Marta Luisa Sousa Dias Alves da Silva


AuthID: R-000-D2M

Confirmed Publications: 19



1
TITLE: Organ-on-Chip Approaches for Intestinal 3D In Vitro Modeling
AUTHORS: Pimenta, J; Ribeiro, R ; Almeida, R ; Costa, PF; da Silva, MA ; Pereira, B;
PUBLISHED: 2022, SOURCE: CELLULAR AND MOLECULAR GASTROENTEROLOGY AND HEPATOLOGY, VOLUME: 13, ISSUE: 2
INDEXED IN: WOS CrossRef: 34
IN MY: ORCID | CIÊNCIAVITAE
2
TITLE: Chondrogenesis-inductive nanofibrous substrate using both biological fluids and mesenchymal stem cells from an autologous source
AUTHORS: Casanova, MR; da Silva, MA ; Costa Pinto, AR; Reis, RL ; Martins, A ; Neves, NM ;
PUBLISHED: 2019, SOURCE: MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS, VOLUME: 98
INDEXED IN: Scopus WOS CrossRef: 18
IN MY: ORCID | CIÊNCIAVITAE
3
4
TITLE: Chondroitin sulfate immobilization at the surface of electrospun nanofiber meshes for cartilage tissue regeneration approaches  Full Text
AUTHORS: Piai, JF; da Silva, MA ; Martins, A ; Torres, AB; Faria, S ; Reis, RL ; Muniz, EC; Neves, NM ;
PUBLISHED: 2017, SOURCE: Applied Surface Science, VOLUME: 403
INDEXED IN: Scopus CrossRef: 35
IN MY: ORCID | CIÊNCIAVITAE
5
6
TITLE: Advanced In-Vitro Cell Culture Methods Using Natural Biomaterials
AUTHORS: Alves Da Silva, ML ; Reis, RL ; Neves, NM ;
PUBLISHED: 2016, SOURCE: Biomaterials from Nature for Advanced Devices and Therapies
INDEXED IN: Scopus CrossRef
IN MY: ORCID | CIÊNCIAVITAE
7
TITLE: In Vitro Biological Testing in the Development of New Devices
AUTHORS: Alves Da Silva, ML ; Martins, A ; Costa Pinto, A; Reis, RL ; Neves, NM ;
PUBLISHED: 2016, SOURCE: Biomaterials from Nature for Advanced Devices and Therapies
INDEXED IN: Scopus CrossRef Handle
IN MY: ORCID | CIÊNCIAVITAE
8
TITLE: Conditioned medium as a strategy for human stem cells chondrogenic differentiation. Conditioned medium for MSCs chondrogenic differentiation  Full Text
AUTHORS: Alves L A da Silva ; Costa Pinto, AR; Martins, A ; Correlo, VM; Sol, P; Bhattacharya, M; Faria, S ; Reis, RL ; Nuno M Neves ;
PUBLISHED: 2015, SOURCE: JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, VOLUME: 9, ISSUE: 6
INDEXED IN: Scopus WOS CrossRef: 31
IN MY: ORCID | CIÊNCIAVITAE
9
TITLE: Bio-Inspired Integration of Natural Materials
AUTHORS: Martins, A ; Da Silva, MA ; Costa Pinto, A; Reis, RL ; Neves, NM ;
PUBLISHED: 2014, SOURCE: Bio-inspired Materials for Biomedical Engineering, VOLUME: 9781118369364
INDEXED IN: Scopus CrossRef Handle
IN MY: ORCID | CIÊNCIAVITAE
10
TITLE: XYLH encodes a xylose/H+ symporter from the highly related yeast species Debaryomyces fabryi and Debaryomyces hansenii  Full Text
AUTHORS: Ferreira, D; Nobre, A ; Silva, ML ; Faria Oliveira, F; Tulha, J; Ferreira, C ; Lucas, C ;
PUBLISHED: 2013, SOURCE: FEMS YEAST RESEARCH, VOLUME: 13, ISSUE: 7
INDEXED IN: Scopus WOS CrossRef Handle
IN MY: ORCID
Page 1 of 2. Total results: 19.

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