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Load-displacement properties of the thoracolumbar calf spine: Experimental results and comparison to known human data (1997)

Wilke, H. -J. ; Krischak, S. T. ; Wenger, K. H. ; [et al.]

Springer

European spine journal 6 (1997), S. 129-137

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ISSN: 1432-0932

Keywords: Spinal biomechanics Stiffness ; Motion ; Calf ; In vitro testing

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The availability of human cadaveric spine specimens for in vitro tests is limited and the risk of infection is now of vital concern. As an alternative or supplement, calf spines have been used as models for human spines, in particular to evaluate spinal implants. However, neither qualitative nor quantitative biomechanical data on calf spines are available for comparison with data on human specimens. The purpose of this study was to determine the fundamental biomechanical properties of calf spines and to compare them with existing data from human specimens. Range of motion, neutral zone, and stiffness properties of thoracolumbar calf spines (T6-L6) were determined under pure moment loading in flexion and extension, axial left/right rotation and right/left lateral bending. Biomechanical similarities were observed between the calf and reported human data, most notably in axial rotation and lateral bending. Range of motion in the lumbar spine in flexion and extension was somewhat less in the calf than that typically reported for the human, though still within the range. These results suggest that the calf spine can be considered on a limited basis as a model for the human spine in certain in vitro tests.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01358746

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Load-displacement properties of the normal and injured lower cervical spine in vitro (2000)

Richter, M. ; Wilke, H-J. ; Kluger, P. ; [et al.]

Springer

European spine journal 9 (2000), S. 104-108

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ISSN: 1432-0932

Keywords: Key words Cervical spine ; Biomechanical testing ; Discoligamentous structures

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The objective of this study was to determine which discoligamentous structures of the lower cervical spine provide significant stability with regard to different loading conditions. Accordingly, the load-displacement properties of the normal and injured lower cervical spine were tested in vitro. Four artificially created stages of increasing discoligamentous instability of the segment C5/6 were compared to the normal C5/6 segment. Six fresh human cadaver spine segments C4-C7 were tested in flexion/extension, axial rotation, and lateral bending using pure moments of ± 2.5 Nm without axial preload. Five conditions were investigated consecutively: (1) the intact functional spinal unit (FSU) C5/6; (2) the FSU C5/6 with the anterior longitudinal ligament and the intertransverse ligaments sectioned; (3) the FSU C5/6 with an additional 10-mm-deep incision of the anterior half of the anulus fibrosus and the disc; (4) the FSU C5/6 with additionally sectioned ligamenta flava as well as interspinous and supraspinous ligaments; (5) the FSU C5/6 with additional capsulotomy of the facet joints. In flexion/extension, significant differences were observed concerning range of motion (ROM) and neutral zone (NZ) for all four stages of instability compared to the intact FSU. In axial rotation, only the stage 4 instability showed a significantly increased ROM and NZ compared to the intact FSU. For lateral bending, no significant differences were observed. Based on these data, we conclude that flexion/extension is the most sensitive load-direction for the tested discoligamentous instabilities.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005860050219

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