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Discoveries/NICARDIPINE
✓ X-VAULT VERIFIEDEXPLORATORYNOVELTY: LOW

NICARDIPINE

Synthesis of epoxy (EET) and dihydroxyeicosatrienoic acids (DHET) candidate

972.2
discovery score
PubMed Studies
94
Novelty
Low
Signal
Exploratory
Sealed
May 20, 2026
BiohacksAI Hypothesis

Nicardipine may modulate the Synthesis of epoxy (EET) and dihydroxyeicosatrienoic acids (DHET) pathway based on its molecular target profile in the BiohacksAI corpus. This compound shows biological activity against validated targets with limited prior literature coverage, suggesting an understudied mechanism-of-action with potential research value.

Computational hypothesis based on target graph analysis. Not a confirmed mechanism. Independent experimental validation required.

Mechanism Discovery Graph
MetabolismBiological oxidatio…Cytochrome P450 - a…Phase I - Functiona…XenobioticsCYP2E1 reactionsCYP2C19ARCYP2C9ESR1DRD3KCNH2NR1I2CYP3A4NICARDIPI
High-value target (Tier 3)
Research target (Tier 2)
Standard target
Pathway
Biological Plausibility

The Synthesis of epoxy (EET) and dihydroxyeicosatrienoic acids (DHET) pathway is a validated biological target area with established relevance in human disease and health research.

Nicardipine shows target overlap with compounds previously characterized in this pathway within the BiohacksAI corpus of 31,590 graph entities and 1.51M PubMed studies.

Low literature coverage (94 studies) relative to target engagement indicates this mechanism may be undercharacterized in current scientific literature — a signal consistent with early-stage discovery candidates.

Novelty Indicators
Literature coverage
94 PubMed studies
Low coverage = higher novelty potential
Discovery score
972.24
target_count × pathway_diversity / log(studies + 2)
Mechanism area
Synthesis of epoxy (EET) and dihydroxyeicosatrienoic acids (DHET)
Primary biological pathway
Novelty rating
Low
Derived from score + literature coverage
Research Context
Literature coverage
94 PubMed studies indexed at time of discovery
X-Vault timestamp
Sealed May 20, 2026 — cryptographic proof of discovery date and corpus version
Corpus scope
BiohacksAI corpus only — not a comprehensive literature or patent database search
Mechanism area
Synthesis of epoxy (EET) and dihydroxyeicosatrienoic acids (DHET) — computationally derived, requires experimental confirmation

This section reflects computational signal strength only. All findings require independent expert validation before any research or commercial use.

Suggested Validation Steps
1Synthesis of epoxy (EET) and dihydroxyeicosatrienoic acids (DHET) pathway target binding assay
2Dose-response curve (EC50 determination)
3Cellular viability and selectivity panel
4In vitro ADMET profiling

Validation roadmap is algorithmically derived from pathway context. Full experimental protocol available in Priority Signal discovery reports.

Target Relevance
CYP2C19
Standard
AR
High value
CYP2C9
Standard
ESR1
High value
DRD3
Standard
KCNH2
Standard

Target tier based on BiohacksAI HIGH_VALUE_TARGETS registry.

Discovery Lineage
Generated byBiohacksAI Discovery Engine
Engine versionDISCOVERY_v1.0
Corpus versioncurrent
Graph entities31,590 compounds analyzed
PubMed coverage1.51M studies
Discovery dateMay 20, 2026 at 02:00 AM UTC
X-Vault Evidence SealXVAULT_v1
Discovery IDDISC-nicardipine_hydrochlorid-20260520-a84b9300
Event Hash
Chain Hash
Vault Index#—
Sealed At2026-05-20T02:00:00.554Z
Verify this discovery →↓ Demo PDF (X-Vault sealed)

Demo report — computational hypothesis only. Not validated. For X-Vault verification testing.

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Discoveries sharing the same mechanism pathway from the BiohacksAI corpus.

Full Discovery ReportLOCKED
🔒
Mechanism hypothesis (expanded)
Detailed molecular mechanism with target confidence scores and binding context
🔒
Complete target mapping
All validated molecular targets with affinity data and evidence levels
🔒
Biological pathway network
Full pathway coverage map with crosstalk and downstream effects
🔒
Graph position + related compounds
Structural neighbors in the BiohacksAI compound graph — potential analogs
🔒
Supporting PMIDs
Curated PubMed references with relevance ranking
🔒
X-Vault sealed PDF
Cryptographically verified 20-30 page discovery report

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All discoveries are computational hypothesis candidates — not confirmed mechanisms. Independent experimental validation is required before any research or commercial use. Organiq Sweden AB · BiohacksAI β