Kurt G. Harris scite author profile

Kurt G. Harris

5Publications

52Citation Statements Received

39Citation Statements Given

How they've been cited

128

How they cite others

Affiliations

University of Iowa

Publications

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Kinematics of the cervical spine: Effects of multiple total laminectomy and facet wiring

Goel

Clark

Harris

et al. 1988

Journal Orthopaedic Research

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The effect of multiple-level total laminectomies followed by stabilization on the load-deformation behavior of the cervical spine is described. Fresh human ligamentous cervical spines (C2-T2) were potted and clinically relevant load types applied via a loading frame attached to the C-2 vertebra of the specimen. A set of three infrared light-emitting diodes (LEDs) were attached rigidly to each of five vertebrae (C3-7) to record their spatial locations after each load step application, using a Selspot II system. The specimen was tested again after total laminectomy performed on C5. The supraspinous, interspinous, and flavum ligaments between the C4-5 and C5-6 motion segments were cut; thereafter, the vertebral arch was removed. The specimen testing was resumed after inducing injury at C-6 in a similar fashion. The specimen was stabilized, using a facet wiring construct, across the C4-7 segment before testing for the final time. The load-deformation data of the injured and stabilized tests were normalized with regard to the corresponding results of the intact test. In flexion-extension mode, an increase in motion of about 10% after laminectomies was observed. Facet wiring was found to be an effective technique to stabilize injured cervical spines (approximately equal to 80% reduction in motion, compared with intact spines, was observed.

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▪ Spinal Motion After Cervical Fusion: In Vivo Assessment with Roentgen Stereophotogrammetry

Lee¹,

Harris²,

Goel³

et al. 1994

Spine

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Evaluation of effectiveness of a facet wiring technique: Anin vitro biomechanical investigation

et al. 1989

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The effects of facet wiring procedure commonly used for stabilizing cervical spines after laminectomy or bilateral facet dislocation on the motion behavior of whole cervical spines are investigated using a Selspot II system. A fresh human ligamentous intact specimen was potted at T1/T2 vertebra and clinically relevant loads applied to the topmost vertebra (C2) of the specimen. The resulting three rotational components of each of the five vertebral bodies (C3-C7) were recorded. Specimen was injured to mimic total laminectomies at C5 and C6 vertebral levels and tested again. The injured specimen was stabilized, using a facet wiring construct, across C4-C7 segment before testing for the final time. The injured specimens, compared to the intact specimens, demonstrated an increase in flexion-extension of about 10%. Facet wiring imparted stability to the cervical spine by stiffening segments up to roughly four times intact values.

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In Vivo Kinematics of the Cervical Spine. Part I

Lee

Harris²,

Nassif³

et al. 1993

Journal of Spinal Disorders

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Intracranial Vasculitis

Harris

Yuh²

2005

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Kurt G. Harris

Kinematics of the cervical spine: Effects of multiple total laminectomy and facet wiring

▪ Spinal Motion After Cervical Fusion: In Vivo Assessment with Roentgen Stereophotogrammetry

Evaluation of effectiveness of a facet wiring technique: Anin vitro biomechanical investigation

In Vivo Kinematics of the Cervical Spine. Part I

Intracranial Vasculitis

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