Reconstructable Uterus-Derived Materials for Uterus Recovery toward Efficient Live Births

Uterine factor infertility is increasingly common in modern society and has severely affected human life and health. However, the existing biomaterial scaffold-mediated systems remain limited in efficient uterus recovery, leading to low pregnancy rate and live births. Here, reconstructable uterus-derived materials (RUMs) are demonstrated by combining uterus-derived extracellular matrix and seeded chorionic villi mesenchymal stem cells for uterus recovery, achieving highly efficient live births in rats with severe uterine injury. The RUMs can be designed into different states (such as, liquid RUMs and solid RUMs) and shapes (such as, cuboid, triangular-prism, and cube) in terms of requirements. The RUMs can effectively prevent intrauterine adhesion, and promote endometrial regeneration and muscle collagen reconstruction, as well as, accelerate wound healing by constructing a physical barrier and secreting cytokines, allowing efficient uterus recovery. The injured uterus nearly achieves complete recovery after treating with the RUMs and has normal pregnancies for supporting fetal development and live births, similar to the normal rats. The study provides a regenerative medicine therapeutics for uterine factor infertility.

Automated summary

Uterine factor infertility is a growing issue in modern society, but current biomaterial scaffold-mediated systems have limited effectiveness in uterus recovery. This study demonstrates the successful use of reconstructable uterus-derived materials (RUMs), combining uterus-derived extracellular matrix and seeded chorionic villi mesenchymal stem cells, to achieve efficient live births in rats with severe uterine injury. This research provides a potential regenerative medicine therapy for uterine factor infertility.