0000000000218956

AUTHOR

Thomas Nusselt

showing 2 related works from this author

Misdiagnosis of Thoracolumbar Posterior Ligamentous Complex Injuries and Use of Radiographic Parameter Correlations to Improve Detection Accuracy

2019

Study Design Retrospective study. Purpose To evaluate radiological parameters as indicators for posterior ligamentous complex (PLC) injuries in the case of limited availability of magnetic resonance imaging. Overview of Literature Traumatic thoracolumbar spinal fractures with PLC injuries can be misdiagnosed on X-rays or computed tomography scans. This study aimed to retrospectively assess unrecognized PLC injuries and evaluate radiographic parameters as indicators of PLC injuries requiring surgery. Methods In total, 314 patients with type A and type B2 fractures who underwent surgical treatment between 2001 and 2010 were included. The frequency of misdiagnosis was reassessed, and radiograp…

medicine.medical_specialtyRadiographylcsh:Medicine03 medical and health sciences0302 clinical medicineMedicineOrthopedics and Sports MedicineInterspinous distance030222 orthopedicsmedicine.diagnostic_testCobb anglePosterior ligamentous complex injurybusiness.industrylcsh:RSpine injury classificationMagnetic resonance imagingRetrospective cohort studySagittal planeRadiographic assessmentmedicine.anatomical_structureRadiological weaponOrthopedic surgeryClinical StudySurgeryRadiologybusinessThroacolumbar spinal fracture030217 neurology & neurosurgeryAsian Spine Journal
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Biomechanical testing of different posterior fusion devices on lumbar spinal range of motion.

2019

Abstract Background Recent minimal-invasive posterior fusion devices are supposed to provide stability and obtain fusion in combination with interbody cages in the instrumented segment. The aim of the present study is to evaluate the primary stability of two minimal-invasive posterior prototypes compared to an established spinous process plate and standard pedicle screw instrumentation. Methods Seven fresh frozen human cadaver lumbar spines (L2–L5) were tested in a spinal testing device with a moment of 7.5 Nm. Spinal stability was determined as mean range of motion (RoM) in the segment L3/L4 during extension-flexion, lateral bending and axial rotation. The RoM was measured during five cond…

musculoskeletal diseasesFacet (geometry)Materials scienceRotationBiophysics03 medical and health sciencesFixation (surgical)0302 clinical medicineLumbarCadaverBone platemedicineCadaverHumansOrthopedics and Sports MedicineRange of Motion ArticularLumbar VertebraeBiomechanicsLumbosacral RegionLumbar spinal stenosis030229 sport sciencesmusculoskeletal systemmedicine.diseaseBiomechanical PhenomenaSpinal FusionRange of motionBone Plates030217 neurology & neurosurgeryBiomedical engineeringClinical biomechanics (Bristol, Avon)
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