OBJECTIVE: Our objective was to analyze MRI contrast-enhancement patterns in arthritic and nonarthritic knees and the relationship of those patterns with clinical, laboratory, and histologic synovium markers. MATERIALS AND METHODS: Dynamic contrast-enhanced MRI was performed in nine arthritic and three nonarthritic knees of juvenile rabbits. A two-compartment pharmacokinetic model of signal intensity-time data was implemented to generate parametric maps of signal slope, maximal percentage of signal change, capillary permeability, leakage space volume, and time-to-peak. MRI values were compared with clinical, laboratory, and histologic markers for evaluation of synovial changes during the progression of arthritis. RESULTS: Parametric maps of capillary permeability and signal slope depicted significant differences between arthritic and nonarthritic knees. Arthritic knees showed increased capillary permeability (p = 0.006) and signal slope (p = 0.01) with time after onset of disease as opposed to nonarthritic knees (permeability, p = 0.65; slope, p = 0.56). Significant correlations were found between temporal changes in capillary permeability (p = 0.002), signal slope (p = 0.003), and serum concentrations of amyloid A. No relationship was noted between any MRI parameters and histologic scores. The discriminative power of MRI indexes varied according to the stage of arthritis: time-to-peak was most accurate for differentiation of presence versus absence of arthritis in early arthritis (day 1, p = 0.0002), and signal slope was most accurate in midterm arthritis (day 14, p = 0.001). CONCLUSION: In vivo capillary permeability and signal slope have distinctive dynamic MRI properties. The accuracy of MRI parameters for diagnostic evaluation of experimental arthritis differs according to the stage of disease.
OBJECTIVE: Our objective was to analyze MRI contrast-enhancement patterns in arthritic and nonarthritic knees and the relationship of those patterns with clinical, laboratory, and histologic synovium markers. MATERIALS AND METHODS: Dynamic contrast-enhanced MRI was performed in nine arthritic and three nonarthritic knees of juvenile rabbits. A two-compartment pharmacokinetic model of signal intensity-time data was implemented to generate parametric maps of signal slope, maximal percentage of signal change, capillary permeability, leakage space volume, and time-to-peak. MRI values were compared with clinical, laboratory, and histologic markers for evaluation of synovial changes during the progression of arthritis. RESULTS: Parametric maps of capillary permeability and signal slope depicted significant differences between arthritic and nonarthritic knees. Arthritic knees showed increased capillary permeability (p = 0.006) and signal slope (p = 0.01) with time after onset of disease as opposed to nonarthritic knees (permeability, p = 0.65; slope, p = 0.56). Significant correlations were found between temporal changes in capillary permeability (p = 0.002), signal slope (p = 0.003), and serum concentrations of amyloid A. No relationship was noted between any MRI parameters and histologic scores. The discriminative power of MRI indexes varied according to the stage of arthritis: time-to-peak was most accurate for differentiation of presence versus absence of arthritis in early arthritis (day 1, p = 0.0002), and signal slope was most accurate in midterm arthritis (day 14, p = 0.001). CONCLUSION: In vivo capillary permeability and signal slope have distinctive dynamic MRI properties. The accuracy of MRI parameters for diagnostic evaluation of experimental arthritis differs according to the stage of disease.
Authors: Andrea S Doria; Raffi Karshafian; Rahim Moineddin; Arun Mohanta; Anguo Zhong; Maria Mendes; Kenneth Pritzker; Roland Jong; Peter Burns Journal: Pediatr Radiol Date: 2006-10-19
Authors: Otilia C Nasui; Michael W Chan; George Nathanael; Adrian Crawley; Elka Miller; Jaques Belik; Hai-Ling Cheng; Andrea Kassner; Tammy Rayner; Ruth Weiss; Garry Detzler; Anguo Zhong; Rahim Moineddin; Roland Jong; Marianne Rogers; Andrea S Doria Journal: Eur Radiol Date: 2014-09-04 Impact factor: 5.315
Authors: Michael W Chan; George Nathanael; Antonella Kis; Afsaneh Amirabadi; Anguo Zhong; Tammy Rayner; Ruth Weiss; Garry Detzler; Roland Jong; Harpal Gahunia; Rahim Moineddin; Adrian Crawley; Andrea S Doria Journal: Pediatr Radiol Date: 2013-12-24
Authors: Andrea S Doria; Adrian Crawley; Paul Babyn; Tammy Rayner; Marjorie McLimont; Rahim Moineddin; Ronald Laxer; Brian Feldman Journal: Clinics (Sao Paulo) Date: 2013-05 Impact factor: 2.365