Core Viewpoint - The project "Optimization of Techniques and Innovations to Reduce Uterine Damage" under the national "14th Five-Year" key research and development plan has been officially launched in Shenzhen, focusing on protecting women's reproductive health and addressing clinical challenges in gynecology [1][5]. Group 1: Project Overview - The project has a three-year implementation period and is led by Peking University Shenzhen Hospital, with collaboration from Shenzhen Maternal and Child Health Hospital and Sun Yat-sen University Sixth Affiliated Hospital [1]. - The project includes four sub-topics aimed at improving reproductive health, including standardization of the PUSH technique for diffuse uterine lesions, photodynamic therapy for precancerous cervical lesions, high-intensity focused ultrasound (HIFU) for uterine fibroids, and stem cell technology for severe intrauterine adhesions [2][3]. Group 2: Innovations and Techniques - The PUSH technique, developed by Peking University Shenzhen Hospital, aims to protect uterine structures while treating severe uterine conditions, achieving a leading preservation rate internationally [3]. - Shenzhen Maternal and Child Health Hospital has pioneered the use of HIFU for non-invasive treatment of uterine fibroids, significantly reducing the post-operative contraception period from 6-12 months to 3 months, thereby enhancing fertility success rates [3]. - Sun Yat-sen University Sixth Affiliated Hospital has introduced a combined approach of surgical release and stem cell transplantation to address recurrent intrauterine adhesions, improving clinical pregnancy rates [3]. Group 3: Strategic Goals - The project aims to create a comprehensive clinical transformation pathway integrating technology optimization, functional assessment, and pregnancy management, contributing to the national public health strategy of ensuring safe and healthy childbirth [4]. - The initiative has garnered support from leading experts in the field, including Academician Guo Ying from the Chinese Academy of Engineering, providing valuable guidance for the innovation of techniques in photodynamic therapy [4].