Characterizing the transient response of knee cartilage to running: Decreases in cartilage T2 of female recreational runners.

Cartilage transmits and redistributes biomechanical loads in the knee joint during exercise. Exercise‐induced loading alters cartilage hydration and is detectable using quantitative magnetic resonance imaging (MRI), where T2 relaxation time (T2) is influenced by cartilage collagen composition, fiber orientation, and changes in the extracellular matrix. This study characterized short‐term transient responses of healthy knee cartilage to running‐induced loading using bilateral scans and image registration. Eleven healthy female recreational runners (33.73 ± 4.22 years) and four healthy female controls (27.25 ± 1.38 years) were scanned on a 3T GE MRI scanner with quantitative 3D double‐echo in steady‐state before running over‐ground (runner group) or resting (control group) for 40 min. Subjects were scanned immediately post‐activity at 5‐min intervals for 60 min. T2 times were calculated for femoral, tibial, and patellar cartilage at each time point and analyzed using a mixed‐effects model and Bonferroni post hoc. There were immediate decreases in T2 (mean ± SEM) post‐run in superficial femoral cartilage of at least 3.3% ± 0.3% (p =.002) between baseline and Time 0 that remained for 25 min, a decrease in superficial tibial cartilage T2 of 2.9% ± 0.4% (p =.041) between baseline and Time 0, and a decrease in superficial patellar cartilage T2 of 3.6% ± 0.3% (p =.020) 15 min post‐run. There were decreases in the medial posterior region of superficial femoral cartilage T2 of at least 5.3 ± 0.2% (p =.022) within 5 min post‐run that remained at 60 min post‐run. These results increase understanding of transient responses of healthy cartilage to repetitive, exercise‐induced loading and establish preliminary recommendations for future definitive studies of cartilage response to running. [ABSTRACT FROM AUTHOR]