Learn more about how Cytobank’s new advanced viSNE (t-SNE) settings automate and improve analysis of large cytometry datasets with precision. More »
Leaders in the field are utilizing the Cytobank Platform to discover more and are presenting these findings at American Society of Hematology’s 2016 Meeting this weekend, one of the most important clinical meetings world wide, driven by explosive growth in immunotherapy related research.
Last Call: Register for Our CITRUS Webinar Oct 19.
Only hours remain to register for our CITRUS webinar. Don’t miss out! Join us Wednesday, October 19th at 9AM PDT for CITRUS: Applications and Insights from the Experts.
Learn more about how Cytobank’s newest tool can help you automate and accelerate biomarker discovery. Hear from our team members and a panel of experts:
- Our Cytobank scientists will review how to get started quickly with CITRUS in Cytobank with a live demo.
- Gabi Fragiadakis, Ph.D., will share practical applications and show how she used CITRUS to find biomarkers of clinical recovery in surgery patients.
- CITRUS algorithm creator, Rob Bruggner, Ph.D., will answer your questions during a live Q&A session.
Automatically Identify Predictive Biomarkers with Our Newest Algorithm
Why do some cancer patients respond well to immunotherapy but others do not?
Why do some people have a slow and painful recovery from surgery but others have a speedy recovery?
What are the biomarkers that can help predict these outcomes ahead of time?
High-dimensional single-cell analysis approaches are excellent for investigating such questions because many mechanisms of disease may only be visible at the single-cell level, eluding bulk analysis techniques. Emerging technologies such as high parameter fluorescence and mass cytometry, and powerful data analysis platforms like Cytobank, are providing unprecedented resolution for measuring single-cell biology. With these new technologies, a variety of specific cellular populations can be simultaneously identified, and anomalies can define different clinically relevant cohorts and serve as predictive diagnostics and prognostics.
The challenge of going from high-dimensional data to these useful findings lies in the analysis, which is often cumbersome, manual, subjective, and irreproducible. Our new version of the CITRUS algorithm aims to change that. More »
Every month, leading researchers investigate, discover, and publish new findings with the help of the Cytobank’s tools, platform, and community. Here are just a few papers of interest from the past few months: More »
Spitzer and Gherardini et al., from the Nolan Lab at Stanford University, report a novel bioinformatics approach to mapping the immune system called Scaffold (Single-Cell Analysis by Fixed Force- and Landmark-Directed).
Scaffold allows clustering of samples independently, thus allowing addition of new sample data over time. This approach requires users to develop or use a pre-defined reference map.
In their recent publication in Science, the authors reveal maps comparing immune organization among several tissue compartments, among mouse strains, between circadian states, and between species (mouse and human).
Come visit the Cytobank team at FOCiS and CYTO next week to learn more about what we’ve been up to, for some hands-on help, to share your wish list or just to chit-chat. We look forward to seeing you there!
Check out the various talks and posters at CYTO featuring Cytobank:
Saturday June 27, 2015
11:00 (Room: Alsh) – The First Multi-center Comparative Study Using a Novel Technology Mass Cytometry Time-of-Flight Mass Spectrometer (CyTOF2) for High-Speed Acquisition of Highly Multi-parametric Single Cell Data: A Status Report A. Nasaar, B. Carter, J. Lannigan, R. Montgomery, N. Paul, M. Poulin, K. Raddassi, A. Rahman and N. Rashidi. Yale Univ. Sch. of Med., Stanford Shared FACS Facilities, Univ. of Virginia Sch. of Med., Dana-Farber Cancer Inst., Fluidigm, Cambridge, MA, Icahn Sch. of Med. at Mount Sinai and Ragon Inst. of MGH, MIT and Harvard.
11:40 (Room: Alsh) – High Content Dissection of Human Melanoma Tumor Heterogeneity during Treatment Using Mass Cytometry J. Irish, D. Doxie, A. Greenplate, K. Diggins, H. Polikowsky, K. Dahlman, J. Sosman and M. Kelley. Vanderbilt Univ. Sch. of Med.