An invitro biomechanical study of treatment for lumbar spondylolithesis using nail-grooved tail steel plate and intervertebral implant (Wendeng Fusion Cage, WDFC).

Yuan-chao Tan; Chuan-guang JU; Xiu-chen Sun; Zeng-mei Wang

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An invitro biomechanical study of treatment for lumbar spondylolithesis using nail-grooved tail steel plate and intervertebral implant (Wendeng Fusion Cage, WDFC).

Author: Yuan-chao TAN ¹ ; Chuan-guang JU ; Xiu-chen SUN ; Zeng-mei WANG
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1. Wendeng Orthopaedics and Traumotology Hospital, Wendeng 264400, Shandong, China.
Publication Type:Journal Article
MeSH: Adult; Biomechanical Phenomena; Bone Nails; Bone Plates; Female; Humans; Lumbar Vertebrae; surgery; Male; Spinal Fusion; instrumentation; Spondylolisthesis; physiopathology; surgery
From: China Journal of Orthopaedics and Traumatology 2008;21(8):566-569
CountryChina
Language:Chinese
Abstract:
OBJECTIVETo evaluate the biomechanics of treatment for lumbar spondlolisthesis using nail-grooved tail steel plate and WDFC (Wendeng Fusion Cage) implant.
METHODSThere were nine permanent waist-sacrum wet bone (L3-S3) in 1 to 2 clay-cold hours including 6 men and 3 women. They were seldom separated into 3 groups, which were fixed by nail-grooved fail plus WDFC. The model was separate into two kinds for single and across. With electrometry, deal experiment date with Graftool software. Each piece should be tested twice respectively.
RESULTSThe single and across segment non-destructive compression experiment. No-mid-compression from 0 to 750 N,the related coefficient and curves had no obvious change on inclined rate. In the single segment curvedly serial experiment, the stress at all point measured by two sides steel plate-was mostly linear growth. In the across segment curvedly serial experiment, the inclined rate become big and appear anisomerous.
CONCLUSIONIt's proved by biomechanics that the steel plates with single furrow and cylinder wing plus WDFC has a good stability to cure lumbar vertebra slips.