AI That Thinks in 3D.
Skip the static slides and memorization fatigue. Infer10 turns textbooks, 2D scans, and raw DICOM files into lifelike, explorable Vector Models — so you're not just cramming for exams, but preparing for the clinic.
From DICOM to 3D Models in Minutes.
Traditional medical image reconstruction is costly and heavy. Infer eliminates the need for high-end workstations with a fully automated, cloud-based AI pipeline.
Upload
Drag and drop raw DICOM (CT / MRI) files directly into the web platform. No installs, no local compute.
Inference
Powered by NVIDIA MONAI, our AI segments organs and tumors with clinical-grade precision.
Vectorize & Access
Heavy pixels become lightweight, ultra-smooth Vector Meshes — instantly accessible on any laptop or tablet.
Master Anatomy with Spatial Intelligence
Stop memorizing flat diagrams. Ask, explore, and test against a body you can actually turn over in your hands.
Visualize Complex Structures
Ask questions like “What does the sphenoid bone look like, and why is it shaped this way?” to receive an intelligent 3D model — complete with spatial orientation and evolutionary insight.
- AI Auto-Explain — instant, plain-language anatomical context.
- Spatial orientation — rotate, slice, and inspect from any angle.
Automated Image Interpretation
Infer maps anatomical structures and pinpoints pathologies with interactive, clickable labels — accelerating the leap from passive observation to active diagnostic comprehension.
- Upload any medical image — get instant, dynamic clinical annotations.
- Clickable labels trace every vessel, duct, and structure.
Exam Simulator
Don't waste time reviewing what you already know. Infer builds adaptive quizzes tuned to your goals, then grades you with a clear breakdown of strengths and gaps.
- Identify weaknesses with instant, structured feedback.
- Smart scoring tracks mastery over time.
Holistic Anatomical View
The world's first 3D interface that layers Eastern meridians over Western neurovasculature — a truly integrative view of the human body.
- Meridians meet anatomy — see acupoints like ST36 in spatial context.
- Converge medical paradigms in a single model.
Empowering the Next Generation of Healers
Give faculty AI-guided tools that scale clinical insight across every cohort, department, and discipline.
Dissection Prep with 3D Cadavers
Generate medically accurate cadaver models from scans to prepare students for the physical lab — reducing anxiety and maximizing valuable dissection time.
- Supplement or replace physical cadaver labs.
- Visualize variants & pathologies in 3D.
- Practice dissection virtually, before the lab.
Real-World Patient Library
Turn real patient scans into reusable 3D teaching cases and share them across departments.
- Standardize education — every student sees the same high-impact cases.
- Cross-cohort assets that grow year over year with zero rework.
Flexible Learning, Any Discipline
Support Flipped Classrooms and Hybrid Models with AI-guided tooling.
- AI Tutor Mode handles basic anatomy Q&A.
- Lesson Builder for interactive 3D lessons in minutes.
- Multi-language support for global programs.
Beyond the Screen: Predictive AI & 3D Printing
Where medical imaging ends, AI inference begins — extending from the browser all the way to the operating table.
Region of Interest Inference
Infer predicts and visualizes potential high-risk regions hidden by contrast timing or resolution limits — before they ever appear on a scan.
- Nervous ROI — infers the probable trajectory of nerve bundles relative to tumors.
- Circulatory ROI — reconstructs micro-vessel flow to optimize surgical path planning.
Patient-Specific 3D Printing
Because Infer models are built on Vector data, the generated files are inherently watertight — ready to manufacture, not just to view.
- Download & Print — export STL / OBJ files directly from your browser.
- Biomimetic accuracy — map scan densities to multi-material printers for life-like surgical rehearsal: cutting, puncture, and tunneling.
Ready to think in 3D?
Turn your next scan, slide, or textbook chapter into a model you can hold. Built for students, educators, and simulation labs alike.