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GRADUATE STUDIES
- • STUDYING AT MANUTECH SLEIGHT
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MSc in Optics, Image, Vision, Multimedia (OIVM)
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iPSRS - Intelligent Photonics for Security, Reliability, Sustainability and Safety
- PSRS - Partner universities
- RADMEP - Radiation and its Effects on MicroElectronics and Photonics Technologies
- COSI - Computational Colour and Spectral Imaging
- IMLEX - Imaging & Light in Extended Reality
- AIMA - Advanced Imaging & Material Appearance
- PE - Photonics Engineering
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iPSRS - Intelligent Photonics for Security, Reliability, Sustainability and Safety
- MSc in Computer Science
- MSc in Health Engineering
- Engineering schools' research tracks
- Doctoral studies
- Training through research
- Opportunities
- Admission and aid
- OPTICA student chapter
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RESEARCH & INNOVATION
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SCIENTIFIC EVENTS
- • News and about
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The SLEIGHT Science Events
- SSE #13 - SLEIGHT in 2025
- SSE #12 - Imaging in Manutech-SLEIGHT
- SSE #11 - SLEIGHT in 2024
- SSE #10 - Sustainable Surface Engineering
- SSE #09 - SLEIGHT in 2023
- SSE #08 - Photonics for Health
- SSE #07 - SLEIGHT in 2022
- SSE #06 - Machine Learning
- SSE #05 - SLEIGHT in 2021
- SSE #03 - SLEIGHT in 2020
- SSE #02 - Material Appearance
- SSE #01 - Topics and stakeholders
- Manutech-SLEIGHT Awards
- Scientific conferences
- Events in partnership with Manutech-SLEIGHT
- CAMPUS LIFE
- ABOUT US
- NEWSLETTER
SAINBIOSE is a multi/interdisciplinary and translational laboratory combining expertise in biology, bioengineering, biomechanics, numerical modelling and clinical research. The methodological and technical contributions, including complex modelling, imaging (tissue/cell, rodent, human), high-resolution spectrometry, preclinical in vitro and in vivo and in silico models, are unique and cutting-edge.
The laboratory's research aim at understanding the regulatory processes involved in osteo-articular (LBTO Team) or cardiovascular (DVH Team) biostress situations, at developing dynamic models to reproduce these processes and at developing technological innovations. The objective is to propose a precision medicine during aging and for specific populations (astronauts, newborns, pregnant women, very old subjects...).
The laboratory is a joint research unit involving 170 researchers coming from the INSERM, the Faculty of Medicine, the Health Engineering Center (Ecole des Mines de St-Etienne), the university hospital (CHU), the Centre d’Investigation Clinique (CIC), and the Scientific Department of Etablissement Français du Sang (EFS) Auvergne Rhône-Alpes.
NATIONAL AND INTERNATIONAL COLLABORATIONS AND NETWORKS
The SAINBIOSE lab, with its two teams working on osteo-articular and cardio-vascular problematics, implement research projects in collaboration with high-level international partners:
- Life-sciences space-related collaborations with the European Space Agency – ESA (France), the Centre National d’Études Spatiales – CNES (France), the Russian space agency – Roscosmos (Russia), the Italian Space Agency - ASI (Italy), the UK Space Agency – UKSA (UK), the German Aerospace Centre (Germany), Portugal Space– PSA (Portugal), the Canadian Space Agency – CSA (Canada), the National Aeronautics and Space Administration - NASA (USA).
- Laser-induced hierarchical micro-/nano-structures for controlled cell adhesion at implants (LaserImplants), in partnership with Universitat Linz – JKU (Austria), Bundesanatalt fuer materialforschung und-prefung – BAM (Germany), Danube private university GMBH – DPU (Austria), HOFER GMBH & CO KG (Austria).
The lab is also involved in Research networks (the COST network, the SPECTRA group (HR-pQCT, H. Marotte), the INVENT-VTE network, including innoVTE) and participates in international clinical studies: PRONOMOS (NCT02401594, 11 countries, Bayer Laboratory), HIGHLOW (NCT01828697).
RESEARCH TEAM INVOLVED IN THE MANUTEH-SLEIGHT GRADUATE SCHOOL
The Osteo-Articular Tissue Biology Laboratory - LBTO team's research focuses on the mechanisms of bone loss in situations of reduced mechanical stress (sedentary lifestyle, effect of age, accelerated aging), on bone repair and inflammatory joint pathologies.
OSTEO-ARTICULAR TISSUE BIOLOGY LABORATORY (LBTO)
The team works towards:
- the manufacture of biomaterials for bone applications (e.g., custom-made culture media and implants, regeneration of large bone defects)
- the development of in vitro bone tissue models
- the understanding of the behavior and aging of orthopedic implants
- the study and improvement of material surfaces and surface treatments to extend implants’ life.
The team also develops new approcahes to high-level projects with the objectives of:
- Understanding bone and joint mechanotransduction during modified mechanical stimuli (e.g. gravity vector) considering material-tissue interactions; developing bioinstructive materials for the understanding of the cell-material interaction mechanisms, and the development of musculoskeletal tissues repair and regenerative solutions.
- Developing new super-resolution methods (ie. Machine Learning) to enhance the quality of conventional clinical X-Ray scans images to better explore the 3D architecture and porosities of bone. The learned model will lead to the clinical prediction of bone porosities in osteoporotic patients and cosmonauts.
PUBLICATIONS IN LINE WITH SLEIGHT TOPICS
- Klos, A.; Sedao, X.; Itina, T.E.; Helfenstein-Didier, C.; Donnet, C.; Peyroche, S.; Vico, L.; Guignandon, A.; Dumas, V. Ultrafast Laser Processing of Nanostructured Patterns for the Control of Cell Adhesion and Migration on Titanium Alloy. Nanomaterials 2020, 10, 864. https://doi.org/10.3390/nano10050864
- Bouet G, Cabanettes F, Bidron G, Guignandon A, Peyroche S, Bertrand P, Vico L, Dumas V. Laser-Based Hybrid Manufacturing of Endosseous Implants: Optimized Titanium Surfaces for Enhancing Osteogenic Differentiation of Human Mesenchymal Stem Cells. ACS Biomater Sci Eng. 2019 Sep 9;5(9):4376-4385. doi: 10.1021/acsbiomaterials.9b00769.
- Juignet, L.; Charbonnier, B.; Dumas, V.; Bouleftour, W.; Thomas, M.; Laurent, C.; Vico, L.; Douard, N. et al. (2017). Macrotopographic closure promotes tissue growth and osteogenesis in vitro. ACTA BIOMATERIALIA. 53 : 536 - 548. doi: 10.1016/j.actbio.2017.02.037
- Dumas, V.; Guignandon, A.; Vico, L.; Mauclair, C.; Zapata, X.; Linossier, M. T.; Bouleftour, W.; Granier,J. et al. (2015). Femtosecond laser nano/micro patterning of titanium influences mesenchymal stemcell adhesion and commitment. BIOMEDICAL MATERIALS. 10 (5) : - . doi: 10.1088/1748-6041/10/5/055002
- Vico, L.; van bert Rietbergen, B.; Vilayphiou, N.; Linossier, M.; Locrelle, H.; Normand, M.; Zouch, M.; Gerbaix, M. et al. (2017). Cortical and Trabecular Bone Microstructure Did Not Recover at Weight-Bearing Skeletal Sites and Progressively Deteriorated at Non-Weight-Bearing Sites During the Year Following International Space Station Missions. J BONE MINER RES.. 32(10) (10) : 2010-2021. doi: 10.1002/jbmr.3188.
About the Laboratory
FULL NAME
SAnté, INgénierie, BIOlogie, Saint-Etienne
(Health, Engineering, Biology, Saint-Etienne)
ACRONYM
SAINBIOSE
DIRECTOR
Laurence VICO
ADDRESS
Campus Santé Innovations
10, rue de la Marandière
42270 Saint-Priest-en-Jarez - FRANCE
E-MAIL ADDRESS
vico@univ-st-etienne.fr
Official website
SAnté, INgénierie, BIOlogie, Saint-Etienne
(Health, Engineering, Biology, Saint-Etienne)
ACRONYM
SAINBIOSE
DIRECTOR
Laurence VICO
ADDRESS
Campus Santé Innovations
10, rue de la Marandière
42270 Saint-Priest-en-Jarez - FRANCE
E-MAIL ADDRESS
vico@univ-st-etienne.fr
Official website