Your search keyword '"Burt Yaszay"' showing total 2 results

1. Clinically relevant biomechanical properties of three different fixation techniques of the upper instrumented vertebra in deformity surgery

Author

Edin Nevzati, Manuel Moser, Nick Dietz, Burt Yaszay, Lawrence G. Lenke, Mazda Farshad, Varun Arvind, Samuel K. Cho, Alexander Spiessberger, University of Zurich, and Spiessberger, Alexander

Subjects

Male, Pseudarthrosis, 2732 Orthopedics and Sports Medicine, Pedicle Screws, Humans, Orthopedics and Sports Medicine, 610 Medicine & health, 10046 Balgrist University Hospital, Swiss Spinal Cord Injury Center, Kyphosis, Thoracic Vertebrae, Biomechanical Phenomena

Abstract

Adjacent segment disease, junctional kyphosis/failure and pseudarthrosis can negatively impact the mid to long-term outcome in spinal deformity surgery. These complications might be influenced by upper instrumented vertebra (UIV) fixation techniques. In this study we analyze key biomechanical properties of three different UIV fixation techniques and define their ideal clinical use based on patient-specific risk profiles using a finite element analysis (FEA) model.A T9-pelvis posterior instrumented spinal fusion was assumed. Three different FEA models were created based on the UIV fixation technique: T9 pedicle screws (PS); T9 cortical bone screws (CBS); T9 transverse process hooks (TPH). The three FEA models consisted of T8-T10 bone and ligamentous anatomy derived from a CT scan of a healthy patient as well as spinal implants consisting of either pedicle screws, cortical bone screws or transverse process hooks as well as cobalt chromium rods. The FEA models were constrained at T10, axial load as assumed for a healthy 80 kg male during flexion, extension and lateral bending were applied. As surrogate markers for risk of proximal junctional kyphosis, proximal junctional failure, adjacent segment disease and pseudarthrosis the following biomechanical parameters were calculated: UIV range of motion (ROM); intradiscal stress at UIV/UIV + 1; UIV intravertebral stress and screw pull out forces. One-way ANOVA analyses have been performed to compare biomechanical outcome parameters between the three construct variants under investigation.UIV-ROM was restricted during flexion/extension/lateral bending by: PS: 73%/80%/86%, CBS: 71%/81%/85% and TPH: 62%/76%/85%. Average intradiscal stress at UIV/UIV + 1 during flexion/extension/lateral bending was (Mega Pascal, MPa): PS 0.42/0.44/0.38, CBS 0.49/0.4/0.44, TPH 0.66/0.51/0.58; average intravertebral stress of the UIV superior endplate during flexion/extension/lateral bending was (MPa): PS 2.23/2.12/2.21, CBS 1.87/1.98/1.8, TPH 1.67/0.98/1.53. Screw pull-out forces (N) at UIV during flexion/extension/lateral bending were: PS 476/320/375, CBS 444/245/308. Statistically significant differences were found for intradiscal stress as well as vertebral body average stress (p = 0.02 and p = 0.02).Different UIV fixation techniques carry different biomechanical properties. Pedicle screw fixation is the most rigid, leading to the highest UIV stress and UIV screw pull out forces. Cortical bones screw fixation is similarly rigid; however, UIV stress and UIV screw pull out is significantly lower. Transverse process hook fixation is the least rigid, with the lowest UIV stress, however highest intradiscal stress at UIV/UIV + 1. Thus, these biomechanical differences may help select optimal UIV fixation techniques according to patient specific risk factors.

Published

2022

2. The Management of Disorders of the Child’s Cervical Spine

Author

Daniel J. Hedequist, Suken A. Shah, Burt Yaszay, Daniel J. Hedequist, Suken A. Shah, and Burt Yaszay

Subjects

Spine--Abnormalities, Children, Bone diseases in children, Spine--Diseases

Abstract

Comprehensive yet practical, this book is the first of its kind to focus exclusively on both major and minor conditions affecting the pediatric cervical spine. Written by eminent orthopedic and spinal surgeons, it provides a systematic approach based on traditional categories: anatomy, pathology, imaging, and both surgical and non-surgical treatment strategies. Utilizing the most up-to-date evidence, the subject is approached in three main sections. The basic science of the pediatric cervical spine – anatomy, biomechanics, imaging and diagnostic techniques – is covered in part I. The clinical aspects of pediatric cervical spine disorders are discussed in part II, including trauma, inflammatory conditions, infections, tumors, congenital anomalies and others. The medical and surgical treatment of these disorders comprises part III, presenting conservative techniques such as immobilization and surgical techniques such as arthrodesis. Complications and other related pediatric cervical conditions are also covered in this last section.Written by an international panel of experts and skillfully edited by leaders in the field, The Management of Children's Cervical Spine Disorders is a unique and definitive resource for pediatric orthopedic spine surgeons, neurologists and all medical professionals treating these delicate conditions.

Published

2018