Related references
Note: Only part of the references are listed.Fat Quantification in the Vertebral Body: Comparison of Modified Dixon Technique with Single-Voxel Magnetic Resonance Spectroscopy
Sang Hyup Lee et al.
KOREAN JOURNAL OF RADIOLOGY (2019)
Quantitative MRI and Spectroscopy of Bone Marrow
Dimitrios C. Karampinos et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2018)
Simultaneous Quantification of Bone Edema/Adiposity and Structure in Inflamed Bone Using Chemical Shift-Encoded MRI in Spondyloarthritis
Timothy J. P. Bray et al.
MAGNETIC RESONANCE IN MEDICINE (2018)
Proton density fat fraction (PDFF) MRI for differentiation of benign and malignant vertebral lesions
Frederic Carsten Schmeel et al.
EUROPEAN RADIOLOGY (2018)
Proton density fat fraction (PDFF) MR imaging for differentiation of acute benign and neoplastic compression fractures of the spine
Frederic Carsten Schmeel et al.
EUROPEAN RADIOLOGY (2018)
Clinical implications of bone marrow adiposity
A. G. Veldhuis-Vlug et al.
JOURNAL OF INTERNAL MEDICINE (2018)
Anatomical Variation of Age-Related Changes in Vertebral Bone Marrow Composition Using Chemical Shift Encoding-Based Water-Fat Magnetic Resonance Imaging
Thomas Baum et al.
FRONTIERS IN ENDOCRINOLOGY (2018)
Quantitative evaluation of T2*relaxation times for the differentiation of acute benign and malignant vertebral body fractures
Frederic Carsten Schmeel et al.
EUROPEAN JOURNAL OF RADIOLOGY (2018)
Reliability of measuring the fat content of the lumbar vertebral marrow and paraspinal muscles using MRI mDIXON-Quant sequence
Yong Zhang et al.
DIAGNOSTIC AND INTERVENTIONAL RADIOLOGY (2018)
Spinal multiparametric MRI and DEXA changes over time in men with prostate cancer treated with androgen deprivation therapy: a potential imaging biomarker of treatment toxicity
Jarad Martin et al.
EUROPEAN RADIOLOGY (2017)
Measurement of Fat Content in Vertebral Marrow Using a Modified Dixon Sequence to Differentiate Benign From Malignant Processes
Hye Jin Yoo et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2017)
Comparison of Chemical Shift-Encoded Water-Fat MRI and MR Spectroscopy in Quantification of Marrow Fat in Postmenopausal Females
Guanwu Li et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2017)
Multisite, Multivendor Validation of the Accuracy and Reproducibility of Proton-Density Fat-Fraction Quantification at 1.5T and 3T Using a Fat-Water Phantom
Diego Hernando et al.
MAGNETIC RESONANCE IN MEDICINE (2017)
Whole-body MRI quantitative biomarkers are associated significantly with treatment response in patients with newly diagnosed symptomatic multiple myeloma following bortezomib induction
Arash Latifoltojar et al.
EUROPEAN RADIOLOGY (2017)
Measurement of vertebral bone marrow proton density fat fraction in children using quantitative water-fat MRI
Stefan Ruschke et al.
MAGNETIC RESONANCE MATERIALS IN PHYSICS BIOLOGY AND MEDICINE (2017)
Proton Density Fat Fraction Measurements at 1.5-and 3-T Hepatic MR Imaging: Same-Day Agreement among Readers and across Two Imager Manufacturers
Suraj D. Serai et al.
RADIOLOGY (2017)
Short- and midterm reproducibility of marrow fat measurements using mDixon imaging in healthy postmenopausal women
Guanwu Li et al.
SKELETAL RADIOLOGY (2016)
Reproducibility of Intra- and Interscanner Measurements of Liver Fat Using Complex Confounder-corrected Chemical Shift Encoded MRI at 3.0 Tesla
Bing Wu et al.
SCIENTIFIC REPORTS (2016)
Comparison between modified Dixon MRI techniques, MR spectroscopic relaxometry, and different histologic quantification methods in the assessment of hepatic steatosis
Guido M. Kukuk et al.
EUROPEAN RADIOLOGY (2015)
Assessment of Whole Spine Vertebral Bone Marrow Fat Using Chemical Shift-Encoding Based Water-Fat MRI
Thomas Baum et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2015)
Modeling of T2* decay in vertebral bone marrow fat quantification
Dimitrios C. Karampinos et al.
NMR IN BIOMEDICINE (2015)
The bone-fat interface: basic and clinical implications of marrow adiposity
Maureen J. Devlin et al.
LANCET DIABETES & ENDOCRINOLOGY (2015)
Validation of bone marrow fat quantification in the presence of trabecular bone using MRI
Christina S. Gee et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2015)
T1 Bias in Chemical Shift-Encoded Liver Fat-Fraction: Role of the Flip Angle
Jens-Peter Kuehn et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2014)
Effect of Flip Angle on the Accuracy and Repeatability of Hepatic Proton Density Fat Fraction Estimation by Complex Data-Based, T1-Independent, T2*-Corrected, Spectrum-Modeled MRI
Benjamin L. Johnson et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2014)
Bone Marrow Fat Quantification in the Presence of Trabecular Bone: Initial Comparison Between Water-Fat Imaging and Single-Voxel MRS
Dimitrios C. Karampinos et al.
MAGNETIC RESONANCE IN MEDICINE (2014)
Water-Fat MRI for Assessing Changes in Bone Marrow Composition Due to Radiation and Chemotherapy in Gynecologic Cancer Patients
Patrick J. Bolan et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2013)
Quantification of Vertebral Bone Marrow Fat Content Using 3 Tesla MR Spectroscopy: Reproducibility, Vertebral Variation, and Applications in Osteoporosis
Xiaojuan Li et al.
JOURNAL OF MAGNETIC RESONANCE IMAGING (2011)
T1-Corrected Fat Quantification Using Chemical Shift-Based Water/Fat Separation: Application to Skeletal Muscle
Dimitrios C. Karampinos et al.
MAGNETIC RESONANCE IN MEDICINE (2011)
Quantification of Liver Fat with Magnetic Resonance Imaging
Scott B. Reeder et al.
MAGNETIC RESONANCE IMAGING CLINICS OF NORTH AMERICA (2010)
Statistical power analyses using G*Power 3.1: Tests for correlation and regression analyses
Franz Faul et al.
BEHAVIOR RESEARCH METHODS (2009)
Multiecho Water-Fat Separation and Simultaneous R2* Estimation With Multifrequency Fat Spectrum Modeling
Huanzhou Yu et al.
MAGNETIC RESONANCE IN MEDICINE (2008)
Java-based graphical user interface for MRUI, a software package for quantitation of in vivo/medical magnetic resonance spectroscopy signals
A Naressi et al.
COMPUTERS IN BIOLOGY AND MEDICINE (2001)
Share Paper
