Aplicaciones de la impresión 3D en cirugía plástica reconstructiva

José Eduardo Telich-Tarriba; Lino Enrique Ramírez-Sosa; Damian Palafox; Esteban Ortega-Hernández; Marco Aurelio Rendón-Medina

doi:10.15446/revfacmed.v68n4.77862

Publicado

2020-10-01

Aplicaciones de la impresión 3D en cirugía plástica reconstructiva

Use of 3D printing in reconstructive plastic surgery

DOI:

https://doi.org/10.15446/revfacmed.v68n4.77862

Palabras clave:

Andamios del tejido, Cirugía plástica, Ingeniería de tejidos, Bioimpresión (es)
Tissue Scaffolds, Surgery Plastic, Tissue Engineering, 3D Printing (en)

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Autores/as

José Eduardo Telich-Tarriba Hospital General “Dr. Manuel Gea González” - División de Cirugía Plástica y Reconstructiva - Ciudad de México - México. | Universidad Nacional Autónoma de México - Facultad de Medicina - División de Estudios de Posgrado - Ciudad de México - México. https://orcid.org/0000-0002-3348-2216
Lino Enrique Ramírez-Sosa Universidad Nacional Autónoma de México - Facultad de Medicina - División de Estudios de Posgrado - Ciudad de México - México. | Centro Médico Nacional La Raza - Hospital General “Dr. Gaudencio González Garza” - Unidad de Cirugía General - Ciudad de México - México. https://orcid.org/0000-0003-0717-0339
Damian Palafox Hospital Christus Muguerza - División de Cirugía Plástica y Reconstructiva - Puebla - México. https://orcid.org/0000-0002-0243-5564
Esteban Ortega-Hernández Queen Mary University of London - Barts and The London School of Medicine and Dentistry - Londres - Inglaterra. https://orcid.org/0000-0002-8676-7725
Marco Aurelio Rendón-Medina Hospital General “Rubén Leñero” – Servicio de Cirugía Plástica y Reconstructiva – Ciudad de México – México.

Resumen (es)
Resumen (en)

La impresión 3D es una tecnología interesante en constante evolución. También conocida como manufactura aditiva, consiste en la conversión de diseños digitales a modelos físicos mediante la adición de capas sucesivas de material. En años recientes, y tras el vencimiento de múltiples patentes, diversos campos de las ciencias de la salud se han interesado en sus posibles usos, siendo la cirugía plástica una de las especialidades médicas que más ha aprovechado sus ventajas y aplicaciones, en especial la capacidad de crear dispositivos altamente personalizados a costos accesibles. Teniendo en cuenta lo anterior, el objetivo del presente artículo es describir los usos de la impresión 3D en cirugía plástica reconstructiva a partir de una revisión de la literatura.

Las principales aplicaciones de la impresión 3D descritas en la literatura incluyen su capacidad para crear modelos anatómicos basados en estudios de imagen de pacientes, que a su vez permiten planificar procedimientos quirúrgicos, fabricar implantes y prótesis personalizadas, crear instrumental quirúrgico para usos específicos y usar biotintas en ingeniería tisular. La impresión 3D es una tecnología prometedora con el potencial de implementar cambios positivos en la práctica de la cirugía plástica reconstructiva en el corto y mediano plazo

3D printing is an interesting technology in constant evolution. Also known as additive manufacturing, it consists of the conversion of digital designs into physical models by successively adding material layer by layer. In recent years, and after the expiration of multiple patents, several fields of health sciences have approached this type of technology, plastic surgery being one of the medical specialties that has taken advantage of its benefits and applications, especially the ability to create highly customized devices at low costs. With this in mind, the objective of this work is to describe the uses of 3D printing in reconstructive plastic surgery based on a literature review.

The main applications of 3D printing described in the literature include its ability to create anatomical models based on patient imaging studies, which in turn allow planning surgical procedures, manufacturing custom implants and prostheses, creating surgical or instrumental simulators, and using bioinks in tissue engineering. 3D printing is a promising technology with the potential to cause positive changes in the field of reconstructive plastic surgery in the short and medium term.

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Citas

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