Pasurka Mario, Falck Theo, Kubach Joshua, Söllner Stefan, Strobel Deike, Perl Mario, Betsch Marcel
Department of Orthopaedic and Trauma Surgery, University Hospital of Erlangen, Friedrich-Alexander-University Erlangen-Nuremberg, Krankenhaus 9, 91054, Erlangen, Germany.
Department of Medicine 1, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nuremberg, Ulmenweg 18, 91054, Erlangen, Germany.
J Orthop. 2025 Aug 19;70:276-282. doi: 10.1016/j.jor.2025.08.027. eCollection 2025 Dec.
To date, no study has investigated the comparability between point shear wave elastography (pSWE) and 2D-shear wave elastography (2D-SWE) in assessing patellar tendon (PT) stiffness. In addition to comparing shear wave velocities, this study also evaluated intra- and interrater reliability, as well as measurement time.
Forty healthy subjects (20 females, 20 males; age: 23.3 ± 2.4 years, BMI: 22.46 ± 2.23 kg/m) were recruited as participants. Each participant underwent a standardized multimodal ultrasound protocol that included B-mode ultrasound (B-US), Color Doppler ultrasound (CD-US), and a shear wave elastography (SWE) examination of the bilateral patellar tendon using both pSWE and 2D-SWE. Stiffness values and examination times were recorded. Intra- and interrater reliability were assessed across two different measurement time points with two investigators for both pSWE and 2D-SWE.
Elastography values were slightly higher for pSWE compared to 2D-SWE (pSWE: 4.02 ± 1.07 m/s, 2D-SWE: 3.82 ± 0.73 m/s; p < 0.001). 2D-SWE10 measurements took significantly more time than pSWE (2D-SWE10: 69.89 ± 13.46 s vs. pSWE: 54.85 ± 8.34 s, p < 0.001). However, the time required for 2D-SWE1 was significantly shorter than for pSWE (2D-SWE1: 47.20 ± 8.23 s vs. pSWE: 54.85 ± 8.34 s, p < 0.001). Both interrater and intrarater reliability reached excellent levels for all SWE measurements, with the highest interrater and intrarater ICC values obtained for 2D-SWE1.
This is the first study to evaluate and compare pSWE and 2D-SWE in the assessment of patellar tendon stiffness. These findings could have important implications for the clinical use of musculoskeletal SWE, providing insights into measurement time, reliability, and the potential benefits of using 2D-SWE in clinical practice.
迄今为止,尚无研究调查点剪切波弹性成像(pSWE)与二维剪切波弹性成像(2D-SWE)在评估髌腱(PT)硬度方面的可比性。除了比较剪切波速度外,本研究还评估了观察者内和观察者间的可靠性以及测量时间。
招募了40名健康受试者(20名女性,20名男性;年龄:23.3±2.4岁,体重指数:22.46±2.23kg/m²)作为参与者。每位参与者都接受了标准化的多模态超声检查方案,包括B型超声(B-US)、彩色多普勒超声(CD-US),以及使用pSWE和2D-SWE对双侧髌腱进行的剪切波弹性成像(SWE)检查。记录硬度值和检查时间。由两名研究者在两个不同的测量时间点对pSWE和2D-SWE的观察者内和观察者间可靠性进行评估。
与2D-SWE相比,pSWE的弹性成像值略高(pSWE:4.02±1.07m/s,2D-SWE:3.82±0.73m/s;p<0.001)。2D-SWE10测量所需时间明显多于pSWE(2D-SWE10:69.89±13.46秒 vs. pSWE:54.85±8.34秒,p<0.001)。然而,2D-SWE1所需时间明显短于pSWE(2D-SWE1:47.20±8.23秒 vs. pSWE:54.85±8.34秒,p<0.001)。所有SWE测量的观察者间和观察者内可靠性均达到优秀水平,2D-SWE1获得的观察者间和观察者内ICC值最高。
这是第一项评估和比较pSWE与2D-SWE在评估髌腱硬度方面的研究。这些发现可能对肌肉骨骼SWE的临床应用具有重要意义,为测量时间、可靠性以及在临床实践中使用2D-SWE的潜在益处提供了见解。
