Microfluidic devices and 3D printing for synthesis and screening of drugs and tissue engineering

Microfluidic devices and 3D printing for synthesis and screening of drugs and tissue engineering

Harrson S. Santana, Mauri S. A. Palma, Mariana G. M. Lopes, Johmar Souza, Giovanni A. S. Lima, Osvaldir P. Taranto, Jr. Silva Joao Lameu

ARTIGO

Inglês

Microfluidics and 3D printing will allow a faster research and development in pharmaceutical and medical areas, supporting new solutions for active pharmaceutical production and clinical tests without the necessity of in vivo animal models. The present review aims to show the role of these two...

CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ

COORDENAÇÃO DE APERFEIÇOAMENTO DE PESSOAL DE NÍVEL SUPERIOR - CAPES

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP

Fechado

Microfluidic devices and 3D printing for synthesis and screening of drugs and tissue engineering

Harrson S. Santana, Mauri S. A. Palma, Mariana G. M. Lopes, Johmar Souza, Giovanni A. S. Lima, Osvaldir P. Taranto, Jr. Silva Joao Lameu


										

Microfluidic devices and 3D printing for synthesis and screening of drugs and tissue engineering

Harrson S. Santana, Mauri S. A. Palma, Mariana G. M. Lopes, Johmar Souza, Giovanni A. S. Lima, Osvaldir P. Taranto, Jr. Silva Joao Lameu

    Fontes

    Industrial & engineering chemistry research

    Vol. 59, no. 9 (Mar., 2020), p. 3794-3810