Abstract
Müllerian anomalies are a collection of heterogeneous anatomical disorders of the female genital tract that present with complex clinical features of which severe subtypes like congenital aplasia of the vagina and uterus, may present with primary amenorrhea and dyspareunia, while mild cases like septate uterus, are often asymptomatic. Regardless of the types, the Müllerian anomalies impose both psychological and physical burdens on patients. Currently, the etiology of Müllerian anomalies remains largely unclear, which hinders early diagnosis and intervention. Although the advent of next-generation sequencing technologies has promoted a more comprehensive depiction of genetic features of Müllerian anomalies, there is still a lack of experimental validation for the functions of these genes, where some novel preclinical models having been applied in cancer fields may provide potentially available strategies. Thus, in this review, we aim to summarize the genetic defects and novel validation techniques associated with Müllerian anomalies. Elucidating the genetic mechanisms involving Müllerian anomalies can pave the way for the development of early diagnostic strategies and preventional measures in the future.