Optical coherence tomography for the quantitative study of cerebrovascular physiology. - Wikidata - wikimedia - TriplyDB

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

http://www.wikidata.org/entity/Q31000952

about

Reassessing the Role of Intra-Arterial Drug Delivery for Glioblastoma Multiforme Treatment Line-scanning particle image velocimetry: an optical approach for quantifying a wide range of blood flow speeds in live animals Modeling of Cerebral Oxygen Transport Based on In vivo Microscopic Imaging of Microvascular Network Structure, Blood Flow, and Oxygenation Two-photon microscopy as a tool to study blood flow and neurovascular coupling in the rodent brain.Frontiers in optical imaging of cerebral blood flow and metabolism Speckle variance optical coherence tomography of the rodent spinal cord: in vivo feasibility Functional imaging and endoscopy.Occlusion of cortical ascending venules causes blood flow decreases, reversals in flow direction, and vessel dilation in upstream capillaries.A polished and reinforced thinned-skull window for long-term imaging of the mouse brain Optical coherence Doppler tomography for quantitative cerebral blood flow imaging Multiparametric, longitudinal optical coherence tomography imaging reveals acute injury and chronic recovery in experimental ischemic stroke.Vascular remodeling after ischemic stroke: mechanisms and therapeutic potentials Cranial window implantation on mouse cortex to study microvascular change induced by cocaine.Impaired leptomeningeal collateral flow contributes to the poor outcome following experimental stroke in the Type 2 diabetic mice.Multimodal reconstruction of microvascular-flow distributions using combined two-photon microscopy and Doppler optical coherence tomography In vivo two-photon excited fluorescence microscopy reveals cardiac- and respiration-dependent pulsatile blood flow in cortical blood vessels in mice Fully distributed absolute blood flow velocity measurement for middle cerebral arteries using Doppler optical coherence tomography.High-resolution in vivo optical imaging of stroke injury and repair.Expanding applications, accuracy, and interpretation of laser speckle contrast imaging of cerebral blood flow.Review of optical coherence tomography based angiography in neuroscience.Noise-immune complex correlation for optical coherence angiography based on standard and Jones matrix optical coherence tomography.Compartment-resolved imaging of cortical functional hyperemia with OCT angiography.Optical coherence angiography: A review.Statistical parametric mapping of stimuli evoked changes in total blood flow velocity in the mouse cortex obtained with extended-focus optical coherence microscopy.Optical coherence tomography based angiography [Invited].Model-based inference from microvascular measurements: Combining experimental measurements and model predictions using a Bayesian probabilistic approach.Optically quantified cerebral blood flow.Validation and optimization of hypercapnic-calibrated fMRI from oxygen-sensitive two-photon microscopy.Spatio-temporal dynamics of cerebral capillary segments with stalling red blood cells.Volumetric Doppler angle correction for ultrahigh-resolution optical coherence Doppler tomography.Holographic line field en-face OCT with digital adaptive optics in the retina in vivo.Can OCT Angiography Be Made a Quantitative Blood Measurement Tool?Doppler OCT clutter rejection using variance minimization and offset extrapolation

P2860

Q26773083-318EDBA8-21EA-4854-9237-97F2A06134A0 Q27301388-83BEBA54-EEF8-4454-8C7A-E03AF49CB727 Q28079394-4F0B496E-5CEE-4826-A19B-7B64BF035BD6 Q30452927-669B4C7A-6049-4C25-8423-A1D3BE987CDF Q30452929-73E11FD3-67D4-4464-AB41-FC0EEC1545ED Q30467795-1EE370A5-13F0-44C9-9610-5E50F19E5123 Q30472895-D68AF988-DEE6-4743-B75E-2ABF63F76054 Q33945312-33DF3D33-AA8C-44A5-A8BF-72B503BF1CEA Q34203517-3716A95A-31E9-48B5-9BE1-87428A9ED440 Q34505411-AFC72CED-E2E2-4BC6-B344-F7EA9DAE58E4 Q34937729-D9070EA5-90B3-4A1B-A2F1-B77454E362E1 Q34972793-18B06BC7-A7BA-41CC-8F62-6C4D36887C49 Q35032911-A0DB6AB1-1298-45EC-A511-CCDCB3F1E84E Q35142897-F2A76678-4BBF-4856-A80A-9275070934D4 Q35686817-2C0A0482-B191-4B7B-AB15-B44179487475 Q35900923-1A16F6DA-E1D5-4FAC-863D-77655943D720 Q35957088-2063A955-E0C7-4FC1-8C37-47A4AE4F36DA Q36058953-FCF867B2-DD25-46F8-8BAB-831622EF1AC7 Q36267293-1EDD5FD2-88E7-49BB-ADFC-7C4CF6C8BB4D Q36480491-BAC24E9E-FFF6-4AC3-B62C-7E01C6F6E6E4 Q37057652-8F9000EB-3A48-4AB0-B106-2BC6165A97D3 Q37130437-4402AFCA-1AE6-473C-BA81-D3FFCBFAD196 Q37354735-01B8F1B8-BE13-410C-8613-CFE41D9E146B Q37583059-1DC1396D-1E88-44A9-B2EE-BBFA47FF4485 Q37671888-7C3C200B-E6C6-4789-BE03-45AEE61152B1 Q39092945-E3D5CC0D-5966-4197-992A-F6DF0E3EA96E Q41903754-C58FD8DB-6EE9-4ADE-92C1-D45EF0C5BC77 Q42135830-45A626B5-EBCC-47D8-934B-8B5CE0765F79 Q47227963-C1F9C1D1-6107-48C0-90DF-0B7D074D3F28 Q48005151-2332BD5A-0EC0-4ADF-A5E4-76EAB8851054 Q52649543-6AC196EA-D893-40A0-ACED-41403312B165 Q55529858-AD27DF7D-2E9C-4DB0-AC1E-614822FB9383 Q59135749-3956719E-61FD-4592-9B04-DA7A867E1D1B

P2860

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

http://www.wikidata.org/entity/Q31000952

description

2011 nî lūn-bûn

@nan

2011 թուականի Մարտին հրատարակուած գիտական յօդուած

@hyw

2011 թվականի մարտին հրատարակված գիտական հոդված

@hy

2011年の論文

@ja

2011年論文

@yue

2011年論文

@zh-hant

2011年論文

@zh-hk

2011年論文

@zh-mo

2011年論文

@zh-tw

2011年论文

@wuu

name

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@ast

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@en

type

label

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@ast

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@en

prefLabel

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@ast

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@en

P1433

Q31000952-544A6728-8C4F-460D-A657-F05228D71F33

P1476

Q31000952-6551677E-9B77-4163-B637-DE20C96D987B

P2093

Q31000952-1C33A660-EA27-4495-BD7C-898B3E5546A7

Q31000952-231B7D03-DDC0-4FD4-8D91-5F9FD326B0B2

Q31000952-295284AF-D427-4703-B190-02CDE86FFEF6

Q31000952-7B8167C4-9293-41C7-90B6-4EDA90F4B2AD

Q31000952-7C74DF9F-4448-45D4-8607-52A2D3A9D8E9

Q31000952-C3B8CB8A-35E5-43B5-B1D2-2287D212FB58

Q31000952-E4164571-6C9F-41E0-8038-A4E6CE4F55EF

Q31000952-E851387E-C10D-4165-BCCA-6433F627BE97

Q31000952-EDC499E6-6DD9-4E71-8A9C-316DE0D8B412

P2860

Q31000952-1BBF2196-4397-41FC-9083-66449D7D2891

Q31000952-276F4D20-6CDC-4F3F-B558-7272C3BD1DB3

Q31000952-5E0FB70B-F565-45AD-900C-35A433AE102A

Q31000952-6500A1C6-AA6D-44A8-8403-2BF981F489BF

Q31000952-8C391867-576F-46B9-9433-ADC84B874B10

Q31000952-9E29DFF5-F64C-4DE1-96FD-E5D2191E0F2E

Q31000952-9F70D0B5-0D6E-422F-BA24-E1B5644F2932

Q31000952-A66BA062-DC34-42D7-8337-8313A943C171

Q31000952-B28C1544-BA68-45C9-A35C-24C5F1D4F6B9

Q31000952-C015AD49-B17D-4D16-AC75-9B6986A95A09

P304

Q31000952-9DDCA8C5-9B78-48DC-8430-AF76F5AB5AB2

P31

Q31000952-418421D2-8EAC-446F-97E0-0C057BD9319C

P356

Q31000952-25DBC63D-34D5-46FE-BC08-DDE375D4D11F

P433

Q31000952-B5C644B2-2F39-440C-A95A-3EBF23F686BD

P478

Q31000952-32F2453C-613A-4BE4-9EC2-2E6C3C1FD5AC

P50

Q31000952-0E0B7EC2-7FB4-4964-89AD-FCF06C6C5647

Q31000952-F6DCAC48-8654-4392-8726-046B04E91969

P577

Q31000952-54E4C590-6629-4F60-AC32-491DFA1FB23F

P5875

Q31000952-25E8470F-DB89-4B23-967F-05CAD48A6BE5

P698

Q31000952-E904616D-81F2-45B6-9B36-1E3378B76755

P932

Q31000952-91607B6D-C0AC-4023-8B42-33427547EEDC

P356

P1433

Journal of Cerebral Blood Flow & Metabolism

P1476

Optical coherence tomography for the quantitative study of cerebrovascular physiology.

@en

P2093

Alex E Cable

http://www.w3.org/2001/XMLSchema#string

Dmitriy N Atochin

http://www.w3.org/2001/XMLSchema#string

Harsha Radhakrishnan

http://www.w3.org/2001/XMLSchema#string

James Y Jiang

http://www.w3.org/2001/XMLSchema#string

Paul L Huang

http://www.w3.org/2001/XMLSchema#string

Scott Barry

http://www.w3.org/2001/XMLSchema#string

Svetlana Ruvinskaya

http://www.w3.org/2001/XMLSchema#string

Vivek J Srinivasan

http://www.w3.org/2001/XMLSchema#string

Weicheng Wu

http://www.w3.org/2001/XMLSchema#string

P2860

Cerebral blood flow and brain oxygenation in rats breathing oxygen under pressure

Three-dimensional microscopy of the tumor microenvironment in vivo using optical frequency domain imaging.

Measuring cerebral blood flow using magnetic resonance imaging techniques.

Quantitative cerebral blood flow with optical coherence tomography

Rapid volumetric angiography of cortical microvasculature with optical coherence tomography.

Microvascular rheology and hemodynamics.

Assessment of infant brain development with frequency-domain near-infrared spectroscopy

H2 clearance measurement of blood flow: a review of technique and polarographic principles.

On the energy dissipation in a tank-treading human red blood cell.

Depth profile of local oxygen tension and blood flow in rat cerebral cortex, white matter and hippocampus.

P304

1339-1345

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/JCBFM.2011.19

http://www.w3.org/2001/XMLSchema#string

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

31

http://www.w3.org/2001/XMLSchema#string

P50

P577

2011-03-02T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

50250517

http://www.w3.org/2001/XMLSchema#string

P698

21364599

http://www.w3.org/2001/XMLSchema#string

P932

3130321

http://www.w3.org/2001/XMLSchema#string