Over the last few decades, genomics has become integral to understanding disease pathophysiology, improving diagnostics, and refining treatment strategies. Endometriosis, uterine fibroids, and adenomyosis are highly prevalent benign gynecologic disorders …
Iron overload induces cellular stress and is implicated in diverse pathological conditions. Nevertheless, the epigenetic mechanisms governing mammalian cellular responses to iron overload remain poorly characterized. Using multi-omics profiling in …
Endometriosis is a chronic systemic disease affecting ~10% of women, yet its genetic basis and molecular mechanisms remain poorly understood. Hence, here we conducted a genome-wide association study of endometriosis …
Growing evidence highlights the role of microbiota, including those of the gut, reproductive tract, and endometrial tissue, as critical functional drivers in the pathogenesis of endometriosis (EM). Studies have revealed …
Endometriosis is a complex gynecological disorder with prominent cellular heterogeneity, and its key pathogenic cell subsets and core molecular mechanisms remain elusive, which restricts the development of effective therapeutic strategies. …
Gynecological diseases represent a persistent global health burden. According to a WHO report, the global incidence of gynecological diseases exceeds 65%. Furthermore, over 90% of women suffer from gynecological issues …
Endometriosis is characterized by enhanced cellular proliferation, migration, and resistance to apoptosis, contributing to lesion persistence and progression. Targeting cellular plasticity and mesenchymal-associated functions may therefore represent a promising therapeutic …
Endometriosis (EMS) is a common gynecological disease that seriously affects women's health and quality of life. However, the detailed dynamic cellular and molecular mechanisms underlying EMS pathogenesis remain largely unknown. …