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Comparative Study
Facet tropism and interfacet shape in the thoracolumbar vertebrae: characterization and biomechanical interpretation.
- Youssef Masharawi, Bruce Rothschild, Khalil Salame, Gali Dar, Smadar Peleg, and Israel Hershkovitz.
- Tel-Aviv University, Sackler Faculty of Medicine, Department of Physical Therapy, Ramat-Aviv, Tel-Aviv, Israel. yossefm@post.tau.ac.il
- Spine. 2005 Jun 1; 30 (11): E281E292E281-92.
Study DesignThoracolumbar facet and interfacet linear dimensions were measured and analyzed.ObjectiveTo characterize and analyze the thoracolumbar facet and interfacet size and shape in relation to gender, ethnic group, and age and to detect the extent of normal facet tropism along the thoracolumbar spine.Summary Of Background DataKnowledge on facet tropism and interfacet shape is limited in the literature as most data are based on 2-dimensional measurements, small samples, or isolated vertebrae.MethodsFacet shape as represented by width, length, width/length ratio and interfacet distances was obtained directly from dry vertebrae of 240 adult human spines. The specimen's osteologic material is part of the Hamann-Todd Osteological Collection housed at the Cleveland Museum of Natural History, Cleveland, OH. A total of 4080 vertebrae (T1-L5) from the vertebral columns of individuals 20 to 80 years of age were measured, using a Microscribe 3-dimensional apparatus (Immersion Co., San Jose, CA). Data were recorded directly on computer software. Statistical analysis included paired t tests and ANOVA.ResultsA significant correlation was found between all thoracolumbar facet dimensions and an individual's height and weight. Facet tropism is a major characteristic of the thoracolumbar spine, the left being longer in the thorax while the right is longer in the lumbar. In general, facet size is age-independent and greater in males compared with females with a significant ethnic component. Facet length is similar for all thoracic vertebrae, whereas it sharply and continuously increases in the lumbar vertebrae. Facet dimension manifests a bipolar distribution along the thoracolumbar vertebrae. Width/length ratio indicates that facets are longer than wider for most verte-brae. The interarticular area manifests a marked inverted trapezoidal shape at T1-T2, a rectangular shape at T3-L3, and an ordinary trapezoidal shape at L4-L5.ConclusionsFacet tropism is a normal characteristic in humans, yet it varies along the thoracolumbar spine.
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