In addition to the traditional risks of surgery such as infection and generalized bleeding, laparoscopy is a technique that presents its own unique complications.

Gas embolism

Because carbon dioxide is used to create the pneumoperitoneum in laparoscopic procedures, gas embolization is an uncommon but very serious complication. Embolization is usually caused by inadvertent placement of the Veress needle into a major vessel during attempts to insufflate the abdominal cavity with carbon dioxide. Placement of the Veress needle into the aorta or one of its major branches results in bleeding, but does not result in carbon dioxide injection into the vessel because the insufflation pressure is lower than the arterial pressure. On the other hand, placement of the Veress needle into the venous system can result in embolization of carbon dioxide, which may be fatal due to complete occlusion of the pulmonary artery by a large carbon dioxide embolism.

To avoid this complication, the operator must verify intraperitoneal placement of the Veress needle prior to insufflation. If results from one of the following tests indicate malposition, the needle must be repositioned.

• Open the Veress valve and observe for the flow of blood from the abdomen through the needle.

• Aspirate with a syringe through the Veress needle.

• Administer the hanging drop test by placing a drop of saline at the open end of the Veress, then observe if the drop disappears into the shaft as the abdominal wall is elevated.

• Elevate the abdomen with the Veress valve closed, then assess for a hissing sound as the Veress valve is opened. Alternatively, the Veress needle may be attached to the insufflator with the valve in the off position and the gas off. The abdomen is then elevated with the valve open and a negative pressure reading will be observed on the insufflation instrument.

Recognition and treatment of a large venous embolization must be immediate. Clinical signs include decreased end-tidal carbon dioxide, decreased oxygen saturation, a loud mill-wheel murmur, severe hypotension, and possible cardiac arrest. Treatment includes immediately stopping insufflation, removing the needle, placing the patient in the left lateral decubitus position, administering 100% oxygen, and giving cardiac support. The gas embolism may be broken up with external cardiac massage, but definitive treatment is placement of a central line for aspiration of the gas from the right side of the heart and from the pulmonary vasculature.

Retroperitoneal major vessel injury

Laceration of major abdominal blood vessels is one of the least common but most life-threatening complications in laparoscopy. Injuries, which occur in approximately 3 cases per 10,000 laparoscopies, may occur during insertion of the Veress or the primary trocar.

In theory, because the umbilicus usually lies over the bifurcation of the aorta at L4, the aorta and inferior vena cava are avoided if one inserts the Veress or trocar through the umbilicus toward the hollow of the pelvis. However, 25% of the time the bifurcation is above or below L4. Also, the left common iliac vein frequently crosses directly below the umbilicus. Patients who are thin are at an additional risk because the distance from the umbilicus to the retroperitoneal vessels may be as short as 2-3 cm. In patients who are obese, the umbilicus may not lie over L4; therefore, palpation of the iliac crest, which is lateral to L4, is a better assessment of the position of the bifurcation.

When placing the Veress needle, the patient must be in the horizontal position (not Trendelenburg), and the angle of entry varies depending on patient weight. Open laparoscopy remains an alternative for avoiding retroperitoneal injury. Immediate recognition of the injury is paramount to patient survival. If blood flows from the open Veress needle or if the patient’s vital signs rapidly decompensate after Veress or trocar insertion, prompt action must be taken. With a retroperitoneal hemorrhage, the peritoneal cavity may not show signs of bleeding. If major vessel injury is a possibility, notify the anaesthesiologist in order to place a central line and order blood products, make a midline incision for good exposure, and immediately call a vascular surgeon. In contrast to bowel injuries, keeping the Veress needle in place to mark the position of a vessel injury is not needed.

Abdominal wall vessel injury

As laparoscopy has become more sophisticated, the placement of numerous and larger accessory trocars lateral to the rectus muscles has increased the risk of abdominal wall vessel injury. The primary vessels injured are the epigastric vessels (inferior and superficial) and the superficial circumflex iliac vessel 

The inferior epigastric vessel originates from the external iliac vessel, and the superficial vessel originates from the femoral vessel. Damage can lead to abrupt and significant blood loss, producing a hematoma or postoperative hemorrhage. ^[37]

The first step to avoiding injury is to know the positions of these vessels. Often, the superficial vessels can be seen by transilluminating the abdominal wall with the laparoscope. The inferior epigastric artery cannot be transilluminated but may be seen intraperitoneally beneath the peritoneum between the insertion of the round ligament at the inguinal canal and the obliterated umbilical artery. Prior to insertion of the lateral trocars, the operator should make an effort to identify and avoid these vessels.

If unable to visualize the vessels, the operator can improve the chance of successfully avoiding the vessels by placing the trocars lateral to their usual location, which is 5.5 cm from the midline. Therefore, placing the trocars 8 cm lateral to the midline and 8 cm above the pubic symphysis should help to avoid injury to the epigastric vessels. Because of anatomic variations, vessel location can vary. Therefore, additional precautions can include using the smallest trocar possible and choosing a conical-tipped over a pyramidal-tipped trocar. ^[38]

When an injury occurs, the operator must be prepared to control the bleeding promptly. First, an attempt can be made to coagulate the vessel with electrocautery. If another port is not available to use electrocautery, a Foley catheter can be placed through the trocar and the balloon inflated with saline. Upward traction on the catheter, maintained with a clamp on the abdominal side, slows the bleeding until more definitive measures can be performed. Once a second port is place, electrocautery can be used. If this approach does not result in hemostasis, transabdominal sutures have been advocated. However, this inexact approach has a risk of loosening in the immediate postoperative period. A more secure technique is to enlarge the incision and selectively ligate the epigastric vessels, which lie just below the rectus abdominis muscle adjacent to the peritoneum.

Intestinal injury

Both the small and large intestine can be injured during laparoscopy, posing a life-threatening situation for the patient if unrecognized. If the patient has had previous abdominal surgeries or a history of abdominal infections, such as PID or a ruptured appendix, the risk of injury to bowel adhered to the abdominal wall increases. Frequently, surgeons choose the open laparoscopy approach for these cases. ^[32]

Recently, with the introduction of disposable trocars, the relative safety of these instruments has been in contention. The disposable trocars have a safety shield, which is designed to extend over the blade and decrease bowel injury with entry of the trocar into the peritoneal cavity. These trocars are extremely sharp and easily penetrate the fascia, which may cause additional injury as the momentum of penetration continues into internal structures.

On the other hand, reusable trocars may not be maintained regularly, and a dull trocar pushed through the fascia with significant force may also abruptly pass through the fascia and cause internal injury. No study has examined the relative safety of disposable and reusable trocars, although one series showed the risk of bowel injury with disposable trocars to be approximately 3 times more than that reported for reusable trocars.

Thermal injury to the bowel is also a risk when using electrocautery, particularly monopolar electrosurgery, which can cause an arc of electricity to the bowel. This injury can cause peritonitis if unrecognized, and it is a life-threatening situation if not promptly treated. When using monopolar electrosurgery, having instruments checked regularly for insulation failure is important. Stray current injury can also be significantly reduced with the use of bipolar electrosurgical instruments.

If injury is recognized at the time of surgery, immediate action must be taken to repair the damage. However, frequently, minor injuries are not seen and manifest 24-48 hours after surgery. Counseling the patient before surgery is of utmost importance. Patients should be aware of symptoms that they must report, such as fever, chills, nausea and vomiting, and abdominal pain. In addition, patient counseling should include the risk of requiring a laparotomy and colostomy to repair injuries.

Urologic injuries

Injury to the bladder or ureters can occur during trocar placement or during the use of power instruments, stapling devices, or suturing devices. The greatest challenge is recognizing that the injury has occurred so that treatment can be performed in a timely manner. ^[25]

Draining the bladder with a catheter prior to trocar placement is the first step to preventing bladder injuries. If urine is not seen in the pelvis but an injury is likely, intravenous indigo carmine can be given and the surgeon should watch for leakage into the peritoneal cavity. If this test result is negative but injury is still suggested, a gravity cystogram may be performed. Small retroperitoneal injuries may be treated with Foley catheter placement for 7-10 days, but larger or intraperitoneal injures must be repaired through a laparotomy. Suprapubic, retroperitoneal, and transurethral drains may be used depending on the operator and the injury. If bladder injury is unrecognized at time of surgery, the patient may present with diminished urine output, hematuria, or suprapubic pain.

Ureteral injuries can occur with any procedure involving instrumentation near the ureters. Thermal injuries from laser or cautery may not be apparent for days after surgery. When a surgeon uses one of the power instruments, the operator must be aware of the position of the ureter and avoid cautery in close proximity to the ureter. If the ureter is ligated, the patient may present with flank pain secondary to hydronephrosis. If the ureter is transected, the patient may develop a urinoma or ascites and present 1-5 days postoperatively with abdominal pain, fever, or leukocytosis.

Incisional hernia

Before trocar and sleeves larger than 5 mm were used, incisional hernias were rare. However, larger ports have increased the number of incisional hernias, allowing a small amount of bowel to become trapped in the fascia. Therefore, fascial closure is recommended for incisions larger than 5 mm. Umbilical closure is not required unless a very large incision is made, such as with open laparoscopy. The patient is counseled to not perform any heavy lifting or straining for 30 days in order to minimize the risk of umbilical hernia.

Nerve injuries

Patient positioning during laparoscopic surgery is associated with a low risk of potentially serious nerve injury to either the upper or lower extremities. To minimize the risk of positional nerve injuries, laparoscopic surgeons should have a working knowledge of both the nerves at risk of injury during laparoscopy and should verify that each patient is positioned appropriately during surgery. ^[36]

Laparoscopic surgery is an uncommon cause of injuries to nerves of the upper extremities. Brachial plexus nerve injuries are discovered after approximately 0.16% of advanced laparoscopic procedures. To minimize the risk of brachial plexus injuries during laparoscopy, the arms should be tucked at the side of the patient whenever possible. Arms extended on arm boards should be abducted less than 90°. In addition, steep Trendelenburg position with the arms extended and shoulder braces should be avoided.

Lithotomy position for prolonged periods of time can result in injuries to nerves of the lower extremity, including the femoral, lateral femoral cutaneous, obturator, sciatic, and common peroneal nerves. Sensory deficits from such injuries are reported after 1.5% of cases performed in lithotomy position, and persistent motor deficits are found after 0.03% of cases. Careful positioning and boot stirrups both appear to decrease the risk of nerve injury, especially for laparoscopic procedures lasting more than 2 hours. Four important elements of correct lithotomy positioning include 1) hip flexion of 60-170°, 2) knee flexion of 90-120°, 3) hip abduction no more than 90°, and 4) minimal external hip rotation. Extrinsic pressure on the legs should be avoided.