Interactive Biotech Simulation Suite
Comprehensive biotech educational platform featuring human-relevant medicine technologies, organ-on-chip systems, digital twins, and FDA Modernization Act-compliant research models
Patient-derived 3D tissue models revolutionizing disease research and drug development
Patient-derived cerebral organoids modeling Alzheimer's, Parkinson's, Glioblastoma, and Zika virus infection. Interactive 3D visualization with disease progression, drug treatment simulation, and neural activity monitoring.
Launch Simulator →Drug-Induced Liver Injury (DILI) prediction system with 87% accuracy. Test hepatotoxicity of pharmaceutical compounds using human liver-on-chip models. Real-time CYP450 metabolism and multi-parameter toxicity assessment.
Launch Simulator →Cardiotoxicity assessment platform detecting arrhythmia risks missed by animal models. Features live ECG visualization, hERG channel assays, QT prolongation analysis, and contractility measurements in human cardiomyocytes.
Launch Simulator →Engineer chimeric antigen receptor T-cells for cancer immunotherapy. Design CAR constructs with multiple generations, select tumor antigens (CD19, BCMA, HER2), transduce T-cells, expand cultures, and simulate patient infusion with real-time tumor killing visualization.
Launch Simulator →Multi-tissue organoid fusion platform. Build complex assembloids by layering different cell types (neurons, astrocytes, endothelial cells, cardiomyocytes). Add vasculature, fuse organoids, monitor maturation. Pre-built protocols for brain-vascular, cortical-interneuron assembloids.
Launch Simulator →Computational models of fundamental biological processes
AI-powered molecular dynamics engine with cyberpunk visualization. Dock drug candidates to viral proteins (SARS-CoV-2 Spike, HIV Protease), cancer targets (EGFR Kinase), calculate binding affinities, run MD simulations. Real drugs: Remdesivir, Paxlovid, Imatinib. Quantum-themed interface with animated particle fields and energy visualization.
Launch Simulator →Visualize amino acid chains folding into 3D structures. Explore thermodynamic stability, secondary structure formation (α-helix, β-sheet), and environmental factors affecting protein folding including temperature, pH, and ionic strength.
Launch Simulator →Model transcription factors, gene expression, and regulatory feedback loops. Interactive network visualization showing gene activation/repression cascades and cellular differentiation pathways.
Launch Simulator →Flux balance analysis of metabolic pathways. Visualize cellular energy production, glycolysis, TCA cycle, and oxidative phosphorylation. Optimize metabolic engineering for biotechnology applications.
Launch Simulator →Modeling complex biological systems from ecosystems to epidemics
Lotka-Volterra predator-prey models simulating population dynamics. Explore carrying capacity, competitive exclusion, and trophic cascades in ecological systems. Real-time parameter adjustment for educational demonstrations.
Launch Simulator →SIR/SEIR disease spread modeling for infectious disease dynamics. Simulate outbreak scenarios, vaccination strategies, and intervention effectiveness. Interactive visualization of transmission parameters and epidemic curves.
Launch Simulator →Hebbian learning and synaptic plasticity models. Visualize long-term potentiation (LTP), long-term depression (LTD), and spike-timing-dependent plasticity (STDP). Educational tool for understanding learning and memory at the synaptic level.
Launch Simulator →Advanced whole-body physiological modeling systems
Interconnected organ system simulator modeling heart, liver, kidney, and brain interactions. Simulate drug distribution, metabolism, and systemic effects across the whole body. PBPK modeling for precision medicine applications.
Launch Simulator →