Ultra-fast magnetic resonance encephalography of physiological brain activity - Glymphatic pulsation mechanisms?
about
Methods for cleaning the BOLD fMRI signal.The Effect of Gray Matter ICA and Coefficient of Variation Mapping of BOLD Data on the Detection of Functional Connectivity Changes in Alzheimer's Disease and bvFTD.Multimodal brain imaging with magnetoencephalography: A method for measuring blood pressure and cardiorespiratory oscillations.Research into the Physiology of Cerebrospinal Fluid Reaches a New Horizon: Intimate Exchange between Cerebrospinal Fluid and Interstitial Fluid May Contribute to Maintenance of Homeostasis in the Central Nervous SystemObstructive sleep apnea decreases central nervous system-derived proteins in the cerebrospinal fluid.Cardiac cycle-induced EPI time series fluctuations in the brain: Their temporal shifts, inflow effects and T2∗ fluctuations.The homeostatic astroglia emerges from evolutionary specialization of neural cells.Perivascular spaces, glymphatic dysfunction, and small vessel disease.Interstitial solute transport in 3D reconstructed neuropil occurs by diffusion rather than bulk flow.Brain barriers and brain fluid research in 2016: advances, challenges and controversies.The Paravascular Pathway for Brain Waste Clearance: Current Understanding, Significance and Controversy.Quasi-periodic patterns of intrinsic brain activity in individuals and their relationship to global signal.Glymphatic clearance controls state-dependent changes in brain lactate concentration.Paravascular spaces at the brain surface: Low resistance pathways for cerebrospinal fluid flow.Gadolinium-based Contrast Media, Cerebrospinal Fluid and the Glymphatic System: Possible Mechanisms for the Deposition of Gadolinium in the Brain.Time-Resolved Resting-State Functional Magnetic Resonance Imaging Analysis: Current Status, Challenges, and New Directions.Assessment of the dynamics of human glymphatic system by near-infrared spectroscopy.Intracranial pulsatility in patients with cerebral small vessel disease: a systematic review.The Glymphatic System in Central Nervous System Health and Disease: Past, Present, and Future.Do repetitive Valsalva maneuvers reduce glymphatic clearance?Beneficial effects of low alcohol exposure, but adverse effects of high alcohol intake on glymphatic function.Spontaneous activity forms a foundation for odor-evoked activation maps in the rat olfactory bulb.Physiology of Astroglia.Neural and metabolic basis of dynamic resting state fMRI.Associations of Pulse and Blood Pressure with Hippocampal Volume by APOE and Cognitive Phenotype: The Alzheimer's Disease Neuroimaging Initiative (ADNI).Sleep Disorders Associated With Alzheimer's Disease: A Perspective.Current understanding of neuroinflammation after traumatic brain injury and cell-based therapeutic opportunities.MRI investigation of glymphatic responses to Gd-DTPA infusion ratesAltered physiological brain variation in drug-resistant epilepsyThe Glymphatic System in Diabetes-Induced Dementia
P2860
Q31148361-1C59FF39-7587-42D5-9415-3826B08D0BB8Q31156514-A0D9BC0E-731D-45AA-B9DF-9399CB4E3BC4Q33625501-907D6E77-1BA2-44AD-9C68-4C1E3927C44AQ37095901-16B3C946-70DC-4393-92C3-4252984FF6FFQ37432083-7FE870D8-B1D9-4DC0-A642-9F8AA82DD0D3Q38597461-DA121A33-7C58-4E66-A14C-71133120F06EQ38885831-6B9DC715-2C51-4E0F-8B8D-B173F52BAB02Q41493863-16AAF7DF-B611-4B3A-90CE-C640D0E48BB5Q41687033-49881ED6-7FA7-462E-A189-E462BEDC1E2AQ42324492-5192543C-6667-4A20-A1C1-AE29A6849D93Q47111499-9903969C-AA3A-4D29-ADEC-B96CE623E8E7Q47314680-BB53766C-74A9-493D-BFBF-DEAE89791E03Q47402970-1A39DCD0-FFDA-4180-9C87-F0F7B81C0519Q47437687-3502CBDE-DBBA-4E43-B158-9F0571BB2683Q47701857-C9A15EFF-9AEF-4584-86C5-5DC5B2630F79Q47713919-91EBAC04-AE47-432E-9A45-F1685999EA79Q47728673-CE9E4B09-79B5-4466-AC3B-C02BF09C0A1CQ47787940-E02F6538-63AB-4FA0-8816-7B879E1933C8Q47806849-8E42282C-9749-4D20-A413-1785B868073BQ49127751-9744F483-0860-4FA2-B29D-7A78B74C1F4FQ49292314-04CD3EC2-CA88-4244-ACA8-CC59846331F7Q49644633-D74DDA3B-3045-466D-B429-3C3F4E8AC1DDQ49917383-F55F1FA0-EB5B-4B0E-A4D2-2342AD6EFDC8Q50128472-9BB1B177-3AFD-4584-90D3-469FF8807047Q53397486-0C1A04E2-11BD-4E36-9E6F-149EFCB11547Q55093548-2C45DE27-442D-47AC-A503-DC40B6CC9AE3Q55457127-9CEE09AA-7D67-42F3-B31D-59ADC4F8FA13Q57113738-C3BAEDD6-9093-4FA7-973D-AB3B6E0BA0DCQ58775787-A4B6E70D-86C0-4DE3-A46E-55DAADA91226Q59133635-FF060623-BAB5-404A-BD98-399CF3CC0AAC
P2860
Ultra-fast magnetic resonance encephalography of physiological brain activity - Glymphatic pulsation mechanisms?
description
2015 nî lūn-bûn
@nan
2015 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@ast
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@en
type
label
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@ast
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@en
prefLabel
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@ast
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@en
P2093
P2860
P50
P356
P1476
Ultra-fast magnetic resonance ...... ymphatic pulsation mechanisms?
@en
P2093
Joonas Autio
Jürgen Hennig
Shella Keilholz
Tuija Keinänen
Vesa Kiviniemi
Xindi Wang
Yu-Feng Zang
P2860
P304
P356
10.1177/0271678X15622047
P577
2015-12-21T00:00:00Z