jst/medics
  • Services
  • How It Works
  • Blog
  • FAQ
  • About
IT/EN
jst/medics

We transform CT DICOM files into interactive 3D anatomical models for surgical planning, simulation, and pre-operative discussion.

LinkedInXYouTubebusiness@jstmedics.com

jst/medics

  • Services
  • Technology
  • Benefits
  • How It Works
  • Surgical Specialties
  • Process
  • About

Case Studies

  • Case 001
  • Case 002
  • Case 003

Contact

  • Blog
  • FAQ
  • Request Now

Language

  • Italiano
  • English

© 2026 jst/medics - JST 3D S.r.l. - cf/p.iva 04066390123

Privacy PolicyCookie PolicyTerms and Conditions
Surgical specialties

3D anatomical models forevery surgical specialty

We turn CT scans into highly detailed, interactive 3D models — so surgeons can plan with precision and operate with intraoperative guidance.

Schedule a demo

Why 3D models are game-changing for surgeons

1

Superior surgical planning

Traditional CT scans require mental reconstruction of 2D images into a 3D space, increasing the risk of misinterpretation. With our AI-powered 3D models, surgeons get an instant, clear, and dynamic view of complex anatomy, reducing uncertainty and improving precision.

Key benefit: Surgeons precisely plan incisions, avoiding damage to critical structures like arteries, veins, and calyceal cavities.
2

Real-time intraoperative integration

jst/medics models integrate directly into laparoscopic and robotic platforms, displaying real-time anatomical guidance during surgery. This enables more precise tumor resections and helps define clear margins while avoiding vascular complications.

Key benefit: Enhanced visualization during surgery means safer and more effective procedures.
3

Reduced complications & faster recovery

Clinical studies confirm that AI-driven 3D models lead to:

Less intraoperative blood loss (better identification of vascular structures)

Lower complication rates (especially hemorrhagic complications)

Fewer emergency interventions & transfusions

Shorter hospital stays = lower costs

Key benefit: Better patient outcomes and optimized hospital resource management.

Proven results — backed by research

−78%

reduction in global ischemia with 3D-guided partial nephrectomy (OR 0.22, p = 0.02).

+154%

increase in enucleations — the most tissue-sparing resection technique (OR 2.54, p < 0.01).

−80%

reduction in transfusion probability, reflecting less intraoperative blood loss (OR 0.20, p < 0.01).

Source: Piramide F, Kowalewski KF, Cacciamani G, et al. Eur Urol Oncol. 2022;5(6):640-650. Read the full analysis · DOI: 10.1016/j.euo.2022.09.003

Specialties — production and research

Where the jst/medics AI model is clinically deployed today, and where it's headed next.

Renal surgery — production-ready

Our 3D models are clinically validated for kidney surgery, with detailed renal vasculature, calyceal anatomy, tumor margins, and PADUA/RENAL nephrometry support.

Vascular anatomy
Tumor and calyces
RENAL/PADUA scoring
Volumetry
Renal arteries
3D model of a kidney with tumor

jst/medics vs. traditional methods — a clear advantage

Traditional 2D imaging
jst/medics models
Visualization
Traditional 2D imaging
2D slices requiring mental reconstruction
jst/medics models
Complete interactive 3D view
Planning time
Traditional 2D imaging
Extended time for interpretation
jst/medics models
Immediate spatial understanding
Intraoperative use
Traditional 2D imaging
Limited integration
jst/medics models
Web-based 3D viewer accessible in the OR
Ischemia & transfusions
Traditional 2D imaging
Standard risk
jst/medics models
Ischemia −78%, transfusions −80%
Tissue preservation
Traditional 2D imaging
Standard resection approach
jst/medics models
Enucleations +154% (OR 2.54)

Have a CT case to evaluate?

Request a 3D anatomical reconstruction from DICOM files to support surgical planning, simulation, and pre-operative discussion.

Get StartedWatch case studies