NASC Advances Equine Joint Supplement Substantiation Using CytoSolve® In Silico Systems Architecture for Combination Screening Across Core Joint Health Pathways

Partner Description

National Animal Supplement Council
The National Animal Supplement Council (NASC) is a nonprofit trade association dedicated to responsible animal supplement use through scientific substantiation, quality standards, and industry accountability. To strengthen evidence-based evaluation of multi-ingredient equine joint supplements, NASC engaged CytoSolve®’s Product Testing Division to perform an independent, mechanistically grounded in silico assessment of combination efficacy.

Challenge

Equine joint health is governed by multiple interconnected biological processes that evolve together over time, including inflammation, oxidative stress, cartilage degeneration, and cartilage regeneration. Commercial joint supplements typically combine multiple ingredients, making it difficult to rigorously determine whether observed benefits arise from individual components or from true biological synergy. Experimental evaluation of these interactions is costly, time-intensive, and often limited in its ability to capture pathway cross-talk and time-dependent dynamics with sufficient control and repeatability. NASC required a systems-level, quantitative approach capable of isolating and comparing single-ingredient and combination effects while maintaining clear mechanistic traceability suitable for scientific substantiation.

How CytoSolve® Helped

CytoSolve® applied its computational systems biology platform to perform a controlled, repeatable in silico combination screening of an equine joint formulation containing chondroitin sulfate, glucosamine, sodium hyaluronate, methylsulfonylmethane (MSM), and vitamin C.

The workflow began with a systematic literature review to define a mechanistic pathway blueprint governing equine joint health. This blueprint was translated into individually validated mathematical models representing four core biological systems: inflammation, modeled through PGE2 dynamics via arachidonic acid metabolism; oxidative stress, represented by reactive oxygen species generation and modulation; cartilage degeneration, captured through MMP-13 expression; and cartilage regeneration, assessed via collagen-II synthesis.

These pathway models were dynamically integrated within the CytoSolve® platform to preserve molecular interdependencies and cross-talk. Simulations were conducted at dose-relevant levels to evaluate individual ingredient effects, followed by combination screening simulations over a 30-day period. This unified computational framework enabled direct, repeatable comparisons between single-ingredient and multi-ingredient performance under identical biological conditions.

Key Benefits Realized

  • Defined four core molecular systems governing equine joint health within a coherent mechanistic architecture.
  • Enabled quantitative comparison of individual ingredient effects versus combination outcomes.
  • Demonstrated synergistic reductions in inflammatory and oxidative stress biomarkers, including PGE2 and ROS.
  • Showed coordinated suppression of cartilage degeneration signaling via reduced MMP-13 expression.
  • Indicated enhanced cartilage regeneration through increased collagen-II synthesis under combination conditions.
  • Delivered an independent, objective assessment aligned with industry expectations for scientific substantiation.

Outcome

CytoSolve®’s in silico combination screening demonstrated that the evaluated equine joint formula produced synergistic biological effects exceeding those of individual ingredients alone. Across 30-day simulations, the combination achieved marked reductions in inflammatory mediators and oxidative stress, downregulation of cartilage-degrading enzymes, and enhanced regenerative signaling supporting cartilage health.

For NASC, the study provided a mechanistically validated, systems-level assessment reinforcing that multi-ingredient equine joint supplements should be evaluated as integrated biological systems rather than isolated components. The collaboration positioned CytoSolve®’s platform as a scalable, rigorous approach for combination screening and scientific substantiation in animal health supplementation.