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Traditional teaching methods fall short at two critical points
MRI physics is abstract. Students read equations and concepts but can't visualize how parameters actually affect real images. Theory remains disconnected from practice.
Limited scanner access. Inconsistent quality across sites. No time to experiment. Students watch more than they practice, and they only see routine scans on tight schedules.
The middle ground where students see theory in action AND practice safely before facing real patients
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Four ways we turn classroom theory into clinical competency
When teaching TR, TE, and flip angles, demonstrate the exact results in real-time. No more imaginary scenarios; students see quantum physics concepts applied in medical practice.
"When teaching MRI physics, I don't have to rely on imaginary scenarios. I can show students the exact result when they apply quantum physics concepts in a medical practice.
This visualization is the main part of Corsmed that helps me teach physics."
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Give students freedom to experiment without patient pressure or scanner time limits. They can practice any anatomy or pathology 24/7 until they master it. Learn by trying, failing, and understanding.
"Corsmed gives students a safe space to learn, free from the pressures of clinical placement.
They can play with the settings, see what changes what, and understand how it affects the image—without worrying about patient care."
Create scanning assignments where students practice real protocols across diverse anatomies and pathologies. They complete hundreds of cases before their first clinical day.
"Using Corsmed, our students complete 500 clinical cases across a wide range of anatomies and pathologies.
When our students began their externships, the imaging centers were amazed at how skilled they were."
Monitor practical competency with automatic grading, personalized feedback, and detailed analytics. See exactly what parameters students entered, how they prescribed planes, and track their skill development over time.
"Corsmed is an excellent assessment tool because students build protocols and sequences from scratch.
It shows exactly what parameters they've entered and how they've prescribed planes, which helps us test their understanding in many areas."
The complete learning management system (LMS) built around simulation-based training
Create scanning assignments, add supporting materials (text, videos, PDFs), and structure everything into organized modules.
Group students into cohorts, set time-bounded access for different semesters, and control who sees which courses.
Set reference scans and let the system automatically grade submitted work on position, orientation, coverage, FOV, resolution, and matrix.
Review individual scans and write detailed comments. Highlight strengths and offer specific suggestions for improvement.
Track each student's development with detailed dashboards showing modules completed, time spent practicing, and skill progression.
Add multiple choice questions and free-form written responses to test conceptual understanding alongside practical skills.
Corsmed is the only MRI simulator in the world that accurately mirrors a real scanner
When students change parameters, the image updates based on real MRI physics—not a static image library. What they see in Corsmed is what they'll get on a real scanner.
Developed with MRI physicists and validated by leading universities. Corsmed's simulation technology has been proven in peer-reviewed research.
100% job placement rate at BCIT. Students report feeling "well-prepared" and "confident" before their first clinical day. Clinics are "amazed at how skilled" graduates are.
Colleges and hospitals worldwide use Corsmed to bridge the theory-practice gap
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Transform your MRI program in 3 straightforward steps
Free expert support and an intuitive platform built for educators
See how Corsmed can transform your MRI program and prepare job-ready graduates.
