The model is created using CT data from a normal adult male. This model makes it possible to perform several simulations, like validating a stent-graft placement and training on artificial blood vessel replacement. A Clear Model for easily viewing the interior is available, along with a colored model made to accurately reproduce texture. An aortic valve model and no valve model are available. Please purchase according to your needs.
- Product Type: Aortic Arch Model Size (No Valve Type): W120 mm x H190 mm x D50 mm Size (No Valve Type): W120 mm x H190 mm x D35 mm Material: Ultra-soft Urethane Areas Reproduced: Aorta Ascendens, Aortic Arch, Aorta Descendens, Aortic Valve (For Valve Type Only), Coronary Valve (For Valve Type Only), Ostium (For Valve Type Only), Brachiocephalic Artery, Left Common Carotid Artery, Left Subclavian Artery
- Created using data from a standard male adult. Support is provided for various specifications, whether changing material of certain areas from the standard base, or configuring the model for disease. Single unit production is possible (made-to-order manufacturing)
- [Usage Examples]
- For education and training of young doctors; to substitute the wet lab for the dry lab.
From dry lab to wet lab.
As an educational material mainly targeting beginner doctors,
this device will be widely active in the medical field.
Cardiac surgeries require completion within a short period,
and with the high degree of difficulty, surgery tends to be performed only by the most skilled surgeons.
Therefore, the development of a highly precise 3D heart model contributes to the growth of many beginning doctors,
who can repeatedly practice surgery on a model with high reproducibility.
Training with pig hearts in a wet lab costs money and takes up space,
and in the future such training will likely become more difficult
when one takes into account the current climate regarding animal experimentation.
This product creates the opportunity to train in a dry lab, achieving low cost and allowing surgeons to master procedures under any conditions.