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Inguinal Hernia Repair: Open


Inguinal hernia repair is the most common general surgical procedure in the United States with approximately 800,000 performed annually. Throughout its long history, many techniques have been proposed for the repair of inguinal hernias. Modern-day repair of inguinal hernias is based on the tenets of minimizing tension and the use of mesh to provide a lasting repair. In this chapter, we review the most common techniques for the surgical repair of inguinal hernias, relevant anatomy, and the postoperative complications of herniorrhaphy.

Background

A hernia is defined as an abnormal protrusion or bulge of an organ or tissue through the surrounding walls. The prevalence of inguinal hernias is estimated at 5% to 10% of the population of the United States. Inguinal hernia repair is the most common general surgery procedure in the United States, with approximately 800,000 performed annually.

Inguinal hernias have a variety of clinical manifestations, ranging from a painless groin bulge to pain without a bulge. Common symptoms include pain described as dull discomfort or pinching in the groin, which may or may not be accompanied by a noticeable bulge. Discomfort with activity such as lifting or coughing, pain extending to the scrotum or labia, and amelioration of symptoms while lying flat are all associated with inguinal hernias. The most common finding on physical examination in adults is a groin bulge. In most cases, diagnosis of an inguinal hernia can be made by history and physical examination alone. When the diagnosis is not apparent, ultrasonography of the groin should be considered as the initial diagnostic modality. Other imaging modalities include computed tomography (CT) and magnetic resonance imaging (MRI), both of which can aid in the evaluation of an inguinal hernia.

Consideration of hernia repair depends on the patient's symptoms and the potential for incarceration or strangulation. Common practice is to offer elective repair of symptomatic inguinal hernias for patients who are physically fit for surgery. Nonoperative management of asymptomatic or minimally symptomatic inguinal hernias has been shown to be a safe and acceptable approach. Femoral hernias should be repaired at the time of diagnosis due to the increased risk of strangulation.

Anatomy

The inguinal canal is formed by the aponeurosis of the external oblique muscle anteriorly, the transversalis fascia, and the transversus abdominis muscles posteriorly ( Figs. 53B.1 and 53B.2 ). The canal is approximately 4 cm in length and is located cephalad to the inguinal ligament running between the internal (deep) inguinal and external (superficial) inguinal rings. In men, the inguinal canal contains the spermatic cord and, in women, it contains the round ligament. During open inguinal hernia repair, the iliohypogastric, ilioinguinal, and genital branches of the genitofemoral nerves are encountered ( Fig. 53B.3 ). The ilioinguinal and iliohypogastric nerves can be identified as they pass between the external and internal oblique muscles. The genital branch of the genitofemoral nerve is generally found outside the area of dissection behind the cord structures.

FIGURE 53B.1, Anterior view of the muscles of the groin area (parts of the external and internal oblique have been removed).

FIGURE 53B.2, Rectus abdominis muscle and rectus sheath.

FIGURE 53B.3, (A) Preperitoneal view of the right groin depicting the so-called triangle of doom (A) and the triangle of pain or the electrical hazard zone (B). (B) Cadaveric preparation that shows the structures included within these triangles that could be damaged during a preperitoneal herniorrhaphy. AP , Anterior pubic branch and iliopubic vein; B , bladder (reflected posteriorly); CI , common iliac artery; CL , Cooper ligament; DC , deep circumflex iliac vessels; FB , femoral branch of the genitofemoral nerve; FN , femoral nerve; GB , genital branch of the genitofemoral nerve; GN , genitofemoral nerve; IA , external iliac artery; IE , inferior epigastric vessels; IL , ilioinguinal nerve; IM , musculus iliacus; IP , iliopubic tract; IPA , iliopectineal arch; IS , internal spermatic vessels; IV , external iliac vein; LC , lateral femoral cutaneous nerve; PB , anastomotic pubic branch; PM , musculus psoas major; RP , retropubic vein; U , ureter; UA , umbilical artery; VD , vas deferens.

Inguinal hernias are classified anatomically as direct or indirect. Indirect inguinal hernias are the most common type of hernia in both sexes. Indirect hernias are a protrusion of the hernia sac at the internal ring, lateral to the inferior epigastric vessels. Indirect inguinal hernias are the result of a patent processus vaginalis. In contrast, the sac of a direct inguinal hernia protrudes medial to the inferior epigastric vessels, within Hesselbach triangle. Hesselbach triangle is formed by the inguinal ligament (Poupart ligament) inferiorly, the inferior epigastric vessels laterally, and the rectus abdominis muscle medially. Direct hernias are a result of weakness in the floor of the inguinal canal.

Surgical Technique

The open anterior approach to inguinal hernia repair remains the most common approach to primary unilateral hernias. The exact choice of repair may vary depending on the use of mesh as well as operative technique. Based on multiple large systematic reviews, various hernia society guidelines generally advocate the use of mesh in a tension-free technique for hernia repair. Hernia recurrence rates using mesh typically range from 1% to 5% and are estimated to be significantly lower than nonmesh repairs. The ideal mesh used for inguinal hernia repair should be lightweight, macroporous, and inexpensive. Still, the use of mesh in contaminated fields and complicated hernia repairs remains controversial with evidence to suggest that it may be done safely in certain circumstances.

Conventional Anterior Open Approach

Open anterior inguinal hernia repairs generally follow the same initial steps: skin incision along the lines of Langer, deepening of the incision through Camper and Scarpa fascia to the external oblique aponeurosis, and incision of the external oblique through the external ring. Once the external oblique aponeurosis has been incised, the superior flap is created by bluntly sweeping off the internal oblique muscle. The ilioinguinal and iliohypogastric nerves are identified and preserved. Selective use of neurectomy is advocated in cases of inadvertent trauma or presumed injury due to mesh entrapment. Inferiorly, the cord structures are separated from the inferior flap of the external oblique aponeurosis and blunt dissection is carried onto the pubic tubercle. Using both index fingers, the surgeon creates a window behind the cord structures at the pubic tubercle to allow for passage of a Penrose drain. Once the Penrose is placed for retraction, dissection of the cord is performed in order to identify an indirect hernia sac. The indirect hernia sac is then dissected free from the cord structures up to the level of the internal ring. The sac can either be high-ligated with division and suture closure or it can simply be inverted and reduced into the preperitoneal space. If a direct hernia is present, a purse-string suture can be placed in the transversalis fascia at the base of the hernia to allow for inversion and closure of the hernia.

Lichtenstein Repair

Initial steps of the Lichtenstein repair are similar to the steps described previously ( Fig. 53B.4 ). High ligation is performed after incising the cremasteric muscle longitudinally to fully mobilize the sac. Similarly, direct hernias are circumferentially dissected and reduced back into the preperitoneal space. A large mesh prosthesis is then tailored to the shape and size of the patient's anatomy to facilitate overlap of 2 cm onto the pubic tubercle, 4 cm above Hesselbach triangle, and 5 to 6 cm lateral to the internal ring. The mesh is sutured to the pubic tubercle on either side and then secured in a continuous fashion along the shelving edge of the inguinal ligament inferiorly until it is at least 1 cm lateral to the insertion of the internal oblique muscle into Poupart ligament. Similarly, the mesh is secured superiorly to the rectus sheath and subsequently to the internal oblique aponeurosis with interrupted sutures. Two tails are created in the mesh by incising it from the lateral edge to create a slit that encircles the spermatic cord and reconstructs the internal ring. The mesh tails encircling the cord are anchored in a fashion that overlaps the superior and inferior tails in a manner that creates a new internal ring fitting snugly around the spermatic cord. This is accomplished by suturing the tails together and tucking the ends of the tails under the external oblique aponeurosis. Creation of this shutter valve at the internal ring is a critical step for preventing indirect hernia recurrence. The superior and inferior tails can then be secured to the underlying internal oblique and fascia. Care should be taken not to entrap the ilioinguinal, iliohypogastric, or genital branches of the genitofemoral nerves when placing sutures. The main limitation of this technique is that it does not address femoral hernias.

FIGURE 53B.4, Lichtenstein repair. (A) One of the sutures demonstrates the approximation of the inferior edge of the prosthesis to the inguinal ligament. The second suture will include the inferior surface of the superior tail and the inferior surface of the inferior tail just lateral to the internal ring as well as the inguinal ligament to create a “shutter” valve. (B) The shutter valve has been completed and the superior and medial surfaces have been sutured to the underlying internal oblique muscle and anterior rectus sheath, respectively. This older illustration shows continuous suture on the superomedial border of the prosthesis, but interrupted sutures are now preferred by most surgeons to minimize the incidence of nerve entrapment.

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