A novel technique for modeling susceptibility-based contrast mechanisms for arbitrary microvascular geometries: the finite perturber method
about
Sensitivity of MRI tumor biomarkers to VEGFR inhibitor therapy in an orthotopic mouse glioma modelA simulation tool for dynamic contrast enhanced MRI.Vessel caliber--a potential MRI biomarker of tumour response in clinical trials.An efficient computational approach to characterize DSC-MRI signals arising from three-dimensional heterogeneous tissue structuresA theoretical framework to model DSC-MRI data acquired in the presence of contrast agent extravasation.Magnetic resonance imaging of brain angiogenesis after strokeIn vivo validation of MRI vessel caliber index measurement methods with intravital optical microscopy in a U87 mouse brain tumor model.Volumetric BOLD fMRI simulation: from neurovascular coupling to multivoxel imaging.Biophysical modeling of phase changes in BOLD fMRI.Vascular phenotyping of brain tumors using magnetic resonance microscopy (μMRI).Quantifying the microvascular origin of BOLD-fMRI from first principles with two-photon microscopy and an oxygen-sensitive nanoprobeBlood oxygenation level-dependent functional MRI signal turbulence caused by ultrahigh spatial resolution: numerical simulation and theoretical explanationCharacterization of tumor angiogenesis in rat brain using iron-based vessel size index MRI in combination with gadolinium-based dynamic contrast-enhanced MRIQuantification of SPIO nanoparticles in vivo using the finite perturber method.Multiscale imaging and computational modeling of blood flow in the tumor vasculature.MR molecular imaging of tumor vasculature and vascular targets.Difference in the intratumoral distributions of extracellular-fluid and intravascular MR contrast agents in glioblastoma growth.Effects of MRI Protocol Parameters, Preload Injection Dose, Fractionation Strategies, and Leakage Correction Algorithms on the Fidelity of Dynamic-Susceptibility Contrast MRI Estimates of Relative Cerebral Blood Volume in Gliomas.Assessing breast cancer angiogenesis in vivo: which susceptibility contrast MRI biomarkers are relevant?Vessel size index measurements in a rat model of glioma: comparison of the dynamic (Gd) and steady-state (iron-oxide) susceptibility contrast MRI approaches.Effect of surrounding vasculature on intravoxel BOLD signal.Tracking and Quantification of Magnetically Labeled Stem Cells using Magnetic Resonance Imaging.Contributions of chemical and diffusive exchange to T1ρ dispersion.Magnetic Resonance Characterization of Porous Media Using Diffusion through Internal Magnetic Fields.Internal gradient distributions: A susceptibility-derived tensor delivering morphologies by magnetic resonanceUnderstanding the morphological mismatch between magnetic susceptibility source and t2* imageValidation and optimization of hypercapnic-calibrated fMRI from oxygen-sensitive two-photon microscopy.Magnitude and phase behavior of multiresolution BOLD signal.A computational multiresolution BOLD fMRI model.The impact of vessel size, orientation and intravascular contribution on the neurovascular fingerprint of BOLD bSSFP fMRI.A population-specific symmetric phase model to automatically analyze susceptibility-weighted imaging (SWI) phase shifts and phase symmetry in the human brain.In vivo imaging of vessel diameter, size, and density: a comparative study between MRI and histology.Analysis of multiple sclerosis lesions using a fusion of 3.0 T FLAIR and 7.0 T SWI phase: FLAIR SWI.MRI Simulation Study Investigating Effects of Vessel Topology, Diffusion, and Susceptibility on Transverse Relaxation Rates Using a Cylinder Fork Model.MR evaluation of vessel size imaging of human gliomas: Validation by histopathology.Brain functional BOLD perturbation modelling for forward fMRI and inverse mapping.UTE-ΔR2 -ΔR2 * combined MR whole-brain angiogram using dual-contrast superparamagnetic iron oxide nanoparticles.Influence of the size and curvedness of neural projections on the orientationally averaged diffusion MR signal.Brain tumors disrupt the resting-state connectome.Spatiotemporal heterogeneity of tumor vasculature during tumor growth and antiangiogenic treatment: MRI assessment using permeability and blood volume parameters.
P2860
Q28742242-D1E0B716-9283-40EE-911D-87C374600B62Q30604706-AB6CD32F-2BE3-4548-8745-B722AC860681Q30651792-2164C9DD-AABC-4578-AABD-E1D7ACCFEBDAQ30731774-BCF1BB21-399C-4CD6-9E07-97DD0E0BE764Q33499951-FA9E4768-8B33-4E78-B9DF-180EBE713429Q33605839-921ADD81-7CE1-4B79-8B8B-8930C3190F5AQ34132818-1EE31F20-5702-4CB8-9195-2C7769905BE1Q34242115-6643C3C1-F16E-4379-8315-ECE74957B5BBQ35107982-04E6CC41-FAF1-4721-B4DB-A5847311132CQ35108532-7E50A3A0-B6D9-4F03-9708-80768E76FC47Q35117656-EC8AD1D3-8A3B-41F2-B261-CEB7718CADCAQ35619234-CFE7D098-BB63-44E8-ABC3-3BE1F77A2C47Q35946168-BE1C07DF-9D6A-4B40-9D51-4C02852693A8Q36729275-3BF25DC0-51E2-4896-A311-092E094790F8Q37259677-2B52B5D6-0F5D-4322-8415-3C91ADAD9ADCQ37784288-D384DB88-B947-4219-86D5-AEAD91BDC65EQ38376846-12D6EA77-C6FE-483C-8004-B013FA4A0718Q39051829-062FF2F7-393A-4EE3-AD08-507DD1115AEDQ39229419-8C17F390-7F99-4CEA-B167-8496D125D3EFQ39507583-51A016FD-C11F-483D-B8B5-AC1D9EEAA9CFQ40368886-A351AB10-8DE4-4A69-8722-A179818817D4Q41121610-00ADBE93-04D5-4ED5-8062-6260C853438BQ41950881-67A8D9C9-E6D0-43E7-97D9-CA7115102F7CQ42002696-6027E695-CEB8-4DBA-B286-4258A8524722Q42071740-E722710D-8D7D-4436-B81C-A156C8036480Q42099887-E42A3FBF-0628-4150-B1C0-2FAD1060EB96Q42135830-57F0962B-7C0E-4D08-B02B-959F6B489402Q42417031-1A625054-6BEA-4FF8-81FF-450EB717DC28Q43118218-31EBF195-73F6-400E-9578-0BCB15980928Q43552056-6FB7DB2C-62E2-45C7-97C7-68DF69C5819EQ43901734-D14BADA9-0498-4559-96DE-1B635B8C0320Q43980822-AB17CE91-38BE-45C5-B9E7-FD79EF19F892Q44564326-B72D6EB1-B26D-4684-95E7-C73DD3613477Q47132821-E0851BAC-0AB2-423F-A731-B23DF18C0327Q47405585-2B4BCF8D-DC01-41C0-AD2B-62401C924C37Q47851641-9A368752-0A81-468E-AEEA-6492570B0730Q50862924-48B4C5CD-23C2-43FA-876E-23EB75989484Q53406180-1ABE0A8D-EBDC-49D0-BB4D-A8FC36048B9AQ55266169-9A450B22-77BA-4AA9-A896-61B7ECFDFC8CQ55456663-B9A81CD3-BB39-45DD-8629-F906324BE8AC
P2860
A novel technique for modeling susceptibility-based contrast mechanisms for arbitrary microvascular geometries: the finite perturber method
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
A novel technique for modeling ...... s: the finite perturber method
@en
type
label
A novel technique for modeling ...... s: the finite perturber method
@en
prefLabel
A novel technique for modeling ...... s: the finite perturber method
@en
P2093
P2860
P1433
P1476
A novel technique for modeling ...... s: the finite perturber method
@en
P2093
Arvind P Pathak
B Douglas Ward
Kathleen M Schmainda
P2860
P304
P356
10.1016/J.NEUROIMAGE.2008.01.022
P407
P577
2008-01-29T00:00:00Z