Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
about
Neurovascular coupling: in vivo optical techniques for functional brain imaging.Topology and hemodynamics of the cortical cerebrovascular systemModeling of Cerebral Oxygen Transport Based on In vivo Microscopic Imaging of Microvascular Network Structure, Blood Flow, and OxygenationA coupled discrete/continuum model for describing cancer-therapeutic transport in the lungVascular phenotyping of brain tumors using magnetic resonance microscopy (μMRI).Multimodal reconstruction of microvascular-flow distributions using combined two-photon microscopy and Doppler optical coherence tomographyThree-dimensional imaging of microvasculature in the rat spinal cord following injuryDepth-dependent flow and pressure characteristics in cortical microvascular networks.Going beyond 20 μm-sized channels for studying red blood cell phase separation in microfluidic bifurcations.Correlations of neuronal and microvascular densities in murine cortex revealed by direct counting and colocalization of nuclei and vessels.Multiscale imaging and computational modeling of blood flow in the tumor vasculature.Comparison of generated parallel capillary arrays to three-dimensional reconstructed capillary networks in modeling oxygen transport in discrete microvascular volumes.A bioimage informatics based reconstruction of breast tumor microvasculature with computational blood flow predictions.Pericyte-mediated regulation of capillary diameter: a component of neurovascular coupling in health and diseaseCerebral blood flow measurement in neurosurgery.The capillary bed offers the largest hemodynamic resistance to the cortical blood supply.A statistical model of the penetrating arterioles and venules in the human cerebral cortex.3D angioarchitecture changes after spinal cord injury in rats using synchrotron radiation phase-contrast tomography.Cerebral microcirculation and oxygen tension in the human secondary cortex.Extra permeability is required to model dynamic oxygen measurements: evidence for functional recruitment?Cerebral blood flow modeling in primate cortex.Reproduction of consistent pulse-waveform changes using a computational model of the cerebral circulatory system.A computational approach to generate concurrent arterial networks in vascular territories.Hematocrit distribution and tissue oxygenation in large microcirculatory networks.Impedance boundary conditions for general transient hemodynamics.MRI Simulation Study Investigating Effects of Vessel Topology, Diffusion, and Susceptibility on Transverse Relaxation Rates Using a Cylinder Fork Model.Precise Cerebral Vascular Atlas in Stereotaxic Coordinates of Whole Mouse Brain.Insights into cerebral haemodynamics and oxygenation utilising in vivo mural cell imaging and mathematical modelling.Multiscale modelling of blood flow in cerebral microcirculation: Details at capillary scale control accuracy at the level of the cortex.The impact of capillary dilation on the distribution of red blood cells in artificial networks.Red blood cell distribution in simplified capillary networks.From arteries to boreholes: steady-state response of a poroelastic cylinder to fluid injection.How does blood regulate cerebral temperatures during hypothermia?The Relation Between Capillary Transit Times and Hemoglobin Saturation Heterogeneity. Part 2: Capillary Networks
P2860
Q21245888-889665F3-C7C5-40BC-BEB8-D2CC132D6776Q26861314-75FD4454-F642-4B3D-BA37-AF85F4C298A1Q28079394-91A3F991-4F0C-4C19-8C02-6B31633C3AC8Q28481542-85D7FC6A-716B-4498-B6BD-B73DA5178CA2Q35108532-FAAEB74E-2CA4-404B-8F86-5D001BCB43D4Q35686817-F02312EC-CA8F-4DEC-ACE7-2BFD4977561BQ35898397-61BC7414-40A0-47A6-B129-7697A0E310D0Q36279966-EFB13817-D3A4-4876-957F-7972E751B55FQ36901063-AC15D31C-EC7F-443C-8417-233A2B6064B5Q37149169-992A766E-51BB-4CB0-85EB-B19F745977A0Q37259677-4C4EC2AB-7EC7-4504-AFAB-266B1989FE91Q37395838-8CE1ABB7-AD0F-4629-BD43-5D3E144DCC7EQ37688862-74984202-EE92-4E81-9B19-C5716B5192BBQ37781281-04979774-B731-43F8-A37F-5DFD7851011BQ38170030-9B0E7794-40F3-4653-B8D4-DEF445F54A5FQ39249951-27900BD3-6801-4EB0-8363-2F63E59343DBQ39372293-E876FE05-5567-4162-A444-5E04A6E86394Q40267576-EA17F5A8-E395-4DBC-92F2-8E3B146A5C8DQ41845813-5792AF99-B956-47B7-ADC2-8DF81C587EB0Q42158469-85C9604C-76A8-4659-A6C6-134E8D7C93F5Q42575968-412BB337-DCC3-4352-A474-5E60FB78FA2BQ43071584-B0589551-549A-4530-A3EE-6BC9249693E5Q44747922-A5602A24-9436-4234-9641-47ED0D75E038Q45309916-43511181-2C1D-42B5-8CB1-8FC57F6D1FB7Q45770093-A81FB893-1908-43AA-A98C-A739378162C0Q47132821-050FC14D-FDC7-4107-B9D0-7465051E138CQ47192500-5B8CCAC4-E7DA-4DEC-8DFB-CBCBB318FCDAQ47557778-698FC85F-2F76-4A13-A821-AA9E30E95022Q47737999-96B776B9-6569-4CEF-AAF7-FEF9F748D589Q50453109-3FE81A6C-C0F0-479A-8F12-F21CDC39C251Q50577500-DBACDB1B-0C2E-4C1F-AFB0-BCB76F92C880Q55030816-D27CB977-0010-4021-BEE5-CAE2792A3100Q55191134-9794C2B5-0425-459C-A1C9-99273BCA7C95Q57300070-48FA1A91-45B4-40DE-B94F-C8B04BA4518B
P2860
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@en
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@nl
type
label
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@en
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@nl
prefLabel
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@en
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@nl
P2093
P2860
P356
P1476
Vascular graph model to simulate the cerebral blood flow in realistic vascular networks.
@en
P2093
Alfred Buck
Anna Lena Keller
Bruno Weber
Johannes Reichold
Marco Stampanoni
Patrick Jenny
P2860
P304
P356
10.1038/JCBFM.2009.58
P577
2009-05-13T00:00:00Z