Characterizing Trabecular Bone Properties near the Glenohumeral Joint Following Brachial Plexus Birth Injury

Abstract

AbstractBrachial plexus birth injury (BPBI) causes functional arm impairment in 30-40% of those affected due to altered loading on the glenohumeral joint. While gross morphological osseous deformities have been seen in the humerus and scapula, alterations in the underlying trabecular bone microstructure and mineralization are not clear. Using a murine model of BPBI, trabecular bone alterations were explored in the proximal humerus and distal scapula, which surround the articulating surface of the joint. Samples were scanned using micro-CT, reoriented, and analyzed for standard trabecular metrics. The regions of interest closest to the articulating surface showed the greatest detriments. In the scapula, the scapular neck region showed less robust trabecular bone in the neurectomy group with decreased BV/TV (p=0.001), BMD (p=0.001), Conn.D (p=0.006), Tb.N (p<0.0001), and DA (p=0.033), and increased Tb.Sp (p<0.0001) compared to sham. In the humerus, the epiphysis showed less robust trabecular bone in neurectomy group, but to a much lesser extent than the scapular neck. The neurectomy group showed reduced BMD (p=0.007) and Tb.N (p=0.029) compared to sham. Data suggest deformities are worse near the articulating surface, likely due to the greater amount of mechanical loading. The reduction in trabecular microstructure and mineralization may compromise bone strength of the affected limb following BPBI. Further investigation of the underlying trabecular bone deformities following injury are necessary to eventually inform better treatments to limit the development of deformities.