OBJECTIVE: To evaluate regenerated articular cartilage quantitatively by introducing an ultrasonic probe into the knee joint under arthroscopy and analysing the A-mode echogram by means of wavelet transformation. METHODS: Three experimental rabbit models (spontaneous repair model, large cartilage defect model, treatment model) were examined using our ultrasonic evaluation system and a histological grading scale. From resulting wavelet map, the percentage of maximum magnitude was selected as the quantitative index of the ultrasonic evaluation system. RESULTS: The percentage maximum magnitude in the spontaneous repair model was 61.1%, that in the large defect model was 29.8% and that in the treatment model was 36.3%. There was modest correlation between the percentage maximum magnitude and the histological grading scale (r = -0.594) CONCLUSION: Our findings indicate that ultrasound analysis can predict the microstructure of regenerated cartilage.
OBJECTIVE: To evaluate regenerated articular cartilage quantitatively by introducing an ultrasonic probe into the knee joint under arthroscopy and analysing the A-mode echogram by means of wavelet transformation. METHODS: Three experimental rabbit models (spontaneous repair model, large cartilage defect model, treatment model) were examined using our ultrasonic evaluation system and a histological grading scale. From resulting wavelet map, the percentage of maximum magnitude was selected as the quantitative index of the ultrasonic evaluation system. RESULTS: The percentage maximum magnitude in the spontaneous repair model was 61.1%, that in the large defect model was 29.8% and that in the treatment model was 36.3%. There was modest correlation between the percentage maximum magnitude and the histological grading scale (r = -0.594) CONCLUSION: Our findings indicate that ultrasound analysis can predict the microstructure of regenerated cartilage.
Authors: Joseph M Mansour; Mostafa Motavalli; Jay Bensusan; Ming Li; Seunghee Margevicius; Jean F Welter Journal: J Mech Behav Biomed Mater Date: 2020-06-19
Authors: Joseph M Mansour; Mostafa Motavalli; James E Dennis; Thomas J Kean; Arnold I Caplan; Jim A Berilla; Jean F Welter Journal: Tissue Eng Part C Methods Date: 2018-08 Impact factor: 3.056