Antonio Augusto Fernandes
AuthID: R-000-1XJ
11
TITLE: Development of 3D computational models of biodegradable meshes
AUTHORS: Vaz, Francisca; Silva, MET ; Fernandes, Antnio Augusto; Parente, Marco ;
PUBLISHED: 2023, SOURCE: IEEE 7th Portuguese Meeting on Bioengineering (ENBENG) in 2023 IEEE 7TH PORTUGUESE MEETING ON BIOENGINEERING, ENBENG
AUTHORS: Vaz, Francisca; Silva, MET ; Fernandes, Antnio Augusto; Parente, Marco ;
PUBLISHED: 2023, SOURCE: IEEE 7th Portuguese Meeting on Bioengineering (ENBENG) in 2023 IEEE 7TH PORTUGUESE MEETING ON BIOENGINEERING, ENBENG
12
TITLE: Development of new surgical mesh geometries with different mechanical properties using the design freedom of 3D printing Full Text
AUTHORS: Sterk, S.; Silva, MET ; Fernandes, A. A.; Huss, A.; Wittek, A.;
PUBLISHED: 2023, SOURCE: JOURNAL OF APPLIED POLYMER SCIENCE, VOLUME: 140, ISSUE: 46
AUTHORS: Sterk, S.; Silva, MET ; Fernandes, A. A.; Huss, A.; Wittek, A.;
PUBLISHED: 2023, SOURCE: JOURNAL OF APPLIED POLYMER SCIENCE, VOLUME: 140, ISSUE: 46
13
TITLE: Prototype of a Medical Device: Intravaginal Force Measurement Device
AUTHORS: Fábio Pinheiro; Silva, MET ; António Augusto Fernandes; André Coelho;
PUBLISHED: 2023, SOURCE: 10th Congress of the Portuguese Society of Biomechanics, CNB 2023 in Lecture Notes in Bioengineering
AUTHORS: Fábio Pinheiro; Silva, MET ; António Augusto Fernandes; André Coelho;
PUBLISHED: 2023, SOURCE: 10th Congress of the Portuguese Society of Biomechanics, CNB 2023 in Lecture Notes in Bioengineering
14
TITLE: Development of 3D Computational Models of Biodegradable Meshes
AUTHORS: Francisca Vaz; Silva, MET ; Marco Parente ; António Augusto Fernandes;
PUBLISHED: 2023, SOURCE: 10th Congress of the Portuguese Society of Biomechanics, CNB 2023 in Lecture Notes in Bioengineering
AUTHORS: Francisca Vaz; Silva, MET ; Marco Parente ; António Augusto Fernandes;
PUBLISHED: 2023, SOURCE: 10th Congress of the Portuguese Society of Biomechanics, CNB 2023 in Lecture Notes in Bioengineering
15
TITLE: Melt Electrospinning Writing of Mesh Implants for Pelvic Organ Prolapse Repair
AUTHORS: da Cunha, MNB; Rynkevic, R; Silva, MET ; Brandao, AFMD; Jorge Lino Alves ; Fernandes, AA;
PUBLISHED: 2022, SOURCE: 3D PRINTING AND ADDITIVE MANUFACTURING, VOLUME: 9, ISSUE: 5
AUTHORS: da Cunha, MNB; Rynkevic, R; Silva, MET ; Brandao, AFMD; Jorge Lino Alves ; Fernandes, AA;
PUBLISHED: 2022, SOURCE: 3D PRINTING AND ADDITIVE MANUFACTURING, VOLUME: 9, ISSUE: 5
16
TITLE: Simulation of vaginal uterosacral ligament suspension damage, mimicking a mesh-augmented apical prolapse repair
AUTHORS: Silva, MET ; Bessa, JNM; Rynkevic, R; Parente, MPL ; Saraiva, MTDECM; Jorge, RMN ; Fernandes, AA;
PUBLISHED: 2022, SOURCE: PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART H-JOURNAL OF ENGINEERING IN MEDICINE, VOLUME: 236, ISSUE: 4
AUTHORS: Silva, MET ; Bessa, JNM; Rynkevic, R; Parente, MPL ; Saraiva, MTDECM; Jorge, RMN ; Fernandes, AA;
PUBLISHED: 2022, SOURCE: PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART H-JOURNAL OF ENGINEERING IN MEDICINE, VOLUME: 236, ISSUE: 4
17
TITLE: Characterisation of polycaprolactone scaffolds made by melt electrospinning writing for pelvic organ prolapse correction - a pilot study
AUTHORS: Rynkevic, R.; Silva, MET ; Martins, P. ; Mascarenhas, T.; Jorge Lino Alves ; Fernandes, A. A.;
PUBLISHED: 2022, SOURCE: MATERIALS TODAY COMMUNICATIONS, VOLUME: 32
AUTHORS: Rynkevic, R.; Silva, MET ; Martins, P. ; Mascarenhas, T.; Jorge Lino Alves ; Fernandes, A. A.;
PUBLISHED: 2022, SOURCE: MATERIALS TODAY COMMUNICATIONS, VOLUME: 32
18
TITLE: Finite Element Analysis of the Epiretinal Membrane Contraction
AUTHORS: Reis, Ana Rita; Ferreira, Joao P. S. ; Guerra, Ana; Fernandes, Antonio; Torres Costa, Sonia; Falcao, Manuel ; Parente, Marco P. L. ;
PUBLISHED: 2022, SOURCE: APPLIED SCIENCES-BASEL, VOLUME: 12, ISSUE: 5
AUTHORS: Reis, Ana Rita; Ferreira, Joao P. S. ; Guerra, Ana; Fernandes, Antonio; Torres Costa, Sonia; Falcao, Manuel ; Parente, Marco P. L. ;
PUBLISHED: 2022, SOURCE: APPLIED SCIENCES-BASEL, VOLUME: 12, ISSUE: 5
19
TITLE: Computational biomechanics as a tool to improve surgical procedures for Uterine Prolapse
AUTHORS: Elisabete, S; Nuno, B; Teresa, M; Fernandes, AA;
PUBLISHED: 2022, SOURCE: Digital Human Modeling and Medicine: The Digital Twin
AUTHORS: Elisabete, S; Nuno, B; Teresa, M; Fernandes, AA;
PUBLISHED: 2022, SOURCE: Digital Human Modeling and Medicine: The Digital Twin
20
TITLE: Product and service design innovation
AUTHORS: Fernandes, AA;
PUBLISHED: 2022, SOURCE: Product and Service Design Innovation
AUTHORS: Fernandes, AA;
PUBLISHED: 2022, SOURCE: Product and Service Design Innovation
