Interactive Clinical Education

Interactive Education

Interactive educational series for clinicians — explore the mathematics, physics, and decision science behind clinical procedures through hands-on simulations and visualizations.

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Lumen · Clinical AI Education

The Clinician’s Guide to Working with AI

AI doesn’t replace clinical judgment — it sharpens it. Learn the principles, patterns, and practices that separate effective clinical AI use from dangerous over-reliance.

5 Interactive Modules · 12 Clinical Scenarios · 3 Prompt Frameworks

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Vol. I

The Vascular Lab

The physics beneath the needle

Five interactive modules exploring the mathematics, fluid mechanics, and probability that govern every vascular access decision — Hagen-Poiseuille flow, resistance networks, turbulence, shear stress, and Bayesian decision theory.

5 modules Fluid Dynamics · Catheter Physics · Decision Theory

Q = πr&sup4;ΔP / 8ηL Re = ρvD / μ P(A|B) = P(B|A)·P(A) / P(B)

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Vol. II

The Ultrasound Lab

The mathematics beneath the image

Six interactive modules revealing the physics pipeline that transforms physical reality into a grayscale image — wave propagation, acoustic impedance, beamforming, Doppler effect, slice geometry, and cross-dimensional comprehension.

6 modules Wave Physics · Beamforming · Doppler · 3D Inference

∂²u/∂t² = c²∇²u Z = ρc f_D = 2f⊂0⊂v cosθ / c

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Vol. III

The Catheter Lab

What happens after you insert

Four interactive modules on the forces, failures, and physics that govern what moves through your peripheral IV catheter — pressure gradients, reflux, hemolysis during blood draws, medication surge boluses, and barotrauma.

4 modules Reflux · Hemolysis · Deadspace Bolus · Barotrauma

ΔP = P_venous − P_IV τ = 4ηQ / πr³ C_surge = C_drug × V_dead / V_flush

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Vol. IV

The Central Line Lab

Where catheters meet the heart

Six interactive modules on central venous access — anatomy, PICC insertion, Seldinger technique, tip positioning at the cavoatrial junction, CLABSI and complications, and CVP hemodynamic monitoring.

6 modules PICC · CVC · Seldinger · CVP Waveforms · CLABSI

P_CVP = P_RA ± ΔP_hydrostatic CLABSI = events / 1000 cath-days SVR = (MAP − CVP) × 80 / CO

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About These Series

Each series is a collection of self-contained interactive modules. Modules include real-time simulations, parameter controls, historical context, and clinical pearls that connect the underlying science to bedside practice. No login required — open any module and start learning.