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新型前路脊柱固定器中螺钉定位对骨质疏松性椎体植入物松动的影响。

Influence of screw positioning in a new anterior spine fixator on implant loosening in osteoporotic vertebrae.

作者信息

Reinhold Maximilian, Schwieger Karsten, Goldhahn Joerg, Linke Berend, Knop Christian, Blauth Michael

机构信息

Innsbruck Medical University, Department of Trauma Surgery and Sports Medicine, Innsbruck, Austria.

出版信息

Spine (Phila Pa 1976). 2006 Feb 15;31(4):406-13. doi: 10.1097/01.brs.0000199894.63450.70.

DOI:10.1097/01.brs.0000199894.63450.70
PMID:16481950
Abstract

STUDY DESIGN

A biomechanical study was designed to assess implant cut-out of three different angular stable anterior spinal implants. Subsidence of the implant relative to the vertebral body was measured during an in vitro cyclic loading test.

OBJECTIVES

The objective of the study was to evaluate two prototypes (Synthes) of a new anterior spine fixator with different screw angulations in comparison to the established MACSTL(R) Twin Screw Concept (Aesculap). The influence of factors like load-bearing cross-sectional area, screw angulation and bone mineral density upon implant stability should be investigated.

SUMMARY OF BACKGROUND DATA

Epidemiologic data predict a growing demand for appropriate anterior spinal fixation devices especially in patients with inferior structural and mechanical bone properties. Although different concepts for anterior spinal instrumentation systems have been tried out, implant stability is still a problem.

METHODS

Three angular stable, anterior spinal implants were tested using 24 human lumbar osteoporotic vertebrae (L1-L5; age 84 (73-92)): MASC TL system (Aesculap); prototype 1 (MP1) with 18 degrees and prototype 2 (MP2) with 40 degrees screw angulation (both Synthes). All implants consisted of two screws with different outer screw diameters: 7-mm polyaxial screw with 6.5-mm stabilization screw (MASC TL), two 5-mm locking-head screws each (MP1 and MP2). Bone mineral density (BMD) and vertebral body width of the three specimen groups were evenly distributed. The specimens were loaded in craniocaudal direction (1Hz) for 1000 cycles each at three consecutive load steps; 10-100 N, 10-200 N and 10-400 N. During cyclic loading subsidence of the implant relative to the vertebral body was measured in the unloaded condition. Cycle number at failure (defined as a subsidence of 2 mm) was determined for each specimen. A survival analysis (Cox Regression) was performed to detect differences between implant groups at a probability level of 95%.

RESULTS

High correlations were found between BMD and number of cycles until failure (MP1; r = 0.905, P = 0.013; MP2: r = 0.640, P = 0.121; MACS TL: r = 0.904, P = 0.013) and between load bearing cross sectional area and number of cycles until failure (MP1: r = 0.849, P = 0.032;MP2: r = 0.692, P = 0.085; MACS TL: r = 0.902, P = 0.014). Both Prototypes survived significantly longer than the MACS TL implant (MP1: P = 0.012, MP2: P = 0.014). The survival behaviour of MP1 and MP2 was not significantly different (P = 0.354).

CONCLUSIONS

Implant stability within each implant group was influenced by BMD and load bearing cross-sectional area. The angulation of the two screws did not have a significant influence on cut-out. As conclusion from this study, promising approaches for further implant development are: 1) increase of load-bearing cross-sectional area (e.g., larger outer diameter of the anchorage device), 2) screw positioning in areas of higher BMD (e.g., opposite cortex, proximity to pedicles or the endplates).

摘要

研究设计

设计一项生物力学研究,以评估三种不同角度稳定型前路脊柱植入物的植入物穿出情况。在体外循环加载试验中测量植入物相对于椎体的下沉情况。

目的

本研究的目的是评估一种新型前路脊柱固定器的两种原型(辛迪斯公司),其具有不同的螺钉角度,并与已确立的MACSTL(注册名)双螺钉概念(蛇牌公司)进行比较。应研究诸如承重横截面积、螺钉角度和骨密度等因素对植入物稳定性的影响。

背景数据总结

流行病学数据预测,对合适的前路脊柱固定装置的需求不断增长,尤其是在结构和力学性能较差的患者中。尽管已经尝试了不同的前路脊柱内固定系统概念,但植入物稳定性仍然是一个问题。

方法

使用24个骨质疏松的人类腰椎椎体(L1-L5;年龄84(73-92)岁)测试三种角度稳定型前路脊柱植入物:MASC TL系统(蛇牌公司);螺钉角度为18度的原型1(MP1)和螺钉角度为40度的原型2(MP2)(均为辛迪斯公司)。所有植入物均由两个外径不同的螺钉组成:7毫米多轴螺钉和6.5毫米稳定螺钉(MASC TL),每个MP1和MP2各有两个5毫米锁定头螺钉。三个标本组的骨密度(BMD)和椎体宽度分布均匀。标本在头-尾方向(1Hz)上连续三个加载步骤各加载1000次循环;10-100N、10-200N和10-400N。在循环加载过程中,在卸载状态下测量植入物相对于椎体的下沉情况。确定每个标本的失效循环数(定义为下沉2毫米)。进行生存分析(Cox回归)以检测植入物组之间在95%概率水平下的差异。

结果

发现骨密度与直至失效的循环数之间存在高度相关性(MP1;r = 0.905,P = 0.013;MP2:r = 0.640,P = 0.121;MACS TL:r = 0.904,P = 0.013),以及承重横截面积与直至失效的循环数之间存在高度相关性(MP1:r = 0.849,P = 0.032;MP2:r = 0.692,P = 0.085;MACS TL:r = 0.902,P = 0.014)。两种原型的存活时间均明显长于MACS TL植入物(MP1:P = 0.012,MP2:P = 0.014)。MP1和MP2的存活行为没有显著差异(P = 0.354)。

结论

每个植入物组内的植入物稳定性受骨密度和承重横截面积影响。两个螺钉的角度对穿出情况没有显著影响。作为本研究的结论,进一步植入物开发的有前景的方法是:1)增加承重横截面积(例如,锚固装置的外径更大),2)将螺钉定位在骨密度较高的区域(例如,对侧皮质、靠近椎弓根或终板)。

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