ImmuniT™ combination screening uses CytoSolve® to quantify twelve-herb synergy across immune, detox, respiratory, and gastrointestinal pathway modules

ImmuniT™
ImmuniT™ is a herbal tea formulated as a proprietary blend of twelve Indigenous Indian herbs—greater galangal root, malabar nut, ajwain, coriander seeds, berberis, cumin, licorice, long pepper, black pepper, blue-flowered glory tree root, prickly brinjal, and dried ginger—positioned to support the body’s natural detox process and help balance the Tridosha. The product narrative highlights functional support for overall immune health, with additional structure/function support across respiratory, gastrointestinal, and energy-related domains.

Challenge

ImmuniT™ is a high-complexity, multi-herb formulation intended to support immune balance while also addressing multiple functional domains (detox, breathing comfort, digestion, energy, and body comfort). The scientific challenge for substantiating such formulations includes:

  • Each herb may act on multiple molecular targets, creating overlapping and interacting effects
  • Intended benefits span multiple biological systems, requiring coordinated modulation rather than isolated pathway changes
  • Traditional experimental testing struggles to efficiently demonstrate synergistic, systems-level effects across immune, respiratory, and gastrointestinal domains simultaneously
A systems-level approach was required to evaluate ImmuniT™ as a combination, quantify synergy, and link observed effects to mechanistic pathways in a repeatable and compliant manner.

How CytoSolve Helped

CytoSolve® applied its in silico combination screening workflow to characterize ImmuniT™ as an integrated immune-support system.

Systems architecture for ImmuniT™

CytoSolve translated the product’s intended functional domains into a unified pathway blueprint organized into six interacting subsystem modules:

  • Immune signaling module (innate immune balance, cytokine-adjacent signaling proxies)
  • Detox and clearance biology (endogenous clearance signaling, inflammatory tone, oxidative balance)
  • Respiratory comfort module (airway inflammation, mucus balance, and airway patency proxies)
  • Gastrointestinal function module (digestive comfort, motility, and bloating-related signaling proxies)
  • Energy and fatigue-related module (metabolic efficiency and stress-response signaling proxies)
  • Body comfort / inflammatory tone module (musculoskeletal-adjacent inflammatory signaling proxies)

These modules were integrated to preserve cross-talk—for example, how immune signaling influences airway comfort and GI function, and how inflammatory tone affects fatigue and body comfort..

Ingredient encoding and model inputs

  • Encoded the twelve ingredients—greater galangal root, malabar nut, ajwain, coriander seeds, berberis, cumin, licorice, long pepper, black pepper, blue-flowered glory tree root, prickly brinjal, and dried ginger—as mechanistic perturbations across the subsystem modules
  • Used a use-relevant dosing framework aligned with preparation instructions (boiling water, steeping, and serving size)
Single-ingredient baselining

  • Simulated each herb independently to establish baseline pathway “fingerprints,” identifying which subsystems each ingredient most strongly influences.

Combination screening and synergy analysis

  • Simulated the full twelve-herb blend and compared outputs against the expected additive envelope derived from single-ingredient simulations
  • Quantified synergy where the blend produced
  • broader subsystem engagement (simultaneous modulation across immune, detox, respiratory, and GI modules)
  • Identified non-additive depth, with greater-than-expected modulation of immune-balance, airway-comfort, and GI-function proxies
  • Evaluated coordinated system behavior consistent with a Tridosha-balancing profile, integrating immune-supportive signaling with detoxification and digestive comfort
Personalization and education enablement

  • Structured outputs to support education-led personalization, enabling mapping of the blend’s subsystem signature to an individual’s “Your Body, Your System®” profile for guidance on tea selection and use

Key Benefits Realized

  • Synergy-aware substantiation: quantified emergent blend behavior across twelve herbs that cannot be inferred from any single ingredient
  • Mechanistic coherence across domains: unified immune, respiratory, GI, detox, and energy-support pathways in one systems model
  • Repeatable, controlled screening: enabled systematic comparison of individual herbs versus the blend without immediate dependence on extensive in vivo testing
  • Communication-ready outputs: produced pathway-based narratives aligned with responsible structure/function claims for immune health

Outcome

CytoSolve®’s in silico combination screening characterized ImmuniT™ as a coordinated twelve-herb formulation capable of producing multi-system pathway modulation aligned with its intended uses—supporting overall immune health while engaging detoxification, respiratory comfort, gastrointestinal balance, and energy-related pathway modules. The screening workflow clearly distinguished individual ingredient contributions from emergent combination behavior, strengthening mechanistic substantiation and supporting compliant, education-led communication.

Regulatory note: This case study describes structure/function support at a pathway level and does not assert disease treatment or prevention claims. These statements have not been evaluated by the FDA, and the product is not intended to diagnose, treat, cure, or prevent any disease.