A new classification of impacted proximal humerus fractures based on the morpho-volumetric evaluation of humeral head bone loss with a 3D model

This study aimed to classify the pathomorphology of impacted proximal humeral fractures according to the control volume theory, with the intention to introduce a severity index to support surgeons in decision making. In total, 50 proximal humeral fractures were randomly selected from 200 medical rec...

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Bibliographic Details
Published in:Journal of shoulder and elbow surgery 2020-10, Vol.29 (10), p.e374-e385
Main Authors: Russo, Raffaele, Guastafierro, Antonio, Rotonda, Giuseppe della, Viglione, Stefano, Ciccarelli, Michele, Mortellaro, Marco, Minopoli, Paolo, Fiorentino, Fabrizio, Pietroluongo, Livia Renata
Format: Article
Language:English
Subjects:
Adolescent
Adult
Aged
Aged, 80 and over
calcar
classification
comminution
Control volume
Female
fracture severity
Fractures, Comminuted - diagnostic imaging
Humans
Humeral Head - diagnostic imaging
Imaging, Three-Dimensional
Male
Middle Aged
Observer Variation
proximal humeral fractures
Reproducibility of Results
shoulder
Shoulder Fractures - classification
Shoulder Fractures - diagnostic imaging
Tomography, X-Ray Computed
Young Adult
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Summary:This study aimed to classify the pathomorphology of impacted proximal humeral fractures according to the control volume theory, with the intention to introduce a severity index to support surgeons in decision making. In total, 50 proximal humeral fractures were randomly selected from 200 medical records of adult patients treated from 2009 to 2016. Four nonindependent observers used 2 different imaging modalities (computed tomography scans plus volume rendering; 3D model) to test the classification reliability. A fracture classification system was created according to the control volume theory to provide simple and understandable patterns that would help surgeons make quick assessments. The impacted fractures table was generated based on an evaluation of the calcar condition, determined by the impairment of a defined volumetric area under the cephalic cup and the humeral head malposition. In addition to the main fracture pattern, the comminution degree (low, medium, high), providing important information on fracture severity, could also be evaluated. From 3D imaging, the inter- and intraobserver reliability revealed a k value (95% confidence interval) of 0.55 (0.50-0.60) and 0.91 (0.79-1.00), respectively, for the pattern code, and 0.52 (0.43-0.76) and 0.91 (0.56-0.96), respectively, for the comminution degree. The new classification provides a useful synoptic framework for identifying complex fracture patterns. It can provide the surgeon with useful information for fracture analysis and may represent a good starting point for an automated system.
ISSN:1058-2746
1532-6500
DOI:10.1016/j.jse.2020.02.022