Houshyar, ShadiSaha, TanushreeYin, HongZizhou, RumbidzaiDekiwadia, ChaitaliPirogova, ElenaHill-Yardin, Elisa L.Yeung, Justin McFox, KateCole, Ivan2026-07-032026-07-0397983503244711557-170XPubMed:38083162ORCID:/0000-0002-1554-521X/work/219172975ORCID:/0000-0001-6582-1457/work/219176289https://hdl.handle.net/1885/733812555Pelvic floor disorders, including pelvic organ prolapse (POP) and stress urinary incontinence (SUI), are serious and very common. Surgery is commonly undertaken to restore the strength of the vaginal wall using transvaginal surgical mesh (TVM). However, up to 15% of TVM implants result in long-term complications, including pain, recurrent symptoms, and infection.Clinical Relevance - In this study, a new bioengineered TVM has been developed to address these issues. The TVM is visible using noninvasive imaging techniques such as computed tomography (CT); it has a highly similar structural profile to human tissue and potential to reduce pain and inflammation. These combined technological advances have the potential to revolutionize women's health.ACKNOWLEDGMENT The authors acknowledge the support from the scientific and technical assistance of the RMIT University Microscopy and Microanalysis Facility, a linked laboratory of Microscopy Australia. In addition, S.H. acknowledges the support of the RMIT Vice-Chancellor Fellowship.enPublisher Copyright: © 2023 IEEE.Advanced flexible transvaginal mesh with high visibility under computerized tomography (CT) scan202310.1109/EMBC40787.2023.1034032285179637931