Sources of cortical rhythms in adults during physiological aging: A multicentric EEG study
about
Donepezil impairs memory in healthy older subjects: behavioural, EEG and simultaneous EEG/fMRI biomarkersResting-state slow wave power, healthy aging and cognitive performance.Low and then high frequency oscillations of distinct right cortical networks are progressively enhanced by medium and long term Satyananda Yoga meditation practice.The differences in brain activity between narrow band noise and pure tone tinnitusTransformations in oscillatory activity and evoked responses in primary somatosensory cortex in middle age: a combined computational neural modeling and MEG study.Brain areas controlling heart rate variability in tinnitus and tinnitus-related distressDirection of Information Flow in Alzheimer's Disease and MCI Patients.Neuroplastic effects of combined computerized physical and cognitive training in elderly individuals at risk for dementia: an eLORETA controlled study on resting states.Distinguishing rhythmic from non-rhythmic brain activity during rest in healthy neurocognitive aging.Brain's alpha activity is highly reduced in euthymic bipolar disorder patients.Alzheimer's disease - not an exaggeration of healthy aging.Age-Related Changes in Electroencephalographic Signal Complexity.Electroencephalographic Fractal Dimension in Healthy Ageing and Alzheimer's Disease.Changes of cortico-muscular coherence: an early marker of healthy aging?Shutting Down Sensorimotor Interferences after Stroke: A Proof-of-Principle SMR Neurofeedback Study.Age-dependent effect of Alzheimer's risk variant of CLU on EEG alpha rhythm in non-demented adults.Tuning Up the Old Brain with New Tricks: Attention Training via NeurofeedbackNeurofeedback training produces normalization in behavioural and electrophysiological measures of high-functioning autism.Electroencephalographic rhythms in Alzheimer's disease.Antiretroviral therapy affects the z-score index of deviant cortical EEG rhythms in naïve HIV individuals.Stability of clinical condition in mild cognitive impairment is related to cortical sources of alpha rhythms: an electroencephalographic study.The electrophysiological connectome is maintained in healthy elders: a power envelope correlation MEG study.Physiological aging impacts the hemispheric balances of resting state primary somatosensory activities.EEG low-resolution brain electromagnetic tomography (LORETA) in Huntington's disease.Alzheimer's disease disrupts alpha and beta-band resting-state oscillatory network connectivity.Rostral anterior cingulate cortex activity in the theta band predicts response to antidepressive medication.TMS by double-cone coil prefrontal stimulation for medication resistant chronic depression: a case report.Source analysis of alpha rhythm reactivity using LORETA imaging with 64-channel EEG and individual MRI.Resting state cortical electroencephalographic rhythms are related to gray matter volume in subjects with mild cognitive impairment and Alzheimer's disease.EEG mean frequency changes in healthy subjects during prefrontal transcranial direct current stimulation.A promising method to distinguish vascular dementia from Alzheimer's disease with standardized low-resolution brain electromagnetic tomography and quantitative EEG.Information-based detection of nonlinear Granger causality in multivariate processes via a nonuniform embedding technique.Precuneus Failures in Subjects of the PSEN1 E280A Family at Risk of Developing Alzheimer's Disease Detected Using Quantitative Electroencephalography.Cognitive impairment and EEG background activity in adults with Down's syndrome: a topographic study.Cortical source multivariate EEG synchronization analysis on amnestic mild cognitive impairment in type 2 diabetes.Usefulness of EEG Techniques in Distinguishing Frontotemporal Dementia from Alzheimer's Disease and Other DementiasEEG amplitude modulation analysis for semi-automated diagnosis of Alzheimer’s disease
P2860
Q28476847-C948F585-89BE-44D7-8B1C-87A0D4B8C65BQ33682591-1C53718E-18A6-4C91-A5C6-2D4F877279A6Q33732358-D0656B6C-87B1-4396-BD08-E7A5D3005123Q33737560-0DF3C067-A037-4B2E-BEF9-81F899957E60Q33949600-A7F7F081-0EA3-4054-A9BC-D5F237E7C795Q34637930-8B396207-6601-44AE-AA41-5ED6DB48D463Q34923220-ED693A6E-B0D0-4889-BE33-E6A5A8916F6AQ35512038-2489A851-F8BA-490A-905D-03363030E1DCQ35533480-7D0CBE9E-7F6F-47BE-B1D2-D5B53126EDF2Q35658712-EB8672E3-414A-48B7-971C-930264850E12Q35732274-3D34CC40-BB32-433A-A7B1-001F7D1BFEECQ35831903-76A637C7-9F4B-45F6-99D8-5CC99A194F2CQ35922648-C80289AD-B75B-4FB7-B4FB-AA089DB2A04DQ36528264-CABCEEDB-7FE1-4675-A5CE-5092A0A63BC8Q37096018-7AD6B721-62DC-47CD-80B8-E90ACAA420B7Q37389105-45D9C874-043A-4AF3-9BB5-9A40AA960131Q37694504-0113C94E-E0E8-4EE3-A73E-2E6DD7D0740EQ37735260-6D6E4546-155C-42CA-AEDA-4290BE753E8EQ37883098-561B4EA9-5CD7-4652-A315-30A64B36D44EQ39607807-35B1C991-7A78-442F-8357-A8E90855C8EDQ39802035-FA13A83A-1309-4612-B94D-F4C7CE9CF3B4Q42629916-0B1C0751-FC22-4484-A23E-C1578C2E861CQ44773501-AA75CF55-2348-4DBE-9191-182614F3A7B9Q45300937-FB038DEA-6317-4D1F-AC5A-3439E8402EE9Q46323013-BA4BFBD1-095F-40BA-8A58-F9E1C342B6F3Q48161558-1E731604-450C-48A0-8036-64BC258E0599Q48339743-D4D3AB0F-D661-480C-8DDE-F1E03970CEFDQ48473222-81B50207-D84B-4BC4-B271-A268532890D8Q48661492-4E02272D-815C-46F1-8CBB-6F8F73EEE1E9Q48720469-B4FAC25B-B838-47A8-B8A2-F2E80130707BQ48880591-3E566AAF-ED65-499C-8A70-62E001269D00Q49090826-298229B0-300D-4689-9C01-96D1BB082F83Q50861450-132CA46A-042A-48CA-9CBF-904A901BAE45Q51804381-09DC6CD5-7749-46CC-B273-DCC7D7EFF989Q53434904-47D89993-A494-4FB5-94E0-8E92930DF3E6Q57314841-CF870171-176B-4AF5-BED4-4910F4669D5AQ59288398-920EC181-2A4A-4784-965C-5A9771EC7A46
P2860
Sources of cortical rhythms in adults during physiological aging: A multicentric EEG study
description
im Januar 2006 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 01 February 2006
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у 2006
@uk
name
Sources of cortical rhythms in ...... ging: A multicentric EEG study
@en
Sources of cortical rhythms in ...... ging: A multicentric EEG study
@nl
type
label
Sources of cortical rhythms in ...... ging: A multicentric EEG study
@en
Sources of cortical rhythms in ...... ging: A multicentric EEG study
@nl
prefLabel
Sources of cortical rhythms in ...... ging: A multicentric EEG study
@en
Sources of cortical rhythms in ...... ging: A multicentric EEG study
@nl
P2093
P2860
P50
P356
P1433
P1476
Sources of cortical rhythms in ...... ging: a multicentric EEG study
@en
P2093
Andrea Cassarino
Claudio Del Percio
Gian Luca Romani
Gloria Dal Forno
Guido Rodriguez
Koichi Hirata
Paolo M Rossini
P2860
P304
P356
10.1002/HBM.20175
P50
P577
2006-02-01T00:00:00Z