Ingredient-Level Validation of Animal Element Using Systematic Bioinformatics and In Silico Evidence Mapping

Partner Description

CytoSolve®’s Systems Biology Research Division provides independent, objective research using its patented computational modeling platform to evaluate complex nutritional and biological ingredients through in silico methodologies.

Challenge

Complex nutritional products often contain multiple ingredients with overlapping and interdependent biological effects. For Animal element, validating each ingredient’s nutritional profile and documented health relevance across immune, joint, metabolic, neurological, and systemic functions required a rigorous, evidence-based approach capable of synthesizing decades of dispersed scientific literature at ingredient-level resolution.

How CytoSolve® Helped

CytoSolve® conducted a systematic bioinformatics ingredient validation study of Animal element following its established research methodology. The analysis screened 206 scientific publications from databases including PubMed and Google Scholar, identifying 87 high-quality studies spanning 33 years of global research. Ingredient-level mapping identified 89 active molecules across ten components—zeolite, diatomaceous earth, methylsulfonylmethane (MSM), hyaluronic acid, red raspberry leaf, fenugreek, organic kelp, turmeric, hawthorn leaf and flower, and spirulina—and evaluated their documented mechanisms and biological roles in mammals, including equine systems.

Key Benefits Realized

  • Comprehensive ingredient-level validation grounded in peer-reviewed scientific literature.
  • Identification and classification of 89 active molecules, including minerals, vitamins, phytochemicals, and functional compounds.
  • Mechanistic mapping of ingredient-specific roles across immunomodulation, inflammation, antioxidant defense, joint health, metabolism, neurological support, and cardiovascular function.
  • Transparent, reproducible validation framework supporting responsible product development and communication.

Outcome

The ingredient validation study established a robust scientific foundation for Animal element by confirming that each constituent ingredient possesses documented nutritional composition and biologically relevant health effects. By leveraging CytoSolve®’s in silico bioinformatics platform, the analysis translates decades of ingredient-specific research into a unified validation framework, enhancing scientific credibility while maintaining non-clinical, regulatory-aligned positioning