Birth trauma simulated by vaginal distention induced possible irreversible changes in the composition of the fiber types in the external urethral sphincter of rats

Abstract The external urethral sphincter (EUS) is crucial in urinary continence development. Understanding the morphological features of the EUS in female rats after vaginal distention (VD), using a model of birth trauma, would aid in evaluating its functional and metabolic properties. Our recent study demonstrated that the EUS in female rats expresses one slow (type 1) and two fast (types 2A and 2B) myosin heavy chain (MHC) isoforms. Our preliminary experiment revealed that type 2B isoform expression was markedly reduced in the EUS 4 weeks after VD. Here, we aimed to examine the expression patterns of these three types of MHC isoforms, and an embryonic MHC, a marker of regeneration fibers, in the EUS of rats 3 days and 1, 2, and 8 weeks after VD using immunofluorescence staining. Hence, type 2B fibers were selectively damaged early in post‐VD and did not recover fully later. Muscle regeneration in the sphincter peaked 1 week after trauma using a marker of immature fibers, embryonic myosin heavy chain. Electron microscopy revealed that the EUS of female rats was composed of mitochondria‐rich muscle fibers. Myoblasts or immature muscle fibers were discovered in the sphincter layer 1 week after trauma. These results suggest that myogenesis after VD may not contribute to restoring normal fiber composition in a female rat's EUS.