Abstract
The purpose of this work is to develop an original method of creating realistic three-dimensional individual geometric models of biological objects based on computer and magnetic resonance imaging data. Material and Methods ― Tomographic images of the circle of Willis vessels and a human femur were used as initial data. Images were processed in specialized computer-aided design software SolidWorks. Results ― The original method of constructing realistic individual 3D models of the components of the human cardiovascular and the musculoskeletal system are described in detail. Realistic 3D models of the human femur and Willis circle arteries are presented in the article. Conclusion ― The proposed method allows building high-quality 3D models that do not require additional processing and are suitable for use in finite element calculations.
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