Detention and mapping of iron and toxic environmental elements in human ovarian endometriosis: A suggested combined role

Background: Endometriosis is a disease affecting 10-15 % of women worldwide, consisting in the ectopic growth of endometrial cells outside the uterine cavity. Whist the pathogenetic mechanisms of endometriosis remain elusive and contemplating even environmental causes, iron deposits are common in endometrial lesions, indicating an altered iron metabolism at this level. This study was undertaken to reveal a possible relationship between iron dysmetabolism and accumulation of environmental metals.Methods: By combining histological and histochemical analysis (H&E and Perl's staining) with mu- and nanosynchrotron-based (SR-based) X-ray Fluorescence (XRF) microscopy, we investigated the distribution of iron and other elements in the ovarian endometriomas of 12 endometriosis patients and in 7 healthy endometrium samples.Results: XRF microscopy expanded the findings obtained by Perl's staining, revealing with an exceptional sensitivity intracellular features of iron accumulation in the epithelial endometrium, stroma and macrophages of the endometriotic lesions. XRF evidenced that iron was specifically accumulated in multiple micro aggregates, reaching concentrations up to 10-20 % p/p. Moreover, by XRF analysis we revealed for the first time the retention of a number of exogenous and potentially toxic metals such as Pb, Br, Ti, Al Cr, Si and Rb partially or totally co-localizing with iron.Conclusion: mu XRF reveals accumulation and colocalization of iron and environmental metals in human ovarian endo-metriosis, suggesting a role in the pathogenesis of endometriosis.

Automated summary

This study reveals the abnormal accumulation of iron and co-localization of environmental metals in ovarian endometriomas of endometriosis patients, suggesting a potential role in the pathogenesis of endometriosis. The findings provide insights into the relationship between iron dysmetabolism, accumulation of environmental metals, and the development of endometriosis.