巨脾切除术的技术要点

The spleen whose size reaches or exceeds third degree should be regarded as massive splenomegaly.Splenectomy for massive splenomegaly demands precise procedures.First,median incision on upper abdomen(or vertical rectus muscle splitting incision)and incision under left costal arch are preferred.Second,the spleen was freed and then 0.33 mg of epinephrine was injected via the splenic artery before splenic artery ligation.During the process,a cell saver helps to minimize blood loss and makes autoinfusion possible for patients with benign lesions.Third,preoperative administration of fibrinogen,platelet and essential styptieum combined with the cooperation between surgeons and anesthesi010gists are the key points of bloodless surgery which is important for the recovery of patients.Four common problems of splenectomy for massive splenomegaly should also be addressed,including operation discontinuance,perioperative hemorrhage,accessory injury and postoperative intractable fever.     

Preoperative splenic artery occlusion as an adjunct for high risk splenectomy

High risk splenectomy is often encountered in cases of hypersplenism with massive splenomegaly (10 times usual weight of 150-200 g) resulting from myelophthisic processes. Intra-operative ligation of the splenic artery through the lesser sac is a technically useful method of gaining vascular control prior to mobilizing the challenging spleen. However, a massive or inaccessible spleen imposes mechanical limitations during surgery and may be complicated by torrential intra-operative hemorrhage in the setting of severe thrombocytopenia refractile to platelet transfusions. The authors describe pre-operative intravascular proximal splenic artery control in four adult patients (3 men, 1 woman) with extreme splenomegaly (2,250-10,000 g). The massive splenomegaly in this group resulted from chronic myelogenous leukemia (n = 2), isolated splenic lymphoma (n = 1), and agnogenic myeloid metaplasia (n = 1). Chief symptom manifestations included left upper quadrant abdominal pain, early satiety, post-prandial emesis, dyspnea, petechiae, and associated easy bruising. Prior to surgery, all the patients were taken to the radiology suite where either detachable silastic balloons or stainless steel coils were placed selectively into the splenic artery under fluoroscopic guidance requiring approximately 35 minutes. Splenic artery occlusion aided normalization of thrombocytopenia (average increases 19,000/microliter to 215,000/microliter) with prolongation in survival of platelets. Successful splenectomy was subsequently performed with no additional transfusion requirements and was made technically easier by reducing splenic bulk. There were no adverse consequences of intravascular occlusion and no peri-operative morbidity or mortality. Preoperative intravascular selective splenic artery occlusion, used as an important potential adjunct to anticipated high risk splenectomy, is recommended.(ABSTRACT TRUNCATED AT 250 WORDS)     

Massive splenic hydatid cyst

Hydatid disease can involve any organ of the body and a high suspicion of this disease is justified in endemic regions. A case of massive splenic hydatid cyst with hepatic hydatidosis presented with 5 years history of abdominal distension with discomfort is reported. Clinically she had massive splenomegaly with hepatomegaly. Laboratory and radiological findings were diagnostic of hydatid disease of the liver and spleen. Peroperatively huge (35 x 20 cm) splenic hydatid cyst with two liver cysts was seen. Splenectomy was performed and hepatic lesions were subjected to endocystectomy with capsulorrhaphy.     

Massive splenomegaly. Superior results with a combined endovascular and operative approach

Splenectomy for massive splenomegaly (drained splenic weight, greater than 1000 g) has an uncommonly high morbidity and mortality because of technical challenges and problems of hemostasis. In a group of 10 patients with massive splenomegaly due to myeloproliferative disorders (average splenic weight, 4193 g), we developed a management algorithm based on preoperative angiographic embolization of the splenic artery. Average operating time was 1.7 hours (range, 1 to 2.5 hours). Average blood loss was 528 mL; six of the 10 patients had blood loss less than 250 mL. There were four minor complications and one major complication (gastric ulcer requiring reoperation). There were no deaths in the perioperative period, and no patients required reoperation for hemorrhage.     

Pancreatic adenosquamous carcinoma presenting as splenic rupture: report of a case

A 58-year-old female patient presented with the sudden onset of left upper quadrant pain. The physical examination revealed the presence of shock status. Abdominal computed tomography revealed splenomegaly with a huge mass inside the spleen, and massive fluid collection in the abdominal cavity. After splenic artery embolization, laparotomy was performed. The operative findings revealed intra-abdominal hemorrhage and rupture of the lower pole of the spleen. Furthermore, a palpable solid mass was observed at the splenic hilum, and distal pancreatectomy with splenectomy was performed. The macroscopic findings revealed a pancreatic tail tumor at the splenic hilum directly invading the splenic parenchyma. Microscopic examinations showed the tumor to consist of squamous cell carcinoma. Furthermore, old and new thrombi were observed inside small splenic arteries. These findings were considered to represent invasion of pancreatic adenosquamous carcinoma to the spleen, and rupture of the spleen was attributed to splenic ischemia resulting from cancer invasion and splenic vein obstruction.     

Outcome of laparoscopic splenectomy with preoperative splenic artery embolization for massive splenomegaly

Background  

Laparoscopic splenectomy (LS) has become a safe and feasible procedure for cases involving spleens of normal size. Only a few publications report on the outcome of LS with preoperative splenic artery embolization (SAE) for massive splenomegaly. The authors present their experience in patients with massive splenomegaly who underwent laparoscopic-assisted splenectomy (LAS) or hand-assisted laparoscopic splenectomy (HALS) following SAE.     

Splenic artery embolization using contour emboli before laparoscopic or laparoscopically assisted splenectomy

The present study assessed preoperative splenic artery embolization using spherical embolic material, super absorbent polymer microspheres (SAP-MS), before laparoscopic or laparoscopically assisted splenectomy. Distal splenic artery embolization using 250 to 400 microm SAP-MS was performed in nine cases with ITP and in seven cases with the other diseases with splenomegaly. Laparoscopic or laparoscopically assisted splenectomies, including a hand-assisted procedure and the procedure involving left upper minilaparotomy, were done 2 to 4 hours after embolization. Conversion to traditional laparotomy was not required in any of the 16 cases, while conversion to 12-cm laparotomy was required in one case with massive splenomegaly. Mean operating time was 161 minutes, and mean intraoperative blood loss was 290 mL. No major postoperative complications were identified, and only one patient reported postembolic pain before surgery. Preoperative splenic artery embolization using painless embolic material, SAP-MS, would be effective for easy and safe laparoscopic or laparoscopically assisted splenectomy.     

Laparoscopically assisted splenectomy following preoperative splenic artery embolization using contour emboli for myelofibrosis with massive splenomegaly

Laparoscopically assisted splenectomy with an 8- to 10-cm left upper paramedian laparotomy was performed following preoperative splenic artery embolization using painless contour emboli (super absorbent polymer microsphere) with early successful results in two men (46 and 37 years old) with myelofibrosis accompanied by massive splenomegaly. Dissection around the lower part of the spleen and the hilum initially was performed intracorporeally with the usual laparoscopic view under 12 mm Hg pneumoperitoneum. The alternating changes of viewpoints between the direct view through an 8- to 10-cm incision and the usual laparoscopic view with or without application of a retraction method were effective for safe hilar devascularization. Preoperative splenic artery embolization at the distal site was effective for safe dissection around the enlarged spleen. The patients did not complain of pain before operation. Preoperative painless embolization and laparoscopically assisted splenectomy with small laparotomy promotes the feasibility and safety of minimally invasive splenectomy for myelofibrosis with massive splenomegaly.     

Huge inflammatory pseudotumor of the spleen with postoperative portal vein thrombosis: report of a case

We report the rare case of a splenic inflammatory pseudotumor associated with massive splenomegaly, diagnosed after surgery. A 51-year-old woman was admitted to our hospital for investigation of anemia. Physical examination revealed a palpable left upper quadrant mass. Computed tomography and magnetic resonance imaging showed a splenic mass, 20 cm in diameter. We performed splenectomy for both diagnosis and treatment. The spleen weighed 2400 g, and histologic examination of the mass confirmed an inflammatory pseudotumor. Portal vein thrombosis (PVT) developed the day after surgery, but resolved with anticoagulation therapy. This case highlights that there is a risk of PVT after splenectomy in patients with massive splenomegaly, and that anticoagulant therapy should be initiated promptly.     

Partial splenectomy for children with congenital hemolytic anemia and massive splenomegaly

Partial splenectomy is an alternative to total splenectomy for the treatment of congenital hemolytic anemias (CHAs) in children, although the feasibility of this technique in the setting of massive splenomegaly is unknown. This study was designed to evaluate the safety and efficacy of partial splenectomy in children with CHAs and massive splenomegaly. This retrospective study examined 29 children with CHAs who underwent partial splenectomy. Children were divided into 2 groups based on splenic size: 8 children had splenic volumes greater than 500 mL, whereas 21 children had splenic volumes less than 500 mL. Outcome variables included perioperative complications, transfusion requirements, hematocrits, reticulocyte counts, bilirubin levels, splenic sequestration, and splenic regrowth. All 29 children underwent successful partial splenectomy with 0.02 to 10 years of follow-up. After partial splenectomy, children overall had decreased transfusion requirements, increased hematocrits, decreased bilirubin levels, decreased reticulocyte counts, and elimination of splenic sequestration. Children with massive splenomegaly had similar outcomes compared with children without massive splenomegaly. Long-term complications included 3 mild infections, 4 cases of gallstones requiring cholecystectomy, and 1 child who required completion splenectomy. Partial splenectomy is a safe, effective, and technically feasible option for children with various CHAs, even in the setting of massive splenomegaly.     

Significance of selective arteriographic patterns in the celiac axis and superior mesenteric artery in portal hypertension

Selective celiac and superior mesenteric arteriographies were performed in patients with portal hypertension. An arterioarterial (A-A) shunt between the superior mesenteric artery and the celiac axis via pancreatic arcades was found in fifteen of forty-three patients with associated massive splenomegaly. A mild A-A shunt disappeared after portacaval anastomosis alone, whereas a prominent A-A shunt was reduced but persisted. The persisting A-A shunt disappeared after splenectomy. These findings led us to suggest that the paucity of the blood flow in the common hepatic artery concomitant with increased splenic arterial flow to the massively enlarged spleen may result in a compensatory supply to the liver from the superior mesenteric artery via the shunt.     

Intraoperative acute tumor lysis syndrome during laparoscopic splenectomy preceded by splenic artery embolization

Laparoscopic resection has become the standard of care for routine splenectomy. Preoperative splenic artery embolization for massive splenomegaly has been described to allow a laparoscopic approach in previously ineligible laparoscopic candidates. Our case describes an intraoperative cardiac arrest secondary to tumor lysis after preoperative splenic artery embolization. The patient recovered fully after suffering acute renal failure requiring dialysis for 6 weeks postoperatively. Caution using this approach is necessary to avoid this rare and potentially lethal complication.     

Gaucher disease: fate of the splenic remnant after partial splenectomy--a case of rapid enlargement

In Gaucher disease, partial splenectomy has been suggested for alleviating the complications of splenomegaly as well as for avoiding the immunologic compromise and potential acceleration of bony and hepatic involvement that may follow total splenic resection. However, the fate of the splenic remnant has been reported rarely. A subtotal splenectomy (85%) was performed in a 19-month-old girl with rapidly progressing Gaucher disease and massive splenomegaly (12% of body weight). Within 3 months, the splenic remnant had increased four-fold in size. Previous reports indicated only three Gaucher patients had significant enlargement of the splenic remnant after partial splenectomy. These findings indicate that splenomegaly may recur rapidly in Gaucher disease following partial splenectomy.     

Protracted pain following partial splenic embolization in an adolescent female with hypersplenism

A 17-year-old female with massive splenomegaly underwent partial splenic embolization (PSE) for hypersplenism. The postoperative course was characterized by recurrent painful splenic infarctions requiring hydromorphone PCA for an extended period resulting in an unanticipated, prolonged hospital stay. Massive splenomegaly treated with PSE may require an extended hospital stay to achieve pain control. Such patients may subsequently require transition to enteral opioids and weaning.     

Splenectomy in high-risk patients with splenomegaly

BACKGROUND: Splenectomy in patients with massive splenomegaly and hematologic malignancy results in higher morbidity and mortality with primarily palliative benefit. METHODS: From a 14-year experience with 172 splenectomies, the perioperative course of 39 high-risk patients with splenomegaly was reviewed for comorbidities, indications, complications, and mortality. RESULTS: Twenty-three males and 16 females with a mean age of 54.2 years and a mean 12.8-day postoperative length of stay were reviewed. Sixteen patients (41%) had 23 major complications related to age (P = 0.047) and operative time (P = 0.01). Intraoperative transfusion was related to splenic size (P = 0.04), and estimated blood loss (P = 0.02) was inversely related to use of splenic artery preligation. Three perioperative deaths were secondary to sepsis and multi-organ system failure. CONCLUSION: Splenomegaly and comorbidities of the primary disease result in higher morbidity and mortality. Splenic artery preligation is valuable to limit intraoperative blood loss and facilitate splenectomy.     

Is splenectomy for massive splenomegaly safe in children?

PURPOSE: To study and analyze the causes, etiology, morbidity, mortality and therapeutic value of splenectomy performed for massive splenomegaly in children. METHODS: The medical records of 115 children less than 18 years old who had splenectomy for various hematological disorders were reviewed. Twenty of them had splenectomy for massive splenomegaly (spleen weight > or =1,000 g). The records of these were reviewed for age at operation, gender, hematological diagnosis, indication for splenectomy, operative procedures, postoperative complications, and outcome. RESULTS: Twenty children had splenectomy for massive splenomegaly. There were 16 males and 4 females. Their ages ranged from 4 to 15 years (mean 11.2). Twelve had sickle cell disease, 5 had sickle-beta-thalassemia, 1 had beta-thalassemia major, 1 had thalassemia intermediate, and 1 had chronic myeloid leukemia. The indications for splenectomy were hypersplenism in 11, recurrent splenic sequestration crisis in 8, and splenic abscess in 1. The transfusion requirements in the patient with beta-thalassemia major decreased markedly postoperatively from 18 transfusions/year to only 4 transfusions/year; and for those with hypersplenism, there was a marked improvement in their blood parameters following splenectomy. The patient with thalassemia intermediate required no more blood transfusions. There was no mortality. The immediate postoperative morbidity was 10% for those with massive splenomegaly compared with 6.3% for those with splenomegaly <1,000 g. CONCLUSIONS: With good perioperative management, splenectomy in children with massive splenomegaly is both safe and effective.     

Splenectomy for massive splenomegaly

Removal of a massively enlarged spleen is a challenging surgical problem that is associated with higher death and complication rates than the removal of smaller spleens. Older age, serious and chronic primary diseases, and associated cardiopulmonary abnormalities contribute to the morbidity and mortality. Most patients with massive splenomegaly have been treated with corticosteroid and/or antineoplastic drugs, which impair wound healing, hemostatic function, and host resistance. Precise surgical technic is especially important in these cases because of the susceptibility to postoperative hemorrhage. Ligation of the splenic artery via the lesser peritoneal sac before mobilization of the spleen is associated with lower intraoperative transfusion requirements than when the spleen is mobilized before the splenic artery is ligated.     

Hematemesis revealing chronic volvulus of a wandering spleen]

A 23 years old woman was admitted on emergency for an upper digestive tract bleeding and endoscopy found gastric varices. CT scan revealed a splenomegaly, a twisted aspect of the splenic pedicle and varices in the gastrosplenic ligament. Arteriography showed a narrow splenic artery and varices in the gastrosplenic ligament. After a recurrent bleeding, splenectomy was performed. There was a chronic volvulus of a wandering spleen; the splenic venous flow was passing through the left gastroepiploic vein and a gastrosplenic vein. Chronic volvulus of a wandering spleen with gastric varices is an unfrequent pathology, diagnosed by imaging and requiring splenectomy.     

Comparative treatment and literature review for laparoscopic splenectomy alone versus preoperative splenic artery embolization splenectomy

Background

Although laparoscopic splenectomy has been gradually regarded as an acceptable therapeutic approach for patients with massive splenomegaly, intraoperative blood loss remains an important complication. In an effort to evaluate the most effective and safe treatment of splenomegaly, we compared three methods of surgery for treating splenomegaly, including open splenectomy, laparoscopic splenectomy, and a combination of preoperative splenic artery embolization plus laparoscopic splenectomy.

Methods

From January 2006 to August 2011, 79 patients underwent splenectomy in our hospital. Of them, 20 patients underwent a combined treatment of preoperative splenic artery embolization and laparoscopic splenectomy (group 1), 30 patients had laparoscopic splenectomy alone (group 2), and 29 patients underwent open splenectomy (group 3). Patients’ demographics, perioperative data, clinical outcome, and hematological changes were analyzed.

Results

Preoperative splenic artery embolization plus laparoscopic splenectomy was successfully performed in all patients in group 1. One patient in group 2 required an intraoperative conversion to traditional open splenectomy because of severe blood loss. Compared with group 2, significantly shorter operating time, less intraoperative blood loss, and shorter postoperative hospital stay were noted in group 1. No marked significant differences in postoperative complications of either group were observed. Compared with group 3, group 1 had less intraoperative blood loss, shorter postoperative stay, and fewer complications. No significant differences were found in operating time. There was a marked increase in platelet count and white blood count in both groups during the follow-up period.

Conclusions

Preoperative splenic artery embolization with laparoscopic splenectomy reduced the operating time and decreased intraoperative blood loss when compared with laparoscopic splenectomy alone or open splenectomy. Splenic artery embolization is a useful intraoperative adjunctive procedure for patients with splenomegaly because of the benefit of perioperative outcomes.