization of -actinin and Synaptopodin in the Pyramidal Cell Axon Initial Segment3D Electron Microscopy Study of Synaptic Organization of the Normal Human Transentorhinal Cortex and Its Possible Alterations in Alzheimer's DiseaseVolume Electron Microscopy Study of the Relationship Between Synapses and Astrocytes in the Developing Rat Somatosensory Cortex
P50
Q27311662-0EE1A57E-4B13-4694-B124-F9F06FF6F35DQ28087158-673FB69F-A389-4C30-BB8B-B6B1E75803B7Q33482782-A6FF6725-9C7A-4F69-8B15-EFFA34AD4425Q33625757-8500234D-13C2-495C-96BB-4A50C8AE2DF9Q33633043-F0DB5FA0-0778-4BC3-A7EC-1DCE760E981DQ35580756-3C544CBF-4324-4CCE-AD61-BCD5813A9E39Q35621563-707DA7B8-D324-4A2F-A2D5-A3EC8B5B9447Q35995901-CC2B1E37-7605-48D9-98CF-705527BABC19Q37444278-41EA5B8D-7769-46A1-91B5-4C4825E94FCDQ37630821-ECB5ED90-0AC9-46B3-B481-D6A8F1B15AEDQ38218089-731A43B9-738E-47C3-AACA-F08F699B06C1Q41573050-B023A5D7-58CD-4503-9850-B073E60DD71BQ42843868-543592C2-51A7-4B76-814C-DBAC0F383A66Q43091491-6C768B43-712F-48AA-98C0-C311CAEC6AA2Q45310728-88469F22-06E2-41A5-806F-49AF854327B6Q45807269-C1CA219B-1F67-4701-A3BA-9CF7EAA050C2Q46078274-2EF1040F-993E-48CD-9686-F12E8C9A014DQ47685980-4A16CD88-735B-4B1F-B746-77176E88BDA2Q49161252-03501ADE-7208-4B53-91BE-0180F03DF7AEQ50533053-5EC57F1A-9A01-4AF9-9C1C-5B279BCF7824Q51531026-DB8FAA44-0BC9-49FC-8952-6F6C866B5EA3Q59902337-C1606A76-8A8C-4A08-B6C5-0BA41ED8F053Q92883065-8A468448-DA23-4D64-99F7-15011F3D3824Q92984289-E15FE154-AA10-4A5F-955A-BF9FABAD60B1
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Lidia Blazquez-Llorca
@ast
Lidia Blazquez-Llorca
@en
Lidia Blazquez-Llorca
@es
Lidia Blazquez-Llorca
@sl
type
label
Lidia Blazquez-Llorca
@ast
Lidia Blazquez-Llorca
@en
Lidia Blazquez-Llorca
@es
Lidia Blazquez-Llorca
@sl
prefLabel
Lidia Blazquez-Llorca
@ast
Lidia Blazquez-Llorca
@en
Lidia Blazquez-Llorca
@es
Lidia Blazquez-Llorca
@sl
P1053
H-6767-2014
P106
P21
P31
P3829
P496
0000-0002-4865-8974