Abstract
We have developed and tested a technique for constructing 3D models of the chest and thoracic cavity organs. Due to the obtained results, the mathematical model was successfully used in the development of classification of variants of placement of implantable auxiliary circulation systems, and also for building 3D models for other purposes. In particular, the patients were graded according to the variants of placing the children’s axial pump DON-3 inside the patient’s chest cavity. Based on the data, the first fitting of the DON-3 pump was performed on a patient aged 7 years.
Highlights
The optimization of an accomodation in the thoracic cavity child the axial pump don-3
We have developed and tested a technique for constructing 3D models of the chest and thoracic cavity organs
Due to the obtained results, the mathematical model was successfully used in the development of classification of variants of placement of implantable auxiliary circulation systems, and for building 3D models for other purposes
Summary
The optimization of an accomodation in the thoracic cavity child the axial pump don-3 (the mathematical model research). Связанные с малыми размерами грудной клетки у детей младшего возраста, перед нами была поставлена задача оптимизации размещения в ней насоса. Эта же программа использовалась и для отображения и перемещения модели детского осевого насоса ДОН-3 относительно полученного каркаса грудной клетки.
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