Experimental Biomechanics of Intervertebral Disc Rupture Through a Vertebral Body

Las hernias discales intraesponjosas vertebrales o nódulos de Schmörl consisten en una herniación o una extrusión del núcleo pulposo del disco intervertebral a través del platillo vertebral hacia el cuerpo adyacente. Suelen asociarse a deformidades vertebrales, como la enfermedad de Scheuermann, o a enfermedades reumáticas, como la espondilitis anquilopoyética. En general, son hallazgos casuales y cuadros asintomáticos; son pocos los casos publicados de nódulos sintomáticos. Su aparición estaría relacionada con un platillo vertebral debilitado por traumatismo o estrés repetido. Cuando el nódulo es agudo o reciente, puede ser difícil diferenciar la degeneración benigna de una infiltración maligna o una infección. Presentamos un caso inusual de un nódulo de Schmörl doloroso en un hombre sin antecedentes de relevancia, que enmascaró una lesión metastásica de carcinoma pancreático a nivel lumbar. Se realiza una revisión bibliográfica. ABSTRACTIntraosseous disc herniation –or Schmörl nodes (SN)– are a herniation or prolapse of the nucleus pulposus of the intervertebral disc through the vertebral plate and into the adjacent vertebral body. They are usually associated with vertebral deformities, suchas Scheuermann’s disease, or rheumatic diseases, such as ankylopoietic spondylitis. In general, they are spontaneous and asymptomatic findings, and there are only a few reported cases of symptomatic nodes. The etiology is supposedly related to a weakened spinal plate due to trauma or repeated stress. When the node is acute or recent, it can be difficult to differentiate a benign degeneration from a malignant infiltration or infection. In this paper, we discuss the unusual case of a painful Schmörl node in a man with no relevant history and a masked metastatic lumbar spinal tumor originated from pancreatic cancer. We performed a literature review.

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Radiofrequency Ablation of an Unusual Vertebral Body Osteoid Osteoma Contiguous with the Intervertebral Disc

Journal of Vascular and Interventional Radiology ◽

10.1016/j.jvir.2013.05.029 ◽

2013 ◽

Vol 24 (11) ◽

pp. 1756-1758

Author(s):

Mark D. Mamlouk ◽

Eric vanSonnenberg ◽

Frank Schraml ◽

Nicholas Theodore

Keyword(s):

Radiofrequency Ablation ◽

Intervertebral Disc ◽

Vertebral Body ◽

Osteoid Osteoma

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Intervertebral disc disorganisation and its relationship to age adjusted vertebral body morphometry and vertebral bone architecture

The Anatomical Record ◽

10.1002/1097-0185(20010301)262:3<331::aid-ar1044>3.0.co;2-h ◽

2001 ◽

Vol 262 (3) ◽

pp. 331-339 ◽

Cited By ~ 17

Author(s):

Nicola L. Fazzalari ◽

Beverley Manthey ◽

Ian H. Parkinson

Keyword(s):

Intervertebral Disc ◽

Vertebral Body ◽

Bone Architecture ◽

Vertebral Bone

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Three-Dimensional Biomechanical Finite Element Analysis of Lumbar Disc Herniation in Middle Aged and Elderly

Journal of Healthcare Engineering ◽

10.1155/2022/7107702 ◽

2022 ◽

Vol 2022 ◽

pp. 1-11

Author(s):

Shiyuan Wan ◽

Bin Xue ◽

Yanhao Xiong

Keyword(s):

Finite Element ◽

Intervertebral Disc ◽

Lumbar Disc Herniation ◽

Vertebral Body ◽

Disc Herniation ◽

Lumbar Disc ◽

Three Dimensional ◽

Surgical Methods ◽

Left And Right ◽

The Impact

Lumbar intervertebral disc protrusion disease refers to the degeneration of intervertebral disc, rupture of fibrous ring, nucleus pulpous protrusion and stimulation or compression of nerve root. The import command in Mimics medical 3D reconstruction software was used to erase the irrelevant image data and obtain vertebral body images. The original 3D model of each vertebral body was built by 3D computing function. A three-dimensional finite element model was established to analyze the effect of different surgical methods on the mechanical distribution of the spine after disentomb. The stress distribution of the spine, intervertebral disc, and left and right articular cartilage at L4/L5 stage and the position shift of the fourth lumbar vertebra were analyzed under 7 working conditions of vertical, forward flexion, extension, left and right flexion, and left and right rotation. The results showed that the established model was effective, and the smaller the area of posterior laminar decompression was, the lesser the impact on spinal stability was. The PELD treatment of lumbar disc herniation had little impact on spinal biomechanics and could achieve good long-term biomechanical stability. Combining the clinical experiment method and finite element simulation, using the advantages of finite element software to optimize the design function can provide guidance for the design and improvement of medical devices and has important significance for the study of clinical mechanical properties and biomechanics.

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Structural and functional peculiarities of spine deformity development in neurofibromatosis NF-1

Bulletin of Siberian Medicine ◽

10.20538/1682-0363-2010-6-34-40 ◽

2010 ◽

Vol 9 (6) ◽

pp. 34-40

Author(s):

A. M. Zaidman ◽

M. V. Mikhailovsky ◽

Ye. L. Zaviyalova ◽

V. A. Suzdalov ◽

M. A. Sadovoy

Keyword(s):

Intervertebral Disc ◽

Vertebral Body ◽

Spinal Deformity ◽

Mutant Gene ◽

Etiologic Factor ◽

Spine Deformity ◽

Progressive Development ◽

Genes Expression ◽

Oncogene Activation ◽

Migration Of Cells

To study pathogenetic mechanisms of the development of spinal deformity in neurofibromatosis.Structural components of the spine were presented as specimens obtained after surgical correction of spinal deformity performed in 10 children with III—IV grade scoliosis associated with neurofibromatosis.Etiologic factor of the development of spinal deformity in neurofibromatosis is a mutation of the NF-1 gene in cells of ganglious lamella. Migration of cells carrying mutant gene into one of the sclerotome zones results in oncogene activation and intensive proliferation of chondro-, osteo-, and fibroblasts in the growth plate, intervertebral disc, and vertebral body.Progressive development of the spinal deformity after surgical intervention is accounted both for proliferation of chondro- and fibroblasts in the vertebral body and intervertebral disc and for disturbance of the NF-1 and lumican genes expression.

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VERTEBROMETRY AND DISCOMETRY OF THE LUMBAR FUNCTIONAL SEGMENT (REBATÚ-MURGUÍA TECHNIQUE)

Coluna/Columna ◽

10.1590/s1808-185120171602172305 ◽

2017 ◽

Vol 16 (2) ◽

pp. 112-115 ◽

Cited By ~ 1

Author(s):

Alejandro González Rebatú y González ◽

Ramón Ortega Padron, ◽

Myriham Murguia Casas, ◽

Rubén Vargas Burgos ◽

Rodrigo Bartolomé Vargas Lugo Salinas

Keyword(s):

Surgical Treatment ◽

Intervertebral Disc ◽

Vertebral Body ◽

Intervertebral Disc Degeneration ◽

Interbody Fusion ◽

Disc Space ◽

X Ray ◽

Lumbar Stabilization ◽

Vertebral Bodies ◽

The Ideal

ABSTRACT Surgical treatment of intervertebral disc degeneration aims to restore the height of the disc space and the release of involved neurological structures. Like any surgical treatment in orthopedics, the success or failure of the lumbar procedure involves the possibility of performing an adequate planning of each particular event. In the case of lumbar stabilization surgery with interbody fusion, it is essential to know the ideal height of the disc space for the fusion to be successful. Objective: To demonstrate that the ideal height of the disc space corresponds approximately to one third of the height of the vertebral body. Methods: X-ray images were taken in AP and lateral views of hospital residents to measure L4-L5 vertebral bodies as well as the disc space. The rule of three was used to check the height of the disc and vertebral bodies. Results: It was verified that the disc space corresponds to 31% of the size of the vertebral body, taking 0.31 as the constant. Conclusions: The size of the disc corresponds to one third of the vertebral body, taking 0.31 as the constant. The multiplication of the constant by the height of the vertebral body results in the exact height of the disc. Thus, in the presence of degeneration of the intervertebral disc, it is possible to know the size of the disc and, therefore, the size of the interbody cage.

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Retroperitoneal oblique corridor to the L2–S1 intervertebral discs: an MRI study

Journal of Neurosurgery Spine ◽

10.3171/2015.3.spine13976 ◽

2016 ◽

Vol 24 (2) ◽

pp. 248-255 ◽

Cited By ~ 34

Author(s):

Diana M. Molinares ◽

Timothy T. Davis ◽

Daniel A. Fung

Keyword(s):

Lumbar Spine ◽

Intervertebral Disc ◽

Vertebral Body ◽

Psoas Muscle ◽

Intervertebral Discs ◽

Mr Images ◽

Disc Space ◽

Iliac Vessel ◽

Medial Border ◽

Transpsoas Approach

OBJECT The purpose of this study was to analyze MR images of the lumbar spine and document: 1) the oblique corridor at each lumbar disc level between the psoas muscle and the great vessels, and 2) oblique access to the L5–S1 disc space. Access to the lumbar spine without disruption of the psoas muscle could translate into decreased frequency of postoperative neurological complications observed after a transpsoas approach. The authors investigated the retroperitoneal oblique corridor of L2–S1 as a means of surgical access to the intervertebral discs. This oblique approach avoids the psoas muscle and is a safe and potentially superior alternative to the lateral transpsoas approach used by many surgeons. METHODS One hundred thirty-three MRI studies performed between May 4, 2012, and February 27, 2013, were randomly selected from the authors’ database. Thirty-three MR images were excluded due to technical issues or altered lumbar anatomy due to previous spine surgery. The oblique corridor was defined as the distance between the left lateral border of the aorta (or iliac artery) and the anterior medial border of the psoas. The L5–S1 oblique corridor was defined transversely from the midsagittal line of the inferior endplate of L-5 to the medial border of the left common iliac vessel (axial view) and vertically to the first vascular structure that crossed midline (sagittal view). RESULTS The oblique corridor measurements to the L2–5 discs have the following mean distances: L2–3 = 16.04 mm, L3–4 = 14.21 mm, and L4–5 = 10.28 mm. The L5–S1 corridor mean distance was 10 mm between midline and left common iliac vessel, and 10.13 mm from the first midline vessel to the inferior endplate of L-5. The bifurcation of the aorta and confluence of the vena cava were also analyzed in this study. The aortic bifurcation was found at the L-3 vertebral body in 2% of the MR images, at the L3–4 disc in 5%, at the L-4 vertebral body in 43%, at the L4–5 disc in 11%, and at the L-5 vertebral body in 9%. The confluence of the iliac veins was found at lower levels: 45% at the L-4 level, 19.39% at the L4–5 intervertebral disc, and 34% at the L-5 vertebral body. CONCLUSIONS An oblique corridor of access to the L2–5 discs was found in 90% of the MR images (99% access to L2–3, 100% access to L3–4, and 91% access to L4–5). Access to the L5–S1 disc was also established in 69% of the MR images analyzed. The lower the confluence of iliac veins, the less probable it was that access to the L5–S1 intervertebral disc space was observed. These findings support the use of lumbar MRI as a tool to predetermine the presence of an oblique corridor for access to the L2–S1 intervertebral disc spaces prior to lumbar spine surgery.

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