胫骨内侧平台骨折(Schatzker IV型)钢板放置的生物力学比较:一项使用猪胫骨的生物力学研究。
Biomechanical comparisons of plate placement for medial tibial plateau fractures (Schatzker type IV): A biomechanical study using porcine tibias.
作者信息
Ando Jiro, Takahashi Tsuneari, Matsumura Tomohiro, Nibe Yoshiya, Takeshita Katsushi
机构信息
Department of Orthopedics, School of Medicine, Jichi Medical University, Shimotsuke, Japan.
Department of Orthopedic Surgery, Ishibashi General Hospital, Shimotsuke, 1-15-4, Shimotsuke 329-0502, Japan.
出版信息
Injury. 2024 Jun;55(6):111158. doi: 10.1016/j.injury.2023.111158. Epub 2023 Oct 27.
INTRODUCTION
Biomechanical studies on medial tibial plateau fractures (MTPFs) (Schatzker classification type IV) are currently few, while studies using locking plates (LPs) placed on medial proximal tibias are unavailable. Hence, we compared the biomechanical properties of plate osteosynthesis at the medial and anteromedial placements using large- and small-fragment LPs in porcine bones.
MATERIALS AND METHODS
MTPFs were internally fixed using LPs on 40 porcine tibias. Specimens were equally divided into four groups: medial placement using a large-fragment LP (LPs for the medial (LM) group), anteromedial placement using a large-fragment LP (LAM group), medial placement using a small-fragment LP (SM group), and anteromedial placement using a small-fragment LP (SAM group). The translation patterns of the constructs in each group were examined by cycling loading test (displacement and translation along the mechanical axis at 10-100, 100-500, 500-1000, 1000-1500, and 1500-2000 cycles). Then, articular gaps and step-off changes after 2000 cycles were compared among the four groups.
RESULTS
One-way analysis of variance (ANOVA) revealed no significant differences in displacement and translation during cyclic loading. One-way ANOVA followed by post hoc analysis revealed that the anterior gap was lower in LPs for the medial (LM) than in SM (P = 0.029) and SAM (P = 0.0026). The central gap was also lower in LM than in SM (P = 0.042) and SAM (P < 0.001), and it was lower in LAM than in SAM (P = 0.047). Likewise, the posterior gap was lower in LM than in LAM (P = 0.025) and SAM (P < 0.001). Furthermore, the central step-off of SAM was higher than that of LM, LAM, and SM (P < 0.001, P = 0.0014, and P = 0.0077, respectively). The posterior step-off was lower in LM than in SAM and LAM (P = 0.037 and P < 0.001), and it was also lower in SM than in SAM (P = 0.0082).
CONCLUSION
Medial LP placement for MTPFs in porcine bones resulted in significantly lower posterior step-offs after cyclic loading than anteromedial placement, and large-fragment LPs for MTPFs caused significantly lower fracture gaps in the central articular after cyclic loading than small-fragment LPs.
引言
目前关于胫骨内侧平台骨折(MTPF,Schatzker分类IV型)的生物力学研究较少,且尚无关于在内侧胫骨近端放置锁定钢板(LP)的研究。因此,我们在猪骨中使用大、小骨折块LP比较了在内侧和前内侧放置钢板进行骨内固定的生物力学特性。
材料与方法
对40根猪胫骨使用LP进行MTPF的内固定。标本平均分为四组:使用大骨折块LP在内侧放置(内侧大骨折块LP组,LM组),使用大骨折块LP在前内侧放置(LAM组),使用小骨折块LP在内侧放置(SM组),使用小骨折块LP在前内侧放置(SAM组)。通过循环加载试验(在10 - 100、100 - 500、500 - 1000、1000 - 1500和1500 - 2000个循环下沿机械轴的位移和平移)检查每组构建物的平移模式。然后,比较四组在2000个循环后的关节间隙和台阶变化。
结果
单向方差分析(ANOVA)显示循环加载期间位移和平移无显著差异。随后进行的事后分析的单向ANOVA显示,内侧大骨折块LP组(LM组)的前间隙低于SM组(P = 0.029)和SAM组(P = 0.0026)。LM组的中央间隙也低于SM组(P = 0.042)和SAM组(P < 0.001),LAM组的中央间隙低于SAM组(P = 0.047)。同样,LM组的后间隙低于LAM组(P = 0.025)和SAM组(P < 0.001)。此外,SAM组的中央台阶高于LM组、LAM组和SM组(分别为P < 0.001、P = 0.0014和P = 0.0077)。LM组的后台阶低于SAM组和LAM组(P = 0.037和P < 0.001),SM组的后台阶也低于SAM组(P = 0.0082)。
结论
在猪骨中对MTPF进行内侧LP放置在循环加载后导致的后台阶明显低于前内侧放置,并且用于MTPF的大骨折块LP在循环加载后导致的中央关节骨折间隙明显低于小骨折块LP。
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