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veins. The medial node in the femoral canal and the uppermost node is known as the node of Cloquet or Rosenmuller. However, this is not always present [28].

      The anterior group is variable and when present comprises no more than three nodes lying in the sulcus between the external iliac artery and vein.

      The lateral group of two to five nodes lies on the lateral side of the external iliac artery.

      The efferent lymphatics from the external iliac group drain to the common iliac nodes situated on the lateral side of the common iliac artery. Many small nodes lie close to each pelvic organ, and these drain into the numerous nodes embedded in the extraperitoneal tissue on the walls of the pelvis.

      The interconnecting lymphatic spaces arise from the terminal bulbs lying in the papillary dermis. These form the lymphatic network, which ultimately drains into the lymph nodes. The vessels have a wide lumen and are lined with a single layer of endothelial cells.

      The perineum has both somatic and autonomic innervation, and in each there are sensory and motor components.

      As the perineum arises from the most caudal part of the developing embryo, the somatic innervation is from the most caudal segments, S1–S4. There is also some input from the upper lumbar segments L1‐2 in the nerve supply of the anterior perineal area.

      This is entirely from the most caudal elements of both the sympathetic and parasympathetic systems.

       Sympathetic innervationThe sympathetic pathways are restricted to the region between the first thoracic and second lumbar levels of the spinal cord. The sympathetic innervation of the perineum is located therefore at L1 and L2. It reaches the perineum via postganglionic fibres, arising from the first two lumbar and all four sacral ganglia of the sympathetic trunks. These fibres are distributed with the corresponding segmental nerves. In addition, other sympathetic fibres from L1 and L2 leave the sympathetic trunk as the hypogastric nerves (lumbar splanchnic presacral nerves) and descend into the pelvis to be associated with autonomic pelvic plexuses, which are distributed with the blood vessels.

       Parasympathetic innervation

      The parasympathetic pathways consist of cranial and caudal portions. The cranial portion is associated with four of the cranial nerves, whereas the caudal portion is associated with the second and third, or third and fourth, sacral segments of the spinal cord as the pelvic splanchnic nerves. These nerves together with the hypogastric sympathetic nerves form the autonomic pelvic plexuses.

      The cutaneous innervation of the perineum conveys all modalities of common sensation such as touch, pain, itch, and temperature, as well as complex sensations such as wetness. In addition, these cutaneous nerves carry postganglionic sympathetic nerves that provide motor innervation to sweat glands, pilomotor units, and blood vessels. These sacral spinal nerves also supply motor innervation to the muscles of the perineum. The anterior part of the perineum is supplied by two nerves that emerge from the superficial inguinal ring just above the body of the pubic bone. These are the ilioinguinal nerve (L1) and the genital branch (L2) of the genitofemoral nerve (L1 and L2). The lateral aspect of the perineum, more posteriorly, is supplied by the perineal branch (S1) of the posterior cutaneous nerve of the thigh (S1–S3). The remainder of the cutaneous innervation of the perineum is supplied by the pudendal nerve (S2–S4) and the perineal branch of the fourth sacral nerve, which also supplies the skin of the anal margin.

      The pudendal nerve enters the ischiorectal fossa, close to the tip of the ischial spine on the medial side of the pudendal artery. Running anteriorly on the lateral wall of the ischiorectal fossa, it gives rise to the inferior haemorrhoidal nerve, which arches over the roof of the fossa to reach the midline, where it supplies the terminal part of the anal canal and the perianal skin. The pudendal nerve then divides into the perineal branch, which supplies the rest of the perineal skin, and the dorsal nerve of the clitoris, which supplies the anterior labia minora and the glans of the clitoris.

      The inferior haemorrhoidal branch of the pudendal nerve supplies the deep and subcutaneous parts of the external anal sphincter. The perineal branch supplies the muscles of the urogenital triangle as well as the anterior part of the levator ani muscle and the urethral sphincter. The remainder of the levator ani muscle and the superficial part of the external anal sphincter are supplied by the perineal branch of the fourth sacral nerve. Damage to the pudendal nerves may cause loss of muscle tone in the pelvic floor and can be associated with problems of incontinence.

      The cutaneous nerves contain axons with the cell bodies lying in the dorsal root ganglia. The main nerve trunks enter the subcutaneous fat and divide into smaller bundles that form a horizontal network with fibres ascending alongside blood vessels to form a plexus of interlacing nerves in the superficial dermis. A few reach the basement membrane but do not extend far into the epidermis. The hair follicle has a complex nerve network, being an important cutaneous receptor.

      Epithelia of the vulva

      The vulva is covered in epithelia that gradually change from normal keratinised skin on the outer aspects to a non‐keratinised mucosa in the vestibule and vagina.

      Keratinised, stratified squamous epithelium is made up of four layers histologically:

      1 A basal layer, the lower border of which rests on the basal lamina

      2 A spinous or prickle‐cell layer, which forms the bulk of the epidermis

      3 A granular layer

      4 A horny layer or stratum corneum.

      The epithelial thickness reduces and the keratin layer increases going from medial to lateral on the vulva [29]. This has been confirmed in a recent study of 118 biopsies of normal vulval skin [30]. In addition, it was found that the stratum corneum was always of a basket weave pattern on the mons pubis, and this pattern was more common in hair‐bearing skin but did not occur on the perineum, where compact or intermediate patterns were seen.

      Differentiation is the process that occurs as the keratinocytes move upwards through the spinous layers to form the tough, protective, flexible outer surface of the skin. The keratinocytes flatten and lose their nuclei as they progress upwards, ending up as flattened structureless squamous cells at the surface. Parakeratosis (the retaining of nuclei) can be seen at the mucocutaneous junction in some patients and is considered a normal finding [30].

      The mons pubis is covered with hair‐bearing skin. The pilosebaceous unit comprises the hair follicle, the hair, the sebaceous gland, and the arrectores pilorum muscle, and some are associated with an apocrine gland. Eccrine glands are also present.

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