Use of biomaterials and nanoparticles for regenerative medicine and gene delivery.
The laboratory's research activities focus primarily on the development of chitosan-based biomaterials and nanoparticles for regenerative medicine and gene therapy applications. The lab’s strength lies in the diversity and complementary nature of its cutting-edge infrastructure and its highly qualified personnel’s expertise and know-how. This combination enables in-depth physicochemical understanding of biomaterials and nanoparticles and their biological activity. The lab’s facilities and equipment include a histology lab, a molecular biology lab, a confocal microscopy room, an environmental scanning electron microscope, a flow cytometer and steric exclusion chromatography devices. Tangibly, the lab’s activities cover the following areas :
- Production, characterization and modification of medical-grade chitosan;
- Development of theoretical tools to predict the behaviour of chitosan in solution;
- Preparation and characterization of nanoparticles for nucleic acid delivery;
- Development of hydrogels for tissular repair;
- Nanostructure visualization by environmental scanning electron microscope;
- In-depth study of the effects of nanoparticles in vitro, by means of advanced cellular biology, molecular biology and confocal microscopy techniques;
- Full histological preparation and detailed analysis of animal study tissues;
- Mechanical characterization of biomaterials and biological tissues.
- The lab has an internal quality assurance service applicable to good fabrication lab practices. Research work has led to the commercialization of a product used to repair joint cartilage (BST-CarGel®, Piramal Healthcare Canada).
Preparation and analysis of chitosan-based polymers, cell culture, cellular and molecular biology, flow cytometry, confocal microscopy, electron microscopy, histology, biomechanical tests.
- Healthcare and social services
- Life sciences, pharmaceuticals and medical equipment
Specialized labs and equipment
| Specialized Lab | Equipment |
|---|---|
| Biomaterials | Planetary mono mill (Fritsch Pulverisette 6) |
| Free dry system (Labconco FreeZone 2.5L) | |
| Shelf freeze dryer (Mill Rock) | |
| High-capacity concentrator (Savant SpeedVac SC110) | |
| Rotary evaporator with integrated heating bath (Ika RV10 Digital) |
| Tangential flow filtration system (Pall Minimate TFF) | |
| Monochromator-based microplate reader (Tecan Infinite M200) | |
| Preparative HPLC system (Shimadzu) | |
| Analytical HPLC system (Shimadzu Prominence) combined with SLS detectors (Wyatt) | |
| Nanoparticle analyser (NanoSight NS500) | |
| Cellular and molecular biology | Seven laminar flow cabinets for cell culture |
| Inverted epifluorescence microscope (Zeiss Axiovert S100 TV) | |
| Flow cytometer (Cytomation MoFlo) | |
| Multimode microplate reader (Tecan Infinite F500) | |
| Quantitative PCR devices (Rotor-Gene 6000, Applied Biosystems 7900HT) | |
| DNA, RNA and protein analyser (Agilent 2100 Bioanalyzer) | |
| Multiplex array system (Biorad Bio-Plex 200) | |
| Confocal microscopy | Confocal microscope (Zeiss LSM 510) with a multiphoton laser (Coherent MIRA 900) |
| Inverted confocal scanning microscope (Olympus Fluoview FV1000) with a Yokogawa disc (Quorum) | |
| Histology | Low-speed, diamond-blade saw (Isomet Low Speed Saw) |
| Cryosection system (Leica CM3050 S) | |
| Paraffin microtome (Leica RM 2155) | |
| MMA plastic microtome (Leica SM2500) | |
| Automatic histological stainer (Shandon Varistain 24-4K) | |
| Automatic immunohistological stainer (Labvision 360) | |
| Stereo dissecting microscope (Zeiss Stemi 2000-C) | |
| Histology microscopes (Zeiss Axiolab and Axiostar) | |
| Digital slide scanner (Hamamatsu Nanozoomer RS) | |
| Biomechanics | Mechanical testing system for soft tissues (Biomomentum Mach-1) |
| Thromboelastograph systems (Haemonetics TEG 5000) |
Private and public sector research partners
- Biomomentum Inc.
- Advanomics Corporation
- Garmen Laboratories
- OrthoregeneX
- Kane Biotech