about
Non-destructive monitoring of creaming of oil-in-water emulsion-based formulations using magnetic resonance imaging.Effective blood signal suppression using double inversion-recovery and slice reordering for multislice fast spin-echo MRI and its application in simultaneous proton density and T2 weighted imaging.Effects of AZD2171 and vandetanib (ZD6474, Zactima) on haemodynamic variables in an SW620 human colon tumour model: an investigation using dynamic contrast-enhanced MRI and the rapid clearance blood pool contrast agent, P792 (gadomelitol).Measurement of temperature changes in cooling dead rats using magnetic resonance thermometry.Relationship between diffusivity of water molecules inside hydrating tablets and their drug release behavior elucidated by magnetic resonance imaging.Targeted deletion of both thymidine phosphorylase and uridine phosphorylase and consequent disorders in miceApplication of (19)F chemical shift imaging in studies of mice with orally administered 5-fluorouracil.Accuracy of equilibrium magnetization mapping in sliced two-dimensional spoiled gradient-recalled echo pulse sequence with variable flip angle.Averaging keyhole pulse sequence with presaturation pulses and EXORCYCLE phase cycling for dynamic contrast-enhanced MRI.Misregistration artifacts in image-derived arterial input function in non-echo-planar imaging-based dynamic contrast-enhanced MRIDetection of atherosclerotic lesions in apolipoprotein E knockout mice using USPIO-enhanced magnetic resonance imagingSpatial coefficient of variation in pseudo-continuous arterial spin labeling cerebral blood flow images as a hemodynamic measure for cerebrovascular steno-occlusive disease: A comparative 15O positron emission tomography studyAdvantages of fluid and white matter suppression (FLAWS) with MP2RAGE compared with double inversion recovery turbo spin echo (DIR-TSE) at 7T
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Q30620589-63B7C80C-E7E2-43ED-ACA1-D7C497CF2780Q30972292-359DDB71-378A-4A22-B27D-5B8D965886B3Q33282771-ED31A767-2E3D-4197-A89F-3D1B349BD4F7Q34028129-F0D04E8E-6A5E-40F3-92C4-3BE7D2AC227CQ34216266-0A2D532B-BC3A-4346-8CC0-78C395465B12Q34441342-7BB9E40B-A8A7-4DF9-8371-2E921A775074Q43776084-6D1B3606-4F61-43FA-8268-AB84303D5CA5Q44575065-E71B3D8C-1F23-479B-AA32-09D72FFC65F1Q51373376-512F3ACA-3FC0-491F-B189-9FE9D1E2C0C7Q80372751-B0AE9BC0-A5F0-4C42-B416-054B2795C20CQ84482549-E10516DF-E6DC-46FA-994F-ADB26B8EC17EQ88993840-76088153-4EF4-4AA5-A55C-F83C8BF3843DQ92461454-1D3BA081-D702-4A92-969E-DF116F411BCB
P50
description
researcher
@en
name
Hideto Kuribayashi
@en
Hideto Kuribayashi
@nl
type
label
Hideto Kuribayashi
@en
Hideto Kuribayashi
@nl
prefLabel
Hideto Kuribayashi
@en
Hideto Kuribayashi
@nl
P106
P31
P496
0000-0003-2276-9307