Caractérisation et modélisation du comportement mécanique de matériaux composites SiC/SiC

National audienceLes composites SiC/SiC sont envisagés comme matériaux de coeur des réacteurs nucléaires de 4e génération. Leur comportement mécanique à été étudié par le biais d'essais biaxés, ayant permis la construction et l'identification d'un modèle d'endommagement ainsi que son implantation dans un code éléments finis

Assessment of digital image correlation measurement accuracy in the ultimate error regime: main results of a collaborative benchmark

We report on the main results of a collaborative work devoted to the study of the uncertainties associated with Digital image correlation techniques (DIC). More specifically, the dependence of displacement measurement uncertainties with both image characteristics and DIC parameters is emphasised. A previous work [Bornert et al. (2009) Assessment of digital image correlation measurement errors: methodology and results. Exp. Mech. 49, 353-370] dedicated to situations with spatially fluctuating displacement fields demonstrated the existence of an ultimate error' regime, insensitive to the mismatch between the shape function and the real displacement field. The present work is focused on this ultimate error. To ensure that there is no mismatch error, synthetic images of in-plane rigid body translation have been analysed. Several DIC softwares developed by or in use in the French community have been used to explore the effects of a large number of settings. The discrepancies between DIC evaluated displacements and prescribed ones have been statistically analysed in terms of random errors and systematic bias, in correlation with the fractional part of the displacement component expressed in pixels. Main results are as follows: (i) bias amplitude is almost always insensitive to subset size, (ii) standard deviation of random error increases with noise level and decreases with subset size and (iii) DIC formulations can be split up into two main families regarding bias sensitivity to noise. For the first one, bias amplitude increases with noise while it remains nearly constant for the second one. In addition, for the first family, a strong dependence of random error with is observed for noisy images

Cytoskeletal-based mechanisms differently regulate <i>in vivo</i> and <i>in vitro</i> proplatelet formation

Platelets are produced by bone marrow megakaryocytes through cytoplasmic protrusions, named native proplatelets (nPPT), into blood vessels. Proplatelets also refer to protrusions observed in megakaryocyte culture (cPPT) that are morphologically different. Contrary to cPPT, the mechanisms of nPPT formation are poorly understood. We show here in living mice that nPPT elongation is in equilibrium between protrusive and retraction forces mediated by myosin-IIA. We also found, using WT and β1-tubulin-deficient mice, that microtubule behavior differs between cPPT and nPPT, being absolutely required in vitro, while less critical in vivo. Remarkably, microtubule depolymerization in myosin-deficient mice did not affect nPPT elongation. We then calculated that blood Stokes'forces may be sufficient to promote nPPT extension, independently of myosin and microtubules. Together, we propose a new mechanism for nPPT extension that might explain contradictions between severely affected cPPT production and moderate platelet count defects in some patients and animal models

Nanoscale Stiffness Distribution in Bone Metastasis

Nanomechanical heterogeneity is expected to have an effect on elasticity, injury and bone remodelling. In normal bone, we have two types of cells (osteoclasts and osteoblasts) working together to maintain existing bone. Bone cancers can produce factors that make the osteoclasts work harder. This means that more bone is destroyed than rebuilt, and leads to weakening of the affected bone. We report here the first demonstration of the nanoscale stiffness distribution in bone metastases before and after treatment of animals with the bisphosphonate Risedronate, a drug which is currently used for the treatment of bone metastases in patients with advanced cancers. The strategy used here is applicable to a wide class of biological tissues and may serve as a new reflection for biologically inspired scaffolds technologies

Biodegradable magnesium barrier membrane used for guided bone regeneration in dental surgery

Barrier membranes are commonly used as part of the dental surgical technique guided bone regeneration (GBR) and are often made of resorbable collagen or non-resorbable materials such as PTFE. While collagen membranes do not provide sufficient mechanical protection of the covered bone defect, titanium reinforced membranes and non-resorbable membranes need to be removed in a second surgery. Thus, biodegradable GBR membranes made of pure magnesium might be an alternative. In this study a biodegradable pure magnesium (99.95%) membrane has been proven to have all of the necessary requirements for an optimal regenerative outcome from both a mechanical and biological perspective. After implantation, the magnesium membrane separates the regenerating bone from the overlying, faster proliferating soft tissue. During the initial healing period, the membrane maintained a barrier function and space provision, whilst retaining the positioning of the bone graft material within the defect space. As the magnesium metal corroded, it formed a salty corrosion layer and local gas cavities, both of which extended the functional lifespan of the membrane barrier capabilities. During the resorption of the magnesium metal and magnesium salts, it was observed that the membrane became surrounded and then replaced by new bone. After the membrane had completely resorbed, only healthy tissue remained. The in vivo performance study demonstrated that the magnesium membrane has a comparable healing response and tissue regeneration to that of a resorbable collagen membrane. Overall, the magnesium membrane demonstrated all of the ideal qualities for a barrier membrane used in GBR treatment

Study of the dysmorphologies and the growth of the mandible in a hypohidrotic ectodermal dysplasia murine model

La dysplasie ectodermique hypohidrotique liée à l’X (DEX) est consécutive à la mutation du gène Eda. Ce projet de recherche avait pour but d’étudier les dysmorphoses cranio-faciales chez le mutant murin Tabby représentant l’équivalent phénotypique de la DEX. La forme des mandibules en vue latérale a été étudiée à partir d’approches quantitatives associant μ-CT, traitement d’images, analyses de Fourier elliptique et analyses métriques. Une première étude ex vivo menée sur 39 spécimens Tabby et 35 souris wild-type adultes a permis de mettre en évidence un hypo-développement mandibulaire chez Tabby. Deuxièmement, une étude longitudinale in vivo de la croissance mandibulaire mise en place sur une cohorte de 23 individus (12 WT et 11 Tabby) a montré que les individus Tabby présentaient cet hypodéveloppement dès le 1er mois et qu’il se maintenait à la fin de la première année de vie. Les défauts du gène Eda affectent ainsi le développement de la mandibule en plus des dérivés ectodermiques.The X-linked hypohidrotic ectodermal dysplasia (XLHED) is the result of Eda gene defect. This research project studied the cranio-facial dysmorphoses in Tabby murin mutant which having a similar phenotype to the XLHED. A association of mutiple quantitive approachs (μ-CT, images processing, elliptical Fourier analyse and metric analyses) permitted to study the mandible’s shape in a lateral view. A first ex vivo study led on 39 specimens Tabby and 35 WT mice allowed to highlight a mandibular hypodevelopment in Tabby. Secondly, a longitudinal in vivo study of mandibular growth, based on 23 specimen (12WT and 11 Tabby), showed that Tabby presented this hypodevelopment from the 1st month and that it remained at the end of the first year of life. The Eda gene affects the development of mandible and ectodermal structures

Study of the dysmorphologies and the growth of the mandible in a hypohidrotic ectodermal dysplasia murine model

La dysplasie ectodermique hypohidrotique liée à l’X (DEX) est consécutive à la mutation du gène Eda. Ce projet de recherche avait pour but d’étudier les dysmorphoses cranio-faciales chez le mutant murin Tabby représentant l’équivalent phénotypique de la DEX. La forme des mandibules en vue latérale a été étudiée à partir d’approches quantitatives associant μ-CT, traitement d’images, analyses de Fourier elliptique et analyses métriques. Une première étude ex vivo menée sur 39 spécimens Tabby et 35 souris wild-type adultes a permis de mettre en évidence un hypo-développement mandibulaire chez Tabby. Deuxièmement, une étude longitudinale in vivo de la croissance mandibulaire mise en place sur une cohorte de 23 individus (12 WT et 11 Tabby) a montré que les individus Tabby présentaient cet hypodéveloppement dès le 1er mois et qu’il se maintenait à la fin de la première année de vie. Les défauts du gène Eda affectent ainsi le développement de la mandibule en plus des dérivés ectodermiques.The X-linked hypohidrotic ectodermal dysplasia (XLHED) is the result of Eda gene defect. This research project studied the cranio-facial dysmorphoses in Tabby murin mutant which having a similar phenotype to the XLHED. A association of mutiple quantitive approachs (μ-CT, images processing, elliptical Fourier analyse and metric analyses) permitted to study the mandible’s shape in a lateral view. A first ex vivo study led on 39 specimens Tabby and 35 WT mice allowed to highlight a mandibular hypodevelopment in Tabby. Secondly, a longitudinal in vivo study of mandibular growth, based on 23 specimen (12WT and 11 Tabby), showed that Tabby presented this hypodevelopment from the 1st month and that it remained at the end of the first year of life. The Eda gene affects the development of mandible and ectodermal structures

Etude des dysmorphoses et de la croissance de la mandibule chez un modèle murin de la dysplasie ectodermique hypohidrotique

The X-linked hypohidrotic ectodermal dysplasia (XLHED) is the result of Eda gene defect. This research project studied the cranio-facial dysmorphoses in Tabby murin mutant which having a similar phenotype to the XLHED. A association of mutiple quantitive approachs (μ-CT, images processing, elliptical Fourier analyse and metric analyses) permitted to study the mandible’s shape in a lateral view. A first ex vivo study led on 39 specimens Tabby and 35 WT mice allowed to highlight a mandibular hypodevelopment in Tabby. Secondly, a longitudinal in vivo study of mandibular growth, based on 23 specimen (12WT and 11 Tabby), showed that Tabby presented this hypodevelopment from the 1st month and that it remained at the end of the first year of life. The Eda gene affects the development of mandible and ectodermal structures.La dysplasie ectodermique hypohidrotique liée à l’X (DEX) est consécutive à la mutation du gène Eda. Ce projet de recherche avait pour but d’étudier les dysmorphoses cranio-faciales chez le mutant murin Tabby représentant l’équivalent phénotypique de la DEX. La forme des mandibules en vue latérale a été étudiée à partir d’approches quantitatives associant μ-CT, traitement d’images, analyses de Fourier elliptique et analyses métriques. Une première étude ex vivo menée sur 39 spécimens Tabby et 35 souris wild-type adultes a permis de mettre en évidence un hypo-développement mandibulaire chez Tabby. Deuxièmement, une étude longitudinale in vivo de la croissance mandibulaire mise en place sur une cohorte de 23 individus (12 WT et 11 Tabby) a montré que les individus Tabby présentaient cet hypodéveloppement dès le 1er mois et qu’il se maintenait à la fin de la première année de vie. Les défauts du gène Eda affectent ainsi le développement de la mandibule en plus des dérivés ectodermiques

Etude des modifications anatomo-physiologiques chez l'édenté total et leurs conséquences sur l'intégration prothétique mandibulaire

STRASBOURG-Medecine (674822101) / SudocPARIS-BIUM (751062103) / SudocSudocFranceF

Etude des dysmorphoses et de la croissance de la mandibule chez un modèle murin de la dysplasie ectodermique hypohidrotique

La dysplasie ectodermique hypohidrotique liée à l X (DEX) est consécutive à la mutation du gène Eda. Ce projet de recherche avait pour but d étudier les dysmorphoses cranio-faciales chez le mutant murin Tabby représentant l équivalent phénotypique de la DEX. La forme des mandibules en vue latérale a été étudiée à partir d approches quantitatives associant -CT, traitement d images, analyses de Fourier elliptique et analyses métriques. Une première étude ex vivo menée sur 39 spécimens Tabby et 35 souris wild-type adultes a permis de mettre en évidence un hypo-développement mandibulaire chez Tabby. Deuxièmement, une étude longitudinale in vivo de la croissance mandibulaire mise en place sur une cohorte de 23 individus (12 WT et 11 Tabby) a montré que les individus Tabby présentaient cet hypodéveloppement dès le 1er mois et qu il se maintenait à la fin de la première année de vie. Les défauts du gène Eda affectent ainsi le développement de la mandibule en plus des dérivés ectodermiques.The X-linked hypohidrotic ectodermal dysplasia (XLHED) is the result of Eda gene defect. This research project studied the cranio-facial dysmorphoses in Tabby murin mutant which having a similar phenotype to the XLHED. A association of mutiple quantitive approachs ( -CT, images processing, elliptical Fourier analyse and metric analyses) permitted to study the mandible s shape in a lateral view. A first ex vivo study led on 39 specimens Tabby and 35 WT mice allowed to highlight a mandibular hypodevelopment in Tabby. Secondly, a longitudinal in vivo study of mandibular growth, based on 23 specimen (12WT and 11 Tabby), showed that Tabby presented this hypodevelopment from the 1st month and that it remained at the end of the first year of life. The Eda gene affects the development of mandible and ectodermal structures.STRASBOURG-Bib.electronique 063 (674829902) / SudocSudocFranceF