Three-dimensional understanding of the morphological complexity of the human uterine endometrium

The fundamental morphology of the endometrial glands is not sufficiently understood by 2D observation because these glands have complicated winding and branching patterns. To construct a large picture of the endometrial gland structure, we performed tissue-clearing-based 3D imaging of human uterine endometrial tissue. Our 3D immunohistochemistry and layer analyses revealed that the endometrial glands form a plexus network in the stratum basalis and expand horizontally along the muscular layer, similar to the rhizome of grass. We then extended our method to assess the 3D morphology of tissue affected by adenomyosis, a representative “endometrium-related disease,” and observed its 3D morphological features, including the direct invasion of endometrial glands into the myometrium and an ant colony-like network of ectopic endometrial glands within the myometrium. Thus, further understanding of the morphology of the human endometrium based on 3D analysis will lead to the identification of the pathogenesis of endometrium-related diseases. [Display omitted] •Tissue-clearing-based 3D imaging of human endometrium and adenomyosis tissue•Baseline for the 3D structure of human endometrial glands has been established•Human endometrial glands form rhizome network in the stratum basalis•Adenomyotic glands structure an ant colony-like network in uterine myometrium Human Physiology; Imaging Anatomy