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Renal diffusion and BOLD MRI in experimental diabetic nephropathy
Mario Ries
, Fabrice Basseau
, Benoît Tyndal
, Richard Jones
, Colette Deminière
, Bogdan Catargi
, Christian Combe
, Chrit W.T. Moonen
, Nicolas Grenier
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:
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Artikel
›
peer review
214
Citaten (Scopus)
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Gewicht
Alfabetische volgorde
Medicine and Dentistry
Magnetic Resonance Imaging
100%
Diabetes Mellitus
100%
Experimental Diabetic Nephropathy
100%
Blood-Oxygen-Level Dependent
100%
Furosemide
66%
Ultrafiltration
66%
Kidney Function
33%
Histopathology
33%
Tissue Injury
33%
Medulla
33%
Ischemia
33%
Hypoxia
33%
Edema
33%
Diffusion MRI
33%
Energy Metabolism
33%
Oxygen Saturation
33%
Diffusion Imaging
33%
Keyphrases
Apparent Diffusion Coefficient
100%
Blood Oxygenation Level-dependent MRI
100%
Experimental Diabetic Nephropathy
100%
T2 Value
42%
Kidney
28%
Furosemide
28%
Pathological Changes
28%
Pathological Findings
14%
Physiological Changes
14%
Dynamic Change
14%
Energy Metabolism
14%
Hypoxia
14%
Diabetic
14%
Type 1 Diabetes Mellitus (T1DM)
14%
Ischemia
14%
Renal Function
14%
Ischemic Lesion
14%
Diffusion Imaging
14%
Diffusion-weighted Imaging
14%
Edema
14%
Oxygen Saturation
14%
Diffusion Measurements
14%
Diffusion Coefficient Measurement
14%
Blood Volume Change
14%
Hyperfiltration
14%
Contrast Imaging
14%
Glomerular Hyperfiltration
14%
Reserve Capacity
14%
Outer Medulla
14%
Renal Tissue Damage
14%
Tubular Transport
14%
Blood Oxygen Level Dependent (BOLD) Response
14%
Diabetic Kidney
14%
Current Energy
14%
Pharmacology, Toxicology and Pharmaceutical Science
Diabetes Mellitus
100%
Experimental Diabetic Nephropathy
100%
Furosemide
66%
Tissue Injury
33%
Hypoxia
33%
Ischemia
33%
Edema
33%
Immunology and Microbiology
Magnetic Resonance Imaging
100%
Oxygen Blood Level
100%
Apparent Diffusion Coefficient
100%
Ultrafiltration
28%
Energy Metabolism
14%
Kidney Function
14%
Blood Oxygen Tension
14%
Diffusion Imaging
14%
Biochemistry, Genetics and Molecular Biology
Furosemide
28%