Cunningham Bryan W, Lewis Stephen J, Long John, Dmitriev Anton E, Linville Douglas A, Bridwell Keith H
Orthopaedic Biomechanics Laboratory, Union Memorial Hospital, Baltimore, Maryland, USA.
Spine (Phila Pa 1976). 2002 Nov 1;27(21):2321-7. doi: 10.1097/00007632-200211010-00004.
Biomechanical evaluation of lumbosacral fixation using a porcine model.
The primary objective of the current study was to quantify and compare the changes in lumbosacral range of motion produced by four different methods of surgical stabilization, as well as comparing the relative effects of the four constructs in destructive testing.
The lumbosacral junction continues to be a difficult region to obtain a successful spinal arthrodesis and is one of the primary regions for construct failure.
Twenty-four fresh-frozen porcine lumbosacral spines were used in this investigation. Following intact analysis, the specimens were radically destabilized at the lumbosacral junction and randomized into four treatment groups based on reconstruction: 1) L7-S1 pedicle screws alone (n = 6); 2) L7-S1 pedicle screws and interbody cage (titanium mesh) (n = 6); 3) L7-S1 pedicle screws and iliac screws (n = 6); and 4) L7-S1 pedicle/iliac screws and interbody cage (n = 6). Nondestructive, multidirectional flexibility analyses included four loading methods and fatigue component followed by a destructive flexural load to failure. Lumbosacral peak range of motion (millimeters or degrees) and ultimate failure load (Nm) of the four reconstruction techniques were statistically compared using a one-way analysis of variance combined with Fisher's PLSD.
Iliac screw constructs reduced lumbosacral flexibility levels in three of four loading methods (axial rotation, flexion-extension, and lateral bending) compared with pedicle screw reconstructions. The addition of interbody cages decreased lumbosacral motion for the iliac screw treatments under flexion-extension loading and pedicle screw constructs under axial rotation but did not protect the sacral screws in destructive testing as the iliac screws did. Based on evaluation using an porcine model, both iliac screws and interbody cages effectively reduce the multidirectional flexibility properties of the lumbosacral junction; however, iliac screws are more restrictive of motion (at the lumbosacral joint) and protective of the S1 screws.
使用猪模型对腰骶部固定进行生物力学评估。
本研究的主要目的是量化和比较四种不同手术稳定方法所产生的腰骶部活动度变化,以及比较四种固定结构在破坏性测试中的相对效果。
腰骶部仍是难以成功实现脊柱融合的区域,也是固定结构失败的主要部位之一。
本研究使用了24个新鲜冷冻的猪腰骶部脊柱标本。在进行完整分析后,在腰骶部关节处将标本彻底破坏稳定性,并根据重建方式随机分为四个治疗组:1)仅L7 - S1椎弓根螺钉(n = 6);2)L7 - S1椎弓根螺钉和椎间融合器(钛网)(n = 6);3)L7 - S1椎弓根螺钉和髂骨螺钉(n = 6);4)L7 - S1椎弓根/髂骨螺钉和椎间融合器(n = 6)。非破坏性多方向柔韧性分析包括四种加载方法和疲劳成分,随后进行破坏性弯曲载荷直至失效。使用单向方差分析结合Fisher's PLSD对四种重建技术的腰骶部峰值活动度(毫米或度)和极限破坏载荷(Nm)进行统计学比较。
1)轴向压缩:四个治疗组之间腰骶部柔韧性无差异(P > 0.05)。2)轴向旋转:与仅使用椎弓根螺钉相比,带有或不带有融合器的髂骨螺钉结构降低了腰骶部关节的柔韧性(P < 0.05)。然而,椎间融合器重建并未显著减少活动度。3)屈伸:带有椎间融合器的髂骨螺钉减少了腰骶部关节的节段性活动度,这与其他治疗方法有显著差异(P < 0.05)。4)侧方弯曲:与两种椎弓根螺钉结构(带有或不带有融合器)相比,髂骨螺钉结构的腰骶部活动度明显更小。在破坏性测试中,L7 - S1结构的拔出发生在骶骨,而带有和不带有融合器的L7 - S1/髂骨螺钉的失效发生在近端相邻节段。
与椎弓根螺钉重建相比,髂骨螺钉结构在四种加载方法中的三种(轴向旋转、屈伸和侧方弯曲)中降低了腰骶部柔韧性。在屈伸加载下,椎间融合器的添加减少了髂骨螺钉治疗的腰骶部活动度,在轴向旋转下减少了椎弓根螺钉结构的活动度,但在破坏性测试中,它不像髂骨螺钉那样保护骶骨螺钉。基于使用猪模型的评估,髂骨螺钉和椎间融合器均有效降低了腰骶部关节的多方向柔韧性;然而,髂骨螺钉对活动度的限制更大(在腰骶关节处)且对S1螺钉有保护作用。
