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Identified 4

1

TITLE: Simulation of vaginal uterosacral ligament suspension damage, mimicking a mesh-augmented apical prolapse repair
AUTHORS: da 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

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2

TITLE: Characterisation of polycaprolactone scaffolds made by melt electrospinning writing for pelvic organ prolapse correction - a pilot study
AUTHORS: Rynkevic, R.; Silva, M. E. T.; Martins, P.; Mascarenhas, T.; Jorge Lino Alves ; Fernandes, A. A.;
PUBLISHED: 2022, SOURCE: MATERIALS TODAY COMMUNICATIONS, VOLUME: 32

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3

TITLE: Novel solutions of biodegradable surgical synthetic mesh for transvaginal POP repair Full Text
AUTHORS: Rynkevic, R.; Belo, A.; Brandao, A.; Alves, J.; Mascarenhas, T.; Fernandes, A.; Silva, E.;
PUBLISHED: 2022, SOURCE: INTERNATIONAL UROGYNECOLOGY JOURNAL, VOLUME: 33, ISSUE: SUPPL 1

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4

TITLE: Melt electrospun meshes for pelvic organ prolapse repair: cell response to mesh geometry and mesh mechanical behaviour Full Text
AUTHORS: Rynkevic, R.; Belo, A.; Bebiano, L.; Lourenco, B.; Pereira, R.; Mascarenhas, T.; Fernandes, A.;
PUBLISHED: 2022, SOURCE: INTERNATIONAL UROGYNECOLOGY JOURNAL, VOLUME: 33, ISSUE: SUPPL 1

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