Canary has a robust pipeline of AI assisted development of biopharmaceutical therapies with selected complimentary diagnostic development built through the in-house development of innovative product candidates and novel RNAi and antiMIR platforms, becoming the one of the first companies worldwide to focus on human clinical trial discovery in concert with clinicians to optimize miRNA targets for novel therapeutic development and novel diagnostic development. The AI enhanced biomarker discovery process is uniquely derived using human clinical trial sources from our key clinical institutional partners and are designed to efficiently assist in therapeutic and diagnostic candidate miRNA targets optimized for human use. Our highly innovative AI assisted RNAi drug discovery platforms combined with our complementary diagnostic development distinguish Canary from other drug development companies especially as it comes to conducting efficient clinical trials.
The combination of AI assisted miRNA diagnostic power to enhance therapeutic development from human validated miRNA sources creates a powerful platform poised for key breakthroughs in diseases with unmet needs
Our current focus is Inflammatory Disease and selected cancers with key clinical partners. We are evaluating human sourced miRNA using our unique AI discovery platform called AlloMIR to develop therapeutic targets
Canary's AlloMir gene-silencing platform can be leveraged to investigate a variety of diseases and conditions
Our mission is to harness the transformative power of gene therapy and AI-driven precision diagnostics to revolutionize healthcare and empower individuals to live healthier, longer lives. We are pioneering a novel approach to vectorized gene therapy with the aim of providing a single-dose comprehensive and lasting solution to diseases and conditions that currently have few options.
Disclaimer: Canary Global Inc.’s website includes future planned care offerings, that are currently in development and are subject to regulatory approval before they are able to be commercialized