Tibiofemoral cartilage strain and recovery following a 3-mile run measured using deep learning segmentation of bone and cartilage

Osteoarthritis and cartilage open Pub Date : 2024-12-05 DOI:10.1016/j.ocarto.2024.100556

Patrick X. Bradley , Sophia Y. Kim-Wang , Brooke S. Blaisdell , Alexie D. Riofrio , Amber T. Collins , Lauren N. Heckelman , Eziamaka C. Obunadike , Margaret R. Widmyer , Chinmay S. Paranjape , Bryan S. Crook , Nimit K. Lad , Edward G. Sutter , Brian P. Mann , Charles E. Spritzer , Louis E. DeFrate

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引用次数: 0

Abstract

Objective

We sought to measure the deformation of tibiofemoral cartilage immediately following a 3-mile treadmill run, as well as the recovery of cartilage thickness the following day. To enable these measurements, we developed and validated deep learning models to automate tibiofemoral cartilage and bone segmentation from double-echo steady-state magnetic resonance imaging (MRI) scans.

Design

Eight asymptomatic male participants arrived at 7 a.m., rested supine for 45 min, underwent pre-exercise MRI, ran 3 miles on a treadmill, and finally underwent post-exercise MRI. To assess whether cartilage recovered to its baseline thickness, participants returned the following morning at 7 a.m., rested supine for 45 min, and underwent a final MRI session. These images were used to generate 3D models of the tibia, femur, and cartilage surfaces at each time point. Site-specific tibial and femoral cartilage thicknesses were measured from each 3D model. To aid in these measurements, deep learning segmentation models were developed.

Results

All trained deep learning models demonstrated repeatability within 0.03 mm or approximately 1 % of cartilage thickness. The 3-mile run induced mean compressive strains of 5.4 % (95 % CI = 4.1 to 6.7) and 2.3 % (95 % CI = 0.6 to 4.0) for the tibial and femoral cartilage, respectively. Furthermore, both tibial and femoral cartilage thicknesses returned to within 1 % of baseline thickness the following day.

Conclusions

The 3-mile treadmill run induced a significant decrease in both tibial and femoral cartilage thickness; however, this was largely ameliorated the following morning.

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利用骨骼和软骨的深度学习分割技术测量 3 英里跑步后的胫骨软骨应变和恢复情况。

目的：我们试图测量3英里跑步机跑步后胫骨股骨软骨的变形，以及第二天软骨厚度的恢复。为了实现这些测量，我们开发并验证了深度学习模型，通过双回声稳态磁共振成像（MRI）扫描自动分割胫股软骨和骨骼。设计：8名无症状男性参与者于早上7点到达，仰卧休息45分钟，进行运动前MRI检查，在跑步机上跑3英里，最后进行运动后MRI检查。为了评估软骨是否恢复到其基线厚度，参与者于第二天早上7点返回，仰卧休息45分钟，并进行最后一次MRI检查。这些图像用于在每个时间点生成胫骨、股骨和软骨表面的3D模型。从每个3D模型中测量特定部位的胫骨和股骨软骨厚度。为了帮助这些测量，开发了深度学习分割模型。结果：所有经过训练的深度学习模型在软骨厚度的0.03 mm或约1%范围内具有重复性。3英里跑步对胫骨和股软骨的平均压缩应变分别为5.4% （95% CI = 4.1至6.7）和2.3% （95% CI = 0.6至4.0）。此外，胫骨和股骨软骨厚度在第二天恢复到基线厚度的1%以内。结论：3英里跑步机运动导致胫骨和股骨软骨厚度显著降低；不过，这种情况在第二天早上就大大改善了。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Osteoarthritis and cartilage open Orthopedics, Sports Medicine and Rehabilitation

CiteScore

3.30

自引率

0.00%

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