Julio Palacios Juárez1*, Gustavo Ayala Azuara2 , Jesús Morales Maza3 , Jessica E Figueroa Estrada4 , Diego Colin Vega5 , Mauricio Zúñiga Zamora6 , Daniel A Vargas Velásquez7 , Ludivina A Cortés Martínez8 , Cristian B Castro Jadan6 and Ernesto Zoe Badillo Ramírez6
1Department of Plastic and Reconstructive Surgery, Hospital Regional de Alta Especialidad de Ixtapaluca,Mexico
2Policlínica Imagen, Plastic Surgery Center, Mexico
3Department of Surgery. Instituto Nacional de Ciencias Médicas y Nutrición Salvador Zubirán. Mexico City,Mexico
4American British Cowdray Medical Center, Santa Fé, Mexico City, Mexico
5Department of Plastic and Reconstructive Surgery, Hospital General de México, Mexico
6Department of Surgery, Hospital Regional de Alta Especialidad de Ixtapaluca, Mexico
7Department of Surgery, Hospital General de México Dr. Eduardo Liceaga, Mexico
8Department of Anesthesiology, Hospital Angeles Lomas, Mexico
Corresponding Author:
Julio Palacios Juárez, Department of
Plastic and Reconstructive Surgery,
Hospital Regional de Alta Especialidad
de Ixtapaluca, Mexico. Carretera Federal
México-Puebla Km. 34.5, Ixtapaluca,
Mexico,
Keywords
VASS device (vacuum assisted syringe); Wound healing, VAC system
Abstract
We present a versatile craft design of an ambulatory wound treatment system, easy to build with low cost manufacturing and non dependent energy, to promote and facilitate the prompt wound closure and patient rehabilitation.
Citation
Juárez JP, Azuara GA, Maza JM, Estrada JEF, Vega DC, Zamora MZ, et al. Vacuum Assisted Syringe System (V.A.S.S. Device): How to Manufacture it Step by Step. SM J Surg.2017; 3(2): 1015.
