Published in
BioMed Central, BMC Musculoskeletal Disorders, 1(13), 2012
Links
- BioMed Central | PDF
- ORCID
- [www.biomedcentral.com] | PDF
- [www.ncbi.nlm.nih.gov] | PDF
- [nbn-resolving.org]
- [repositorium.uni-muenster.de] | PDF
- [repositorium.uni-muenster.de] | PDF
- [europepmc.org] | PDF
- [www.researchgate.net] | PDF
- [www.ncbi.nlm.nih.gov] | PDF
- [www.ncbi.nlm.nih.gov] | PDF
Tools
Experimentally induced incomplete burst fractures - a novel technique for calf and human specimens
,
Adam Gasch,
Dominic A. (Dominic) Gehweiler,
Steffen Schanz,
Martin Schulze,
Lars Matuszewski,
Martin Langer,
Michael J. (Michael) Raschke,
Thomas Vordemvenne
Full text: Download
Abstract
Abstract Background Fracture morphology is crucial for the clinical decision-making process preceding spinal fracture treatment. The presented experimental approach was designed in order to ensure reproducibility of induced fracture morphology. Results The presented method resulted in fracture morphology, found in clinical classification systems like the Magerl classification. In the calf spine samples, 70% displayed incomplete burst fractures corresponding to type A3.1 and A3.2 fractures. In all human samples, superior incomplete burst fractures (Magerl A3.1) were identified by an independent radiologist and spine surgeon. Conclusions The presented set up enables the first experimental means to reliably model and study distinct incomplete burst fracture patterns in an in vitro setting. Thus, we envisage this protocol to facilitate further studies on spine fracture treatment of incomplete burst fractures.