Hôpital Maisonneuve-Rosemont Research Centre (CR-HMR)

Centre intégré universitaire de santé et de services sociaux de l’Est-de-l’Île-de-Montréal, Montreal, Québec
What the facility does

The Centre focuses on three key areas of research: immunology-oncology, vision health and nephrology.

Areas of expertise

The Hôpital Maisonneuve-Rosemont Research Centre (CR-HMR) boasts three nationally and internationally recognized areas of research: immunology-oncology, vision health and nephrology. These three areas of focus allow for continuum between fundamental to translational to clinical research and align perfectly with the HRM’s solid teaching and clinical record.

The CR-HMR’s defining theme and objectives are organized around clearly defined areas and pathologies that rank the centre as a world-class leader in research:

  • Immunology-oncology: leukemias, lymphomas, myelomas and other blood cancers, transplant rejection problems, graft versus host disease, immunosuppression-related infectious diseases.
  • Vision health: macular degeneration, glaucoma and corneal diseases, neurodegenerative diseases, diabetic retinopathy.
  • Nephrology: kidney failure, inherited and immunological kidney diseases.

The CR-HMR’s scientific program is fully aligned with the strategic plans developed by the Université de Montréal, its Faculty of Medicine and the Centre intégré universitaire de santé et de services sociaux de l’Est-de-l’Île-de-Montréal. The program was developed through an evolving process over the past few years, during which it earned a formidable reputation among granting agencies.

Research services
  • Microscopy
  • Flow cytometry
Sectors of application
  • Education
  • Healthcare and social services
  • Life sciences, pharmaceuticals and medical equipment
Specialized labEquipmentFunction
Flow cytometry platformBD FACSAria™ III Cell SorterFACS (fluorescence-activated cell sorting) technique of flow cytometry. Sorter equipped with 4 lasers (405 nm, 488 nm, 561 nm, 633 nm); 16 fluorescence parameters; 4-way sorting, CL2+; 3 nozzle settings (70 µm, 85 µm and 100 µm).
Flow cytometry platformCytek Aurora CS Cell SorterSorter equipped with 5 lasers (355 nm, 405 nm, 488 nm, 561 nm and 640 nm); 40 fluorescence parameters; 6-way sorting, CL1; 3 nozzle settings (70 µm, 100 µm and 130 µm).
Flow cytometry platformSony SH800 Cell SorterSorter equipped with 2 lasers (488 nm, 561 nm); 6 fluorescence parameters; 4-way sorting, CL2; two chips (70 µm and 100 µm).
Flow cytometry platformBD LSR II FACS AnalyzerAnalyzer equipped with 4 lasers (355 nm, 405 nm, 488 nm, 633 nm); 10 fluorescence parameters.
Flow cytometry platformBD™ FACSCelesta™ Cell AnalyzerAnalyzer equipped with 3 lasers (405 nm, 488 nm, 633 nm); 12 fluorescence parameters.
Flow cytometry platformBD LSRFortessa™ X-20 Systems (2)Analyzers equipped with 5 lasers (355 nm, 405 nm, 488 nm, 561 nm, 633 nm); 18 fluorescence parameters.
Flow cytometry platformCytek Aurora Spectral Flow CytometerAnalyzer equipped with 5 lasers (355 nm, 405 nm, 488 nm, 561 nm, 640 nm); 40 fluorescence parameters.
Microscopy PlatformLeica Stellaris STED inverted confocal super-resolution imaging system and a Leica DMI8 Inverted MicroscopeTau-STED (stimulated emission depletion) confocal super-resolution microscope; five HyD hybrid spectral detectors; pulsed excitation (80 MHz) tunable from 440 nm up to 790 nm; 405-nm laser diode; 775-nm depletion laser, AFC.
Microscopy PlatformOlympus FV1000 inverted confocal multiphoton laser scanning microscopy (LSM) system with an Olympus IX81 motorized inverted microscope and an Olympus FluoView TM FV1000 confocal microscopeScan unit with spectral detectors; 405 nm, 458 nm, 488 nm, 515 nm, 543 nm and 635 nm; non‑descanned detection (NDD).
Microscopy PlatformZeiss LSM 880 confocal laser scanning microscope (upright multiphoton system) with a ZEISS Axio Examiner Z1 Upright Fixed Stage Microscope, Spectra-Physics MaiTai DeepSee Ti: Sapphire Ultrafast LaserSpectral detectors 405 nm, 458 nm, 488 nm, 515 nm, 543 nm and 635 nm. Non-descanned detection (NDD).
Microscopy PlatformZeiss laser caption microdissection (LCM) system with a PALM MicroBeam Laser Microdissection, a Zeiss AxioObserver Z1 motorized inverted microscope and a Zeiss ApoTome widefield fluorescence microscopeZeiss PALM with a 350-nm solid state laser; Zeiss ApoTome for optical sectioning.
Microscopy PlatformZeiss imaging system comprised of the AxioObserver Z1 motorized inverted microscope, a TempModule S temperature control unit, a CO2 Module S gas sensor, a PeCon S incubator and an ApoTome.2 widefield fluorescence microscopePeCon S incubation chamber for long-term live‑cell imaging, including optical sectioning; Zeiss ApoTome.2 for optical sectioning.
Microscopy PlatformZeiss Axio Imager Z2 Upright Microscope with a Zeiss ApoTome.2 Widefield Fluorescence Microscope, Colibri 7 LED light sourceZeiss motorized upright widefield imaging system. High‑precision XY piezo scanning stage (8 plates). ApoTome.2 for optical sectioning.
Microscopy PlatformDeltaVision Elite Imaging System with an Olympus IX71 Inverted MicroscopeInverted microscope with high-speed motorized filter wheels; UltimateFocus focus correction system; incubation chamber for long-term live-cell imaging.
Microscopy PlatformSartorius Incucyte® SX5 Live-Cell Imaging and Analysis InstrumentMotorized encoded objective turret with cell culture vessel trays that remain stationary during the incubation and imaging processes; supports imaging of up to 6 cell culture vessel trays in parallel; automated image acquisition and subsequent analysis and visualization.