We are proud to be the first in Ternopil to offer the creation of 3D anatomical models based on computer (CT) and magnetic resonance imaging (MRI) data. Our service helps to improve the accuracy of diagnosis, planning of surgical interventions and training of medical personnel, giving doctors and students the opportunity to visualize the anatomical structures of patients with maximum detail.
How do we create anatomical models?
Our process begins with the acquisition of CT or MRI data, which is used to build three-dimensional models of the patient's anatomical structures. Using advanced software, we segment images to create an accurate digital model. This model is then printed on our high-precision 3D printer using materials that reproduce the smallest details for precise medical use.
Advantages of 3D Anatomical Models
Unsurpassed accuracy: the three-dimensional models we create allow for the most accurate reproduction of patient structures, which increases the efficiency of planning and carrying out medical procedures.
Personalized approach: each model is adapted to the individual characteristics of the patient, which makes them indispensable in clinical practice.
Educational Potential: models are an excellent tool for teaching students and training medical professionals, allowing them to better understand complex anatomical structures.
Quick Manufacturing: the use of advanced technologies allows to manufacture models in a short time, which is important for the operational work of medical institutions.
Application of our models in medical practice
Our anatomical models are used in many fields of medicine, such as:
Operative surgery: help surgeons better prepare for complex surgical interventions.
Medical education: serve as an educational tool for students and young professionals.
Research and development: used to test new treatments and approaches in clinical practice.
FAQ
What data is needed to create a model? We use DICOM files from CT or MRI.
How long does it take to create a model? Usually 3 to 7 days, depending on the complexity.