OBJECTIVE: T2 relaxation times on MRI are sensitive to the configuration of cartilage collagen and continually increase during aging in adults. In children, T2 relaxation times increase as a result of cartilage microstructure changes in early inflammatory arthritis. The purpose of this study was to determine age- and sex-related differences in T2 mapping of the patellar cartilage in children and adolescents during normal skeletal maturation. MATERIALS AND METHODS: Ninety-seven subjects (age range, 5-22 years; 51 females and 46 males; mean age, 14.3 and 13.7 years, respectively) without patellofemoral instability or inflammatory arthritis were included. All subjects underwent 1.5-T knee MRI with T2 mapping. The mean T2 relaxation time and thickness of the patellar cartilage were documented for each MRI examination. Skeletal maturation was determined by physeal patency (open; or closed or closing) on MRI. The associations between T2 relaxation times, cartilage thickness, sex, age, and physeal patency were assessed using Wilcoxon rank sum test and least-squares means regression models. RESULTS: T2 relaxation times and thickness of the patellar cartilage significantly decreased (p<0.0001) with increasing chronologic age. T2 relaxation times and cartilage thickness in the open physis group were found to be greater than in the closed or closing physis group (p<0.0001). T2 relaxation times and cartilage thickness were greater in males than in females (p<0.05). CONCLUSION: In contrast to senescent changes in adults, skeletal maturation in children results in a sequential decrease in T2 relaxation times that are age- and sex-dependent. Similar to cartilage in adults, cartilage in children gets progressively thinner during skeletal maturation.
OBJECTIVE: T2 relaxation times on MRI are sensitive to the configuration of cartilage collagen and continually increase during aging in adults. In children, T2 relaxation times increase as a result of cartilage microstructure changes in early inflammatory arthritis. The purpose of this study was to determine age- and sex-related differences in T2 mapping of the patellar cartilage in children and adolescents during normal skeletal maturation. MATERIALS AND METHODS: Ninety-seven subjects (age range, 5-22 years; 51 females and 46 males; mean age, 14.3 and 13.7 years, respectively) without patellofemoral instability or inflammatory arthritis were included. All subjects underwent 1.5-T knee MRI with T2 mapping. The mean T2 relaxation time and thickness of the patellar cartilage were documented for each MRI examination. Skeletal maturation was determined by physeal patency (open; or closed or closing) on MRI. The associations between T2 relaxation times, cartilage thickness, sex, age, and physeal patency were assessed using Wilcoxon rank sum test and least-squares means regression models. RESULTS: T2 relaxation times and thickness of the patellar cartilage significantly decreased (p<0.0001) with increasing chronologic age. T2 relaxation times and cartilage thickness in the open physis group were found to be greater than in the closed or closing physis group (p<0.0001). T2 relaxation times and cartilage thickness were greater in males than in females (p<0.05). CONCLUSION: In contrast to senescent changes in adults, skeletal maturation in children results in a sequential decrease in T2 relaxation times that are age- and sex-dependent. Similar to cartilage in adults, cartilage in children gets progressively thinner during skeletal maturation.
Authors: Sandra J Shultz; Randy J Schmitz; Kenneth L Cameron; Kevin R Ford; Dustin R Grooms; Lindsey K Lepley; Gregory D Myer; Brian Pietrosimone Journal: J Athl Train Date: 2019-08-28 Impact factor: 2.860
Authors: Susan Cheng Shelmerdine; Pier Luigi Di Paolo; Laura Tanturri de Horatio; Clara Malattia; Silvia Magni-Manzoni; Karen Rosendahl Journal: Pediatr Radiol Date: 2018-05-08
Authors: Leonie Waldenmeier; Christoph Evers; Michael Uder; Rolf Janka; Frank Friedrich Hennig; Milena L Pachowsky; Götz Hannes Welsch Journal: Cartilage Date: 2018-02-15 Impact factor: 4.634
Authors: Jie C Nguyen; Hailey Allen; Fang Liu; Kaitlin M Woo; Zhaoye Zhou; Richard Kijowski Journal: AJR Am J Roentgenol Date: 2018-10-09 Impact factor: 3.959