The reproductive microbiome plays a key role in disease progression and fertility in women with endometriosis. Vaginal and endometrial dysbiosis has been increasingly linked to inflammation, impaired reproductive outcomes, and …
Gynecologic disorders, including infections, sterile inflammatory diseases, endocrine abnormalities, and malignancies, share a common signature of dysregulated immunity within a uniquely hormone-responsive reproductive tract. Neutrophil extracellular traps (NETs) are increasingly …
Endometriosis is a chronic, inflammatory gynecological condition characterized by the ectopic growth of endometrial-like tissue, with an unclear etiology and limited treatment efficacy. Recent studies implicate the oral and gut …
The specific gut microbial signatures and their correlation with immune-inflammatory markers in infertile women with endometriosis remain underexplored.To investigate the differences in gut microbiota and their associations with biochemical immune …
The reproductive tract microbiome plays a pivotal role in female fertility, with Lactobacillus-dominated communities maintaining a protective, low-pH environment. Dysbiosis-characterized by a reduction in Lactobacillus species and overgrowth of anaerobes-is …
Endometriosis (EMs) is a common gynecological disorder associated with infertility. EMs patients often require assisted reproductive technology (ART) but exhibit lower success rates. This study aimed to characterize the follicular …
Infertility constitutes a major global health concern, affecting approximately 17.5% of couples of reproductive age. Although advances in assisted reproductive technologies (ART) have expanded treatment options, success rates remain highly …
The likelihood of a successful pregnancy is influenced by a set of variables that influence endometrial receptivity, including hormonal, genetic, metabolic, age, lifestyle, and immunological factors. Among these, the endometrial …
Endometriosis (EMS) is a chronic gynecological disorder with unclear pathogenesis. While the vaginal and gut microbiomes are known to influence EMS, few studies have analyzed both microbiomes integrally. This study …
The human microbiome, particularly the gut and reproductive tract microbiota, plays a critical role in regulating fertility through complex molecular and immunological mechanisms. This review synthesizes emerging evidence on the …