Regional Structural and Functional Specializations in the Urethra of the Female Rat: Evidence for Complex Physiological Control Systems.

This study characterizes the complex structural and functional elements of the female rat urethra that may be involved in controlling urethral closure and continence. Urethras were dissected from female Sprague-Dawley rats (N = 12) euthanized by pentobarbital overdose. Tissues were fixed (4% paraformaldehyde), frozen, and sectioned (8 μm) for light microscopy and immunohistochemistry. Antibodies were used to detect immunoreactivity to calcitonin gene related peptide, nitric oxide synthase, vesicular acetylcholine transporter, and tyrosine hydroxylase. Measurements of urethral wall compliance were taken along its length and in different axes using a closed ended catheter with a circular aperture. The bladder neck and proximal urethra are characterized by a highly folded epithelium and lamina propria. A smooth muscle layer is apparent but not pronounced. Distal to this region the smooth muscle layer thickens and forms the body of the internal sphincter, which has a complex innervation. In the mid urethra, the smooth muscle is thickened resulting in a luminal protrusion, producing an occlusion of the lumen. The structure of the distal urethra is different. The epithelium has few folds and, immediately below the lamina propria large thin walled vascular lacunae can be found. Measurements of the urethral wall compliance demonstrate distinct regional differences with proximal and distal specialisations. These variations, which correlate with muscular and vascular elements, suggest the operation of discrete systems, hence effecting urethral closure during filling. An understanding of these systems may yield insights into urethral pathology and direct approaches to develop pharmacological interventions to promote continence. Anat Rec, 301:1276-1289, 2018. © 2018 Wiley Periodicals, Inc.