Ingredient Analysis of Redoxx® and Bug Check® Using CytoSolve® Systems Architecture for In Silico Synergy Validation across Energy, Redox Pathways

Partner Description

The Natural Vet
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 complex, multi-ingredient formulations beyond traditional single-ingredient testing.

Challenge

The Natural Vet® required rigorous ingredient-level scientific validation for two multi-ingredient products with distinct biological objectives:

Redoxx® needed substantiation that its combined antioxidant ingredients collectively support mitochondrial energy metabolism and redox homeostasis through coordinated, pathway-level effects rather than isolated ingredient claims.

Bug Check® required validation that repellent efficacy emerges from a systems-level interaction of multiple ingredients acting on insect sensory and avoidance mechanisms, while simultaneously maintaining safety relevance for horses, dogs, and cats.

Conventional validation approaches struggle to characterize ingredient synergy, often rely heavily on animal testing, and offer limited ability to compare pathway-level contributions across ingredients and species in a repeatable, regulatory-aligned framework.

How CytoSolve® Helped

CytoSolve® applied its computational systems biology platform to perform ingredient analysis and in silico combination screening for both Redoxx® and Bug Check®.

For Redoxx®, CytoSolve® constructed an ingredient-centered biological network spanning oxidative stress regulation, mitochondrial respiration, ATP synthesis, and antioxidant defense systems. Individual ingredients were mapped to molecular targets and pathways, then evaluated collectively to simulate how ingredient interactions influence energy metabolism and redox balance. This approach assessed whether combined ingredients produced synergistic or complementary systems-level effects beyond single-ingredient activity.

For Bug Check®, CytoSolve® developed an ingredient-driven repellent architecture modeling insect olfactory sensing, neural signaling, and behavioral avoidance pathways. The analysis evaluated how multiple ingredients jointly contribute to repellent function while avoiding single-compound assumptions. In parallel, the model screened ingredient-pathway alignment against mammalian biological systems relevant to horses, dogs, and cats, supporting safety-relevant interpretation within a unified framework.

Key Benefits Realized

  • Ingredient-level mechanistic validation confirming systems-level synergy in multi-ingredient formulations
  • Substantiated support of mitochondrial energy metabolism and redox homeostasis for Redoxx®
  • Validated multi-pathway, ingredient-driven repellent activity for Bug Check®
  • Cross-species safety relevance addressed for horses, dogs, and cats using a consistent modeling approach
  • NASC-ready ingredient substantiation suitable for quality, compliance, and regulatory review
  • Reduced reliance on animal testing through advanced in silico ingredient screening

Outcome

Using CytoSolve®’s computational biosimulation platform, The Natural Vet® achieved ingredient-level, systems-based validation for both Redoxx® and Bug Check®. The in silico ingredient analyses substantiated coordinated 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 considerations. This work reinforced a NASC-aligned substantiation strategy and demonstrated how ingredient-focused systems architecture enables efficient, ethical, and regulatory-ready validation of complex animal health products.