Ingredient-Level In Silico Analysis of SeaMeal™ Reveals Synergistic Mechanisms Supporting Pet Coat Appearance

Partner Description

Solid Gold® Pet Food
Solid Gold® Pet Food is a pioneer in holistic pet nutrition, formulating supplements and foods designed to support overall pet health using natural ingredients. SeaMeal™ is one of the company’s established supplements, empirically associated with improved pet coat appearance. To better understand the biological basis of these benefits, Solid Gold® partnered with CytoSolve® to apply computational systems biology to pet skin and coat biology.

Challenge

While SeaMeal™ has demonstrated observable improvements in pet coat appearance, the molecular mechanisms underlying these effects—both for individual ingredients and for the formulation as a whole—were not fully characterized. Coat appearance is governed by interconnected biological processes, including skin barrier formation and oxidative balance within the skin. Traditional experimental approaches are limited in their ability to simultaneously evaluate multiple bioactive ingredients acting across coupled molecular pathways, making it difficult to assess ingredient synergy and system-level efficacy.

How CytoSolve® Helped

CytoSolve® applied its computational systems biology platform to perform an ingredient-level, in silico analysis of SeaMeal™. The workflow began with a systematic literature review to identify molecular pathways relevant to pet coat appearance. These pathways were translated into individual mathematical models, each independently validated for mechanistic and dynamic consistency.

The analysis identified two primary molecular systems governing coat appearance: cornified envelope synthesis, reflecting skin barrier formation, and oxidative stress regulation within the skin. The validated subsystem models were integrated within the CytoSolve® platform to preserve pathway cross-talk and system-level behavior. CytoSolve® then simulated the effects of five SeaMeal™ ingredients—bladderwrack kelp, dulse flakes kelp, flaxseed, alpha amylase, and bromelain—both individually and in combination at current formulation dosage levels. This approach enabled quantitative evaluation of ingredient interactions and synergistic biological effects.

Key Benefits Realized

  • Ingredient-level mechanistic insight into biological pathways governing pet coat appearance
  • Quantitative comparison of individual ingredient effects versus combination performance
  • Demonstration of synergistic effects within a multi-ingredient supplement
  • Systems-level understanding of skin barrier synthesis and oxidative balance
  • Reduced reliance on isolated experimental testing for complex formulations

Outcome

CytoSolve®’s in silico ingredient analysis demonstrated that the components of Solid Gold® SeaMeal™ act synergistically to enhance pet coat appearance through two coordinated mechanisms: increased cornified envelope synthesis supporting skin barrier integrity and reduced oxidative stress within the skin. The results provided a mechanistic, systems-level foundation supporting the observed benefits of SeaMeal™ and validated computational systems biology as a powerful tool for evaluating multi-ingredient dietary supplements in pet nutrition. This case study highlights how in silico modeling can advance evidence-based formulation and product development in companion animal health.