Abstract:
Over a lifespan of approximately 70 years, bone withstands millions of loading cycles from muscle forces with incredible resilience to fatigue. However, the mechanisms driving bone formation, organization, and strength are yet to be fully resolved. What is known is (1) the mechanical cues for bone development in mammals are a result of the dynamic muscle and joint forces experienced during locomotion, and less influenced by static gravitational forces and (2) the adaptation of bone to accommodate increased external forces occurs in a specific manner. That is – it doesn’t just get bigger - it has a specific preferential distribution of material in order to maintain efficient mechanical competency.
In this talk, I will present our recent efforts to understand the three-dimensional mechanics of bone during growth and aging. First, using a murine model of growth, we investigated the determinants of spatially heterogeneous strain within the tibia using longitudinal imaging and multi-scale computational models. We also investigated these allometric relationships in equine bone to determine if these hold true for larger animals. Next, I will present a computational assessment of bone strain energy in older human bone samples. Here we aim to identify whether increased strain energy is characterized by morphological features and associated with specific phases of cellular activity during bone remodeling.
Infos date
10h30 salle de séminaire du LMGP
Infos lieu
Grenoble INP - Phelma
3 parvis Louis Néel - 38000 Grenoble
Accès : TRAM B arrêt Cité internationale
Free entrance - No registration