On August 31, 2020 Applied BioMath (www.appliedbiomath.com), the industry-leader in applying systems pharmacology and mechanistic modeling, simulation, and analysis to de-risk drug research and development, reported a collaboration with Flame Biosciences (Press release, Applied BioMath, AUG 31, 2020, View Source [SID1234564207]). Flame Biosciences selected Applied BioMath to develop systems pharmacology models for Flame Bioscience’s leading therapeutic for the treatment of cancers that are driven by inflammation. "Our collaboration with Applied BioMath will enable us to leverage systems pharmacology modeling to aid in the prediction of clinical efficacious dose for our therapeutic," said Leonid Gorelik, SVP Discovery & Translational Science at Flame Biosciences. "We chose Applied BioMath based on their proven track record of helping to accelerate therapeutics to the clinic."
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Applied BioMath employs a rigorous fit-for-purpose model development process which quantitatively integrates knowledge about therapeutics with an understanding of its mechanism of action in the context of human disease mechanisms. Their approach employs proprietary algorithms and software that were designed specifically for systems pharmacology model development, simulation, and analysis. "Traditional mathematical approaches used for predicting clinical efficacious doses that are typically used for small molecule therapeutics do not work well for most biologics," said Dr. John Burke, PhD, Co-Founder, President, and CEO of Applied BioMath. "Systems pharmacology models have proven more accurate in translating biologics across preclinical data and species and predicting clinical efficacious doses due to the biological and mechanistic detail included in the model. We are very excited and look forward to assisting Flame Biosciences as they advance their therapeutic."