Maxillary Extraction W/ sinus cavity & Pulp

$150.00

The maxillary extraction model is designed specifically with edentulous sites and a sinus cavity, providing an effective solution for training in implant preparation. Notably, the internal anatomy, including the pulp structure, is incorporated into this model to enhance the learning experience and ensure a comprehensive understanding of the underlying features critical for successful implantology.

BIOMED3D focuses on significantly advancing the field of biomedical technology through innovative research, development, and application of 3D printing techniques. Our commitment to progress aims to improve patient outcomes and enhance the overall efficacy of medical treatments.

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The maxillary extraction model is designed specifically with edentulous sites and a sinus cavity, providing an effective solution for training in implant preparation. Notably, the internal anatomy, including the pulp structure, is incorporated into this model to enhance the learning experience and ensure a comprehensive understanding of the underlying features critical for successful implantology.

BIOMED3D focuses on significantly advancing the field of biomedical technology through innovative research, development, and application of 3D printing techniques. Our commitment to progress aims to improve patient outcomes and enhance the overall efficacy of medical treatments.

The maxillary extraction model is designed specifically with edentulous sites and a sinus cavity, providing an effective solution for training in implant preparation. Notably, the internal anatomy, including the pulp structure, is incorporated into this model to enhance the learning experience and ensure a comprehensive understanding of the underlying features critical for successful implantology.

BIOMED3D focuses on significantly advancing the field of biomedical technology through innovative research, development, and application of 3D printing techniques. Our commitment to progress aims to improve patient outcomes and enhance the overall efficacy of medical treatments.