Osteoblasts response to physical stimuli based on mechanical strain low amplitude high frequency. A tool for tissue engineering

Over the course of a day, weight bearing bones experience numerous stimulations : mechanical loadings varying in magnitude and frequency, but also electric fields. However, the biological effects of mechanical strain or electrical field on bone cells are poorly understood. In the present in vitro study, osteoblasts were submitted to only one kind of physical stimulus or a combination of stimuli, and the responses were compared. In the perspective of improving the qualities of bone substitute, we analysed parameters essential for a successfull osteointegration : the extracellular matrice (ECM) as host-biomaterial interface, and angiogenic factors which induce implant vascularization. We investigated the effects of complex mechanical strains based on signals of "low magnitude / high frequency" (LMHF) applied to 3D cultures (macroporous hydroxyapatite). Our study shows that an appropriate combined strain regimen (3 Hz+25Hz) has the potential to functionalise cellularized bone-like constructs. ECM synthesis was promoted by LMHF and the osteogenic properties of this ECM were enhanced while VEGF was not affected. Another system was developed to apply an electric field to cell cultures. Some parameters indicated that cells are sensitive to electric fields ; however VEGF expression was not affected. In contrast, when the physical stimulations were combined (LMHF strain + electric field) gene expression of factors implicated in angiogenesis (VEGF, TGFß1, FGF2...) was increased. The complex stimuli whose effects were analysed in this work could be used as a tool for the functionalization of a cellularized bone substitutes

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Source https://theses.hal.science/tel-00670904
Author Dumas, Virginie
Maintainer CCSD
Last Updated May 28, 2026, 09:31 (UTC)
Created May 28, 2026, 09:31 (UTC)
Identifier NNT: 2010STET001T
Language fr
Rights https://about.hal.science/hal-authorisation-v1/
contributor Contraintes mécaniques et tissu osseux ; Université Jean Monnet - Saint-Étienne (UJM) ; Université Jean Monnet (EPSCPE) (UJM EPE)-Université Jean Monnet (EPSCPE) (UJM EPE)-Institut National de la Santé et de la Recherche Médicale (INSERM)
creator Dumas, Virginie
date 2010-03-19T00:00:00
harvest_object_id 7d05810d-0d91-4d23-8710-f8427cbc41cd
harvest_source_id 3374d638-d20b-4672-ba96-a23232d55657
harvest_source_title test moissonnage SELUNE
metadata_modified 2026-04-23T00:00:00
set_spec type:THESE