1. Aging of Industrial Polypropylene Surfaces in Detergent Solution and Its Consequences for Biofilm Formation
   Julian Cremer et al, 2023, Polymers CrossRef
2. Comparative assessment of tissue response to a mesh implant made of polypropylene modified with carbon nanotubes and silver nanoparticles
   O. A. Viltsaniuk et al, 2024, Reports of Morphology CrossRef
3. Design and Manufacturing of 3D Printed Sensors for Biomedical Applications
   Sridhar Chandrasekaran et al, 2023, Digital Design and Manufacturing of Medical Devices and Systems CrossRef
4. Application of Quantitative Assessment Strategy-Based Nursing Combined with Empathic Nursing in Patients Undergoing Tension-Free Inguinal Herniorrhaphy
   Yamei Xiang et al, 2022, Evidence-Based Complementary and Alternative Medicine CrossRef
5. Ultra-Fine Polyethylene Hernia Meshes Improve Biocompatibility and Reduce Intraperitoneal Adhesions in IPOM Position in Animal Models
   Marius J. Helmedag et al, 2022, Biomedicines CrossRef
6. Accelerated neutral atom beam (ANAB) and gas clustered ion beam (GCIB) treatment of implantable device polymers leads to decreased bacterial attachment in vitro and decreased inflammation in vivo
   Joseph Khoury et al, 2023, Engineered Regeneration CrossRef
7. Computational Analysis and Classification of Hernia Repairs
   Hana Charvátová et al, 2024, Applied Sciences CrossRef
8. THE EFFECT OF A POLYPROPYLENE IMPLANT TREATED WITH THYROTHRICIN ON THE HYPOGASTRIC TISSUES OF THE ABDOMINAL WALL IN RATS
   A.V. Kudriavtsev et al, 2024, Актуальні проблеми сучасної медицини: Вісник Української медичної стоматологічної академії CrossRef
9. Performance and Safety Evaluation of Polypropylene Mesh Used in Inguinal Hernia Repairs
   Aziz Mutlu BARLAS et al, 2023, Düzce Tıp Fakültesi Dergisi CrossRef
10. Treatment of Late-Onset Mesh Infection 20 Years after Tension-Free Repair of an Open Inguinal Hernia and Literature Review
    万林 韩, 2024, Advances in Clinical Medicine CrossRef