BioLab: learning, training and connecting

BioLab Lead image

BioLab at OICR manages state-of-art equipment for translational cancer research and offers free educational seminars, advanced technology workshops and hands-on instrument training sessions led by instrument application specialists.

The mission of BioLab is to provide continuous education and training for the next generation of Ontario cancer researchers using existing and advanced cancer-related technologies, applications, tools and instrumentation.

BioLab Provides

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BioLab goes beyond basic theory and training to provide application-driven experiences. BioLab training explores the full potential of state-of-art cancer research equipment from experimental design, through correct equipment usage and even covers project-driven applications.

The training sessions offered by BioLab foster collaboration in the cancer research community and provide a place to share experiences, build new collaborations and drive cancer research forward.

Who can participate?

All educational seminars, workshops, and instrument training sessions offered are free to researchers at academic institutions and hospitals in Ontario. BioLab welcomes attendees of any level of experience and training, including clinicians, scientists, fellows, interns, students and research staff.

Upcoming BioLab workshops and seminars:

Educational Seminars are lecture-based learning platforms to provide continuous education on advanced new discoveries in biotechnology and translational cancer research.

Hands-on Biotechnology Workshops are designed to meet specific research goals related to particular laboratory techniques, workflows or procedures related to cancer research. The workshops are delivered by application specialists and designed for laboratory scientists who are looking for in-depth, hands-on protocol development.

BioLab is focusing its educational offerings on immuno-oncology across five key areas:

  • Liquid Biopsy and Biomolecule detection technologies;
  • Cell imaging and quantitative analysis;
  • Cytometry for single cell omics;
  • Visualization and quantification of cancer transcriptome;
  • Innovations in digital pathology.

BioSpa-8 and CytationWorkflow for Automated Live Cell Imaging Applications

In recent years, impressive progress has been made towards our understanding of the biological mechanisms of immune-and cancer cell interactions. Development and proper use of specialized instrumentation for imaging and quantification of cell-based assays is critical for obtaining reproducible and meaningful data.

BioLab at OICR is organizing a free educational seminar on the BioSpa™ 8, an automated incubation system that integrates with Cytation imagers to quantify cell behavior in real-time while cells remain undisturbed inside the incubator.

The system can process up to eight microplates and allows walk-away automation and analysis of images, providing continuous monitoring of biological processes that are difficult to achieve with endpoint assays.

The full range of cell-based applications, from proliferation, wound-healing, cytotoxicity, viability, apoptosis to cell-cell interactions, chemotaxis/migration, or drug screenings, can be run on the BioSpa™8 system.

Date and Location

Wednesday, November 12, 2019 | 11 a.m. – 12 p.m.

Ontario Institute for Cancer Research
661 University Avenue,
West Tower, Suite 510

Register at eventbrite

Automation Meets Cell Separation: Primary Cell Isolation for Drug Discovery

A deep understanding of the interactions and phenotypes of immune and tumour cells within the tumour microenvironment is key to developing future immune-based cancer therapy strategies. In recent years, impressive progress has been made towards developing effective methods for separation and isolation of viable cells from tissues and tumors, essential for use in any in vitro assays.

Join us at BioLab, OICR, for a free educational seminar on the Miltenyi Biotec’s recently developed automated and Ficoll-free solutions for primary immune cell and PBMC isolation from various starting materials to ensure the the best fit for every drug discovery program.

Learning Objectives:

  • Understand the benefits of automation in cell separation
  •  Get to know new technologies for more efficient cell processing

Date and Location

Wednesday, November 13, 2019 |11 a.m. – 12 p.m.

Ontario Institute for Cancer Research
661 University Avenue, West Tower, Suite 510

Register at eventbrite

Past sessions

2019

  • The Antibody Reproducibility Crisis
    October 17, 2019 | [Download the slides]
  • Targeting Epigenetic Mechanisms: Challenges and Solutions
    October 15, 2019 |[Download the slides]
  • BioTek’s Cytation Multi-Mode Cell Imager: Practical Applications for Imaging and Quantification of Cell-Based Assays
    September 18, 2019
  • Development and Implementation of Clinical Proteomics for Precision Oncology: Applications at the Bedside
    August 6, 2019 | [Watch on YouTube]
  • Magnetic 3D Bioprinting of Cells: an advance platform for developing tumor models for high throughput functional studies and drug screening
    July 24, 2019 | [Watch on YouTube]
  • Improving Communication through Visuals: 10 Tips for Better Science Figures
    July 11, 2019
  • Artificial Intelligence in Cancer Imaging: Bridging the Gap between Pathologist and Algorithm
    June 21, 2019 | [Watch on YouTube]
  • Live Cell Imaging with OkoLab BioStation and Leica SP8 Microscope
    May 30, 2019
  • IsoPlexis Single Cell Platform Links Functional Proteomics with Cancer Immunotherapy
    May 28, 2019
  • Oncomine Technology and Solutions for Utilization of Liquid Biopsy Assays in Cancer Research and Clinical Practice
    May 9, 2019
  • Confocal Laser Scanning Microscopy: Exploring Field of View and Mosaic Function to Assemble Single High-Resolution Images into a Large Super image
    April 24, 2019
  • MACSQuant® Tyto® Flow Cell Sorter for Multiparametric Cell Sorting Based on Microchip Technology for Sterile and Gentle Cell Isolation
    April 17, 2019
  • Confocal Laser Scanning Microscopy: Leica SP8 TCP Basics
    April 10, 2019
  • Smarter Medicine: Getting Started in Computational Pathology
    April 9, 2019 | [Download the slides]
  • Optimizing Ribonucleoprotein Delivery to Achieve Potent and Precise CRISPR/Cas9 genome editing
    March 27, 2019
  • Simultaneous Detection of Noncoding RNAs and Protein Cell Surface Markers from PBMC Subpopulations
    January 31 and February 1st, 2019
  • MaxCyte Flow Electroporation Technology: Choosing the Right Cell Engineering Technology from Discovery to Manufacturing
    January 29, 2019
  • Simultaneous Detection of mRNA transcripts and Proteins in Different Immune Cell Subsets
    January 22, 2019
  • Innovative Tools and Techniques for Isolation and Characterization of Cancer-Derived Exosomes (MACSPlex and MACSQuant)
    January 16, 2019

2018

  • Novel Automated Platforms for CRISPR-Engineered Cell Lines and Synthetic sgRNA for Primary Cell and Screening Applications
    November 29, 2018
  • PrimeFlow RNA Assay for simultaneous detection of RNA and Protein by Flow Cytometry
    November 8, 2018 | PowerPoint slides 
  • Three-Dimensional Organoid Cultures as In Vitro Models for Cancer Research: Applications and Prospective
    October 24, 2018
  • Tools and Techniques for Isolation and Multi-Plex Analysis of Cancer-Derived Exosomes via Flow Cytometry
    October 10, 2018
  • The Moffitt Cancer Center approach to pathology diagnostics supporting the delivery of precision oncology and immune-oncology treatments
    October 16, 2018 | Video
  • Introduction to Multiphoton Microscopy and Fluorescent Lifetime Microscopy (FLIM)
    October 16, 2018
  • Basics of Confocal Laser Scanning Microscopy
    October 4, 2018
  • BioPlex 200 Analyzer: How to Use of xMAP Technology to Measure Complex Immune Responses
    September 10, 2018
  • Global Transcriptome Profiling for Better Biomarkers
    September 5, 2018
  • OkoLab BioStation for Live Cell Imaging by Leica SP8 Microscope
    August 1st, 2018
  • The Future of Diagnosis: Learning To Recognize Similar Images In Digital Pathology
    July 31, 2018
  • Computational Pathology Tools for Whole Slide Biomarker: ISH spot quantification at single cell resolution at the STTARR image analysis core facility
    July 19, 2018
  • OkoLab BioStation for Live Cell Imaging by Leica SP8 Microscope
    June 25, 2018
  • Circulating Tumor DNA (ctDNA): Detection and Applications in Curable Cancers
    June 11, 2018
  • Preparation of Single Cell Suspensions from Tissues for Cell RNA Sequencing by 10XGenomics
    May 7, 2018
  • Multiplexing and Applications of the QuantiGene™ Plex and ViewRNA™Assay in Cancer Research and Diagnostics
    May 2, 2018
  • Basics of Leica Laser TCS SP8 Confocal Microscopy
    April 24, 2018
  • Droplets for Cancer Detection in Liquid Biopsy
    April 19, 2018
  • Advancing Oncology Research with High Content Imaging and 3D Models: Technology and Application Overview
    April 5, 2018
  • MACS Technologies for Single Cell Omics: Methods for Sample Preparation, Cell Isolation and Single Cell Analysis for Cancer Research
    March 29, 2018
  • Quantitative Intracellular and Intra-Nuclear Spot Analysis Using Cytation-3 Digital Microscopy
    February 13, 2018
  • Visualize Gene Expression and Genetic Variations in Tumor Microenvironment: Applications of RNAscope and BaseScope ISH Technologies
    February 5, 2018

Leader

Dr. Vanya Peltekova PhD
Lead, BioLab Operations, Ontario Institute for Cancer Research
All inquiries can be addressed to Dr. Peltekova at vanya.peltekova@oicr.on.ca.


Seminars and workshops are for educational purposes only and are not an endorsement of any products or services by BioLab or by OICR.