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VivoSim Releases Antibody Drug Conjugate (ADC) Data Showing Power to Detect ADC Toxicity and Guide Design of Safer ADCs
ADCs are a major new market; Company demonstrates ability to discern antibody toxicity from payload toxicity and show differential linker chemistry toxicity
About this update from Vivosim Labs, Inc.
[{"type":"text","content":"ADCs are a major new market; Company demonstrates ability to discern antibody toxicity from payload toxicity and show differential linker chemistry toxicity\nSAN DIEGO, March 24, 2026 (GLOBE NEWSWIRE) -- VivoSim Labs, Inc. (Nasdaq: VIVS) (the “Company” or “VivoSim”), a provider of next-generation New Approach Methodologies (NAMs) for preclinical safety, today announced at the Society of Toxicology (“SOT”) meeting in San Diego, CA, that its NAMkind™ liver and NAMkind™ Intestine models have been validated for predicting toxicity and side effect profiles of antibody drug conjugates (ADCs). When considering the hundreds of ADCs in development across the globe, the potential for off-target toxicity due to their common use in oncology to deliver cytotoxic payloads, and a lack of current available scientific solutions to separate anticancer activity from unwanted cytotoxicity, the Company believes that the use of NAMkind™ models becomes a powerful tool to use in conjunction with existing methods to select and improve the best ADC candidates for drug development. Testing of approved ADC therapies in NAMkind™ models shows close correlation with clinical results VivoSim NAMkind™ liver model was shown to clearly see the toxicity of liver toxic ADCs such as gemtuzumab ozogomicin and clearly showed drugs with low liver toxicity such as enfortumab vedotin as lacking liver toxicity. Issues of linker cleavage and target engagement can be studied, as differential toxicity between drugs like trastuzumab emtansine and trastuzumab deruxtecan were demonstrated with strong comparability to clinical outcomes. NAMkind™ intestine models were also validated with ADCs and have the ability to detect differential effects such as antibody activity on epithelium, payload impact on epithelium, and overall ADC impact on epithelium. Permeability endpoints are sensitive to the exact chemical compound, be it ADC, antibody alone, or payload. “These ADC toxicity results show a close correlation to clinical safety outcomes,” said Amar Sethi, Chief Scientific Officer at VivoSim. “We consider these models validated for ADC use and think that our partners may be able to screen out toxicities during lead candidate optimization or earlier stages, which may result in greater success in the clinic at eliminating cancers using drugs with limited side effect profiles,” he con...