Natural Vet validates Redoxx® and Bug Check® using CytoSolve®’s systems architecture for in silico synergy screening across energy, redox, and repellent pathways

The Natural Vet® is a science-focused animal health company developing nutraceutical and topical solutions for companion and performance animals. Its portfolio emphasizes natural ingredients, safety, and evidence-based validation. To support regulatory compliance and NASC expectations, The Natural Vet® prioritizes mechanistic substantiation for multi-ingredient formulations beyond traditional single-ingredient testing.

Challenge

The Natural Vet® required robust scientific validation for two complex, multi-ingredient products with distinct biological targets:

Redoxx®: Demonstrate that a multi-ingredient antioxidant supplement can support mitochondrial energy metabolism and redox homeostasis through coordinated pathway effects.

Bug Check®: Validate repellent efficacy as a multi-ingredient systems effect acting on insect sensory and avoidance mechanisms, while maintaining safety relevance across horses, dogs, and cats.

Conventional approaches can struggle to quantify synergistic interactions, often require extensive in vivo studies, and provide limited ability to compare pathway-level contributions across ingredients and species in a controlled, repeatable manner.

How CytoSolve Helped

CytoSolve® applied its computational systems biology and combination screening methodology to build pathway-level systems architectures for both products and evaluate them in silico.

Redoxx® combination modeling

Built an integrated biological network spanning:

  • Oxidative stress regulation
  • Mitochondrial respiration
  • ATP synthesis
  • Antioxidant defense systems
Simulated the combined effects of Redoxx® ingredients across interconnected energy metabolism pathways.

Assessed whether ingredient interactions produced synergistic or complementary systems-level effects, rather than isolated single-ingredient impacts.

Bug Check® repellent modeling

Modeled insect-targeted mechanisms including:

  • Olfactory sensing
  • Neural signaling
  • Behavioral avoidance pathways
Evaluated how multiple ingredients collectively contributed to repellent activity, avoiding single-compound assumptions for a combination product.

Screened for alignment with mammalian biological pathways relevant to horses, dogs, and cats to support safety considerations within a unified modeling framework.

Key Benefits Realized

  • Mechanistic combination validation: Confirmed pathway-level synergy and coordinated action for multi-ingredient formulations
  • Energy metabolism support: Substantiated Redoxx®’s role in improving mitochondrial efficiency while supporting oxidative balance
  • Multi-pathway repellent activity: Validated Bug Check®’s systems-level mode of action across sensory and avoidance mechanisms
  • Cross-species applicability: Addressed horses, dogs, and cats within a consistent modeling approach for safety-relevant interpretation
  • NASC-ready substantiation: Produced credible mechanistic rationale suitable for quality, compliance, and regulatory review
  • Reduced reliance on animal testing: Accelerated validation while supporting ethical research practices

Outcome

Using CytoSolve®’s computational biosimulation platform, The Natural Vet® obtained mechanistic, systems-level validation for both Redoxx® and Bug Check®. The in silico analyses strengthened product credibility by substantiating combination mechanisms—supporting Redoxx®’s role in mitochondrial energy and redox balance, and validating Bug Check®’s multi-ingredient repellent activity while addressing cross-species safety relevance for horses, dogs, and cats. Overall, the work reinforced a NASC-aligned substantiation strategy and demonstrated how systems architecture–driven in silico screening can de-risk product development while meeting modern regulatory and ethical expectations in animal health.