Computed tomographic analysis of the internal structure of the metacarpals and its implications for hand use, pathology, and surgical intervention

Alison L. Wong, Clifton G. Meals, Christopher B Ruff

Research output: Contribution to journalArticlepeer-review

Abstract

The variation of bone structure and biomechanics between the metacarpals is not well characterized. It was hypothesized that their structure would reflect their common patterns of use (i.e., patterns of hand grip), specifically that trabecular bone density would be greater on the volar aspect of all metacarpal bases, that this would be most pronounced in the thumb, and that the thumb diaphysis would have the greatest bending strength. Cross-sections at basal and mid-diaphyseal locations of 50 metacarpals from 10 human hands were obtained by peripheral quantitative computed tomography. The volar and dorsal trabecular densities of each base were measured and characterized using the volar/dorsal density ratio. The polar stress–strain index (SSIp), a surrogate measure of torsional/bending strength, was measured for each diaphysis and standardized for bone length and mass. Comparisons were made using mixed-model analyses of variance (ANOVAs) and post hoc tests. Volar/dorsal trabecular density ratios showed even distribution in all metacarpal bases except for the thumb, which showed greater values on the volar aspect. The thumb, second, and third metacarpals all had high bending strength (SSIp), but the thumb’s SSIp relative to its length and trabecular mass was much higher than those of the other metacarpals. Trabecular density of the metacarpal bases was evenly distributed except in the thumb, which also showed higher bending strength relative to its length and mass. Understanding of how these indicators of strength differ across metacarpals may improve both fracture diagnosis and treatment and lays the groundwork for investigating changes with age, hand dominance, and occupation.

Original languageEnglish (US)
Pages (from-to)1-7
Number of pages7
JournalAnatomical Science International
DOIs
StateAccepted/In press - Mar 24 2017

Keywords

  • Biomechanical
  • Bone
  • Computed tomography
  • Metacarpals
  • Morphology

ASJC Scopus subject areas

  • Anatomy

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