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Biomechanical Investigation of the Classic Metaphyseal Lesion Using an Immature Porcine Model

NCJ Number
249271
Journal
American Journal of Roentgenology Volume: 204 Issue: 5 Dated: May 2015 Pages: W503-W509
Author(s)
Angela Thompson; Gina Bertocci; Kim Kaczor; Craig Smalley; Mary C. Pierce
Date Published
May 2015
Length
7 pages
Annotation
This study investigated loading conditions necessary to create a classic metaphyseal lesion using an immature porcine model.
Abstract
The classic metaphyseal lesion is highly associated with abuse in infants. Classic metaphyseal lesions, also referred to as corner or bucket-handle fractures, are fractures through the metaphyseal region of the long bones near the growth plate. Knowledge of the biomechanics and mechanisms necessary to produce a classic metaphyseal lesion may provide insight into the injury causation associated with this unique fracture type. In the current study, fractures resembling classic metaphyseal lesions were identified in 12 of the 24 specimens. Microcomputed tomography images revealed trabecular disruptions visually similar to classic metaphyseal lesions in children. The study concludes that metaphyseal fractures, consistent with clinical classic metaphyseal lesions, resulted from a single loading event delivering varus or valgus bending to the stifle (knee). A classic metaphyseal lesion is a unique type of fracture with specific morphologic characteristics. Therefore, the study suggests using the term "classic metaphyseal fracture" in lieu of classic metaphyseal lesion to improve the precision of terminology. Twenty-four pelvic limb specimens from 7-day-old and 3-day-old piglets were tested in lateral bending (varus and valgus) using an electromechanical testing machine. All specimens were loaded dynamically in four-point bending at a rate of 100 inches/min. Microcomputed tomography was performed on specimens before and after testing. Pre- and posttest CT images were compared to assess whether fracture had occurred. 27 references (Publisher abstract modified)