Correlations between local strains and tissue phenotypes in an experimental model of skeletal healing.

Autor: Morgan EF; Orthopaedic and Developmental Biomechanics Laboratory, Department of Mechanical Engineering, Boston University, Boston, MA 02215, USA. efmorgan@bu.edu, Salisbury Palomares KT, Gleason RE, Bellin DL, Chien KB, Unnikrishnan GU, Leong PL
Jazyk: angličtina
Zdroj: Journal of biomechanics [J Biomech] 2010 Aug 26; Vol. 43 (12), pp. 2418-24. Date of Electronic Publication: 2010 May 23.
DOI: 10.1016/j.jbiomech.2010.04.019
Abstrakt: Defining how mechanical cues regulate tissue differentiation during skeletal healing can benefit treatment of orthopaedic injuries and may also provide insight into the influence of the mechanical environment on skeletal development. Different global (i.e., organ-level) mechanical loads applied to bone fractures or osteotomies are known to result in different healing outcomes. However, the local stimuli that promote formation of different skeletal tissues have yet to be established. Finite element analyses can estimate local stresses and strains but require many assumptions regarding tissue material properties and boundary conditions. This study used an experimental approach to investigate relationships between the strains experienced by tissues in a mechanically stimulated osteotomy gap and the patterns of tissue differentiation that occur during healing. Strains induced by the applied, global mechanical loads were quantified on the mid-sagittal plane of the callus using digital image correlation. Strain fields were then compared to the distribution of tissue phenotypes, as quantified by histomorphometry, using logistic regression. Significant and consistent associations were found between the strains experienced by a region of the callus and the tissue type present in that region. Specifically, the probability of encountering cartilage increased, and that of encountering woven bone decreased, with increasing octahedral shear strain and, to a lesser extent, maximum principal strain. Volumetric strain was the least consistent predictor of tissue type, although towards the end of the four-week stimulation timecourse, cartilage was associated with increasingly negative volumetric strains. These results indicate that shear strain may be an important regulator of tissue fate during skeletal healing.
(2010 Elsevier Ltd. All rights reserved.)
Databáze: MEDLINE