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1.
Brain Sci ; 13(6)2023 Jun 01.
Artigo em Inglês | MEDLINE | ID: mdl-37371373

RESUMO

BACKGROUND: The advance in imaging techniques is useful for 3D models and printing leading to a real revolution in many surgical specialties, in particular, neurosurgery. METHODS: We report on a clinical study on the use of 3D printed models to perform cranioplasty in patients with craniosynostosis. The participants were recruited from various medical institutions and were divided into two groups: Group A (n = 5) received traditional surgical education (including cadaveric specimens) but without using 3D printed models, while Group B (n = 5) received training using 3D printed models. RESULTS: Group B surgeons had the opportunity to plan different techniques and to simulate the cranioplasty. Group B surgeons reported that models provided a realistic and controlled environment for practicing surgical techniques, allowed for repetitive practice, and helped in visualizing the anatomy and pathology of craniosynostosis. CONCLUSION: 3D printed models can provide a realistic and controlled environment for neurosurgeons to develop their surgical skills in a safe and efficient manner. The ability to practice on 3D printed models before performing the actual surgery on patients may potentially improve the surgeons' confidence and competence in performing complex craniosynostosis surgeries.

2.
Prensa méd. argent ; Prensa méd. argent;105(1): 1-8, mar 2019. fig
Artigo em Espanhol | BINACIS, LILACS | ID: biblio-1026309

RESUMO

La disección virtual es una herramienta educativa sumamente valiosa en anatomía. Es particularmente útil cuando hay escasez de cadáveres o en los casos en que la disección no sea posible por motivos religiosos o éticos. En este trabajo los autores presentan una reconstrucción 3D de un corazón masculino a partir de la información del proyecto Korean Visible Human, realizado en el marco de asociaciones de la cátedra de anatomía digital de la UNESCO creada recientemente en la Universidad Descartes. La segmentación manual de 1640 cortes anatómicos se logró a través del software Winsurf, produciendo un modelo vectorial 3D interactivo del corazón y la anatomía que lo rodea. Se reconstruyeron ochenta y cuatro estructuras, incluyendo el corazón y sus vasos (27 estructuras), tráquea, esófago, pulmones, cayado aórtico, vena cava inferior, riñones, sistema esquelético conformado por 58 estructuras, entre ellas: esternón, cartílagos costales, vértebras torácicas y discos intervertebrales, sacro, coxales y piel. El modelo vectorial 3D obtenido se exportó en formato PDF 3D produciendo una verdadera herramienta de disección virtual a través de la interfaz de Acrobat: las estructuras anatómicas pueden individualizarse y manipularse interactivamente como 84 objetos 3D separados. Además, se pueden agregar "etiquetas" con el nombre de cada elemento anatómico. Esta nueva mesa de disección virtual computarizada es una herramienta simple y poderosa tanto para alumnos como para docentes de anatomía. Además, resulta ser la base para futuras herramientas de simulación que contribuirán al entrenamiento de cirujanos


The virtual dissection is a remarkable learning tool in anatomy. It is particularly useful in the case of lack of cadavers or if anatomical dissection is impossible due to ethical or religious reasons. The authors present here a 3D reconstruction of the female's heart from the Visible Korean human data, made in the frame of the projects of the UNESCO chair of digital anatomy created recently at the Descartes University.The manual segmentation of 1640 anatomical slices was achieved with the Winsurf ® software producing an interactive 3D vectorial model of the heart and surrounding anatomy. Eighty four anatomical structures were reconstructed, including the heart and its vessels (27 structures), trachea, oesophagus, lungs, aortic arch, superior vena cava, azygos system, inferior vena cava, right and left kidneys, skeletal system (58) structures including: sternum, xiphoid process, clavicles, ribs, costal cartilage, thoracic vertebrae, intervertebrales discs, sacrum, hip bones, and femurs) and skin. The obtained 3D vectorial model was exported in 3D PDF format, producing a true virtual dissection tool through the Acrobat's interface: the anatomical structures can be individually and interactively manipulated as 84 separated 3D objects. 3D labels can be added with the name of each anatomical element. This new computerized virtual dissection table is a simple and powerful learning tool for students and anatomy teachers. It is also the basis of future simulation tools for surgeon's training


Assuntos
Humanos , Masculino , Adulto , Cadáver , Anatomia Transversal , Vasos Coronários , Dissecação/educação , Projetos Ser Humano Visível , Treinamento por Simulação , Realidade Virtual , Coração , Modelos Anatômicos
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