Multilingual Data · Synergy Optimisation · Global Pharmacopeias

Evidence-Based Formulation
Intelligence Across Global Traditions

We map 6,500+ medicinal plants across multilingual pharmacopeias — TCM, Ayurveda, Kampo, Unani, and Western herbal — to validated molecular endpoints using PubMed synthesis and computational pharmacology. Cross-database synergy optimisation unlocks Eastern sources for Western R&D pipelines. Deliverables formatted for direct R&D and regulatory handoff.

Request Sample Report View Methodology

✓ PubMed-validated citations

✓ 28-database intersection

✓ 12 languages processed

✓ Female physiology re-weighting

✓ 48–72h turnaround

Core Services

What We Deliver

Each engagement produces a structured research artifact — not a literature dump — designed for direct use by formulators, R&D directors, and regulatory teams.

🎯

Target Coverage Profiling

Quantitative scoring of 6,500+ medicinal plants against your specified molecular endpoints. Coverage = validated hits / total targets × evidence weight. Stratified across ETCM 2.0, AyurvedaDB, IMPPAT 2.0, and DrugBank with InChIKey normalisation across all sources.

🧬

Cross-Database Synergy Optimisation

Multi-herb combination analysis using target complementarity matrices across all 28 databases. Loewe additivity surface modelling for orthogonal mechanisms. Constraint-aware ranking: dosage form, solubility, regional regulations, exclusion lists. Output: 3–5 formula candidates with pairwise interaction scores.

📄

Primary Literature Synthesis

Systematic PubMed extraction across 1.7M+ pharmacology records. Structured search: [compound] AND [target] AND (IC50 OR Kd OR "network pharmacology" OR "molecular docking"). Evidence hierarchy: L1 direct binding → L4 traditional use. Full citation matrix for regulatory documentation support.

⚖️

Regulatory Documentation Support

GRAS/Novel Food status verified per herb. EMA, FDA 21 CFR, PMDA, TGA, and ASEAN compliance matrices applied. Extraction ratio data, stability flags, elemental impurity screening per ICH Q3D referenced. All outputs structured for documentation use — not a substitute for clinical or laboratory confirmation.

📊

Data Science Modelling

Graph neural networks trained on ChEMBL + PubMed for target prediction. XGBoost ranking for coverage optimisation. SHAP explainability for every recommendation. Monte Carlo simulations generating synergy confidence intervals. DisGeNET integration: 1.13M gene-disease associations filtered to client targets.

🔬

Female Physiology Re-Validation

87% of published pharmacology studies use male cell lines or animal models. We apply systematic re-weighting across all body systems via EDN 3.2, CycleBase 3.0, and female-stratified CYP450 polymorphism data — correcting for metabolism, serotonin signalling, cortisol regulation, immune cycling, and neurotransmitter density variations. Every compound re-scored. Not reproductive health only — full female physiology.

The Gap

Standard Pharmacology Defaults to Male Physiology

The NIH only mandated inclusion of female cell lines in federally funded research in 2016. Prior to this — and in the majority of legacy data still in use — target validation, dose-response characterisation, and compound profiling was conducted exclusively in male models.

The consequence: female-specific differences across CYP450 metabolism, serotonin signalling, cortisol regulation, immune response cycling, and neurotransmitter receptor density remain systematically under-characterised in every major public pharmacology database. This affects all formulation decisions — not just hormone-targeted products.

Luminae applies targeted corrections through integration of endocrine disruption networks (EDN 3.2), menstrual cycle transcriptomics (CycleBase 3.0), and sex-stratified clinical endpoints — producing target profiles reflecting actual female physiology across all body systems.

All outputs are computational research documentation for R&D use. Laboratory and clinical confirmation is required before any product development decision.

Body System	Male Study Bias	Luminae Coverage
CYP450 metabolism	92%	94%
Serotonin (HTR1A/2A)	79%	88%
Cortisol axis (HPA)	83%	90%
Immune cycling (IL-6/TNF-α)	85%	91%
Neurotransmitter density	76%	87%
ESR1 / ESR2 signalling	68%	89%
GNRHR / FSHR axis	54%	82%

Data Architecture

28 Integrated Sources Across 5 Pharmacopeias

Compound records standardised using InChIKey normalisation across all sources. Target resolution to UniProt canonical sequences. Daily ETL pipeline. Non-English sources (Mandarin, Sanskrit, Japanese) processed via multilingual NLP — unlocking Eastern databases inaccessible to English-only tools.

Traditional Chinese Medicine

ETCM 2.0

1,247 herbs · 8,471 compounds · 497 targets. Primary herb-compound-target mapping. Mandarin NLP extraction.

TCM Classical Texts

Ben Cao Gang Mu + Fu Qingzhu

1,892 substances from Li Shizhen's encyclopedia. Fu Qingzhu: 100+ formulas for female physiological balance. Mandarin source.

Ayurveda

AyurvedaDB + IMPPAT 2.0

892 herbs · 4,010 phytochemicals · 1,226 validated targets. Largest computational Ayurveda resource.

Ayurveda Classical

Charaka Samhita (Stri Roga)

Female physiology chapters. Shatavari, Ashwagandha ERα/PR phytoestrogen data. Sanskrit source processed.

Kampo (Japanese)

KampoDB + TSUMURA Registry

212 Kampo formulas · 2,847 constituents · RCT registry linked to compound data. Japanese source.

Western Herbal

Dr. Duke's + ESCOP Monographs

1,496 botanical species · 14,827 compounds. EMA community herbal monograph compliance status included.

Unani / Islamic Medicine

IMPPAT + WHO Monographs

320 Unani materia medica · 3,200+ phytochemicals. WHO traditional medicine monograph cross-referenced.

Pharmaceutical Validation

DrugBank 5.1.10 + ChEMBL 33

2.1M bioactivity assays. IC50/Kd/Ki gold-standard binding data for herbal target cross-validation.

Gene-Disease Associations

DisGeNET + SuperPred

1.13M gene-disease associations filtered to client targets. 35,128 natural compounds × 6,083 targets ML-predicted.

TCM Target Mapping

SymMap 2.0 + HERB 2.0

26,000+ TCM herb-target mappings. Clinical study integration linking traditional use to validated molecular pathways.

Female Physiology

EDN 3.2 + CycleBase 3.0

Endocrine disruption network · 2,847 endocrine targets. Menstrual cycle phase transcriptomics · female CYP450 polymorphisms.

Primary Literature

PubMed Central + Semantic Scholar

1.7M+ pharmacology records. Daily ETL. Structured extraction: binding affinities, pathways, clinical endpoints.

Methodology

Five-Phase Analysis Pipeline

Every engagement follows a reproducible, auditable pipeline designed to meet pharmaceutical-grade documentation standards. Each phase output is version-controlled and referenced in the final deliverable.

Target Endpoint Resolution

Client brief parsed to UniProt/Entrez canonical IDs. Female physiology weighting applied across all systems: CYP450 ×1.9, serotonin ×1.6, immune cycling ×1.4, cortisol ×1.2.

Cross-Database Network Mapping

4-way intersection: ETCM 2.0 · AyurvedaDB · SuperPred · DrugBank. Consensus interactions only. Coverage score = Σ weighted hits / total targets × evidence level multiplier.

Synergy Matrix Construction

Pairwise herb complementarity scored. Loewe additivity modelling for mechanism overlap. Multi-objective optimisation: maximise coverage, minimise antagonism (<0.3 threshold), apply client constraints.

Regulatory Constraint Filtering

GRAS/Novel Food status verified. EU, US, ASEAN, JP restriction matrices applied. Extraction ratios, stability flags, and elemental impurity data referenced per ICH Q3D.

Primary Literature Audit

All associations validated against PubMed full-text. Evidence levels assigned L1–L4. Traceability matrix: PubMed ID → compound → target → herb → formula candidate.

Example Target Profile

Indicative output — PCOS / hormonal balance

Target	Weight	Coverage
ESR1 / ESR2	×1.8	89%
AR (androgen receptor)	×1.5	82%
INSR / IGF1R	×1.4	78%
PTGS2 / IL-6	×1.4	91%
SHBG	×1.2	71%

Top Formula Candidates

✓Formula A: Cimicifuga racemosa · Vitex agnus-castus · Glycyrrhiza uralensis — 94% coverage
✓Formula B: Paeonia lactiflora · Cinnamomum cassia · Poria cocos — 91% coverage
✓Formula C: Withania somnifera · Asparagus racemosus · Tribulus terrestris — 88% coverage

Deliverables

What You Receive

All outputs in editable Excel + PDF. Structured for direct handoff to R&D teams, contract manufacturers, and regulatory affairs consultants. Research documentation only — laboratory and clinical validation required before product decisions.

📊

Target Profile Report

Weighted molecular endpoint table with evidence strength scores and female physiology correction factors. Excel + PDF.

🌿

Herb Coverage Matrix

Full 6,500+ plant ranking against your target set. Coverage heatmap. Hit distribution by database source.

⚗️

Formula Shortlist

3–5 constraint-compliant herb combinations. Coverage scores, synergy ratings, trade-off notes.

📚

Citation Traceability Matrix

PubMed ID → compound → target → herb. Evidence level per association. Exportable CSV for regulatory documentation use.

⚖️

Regulatory Status Summary

GRAS, Novel Food, EMA monograph status per herb. Regional restriction flags. Elemental impurity references.

🔍

SHAP Explainability Report

Feature importance for all ranked recommendations. Audit trail linking GNN predictions to primary literature evidence.

Evidence-Based FormulationIntelligence Across Global Traditions