描述前外侧韧带及其重建中常用移植物的黏弹特性。
Characterizing the viscoelastic properties of the anterolateral ligament and grafts commonly used in its reconstruction.
机构信息
Institute for Orthopaedic Research and Training (IORT), KU Leuven, Leuven, Belgium; FIBEr, KU Leuven Core Facility for Biomechanical Experimentation, KU Leuven, Leuven, Belgium.
Institute for Orthopaedic Research and Training (IORT), KU Leuven, Leuven, Belgium.
出版信息
Clin Biomech (Bristol). 2023 Apr;104:105949. doi: 10.1016/j.clinbiomech.2023.105949. Epub 2023 Mar 29.
BACKGROUND
Current anatomic anterolateral ligament reconstruction is typically performed using either a gracilis tendon or an iliotibial band graft based on their quasi-static behavior. However, there is limited knowledge about their viscoelastic behaviors. This study aimed to characterize the viscoelastic properties of the anterolateral ligament, distal iliotibial band, distal gracilis tendon and proximal gracilis tendon for graft material choice in anterolateral ligament reconstruction.
METHODS
All the tissues were harvested from thirteen fresh-frozen cadaveric knees and subjected to preconditioning (3-6 MPa), sinusoidal cycle (1.2-12 MPa), dwell at constant load (12 MPa), and load to failure (3%/s). The quasi-static and viscoelastic properties of the soft tissues were computed and compared using a linear mixed model (p < 0.05).
FINDINGS
The hysteresis of anterolateral ligament (mean:0.4 Nm) was comparable with gracilis halves (p > 0.85) but iliotibial band (6 Nm) was significantly higher (p < 0.001,ES = 6.5). In contrast, the dynamic creep of anterolateral ligament (0.5 mm) was similar to iliotibial band (0.7 mm, p > 0.82) whereas both gracilis halves were significantly lower (p < 0.007,ES > 1.4). The elastic modulus of anterolateral ligament (181.4 MPa, p < 0.001,ES > 2.1) was the lowest compared to the grafts materials (distal gracilis tendon:835 MPa, distal gracilis tendon:726 MPa, iliotibial band:910 MPa). Additionally, the failure load of the anterolateral ligament (124.5 N, p < 0.001,ES > 2.9) was also the lowest.
INTERPRETATION
The mechanical properties of the gracilis halves and iliotibial band were significantly different from anterolateral ligament, except for hysteresis and dynamic creep, respectively. Our findings showed that the gracilis halves may be a more appropriate graft choice for anterolateral ligament reconstruction due to its low energy dissipation and permanent deformation under dynamic loads.
背景
目前,前外侧韧带重建通常采用骼胫束或股薄肌腱作为移植物,这主要基于它们的准静态行为。然而,对于它们的粘弹性行为,我们的了解有限。本研究旨在为前外侧韧带重建中移植物的选择,确定前外侧韧带、远端骼胫束、远端股薄肌腱和近端股薄肌腱的粘弹性特性。
方法
从 13 个新鲜冷冻的尸体膝关节中采集所有组织,并进行预加载(3-6MPa)、正弦循环(1.2-12MPa)、恒载驻留(12MPa)和破坏试验(3%/s)。使用线性混合模型(p<0.05)计算并比较软组织的准静态和粘弹性特性。
结果
前外侧韧带的滞后(平均值:0.4Nm)与股薄肌的一半相似(p>0.85),但骼胫束(6Nm)明显更高(p<0.001,ES=6.5)。相比之下,前外侧韧带的动态蠕变(0.5mm)与骼胫束相似(0.7mm,p>0.82),而股薄肌的两半都明显较低(p<0.007,ES>1.4)。前外侧韧带的弹性模量(181.4MPa,p<0.001,ES>2.1)与移植物材料(远端股薄肌腱:835MPa,近端股薄肌腱:726MPa,骼胫束:910MPa)相比最低。此外,前外侧韧带的破坏载荷(124.5N,p<0.001,ES>2.9)也最低。
解释
除滞后和动态蠕变外,股薄肌的两半和骼胫束的力学性能与前外侧韧带有显著差异。我们的研究结果表明,由于股薄肌的两半在动态载荷下能量耗散和永久变形较低,因此可能是前外侧韧带重建的更合适的移植物选择。
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