Add to ORKGAim: Studies of spinal biomechanics typically do not focus on the contributions to range of motion (ROM) of the primary components of the spinal canal, dura, arachnoid, pia, spinal cord, nerve roots, ligaments, and vessels. We sought to determine the stability offered by these soft tissues in vitro. Material and Methods: Human cadaveric segments were tested intact, after osteoligamentous destabilization, and after transection of T8-9 spinal canal components. Specimens were induced into flexion, extension, axial rotation, and lateral bending using non-constraining, non-destructive pure moment while tracking motion response stereophotogrammetrically. The range of motion (ROM) was compared in each condition after adjusting for soft tissue cree...
BACKGROUND CONTEXT The contribution of anatomical structures to the stability of the spine is of ...
Stenosis is one of the most common causes for spinal surgery. Laminectomy decompression and fusion a...
Study Design. An in vitro study on human and porcine multilevel spinal segments.Objective. To compar...
Basic knowledge about the thoracic spinal flexibility is limited and to the authors' knowledge, no i...
Background: Several physiological and pathological conditions in daily life cause sustained static b...
Spine disorders are one of the most prevalent and costly problems facing modern medicine, with an es...
Human cadaver spinal cord specimens with and without intact pia mater were subjected to axial deform...
AbstractBackgroundSeveral physiological and pathological conditions in daily life cause sustained st...
Study Design: An in vitro study on human multilevel spinal segments. Objective: To determine the dif...
Study Design. An in vitro study on human multilevel spinal segments.Objective. To determine the diff...
Background Context The contribution of anatomical structures to the stability of the spine is of gr...
© International Society for the Advancement of Spine Surgery Background: Biomechanical properties of...
Osseous tissues, intervertebral discs, and ligaments are the passive load bearing and stabilising el...
Most of the current rigid-body models of the complete thoracolumbar spine do not properly model the ...
International audienceStudy design Biomechanical human cadaver study.Objective To determine the thre...
BACKGROUND CONTEXT The contribution of anatomical structures to the stability of the spine is of ...
Stenosis is one of the most common causes for spinal surgery. Laminectomy decompression and fusion a...
Study Design. An in vitro study on human and porcine multilevel spinal segments.Objective. To compar...
Basic knowledge about the thoracic spinal flexibility is limited and to the authors' knowledge, no i...
Background: Several physiological and pathological conditions in daily life cause sustained static b...
Spine disorders are one of the most prevalent and costly problems facing modern medicine, with an es...
Human cadaver spinal cord specimens with and without intact pia mater were subjected to axial deform...
AbstractBackgroundSeveral physiological and pathological conditions in daily life cause sustained st...
Study Design: An in vitro study on human multilevel spinal segments. Objective: To determine the dif...
Study Design. An in vitro study on human multilevel spinal segments.Objective. To determine the diff...
Background Context The contribution of anatomical structures to the stability of the spine is of gr...
© International Society for the Advancement of Spine Surgery Background: Biomechanical properties of...
Osseous tissues, intervertebral discs, and ligaments are the passive load bearing and stabilising el...
Most of the current rigid-body models of the complete thoracolumbar spine do not properly model the ...
International audienceStudy design Biomechanical human cadaver study.Objective To determine the thre...
BACKGROUND CONTEXT The contribution of anatomical structures to the stability of the spine is of ...
Stenosis is one of the most common causes for spinal surgery. Laminectomy decompression and fusion a...
Study Design. An in vitro study on human and porcine multilevel spinal segments.Objective. To compar...