The Experts below are selected from a list of 2139 Experts worldwide ranked by ideXlab platform
Rw Lindsey - One of the best experts on this subject based on the ideXlab platform.
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The Sacroiliac Spine - computer simulation of motion and modeling of the ligaments
2010 Annual International Conference of the IEEE Engineering in Medicine and Biology, 2010Co-Authors: William L Buford, Dl Moulton, Zbigniew Gugala, Rw LindseyAbstract:Using an interactive, 3D, kinematic simulation of the human skeleton, the motion of the sacro-iliac (SI) joint is modeled based upon descriptions available in the literature. The major ligaments are added to the simulation data structure using deformable cubic B-spline curve paths. Ligament strains were generated and studied in response to the motion simulations. Results improve our understanding of sacro-iliac kinematics and highlight the importance of further studies to elucidate pathological as well as normal SI joint and ligament function.
William L Buford - One of the best experts on this subject based on the ideXlab platform.
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The Sacroiliac Spine - computer simulation of motion and modeling of the ligaments
2010 Annual International Conference of the IEEE Engineering in Medicine and Biology, 2010Co-Authors: William L Buford, Dl Moulton, Zbigniew Gugala, Rw LindseyAbstract:Using an interactive, 3D, kinematic simulation of the human skeleton, the motion of the sacro-iliac (SI) joint is modeled based upon descriptions available in the literature. The major ligaments are added to the simulation data structure using deformable cubic B-spline curve paths. Ligament strains were generated and studied in response to the motion simulations. Results improve our understanding of sacro-iliac kinematics and highlight the importance of further studies to elucidate pathological as well as normal SI joint and ligament function.
Dl Moulton - One of the best experts on this subject based on the ideXlab platform.
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The Sacroiliac Spine - computer simulation of motion and modeling of the ligaments
2010 Annual International Conference of the IEEE Engineering in Medicine and Biology, 2010Co-Authors: William L Buford, Dl Moulton, Zbigniew Gugala, Rw LindseyAbstract:Using an interactive, 3D, kinematic simulation of the human skeleton, the motion of the sacro-iliac (SI) joint is modeled based upon descriptions available in the literature. The major ligaments are added to the simulation data structure using deformable cubic B-spline curve paths. Ligament strains were generated and studied in response to the motion simulations. Results improve our understanding of sacro-iliac kinematics and highlight the importance of further studies to elucidate pathological as well as normal SI joint and ligament function.
Zbigniew Gugala - One of the best experts on this subject based on the ideXlab platform.
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The Sacroiliac Spine - computer simulation of motion and modeling of the ligaments
2010 Annual International Conference of the IEEE Engineering in Medicine and Biology, 2010Co-Authors: William L Buford, Dl Moulton, Zbigniew Gugala, Rw LindseyAbstract:Using an interactive, 3D, kinematic simulation of the human skeleton, the motion of the sacro-iliac (SI) joint is modeled based upon descriptions available in the literature. The major ligaments are added to the simulation data structure using deformable cubic B-spline curve paths. Ligament strains were generated and studied in response to the motion simulations. Results improve our understanding of sacro-iliac kinematics and highlight the importance of further studies to elucidate pathological as well as normal SI joint and ligament function.
Katherine H. Taber - One of the best experts on this subject based on the ideXlab platform.
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Sectional neuroanatomy of the lumbosacral Spine (L1-S5)
Journal of computer assisted tomography, 2007Co-Authors: Faye Y. Chiou-tan, Jessica Schutzbank Miller, Han Zhang, Joseph S. Kass, Katherine H. TaberAbstract:This paper will review the lumbosacral Spine (L1-S5). Procedures performed in the lumbosacral Spine include electromyography, spinal stimulator implants, spinal infusion implants for spasticity or pain medications, Sacroiliac Spine injections, facet blocks, and steroid injections. Complications from these procedures include iatrogenic paraplegia or paraplegia due to transverse myelitis, intravascular penetration, dural puncture, increased pain at the injection site, increased radicular pain, increased Spine pain, lightheadedness, nausea, nonspecific headache, and vomiting. Long-term complications include implant infection, implant or catheter dislodgment/kinking, and device failure. This paper provides anatomically accurate schematics of innervations of the lumbosacral Spine (L1-S5) that can be used to interpret magnetic resonance images of the muscles and nerves. Cross-sectional schematics of the lumbosacral Spine were drawn as they appear on imaging projections. The relevant nerves were color coded. The muscles and skin surfaces were labeled and assigned the color of the appropriate nerves. An organized comprehensive map of the motor innervation of the lumbosacral Spine allows the physician to increase the accuracy and efficacy of interventional procedures. This anatomical map could also assist the electromyographer in correlating the clinical and electrophysiological findings on magnetic resonance images.
