使用经腰大肌外侧入路的矢状面矫正:关于椎间融合器角度和手术技术对节段性前凸影响的生物力学研究
Sagittal Plane Correction Using the Lateral Transpsoas Approach: A Biomechanical Study on the Effect of Cage Angle and Surgical Technique on Segmental Lordosis.
作者信息
Melikian Rojeh, Yoon Sangwook Tim, Kim Jin Young, Park Kun Young, Yoon Caroline, Hutton William
机构信息
Department of Orthopedic Surgery, Emory University, Veterans Affairs Medical Center Atlanta, Atlanta, GA.
Department of Orthopedic Surgery, Daejeon Veterans Hospital, Daejeon, Korea.
出版信息
Spine (Phila Pa 1976). 2016 Sep;41(17):E1016-E1021. doi: 10.1097/BRS.0000000000001562.
STUDY DESIGN
Cadaveric biomechanical study.
OBJECTIVE
To determine the degree of segmental correction that can be achieved through lateral transpsoas approach by varying cage angle and adding anterior longitudinal ligament (ALL) release and posterior element resection.
SUMMARY OF BACKGROUND DATA
Lordotic cage insertion through the lateral transpsoas approach is being used increasingly for restoration of sagittal alignment. However, the degree of correction achieved by varying cage angle and ALL release and posterior element resection is not well defined.
METHODS
Thirteen lumbar motion segments between L1 and L5 were dissected into single motion segments. Segmental angles and disk heights were measured under both 50 N and 500 N compressive loads under the following conditions: intact specimen, discectomy (collapsed disk simulation), insertion of parallel cage, 10° cage, 30° cage with ALL release, 30° cage with ALL release and spinous process (SP) resection, 30° cage with ALL release, SP resection, facetectomy, and compression with pedicle screws.
RESULTS
Segmental lordosis was not increased by either parallel or 10° cages as compared with intact disks, and contributed small amounts of lordosis when compared with the collapsed disk condition. Placement of 30° cages with ALL release increased segmental lordosis by 10.5°. Adding SP resection increased lordosis to 12.4°. Facetectomy and compression with pedicle screws further increased lordosis to approximately 26°. No interventions resulted in a decrease in either anterior or posterior disk height.
CONCLUSION
Insertion of a parallel or 10° cage has little effect on lordosis. A 30° cage insertion with ALL release resulted in a modest increase in lordosis (10.5°). The addition of SP resection and facetectomy was needed to obtain a larger amount of correction (26°). None of the cages, including the 30° lordotic cage, caused a decrease in posterior disk height suggesting hyperlordotic cages do not cause foraminal stenosis.
LEVEL OF EVIDENCE
N/A.
研究设计
尸体生物力学研究。
目的
通过改变椎间融合器角度、增加前纵韧带(ALL)松解和后部结构切除,确定经腰大肌外侧入路可实现的节段性矫正程度。
背景资料总结
经腰大肌外侧入路植入前凸椎间融合器越来越多地用于矢状位对线的恢复。然而,通过改变椎间融合器角度、ALL松解和后部结构切除所实现的矫正程度尚未明确界定。
方法
将13个L1至L5之间的腰椎运动节段解剖为单个运动节段。在50 N和500 N压缩载荷下,于以下条件下测量节段角度和椎间盘高度:完整标本、椎间盘切除术(模拟椎间盘塌陷)、植入平行椎间融合器、10°椎间融合器、行ALL松解的30°椎间融合器、行ALL松解及棘突(SP)切除的30°椎间融合器、行ALL松解、SP切除、关节突切除并用椎弓根螺钉加压固定。
结果
与完整椎间盘相比,平行或10°椎间融合器均未增加节段前凸,与椎间盘塌陷情况相比,增加的前凸量较少。行ALL松解的30°椎间融合器植入使节段前凸增加10.5°。增加SP切除使前凸增加至12.4°。关节突切除并用椎弓根螺钉加压固定进一步使前凸增加至约26°。没有干预措施导致前后椎间盘高度降低。
结论
植入平行或10°椎间融合器对前凸影响很小。行ALL松解植入30°椎间融合器使前凸适度增加(10.5°)。需要增加SP切除和关节突切除以获得更大的矫正量(26°)。包括30°前凸椎间融合器在内的所有椎间融合器均未导致后椎间盘高度降低,提示前凸椎间融合器不会导致椎间孔狭窄。
证据水平
无。
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