Bone adaptation to mechanical loading
Univ.- Prof. Dr. Sara Checa Esteban
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Bone is able to adapt to the mechanical loads placed on it, by adding or removing matrix. We are interested in understanding how local mechanical signals within the bone regulate the local resorption and apposition of bone matrix. To achieve this, we use finite element techniques in combination with novel in vivo microCT image registration methods to correlate the local strain environment to formation and resorption events.
Razi H, Birkhold AI, Weinkamer R, Duda GN, Willie BM, Checa S (2015) Aging leads to a dysregulation in mechanically driven bone formation and resorption. J Bone Miner Res. In press
Birkhold AI, Razi H, Weinkamer R, Duda GN, Checa S, Willie BM. (2015) Monitoring in vivo (re)modeling: a computational approach using 4D microCT data to quantify bone surface movements. Bone, 75: 210-21.
Razi H, Birkhold AI, Zaslansky P, Weinkamer R, Duda GN, Willie B, Checa S (2015) Skeletal Maturity leads to a reduction in the strain magnitudes induced within the bone: A murine study. Acta Biomaterialia, 13:301-10
Razi H, Birkhold AI, Zehn M, Duda GN, Willie B, Checa S (2014) A finite element model of in vivo mouse tibial compression loading: influence of boundary conditions. Facta Universitatis. Series: Mechanical Engineering Vol. 12, No 3, 2014, pp. 195 - 207
Birkhold AI, Razi H, Duda GN, Weinkamer R, Checa S, Willie BM. (2014) The influence of age on adaptive bone formation and bone resorption. Biomaterials, 35(34): 9290-301
Birkhold AI, Razi H, Duda GN, Weinkamer R, Checa S, Willie BM. (2014) Mineralizing surface is the main target of mechanical stimulation independent of age: 3D dynamic in vivo morphometry. Bone, 66: 15-25
Willie BM, Birkhold AI, Razi H, Thiele T, Aido M, Kruck B, Schill A, Checa S, Main RP, Duda GN. (2014) Diminished response to in vivo mechanical loading in trabecular and not cortical bone in adulthood of female C57Bl/6 mice coincides with a reduction in deformation to load. Bone, 55(2): 335-46