MediCAD - ITCO MED

MediCAD

Transforming Healthcare, Together

mediCAD is a specialized
software solution for digital
planning of orthopedic and
trauma surgeries. The system helps
doctors perform precise measurements, select
implants, plan surgical
interventions in 2D and 3D, and
optimize the clinical workflow from
initial image analysis to
postoperative outcome evaluation.

Modern Challenges

Modern orthopedic and trauma departments face a number of challenges:

  • The need for more accurate preoperative planning
  • Growing requirements for quality and reproducibility of surgical solutions
  • The need for correct implant selection before surgery
  • A large number of different manufacturers and implant systems
  • The need for fast work with X-ray, CT, and MRI images
  • The need for integration with PACS and the clinic’s existing IT infrastructure
  • Reducing the time for surgery preparation
  • Increasing requirements for digitalization of clinical processes
  • The need for support of 2D and 3D planning depending on the type of surgery
  • The need for modern analysis tools, including AI support

Solution

mediCAD is a unified digital platform
for orthopedic planning.

mediCAD combines tools for preoperative analysis, digital planning, implant selection, and postoperative outcome evaluation. The solution allows physicians to work with medical images, perform measurements, use digital implant templates, and plan surgeries across various anatomical regions.

The system supports 2D and 3D planning and can be used in orthopedics, traumatology, endoprosthetics, spine surgery, planning of hip, knee, shoulder joint operations, foot, ankle, and other areas.

mediCAD can be integrated into the clinical workflow and used alongside PACS systems, providing convenient access to images and plans within the digital infrastructure of the healthcare facility.

What is included in the solution

mediCAD 2D

Solution for digital 2D surgical planning based on X‑ray images. Allows measurements, anatomical analysis, implant selection, and preparation of the surgical plan.

Key areas:

  • hip joint;
  • knee joint;
  • osteotomy;
  • foot, ankle, Hallux Valgus;
  • traumatology;
  • radiological measurements;
  • digital implant templates.

mediCAD 3D

Solution for advanced 3D planning based on CT, MRI, DVT, and X‑ray images. 3D visualization helps to more accurately assess the patient’s anatomy, the position of implants, screws, and other surgical elements.

Key areas:

  • 3D planning of the hip joint;
  • 3D planning of the knee joint;
  • 3D planning of the shoulder joint;
  • 3D planning of the spine;
  • 3D planning of implant and screw positioning.

mediCAD Web

Web solution for flexible access to planning via a browser. Suitable for clinics and specialists who need to work with plans regardless of workstation and local software installation.

Key features:

  • access to planning via a browser;
  • work with orthopedic cases regardless of location;
  • flexible addition to the classic version of mediCAD.

mediCAD AI

AI tools in mediCAD help automate certain stages of planning. The system supports automatic recognition of anatomical landmarks, image analysis, identification of relevant parameters, and acceleration of plan preparation.

AI support is especially relevant for planning hip and knee joints, as well as for lower limb analysis.

Implant Database

mediCAD includes one of the largest databases of digital templates for orthopedic implants. The database contains templates from various international manufacturers, allowing surgeons to plan operations using specific implant systems.

The database is regularly updated to ensure the availability of current templates and new implant systems.

Key Benefits

For physicians

  • More accurate and structured preoperative planning
  • Quick access to measurements, templates, and analysis tools
  • Ability to plan surgeries in 2D and 3D
  • Support for implant selection before surgery
  • Convenient work with various anatomical regions
  • Ability to use AI tools to speed up routine stages
  • Clearer visualization of the surgical plan

For the clinic

  • Increased standardization of surgical planning
  • Optimization of surgical preparation
  • Integration into the digital infrastructure of the medical institution
  • Support for working with PACS and medical images
  • Ability to scale the solution across different departments and users
  • Reduced dependence on manual and fragmented processes
  • Support for digital transformation of orthopedic and trauma departments

For patients

  • More individualized approach to surgical planning
  • Improved preparation of the surgical team
  • Possibility of more accurate implant selection
  • Potential improvement in surgical outcomes through more detailed planning

For the IT department

  • Ability to integrate with existing PACS infrastructure
  • Support for the clinic’s digital workflow
  • Options for local and web access depending on configuration
  • Centralized management of workstations and access
  • Support for modern medical software requirements

How it works

01 Medical image acquisition

The physician gains access to the patient’s X‑ray, CT, or MRI images. Images can be uploaded to mediCAD or accessed through integration with PACS.

02 Analysis and measurements

The system allows performing necessary anatomical measurements, assessing axes, angles, distances, joint parameters, and more.

03 Selecting the planning module

Depending on the clinical case, the physician chooses the appropriate module: hip joint, knee, shoulder, spine, osteotomy, traumatology, foot, or other area.

04 Implant selection

The physician uses digital implant templates from the mediCAD database and selects the appropriate size, position, and orientation of components.

05 2D or 3D planning

Depending on the type of surgery and available data, planning can be performed in 2D or 3D. 3D planning is especially useful in more complex cases where spatial assessment of anatomy and implant positioning is required.

06 Documentation and use of the plan

After planning is completed, the result can be saved, used for surgery preparation, discussed within the team, or used for postoperative comparison.