Three-Layer Integration
Layer 1: Data Infrastructure
Unified data pipelines connecting genomic, proteomic, and phenotypic information with real-time experimental outputs from organ-on-chip and organoid systems.
Layer 2: Computational Models
AI-powered digital twins that integrate biological data to predict individual patient responses to therapeutic interventions.
Layer 3: Physical Systems
Microphysiological systems, organoids, and tissue chips that validate computational predictions with biological reality.
Platform Features
Multi-Organ Integration
Connect liver, kidney, heart, lung, and brain models for systemic drug response prediction.
Patient-Specific Modeling
iPSC-derived organoids enable personalized drug testing on patient-derived cells.
Real-Time Analytics
Continuous monitoring and analysis of biological responses across experimental timescales.
Regulatory Alignment
Data outputs designed for FDA Modernization Act compliance and regulatory submission.
A New Foundation for Human Simulation
A Patient Analog is the unified biological-computational representation of human physiology, integrating organoids, microphysiological systems, organ-on-chip platforms, multi-omics, and simulation engines into a single modeling substrate.
This hierarchy progresses from biological substrates to fully integrated, simulation-ready human models — establishing the foundational infrastructure that will define the next era of drug discovery and precision medicine.
The Human
The biological reality above all modeling frameworks
Patient Analog
Integrated bio-digital model of complete human
Digital Twin
Computational patient simulation platform
System Analog
Multi-organ physiological subsystems
Organ Analog
Individual organ modeled at high fidelity
Tissue / MPS
Engineered microphysiological systems
Organoid
3D cell cultures mimicking organ structure
FRAMEWORK ALIGNED WITH
Explore the Technology
Dive deeper into the core technologies powering the Patient Analog platform.
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