Retroperitoneal Laparoscopic Debridement and Drainage for Pancreatic Abscess

Podsumowanie

To improve the drainage of patients with necrotizing pancreatitis complicated with peripancreatic abscess and reduce the mortality of patients with necrotizing pancreatitis, we adopted a retroperitoneal approach for peripancreatic abscess debridement and drainage by laparoscopy.

Streszczenie

In patients with severe necrotizing pancreatitis, pancreatic necrosis and secondary infection of surrounding tissues can quickly spread to the whole retroperitoneal space. Treatment of pancreatic abscess complicating necrotizing pancreatitis is difficult and has a high mortality rate. The well-accepted treatment strategy is early debridement of necrotic tissues, drainage, and postoperative continuous retroperitoneal lavage. However, traditional open surgery has several disadvantages, such as severe trauma, interference with abdominal organs, a high rate of postoperative infection and adhesion, and hardness with repeated debridement. The retroperitoneal laparoscopic approach has the advantages of minimal invasion, a better drainage route, convenient repeated debridement, and avoidance of the spread of retroperitoneal infection to the abdominal cavity. In addition, retroperitoneal drainage leads to fewer drainage tube problems, including miscounting, displacement, or siphon. The debridement and drainage of pancreatic abscess tissue via the retroperitoneal laparoscopic approach plays an increasingly irreplaceable role in improving patient prognosis and saving healthcare resources and costs. The main procedures described here include laying the patient on the right side, raising the lumbar bridge and then arranging the trocar; establishing the pneumoperitoneum and cleaning the pararenal fat tissues; opening the lateral pyramidal fascia and the perirenal fascia outside the peritoneal reflections; opening the anterior renal fascia and entering the anterior pararenal space from the rear; clearing the necrotic tissue and accumulating fluid; and placing drainage tubes and performing postoperative continuous retroperitoneal lavage.

Wprowadzenie

The treatment of severe acute pancreatitis (SAP) complicated by peripancreatic infection and necrosis has long been a difficult problem to solve^1,2. Pancreatic infection and necrosis are serious complications of severe acute pancreatitis³. Reducing abdominal and retroperitoneal pressure, removing necrotic tissue as much as possible, and reducing the absorption of toxic substances are the main surgical principles for successfully treating SAP⁴. Traditional open surgery and continuous postoperative lavage have saved the lives of many SAP patients. However, the transabdominal approach requires perforation of the gastrocolic ligament, entry into the minor omental sac, and subsequent invasion of all segments of the pancreas, which inevitably interferes with various abdominal organs and might introduce retroperitoneal bacteria into the abdominal cavity, increasing the risk of abdominal infection. In addition, the drainage tube is drained from the retroperitoneal cavity to the outside of the abdominal wall. Owing to poor drainage, compression of the intestinal tube may also cause intestinal fistula and abdominal bleeding. In 2013, the Evidence-based Guidelines for the Treatment of Acute Pancreatitis issued by the International Society of Pancreatology and the American Society of Pancreatology noted that minimally invasive debridement of necrotic tissue was superior to open debridement for patients with symptomatic infectious necrosis⁵. Chen et al.⁶ used peritoneal laparoscopy to reach the peritoneum, remove necrotic pancreatic tissue, and place the drainage tube, achieving satisfactory results. However, theoretically, problems such as bacterial displacement and peritoneal infection caused by communication between the peritoneum and retroperitoneum are inevitable. Sileikis et al.⁷ used three-hole laparoscopic retroperitoneal resection of pancreatic necrotic tissue and catheter drainage from 2007 to 2009 and cured 8 SAP patients.

Since 2016, we have adopted retroperitoneal laparoscopy to remove necrotic pancreatic tissue through a retroperitoneal approach. Compared to other minimally invasive surgeries, this method is more direct and safer. It provides direct access to the retroperitoneal space, allowing direct visualization and removal of necrotic tissue in the renal capsule. The field of view is clear, bleeding is easily controlled, and a drainage tube can be placed as needed, ensuring effective drainage. The drainage tube does not pass through the abdominal cavity, causing minimal disturbance to the cavity and reducing the risk of abdominal infection. The necrosis and infection of SAP occur mostly in the tail of the pancreas. There is often necrosis of the peripancreatic fatty tissue, which sometimes extends into the left colonic sulcus. Therefore, we utilized a left-sided approach in all patients, and typically, a single surgery was sufficient to thoroughly remove the necrotic tissue. We believe that retroperitoneal laparoscopic surgery via a left-sided approach is particularly suitable for patients with necrosis of the pancreatic body and tail combined with massive effusion.

Protokół

The protocol was conducted in accordance with the Declaration of Helsinki and was approved by the Ethics Committee of Meizhou People's Hospital. (MS-2023-C-95). Informed consent was obtained from patients for this study.

1. Patient selection

1. Use the following inclusion criteria for patients: meet the clinical diagnosis of acute pancreatitis; age between 18 and 80 years; have a CT-enhanced scan grade D/E; and a substantial amount of necrotic tissue and fluid accumulation around the body and tail of the pancreas, as well as in the retroperitoneal area⁴.
2. Use the following exclusion criteria: exclude patients with severe cardiopulmonary dysfunction or coagulation disorders and preoperative percutaneous drainage (PCD) who had digestive fluid or abdominal bleeding in cases where gastrointestinal fistulas had occurred.

2. Preoperative preparation

1. Ask patients to abstain from food for 6 h and refrain from consuming any liquids for 2 h before the scheduled surgery.
2. Prepare concentrated red blood cells and fresh frozen plasma for patients with hemoglobin (HGB) ≤ 80 g/L. Briefly, upon obtaining a doctor's order and patient consent, collect blood samples from the patient and label them. Send this sample to the hospital's blood bank. Conduct tests to determine the patient's blood type and Rh factor, check for any antibodies, and confirm compatibility with donor blood.
3. Administer intravenous antibiotics (such as 2.0 g of ceftriaxone) 30 min before anesthesia induction and proton pump inhibitors (such as omeprazole 40 mg).
4. Administer general anesthesia and perform endotracheal intubation. Following required assessments, the anesthesiologist first administers sedatives and then general anesthesia. After the patient is unconscious, the anesthesiologist inserts an endotracheal tube through the mouth into the trachea, guided by a laryngoscope. The tube is then connected to a ventilator to manage the patient's breathing. Throughout this process, the anesthesiologist continuously tailors anesthesia delivery and closely monitors its depth.

3. Surgical procedure

1. Review CT scans carefully to evaluate the severity of pancreatic necrosis and fluid distribution around the pancreas and retroperitoneum (Figure 1).
2. After successful anesthesia induction, position the patient in the right lateral decubitus position, elevate the hip bridge, and perform routine draping.
3. Arrange the three-port trocar as in laparoscopic retroperitoneal adrenal surgery⁸. In brief, make a 2 cm-long skin incision below the left axillary posterior line and rib margin using a scalpel. Separate the subcutaneous tissue and muscles with fingers, extend the fingers to push apart the lumbar fascia and peritoneum, and widen the retroperitoneal space.
4. Place a 10 mm trocar, a 5 mm trocar, and another 10 mm trocar 2 cm above the iliac crest on the left midline, below the left anterior axillary line, and 2 cm above the iliac spine on the left midaxillary line, respectively. Inject CO₂ gas and maintain the gas pressure at 12 mmHg. The trocar distribution is shown in Figure 2.
5. Explore the retroperitoneal tissues laparoscopically, employing a sharp dissection method to clear perirenal fat tissue and expose the perirenal fascia with dissecting forceps and an ultrasonic scalpel.
6. On the lateral side of the peritoneal reflection, use an ultrasonic scalpel to open the perirenal fascia. Use a suction device and blunt dissection to access the perirenal space between the descending colon and the left kidney. Due to inflammation and edema in the perirenal space, the process is prone to bleeding. Use bipolar electrocoagulation and an ultrasonic scalpel to achieve hemostasis.
7. Incise the anterior renal fascia and extend the retroperitoneal front space of the kidney (Figure 3). Aspirate the pus and send a portion of the sample for bacterial culture. Enlarge the incision, enter the abscess cavity, and remove the black necrotic tissue carefully and repeatedly using tissue forceps (Figure 3).
8. Rinse the abscess cavity with hydrogen peroxide-povidone-iodine-normal saline solution, in this order, until the rinsing fluid becomes relatively clear.
9. To achieve thorough hemostasis in the surgical area, place drainage tubes below and front of the pancreas and lead the tubes through the abdominal punctures (Figure 2).
10. After confirming that there was no bleeding at the incision site, remove the trocars, intermittently suture the incisions with 4-0 silk sutures, and terminate the surgery.

4. Postoperative management

1. Considering the severity and high mortality of necrotizing pancreatitis, transfer patients to the intensive care unit (ICU) for further observation after surgery.
2. Based on the bacterial culture results, initiate an appropriate antibiotic treatment regimen in accordance with the identified bacteria and its sensitivity profile.
   1. Administer the selected antibiotic at regular intervals, as prescribed by the treating physician. During this time, periodically monitor serum procalcitonin levels, a biomarker for bacterial infection, with blood tests. Continue the antibiotic treatment until these levels return to normal, indicating resolution of the infection. All procedures were performed following established protocols and guidelines for management of bacterial infections⁹.
   2. Administer intravenous proton pump inhibitors (PPIs) for at least 1 week before the patients are switched to oral PPIs (single dose) for 4 weeks. If complications such as gastrointestinal or intra-abdominal bleeding occur, extend the duration of intravenous PPI usage.
3. Perform daily peritoneal lavage with 3000-6000 mL of normal saline solution with low central negative pressure suction, ensuring the drainage tubes remain unobstructed.
4. Recover patients from a liquid diet 24 h after surgery, gradually progressing to a regular diet based on gastrointestinal function recovery. Pay careful attention to maintaining regular bowel movements.

5. Follow-up procedures

1. Conduct outpatient visits and telephone interviews at 1 month, 3 months, 6 months, and 1 year after surgery.
2. In follow-up, assess the patient's diet and weight changes and schedule examinations, including enhanced abdominal CT, complete blood count, PCT, pancreatic enzymes, and liver function.

Wyniki

A total of six patients received this surgical treatment (Table 1). Preoperatively, all patients were assessed based on PaO₂/FiO₂, systolic blood pressure, and creatinine levels and were assigned modified Marshall score¹⁰ and APACHE II scores (Table 2). All patients underwent surgery smoothly, and the duration of surgery ranged from 75 to 100 min, with an average of 84 ± 6.7 min. Preoperative bacterial cultures obtained through PCD tubes...

Dyskusje

The optimal timing of surgical intervention for SAP has been a subject of ongoing debate. In the past, surgical intervention was assumed to be performed immediately upon the occurrence of pancreatic infection-related necrosis. However, since 2000, an increasing number of experts have suggested that the timing of surgical intervention for SAP should be postponed as much as possible^11,12,13. Aseptic peripancreatic necrosis may not...

Materiały

Name	Company	Catalog Number	Comments
Dissecting forceps	KANGJI	ZP485RB 330mm×Φ5
Drainage tube	Kang-Li	QH-F28
Grasping forceps	KANGJI	ZP531RB 330mm×Φ5
Laparoscope	STORZ	26003BA
Normal Saline 3000ml	Ke-Lun	3000ml:27g
Suction and Irrigation	KANGJI	Φ5/Φ10×330mm
Suture	ETHICON	SA86G
Trocar	KANGJI	ZP015RN Φ5.5/ ZP018RN Φ12.5
Ultrasonic knife	An-He	AH-600
Veress needle	KANGJI	ZP001RN Φ2.5×100mm