Solid Gold Pet LLC substantiates SeaMeal™ coat benefits using CytoSolve®’s systems architecture to model skin-barrier and oxidative pathways in silico

Solid Gold Pet LLC Solid Gold® Pet Food is a pioneer in holistic pet nutrition, developing natural-ingredient foods and supplements designed to support companion animal health. For its established supplement SeaMeal™, which has demonstrated empirical benefits for improving pet coat appearance, Solid Gold partnered with CytoSolve® to build a mechanistic, systems-level understanding of how SeaMeal™ influences pet skin and coat biology.

Challenge

Although SeaMeal™ has been associated with improved coat appearance, the underlying molecular mechanisms—for both individual ingredients and the combined formulation—were not well characterized. Coat appearance is governed by interconnected skin processes, especially:

Skin barrier formation and structural integrity

Oxidative balance within skin tissue

Traditional experimental approaches can struggle to evaluate multiple bioactives acting simultaneously across coupled pathways, and they provide limited ability to isolate and quantify synergy within complex formulations. Solid Gold required a systems-level mechanistic framework to explain observed outcomes, assess ingredient interactions, and support evidence-based product development.

How CytoSolve Helped

CytoSolve® applied its computational systems biology platform to develop an integrative in silico model of pet coat appearance and skin biology.

Systematic literature review → pathway blueprint: Identified molecular pathways reported to influence coat appearance and skin health.

Pathway-to-model translation: Converted pathways into individual mathematical models, each independently validated prior to integration.

Subsystem identification: Organized coat biology into two primary molecular systems:

  • Cornified envelope synthesis (skin barrier formation)
  • Oxidative stress pathways in skin (redox balance)
Systems integration with CytoSolve®: Integrated validated subsystem models to preserve pathway interdependencies and enable unified simulation.

Ingredient-level and combination simulations: Modeled five SeaMeal™ ingredients—bladderwrack kelp, dulse flakes kelp, flaxseed, alpha amylase, and bromelain—both individually and in combination, at current formulation dosage levels.

Synergy assessment: Quantitatively compared single-ingredient effects versus combined effects to evaluate emergent, formulation-level performance.

Key Benefits Realized

  • Mechanistic insight into the biological pathways governing pet coat appearance
  • Quantitative assessment of individual ingredient contributions and combined formulation efficacy
  • Demonstration of synergy within a multi-ingredient supplement at formulation-relevant doses
  • Systems-level understanding linking coat appearance to both skin barrier integrity and oxidative balance
  • Reduced need for fragmented, isolated experimental testing when evaluating complex ingredient combinations

Outcome

CytoSolve®’s in silico modeling demonstrated that the ingredients in Solid Gold® SeaMeal™ can synergistically enhance pet coat appearance through two primary mechanisms: increased cornified envelope synthesis, supporting skin barrier integrity, and reduced oxidative stress within the skin.

The collaboration provided Solid Gold Pet LLC with a mechanistic, systems-level foundation consistent with SeaMeal™’s observed benefits and validated the use of computational systems biology to evaluate multi-ingredient dietary supplements in pet nutrition—supporting more evidence-based formulation decisions and product development in companion animal health.