Melt-extrusion 3D printing of resorbable levofloxacin-loaded meshes: Emerging strategy for urogynaecological applications

Author:

Corduas Francesca,Mathew Essyrose,McGlynn Ruairi,Mariotti Davide,Lamprou Dimitrios A.,Mancuso Elena

Publisher

Elsevier BV

Subject

Biomaterials,Bioengineering,Mechanics of Materials

Reference72 articles.

1. Recent advances in pelvic floor repair;Mironska;F1000Res.,2019

2. The use of polymeric meshes for pelvic organ prolapse: current concepts, challenges, and future perspectives;Mancuso;J. Biomed. Mater. Res.,2019

3. Next-generation surgical meshes for drug delivery and tissue engineering applications: materials, design and emerging manufacturing technologies;Corduas;Bio-Des. Manuf.,2021

4. Knowledge of pelvic floor disorders in women seeking primary care: a cross-sectional study;Chen;BMC Fam. Pract.,2019

5. Urogynecological surgical mesh implants: new trends in materials, manufacturing and therapeutic approaches;Farmer;Int. J. Pharm.,2020

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