As the aging population increases across the globe, the incidences of pelvic organ prolapse (POP) have become prevalent among senior citizens. Because any surgical procedure poses risks or creates complications, proper medical device development provides benefits to alleviate surgical pain and reduce post-surgical risks. In this unmet clinical need, we have developed an effective urogynecological surgical mesh that exhibited biocompatibility and cell adhesion with light and dense properties. These advantages significantly reduce post-implant adverse events such as inflammation, fibrosis, and pain. Our device can be applied for urinary incontinence and pelvic organ prolapse.

1. Combining the technology of textile, precision machining, and manufacturing into biomaterial to develop the implantable medical device and tissue engineering technology.
2. Advancing implantable regenerative medical devices by interwoven textile and braiding technology to strengthen both textile and medical device industries and establish high-tech class III implantable biotechnology.
3. Integrating precision machining and technology to develop a highly biocompatible implantable device.