Liver resection with concomitant inferior vena cava resection: experiences without veno-venous bypass

Purpose

Liver resection offers the chance of a cure for liver cancer. However, when extended hepatectomies were performed in combination with resection of the inferior vena cava (IVC), the procedures were reported to have a surgical mortality rate in excess of 5 %. While most of these operations were performed with the use of veno-venous bypass, this study presents our experience performing the procedure without the bypass.

Methods

Data were collected from a prospectively maintained database. A retrospective evaluation of a consecutive series of concomitant IVC and liver resections was performed.

Results

Five hundred and seventy-five liver resections were performed between June 2008 and November 2011. Eleven patients (1.9 %) underwent concomitant IVC and liver resections. One patient required segmental IVC replacement, and four IVC defects were closed using a bovine pericardial patch without bypass. Only one patient had histologically confirmed IVC invasion. There was no postoperative mortality. Nine postoperative complications occurred in five patients. No complications in terms of IVC patency were seen. Five patients had disease recurrence, one of whom died within 12 months of surgery.

Conclusion

Concomitant liver and IVC resection is safe without using a bypass procedure, with acceptable short-term results. Meticulous technique, careful patient selection and a specialized anesthetic team are key to obtaining low postoperative morbidity and mortality rates and an acceptable oncological outcome.     

Resection and reconstruction of the inferior vena cava for major hepatic resection]

The inferior vena cava (IVC) is partially or segmentally resected in major hepatic resection for malignant hepatic tumors in case of possible direct invasion to the IVC wall or IVC tumor thrombosis. The reconstruction methods of the IVC are divided into three categories depending on the degree of IVC resection: simple suture; patch repair; and segmental replacement. In segmental replacement, a synthetic material such as a cylindrical expanded polytetrafluoroethylene (ePTFE) grafts is widely utilized as a substitute. The total hepatic vascular exclusion technique is usually necessary in concomitant resection of the suprahepatic IVC. When a longer duration of hepatic vascular exclusion is required to resect and reconstruct the suprahepatic IVC and hepatic vein confluence, in situ hypothermic perfusion, the ante situm technique, or ex vivo bench surgery must be applied. When an ePTFE graft is replaced in the resected IVC, a Carrel patch of the IVC is used for the hepatic vein orifice to maintain anastomotic patency. Alternatively, the hepatic vein can be reanastomosed to an inferior vena caval segment transpositioned from the intact infrahepatic IVC portion by replacing the resected infrahepatic IVC with an ePTFE graft.     

Dexmedetomidine for resection of a large phaeochromocytoma with invasion into the inferior vena cava

Editor—Dexmedetomidine is increasingly used in patientson mechanical ventilation in intensive care units.¹ Perioperativeuse of dexmedetomidine provides a steady haemodynamic courseand blunts fluctuations at stressful moments like intubationand extubation.² In phaeochromocytoma surgery, dexmedetomidinecould be a useful anaesthetic adjunct in minimizing episodesof abrupt arterial hypertension expected during manipulationof the tumour. We report use of dexmedetomidine in a     

Inferior vena cava reconstruction using fresh inferior vena cava allograft following caval resection for leiomyosarcoma: midterm results

We present a 56-year-old woman affected by a large leiomyosarcoma originating from the suprarenal inferior vena cava (IVC). A computed tomography (CT) scan revealed near obstruction of the IVC and involvement of the right renal vein. The patient underwent successful en bloc resection of the tumor, right kidney, right adrenal gland, and IVC. Caval reconstruction was performed using a non-type specific allograft, followed by left renal vein re-implantation. The patient tolerated the procedure well without any complications. The use of an IVC allograft allowed for continued graft patency, without the need of immunosuppression or long-term anticoagulation. However, local recurrence did occur.     

Malignant adrenocortical tumour with inferior vena cava invasion

Carcinoma of the adrenal cortex is a rare tumour. The incidence of vena cava involvement may be present in 15 to 20% of patients. The intra caval tumour thrombus can attain the right atrium. Even if some authors consider these lesions as a metastasis, long-term survival can be obtained after radical resection. The surgical tactical depend on the extension of thrombus into the vena cava inferior. The authors report a case with 4 years survival without recurrence after surgical treatment.     

Left trisegmentectomy and combined resection of the inferior vena cava, without reconstruction, for giant cystadenocarcinoma of the liver

A 54-year-old woman with giant liver cystadenocarcinoma underwent left trisegmentectomy with combined resection of the inferior vena cava (IVC) and the right hepatic vein. As a result, only the right inferior hepatic vein was preserved as a drainage vein. Because the perivertebral plexus and the azygos vein were both well developed, neither veno-venous bypass nor IVC reconstruction was performed. The developed collateral veins acted as the venous drainage pathway to maintain a stable systemic circulation. On the seventh postoperative day, portal vein flow dramatically decreased and the patient tended to liver failure. Prostaglandin E₁ (PGE₁) was administrated via the superior mesenteric artery. The portal flow then gradually increased and liver failure was avoided. Six months after the operation, she was re-admitted due to obstructive jaundice and presented with complete stenosis of the common bile duct (CBD). The jaundice persisted and liver dysfunction progressed. The patient died seven months after the operation. The confluence of the right inferior vein and the IVC could have been deformed, causing outflow blockade. The intrinsic shunt was not good enough to act as the drainage pathway, and IVC reconstruction may have been needed.     

Endovascular reconstruction of an interrupted inferior vena cava

INTRODUCTION

Inferior vena cava (IVC) interruption was established as a procedure to treat refractory venous thromboembolism (VTE) complicated by pulmonary embolism. Ilio-caval thrombosis and lower limb chronic venous insufficiency (CVI) are well known long-term complications of IVC interruption, where subsequent treatments may carry significant morbidity and mortality.

PRESENTATION OF CASE

We present here a case of chronic venous insufficiency resulting from IVC interruption with a vascular clip placed forty years previously. A novel approach utilising endovascular stents was used to reconstruct the iliocaval confluence and interrupted distal IVC without the need for laparotomy to remove the plicating clip. This procedure was associated with minimal morbidity and resulted with a quick resolution of the patient''s CVI symptoms.

DISCUSSION

Endovascular angioplasty and stenting is an alternative to open reconstruction of the interrupted inferior vena cava. We have demonstrated successful opening of a plication vascular clip using only endovascular utilities. Advantages include a shorter hospital stay, and reduced morbidity and mortality when compared to a re-do laparotomy.

CONCLUSION

Endovascular stents may be used safely and effectively to reconstruct the surgically interrupted inferior vena cava in the treatment of chronic venous insufficiency.     

Dual inferior vena cava: two inferior vena cava filters

The formation of the venous drainage system of the human body is a complex process involving structures forming and regressing in a predefined order. Interruption of any one of these steps results in the formation of a congenital anomaly. Knowledge of these anomalies can prevent us from potential serious and sometimes fatal complications. Variations from the normal anatomy of the inferior vena cava (IVC) occur in 3% of the population. The complex embryology of the IVC stems from three pairs of fetal veins: (1) posterior cardinal veins, (2) subcardinal veins, and (3) supracardinal veins. The cardinal veins constitute the main venous drainage system of the embryo. Although venous anomalies are rare, their knowledge is crucial in diagnosis and treatment. These variations should not be mistaken for pathologic finding, but should be viewed as normal findings of abnormal embryogenesis. We present a case here identifying a dual IVC, subsequently leading us to place two IVC filters.     

Resection and reconstruction of the inferior vena cava for neoplasms

AIM: To evaluate the results of an aggressive surgical approach of resection and reconstruction of the inferior vena cava (IVC). METHODS: The approach to caval resection depends on the extent and location of tumor involvement. The supraand infra-hepatic portion of the IVC was dissected and taped. Left and right renal veins were also taped to control the bleeding. In 12 of the cases with partial tangential resection of the IVC, the flow was reduced to less than 40% so that the vein was primarily closed with a running suture. In 3 of the cases, the lumen of the vein was significantly reduced, requiring the use of a polytetrafluoroethylene (PTFE) patch. In 2 of the cases with segmental resection of the IVC, a PTFE prosthesis was used and in 1 case, the IVC was resected without reconstruction due to shunting the blood through the azygos and hemiazygos veins. RESULTS: The mean operation time was 266 min (230-310 min) with an average intraoperative blood loss of 300 mL (200-2000 mL). The patients stayed in intensive care unit for 1.8 d (1-3 d). Mean hospital stay was 9 d (7-15 d). Twelve patients (66.7%) had no complications and 6 patients (33.3%) had the following complications: acute bleeding in 2 patients; bile leak in 2 patients; intra abdominal abscess in 1 patient; pulmonary embolism in 2 patients; and partial thrombosis of the patch in 1 patient. General complications such as pneumonia, pleural effusion and cardiac arrest were observed in the same group of patients. In all but 1 case, the complications were transient and successfully controlled. The mortality rate was 11.1% (n = 2). One patient died due to cardiac arrest and pulmonary embolism in the operation room and the second one died 2 d after surgery due to coagulopathy. With a median follow-up of 24 mo, 5 (27.8%) patients died of tumor recurrence and 11 (61.1%) are still alive, but three of them have a recurrence on computed tomography. CONCLUSION: There are a variety of options for reconstruction after resection of the IVC that offers a higher resectable rate and better prognosis in selected cases.     

Hepatobiliary resection with inferior vena cava resection and reconstruction using an autologous patch graft for intrahepatic cholangiocarcinoma

Background In patients with advanced cholangiocarcinoma involving the inferior vena cava (IVC), an extended hepatobiliary resection with combined resection and reconstruction of the IVC is often prerequisite to obtain a clear resection margin. Materials and methods We present our approach to repair of approximately half of a cross-sectional wall defect of the IVC using an autologous external iliac venous patch graft during extended hepatobiliary resection with a total hepatic vascular exclusion technique. The harvested external iliac vein graft was incised longitudinally and trimmed to fit the IVC defect. After multiple stay sutures, a continuous running suture using 4–0 prolene was made. Results Two patients who underwent this complex surgery survive 20 and 27 months after surgery, respectively. Morbidity of transient edema of the ipsilateral lower leg potentially related to graft harvesting was noted in one patient after surgery. Conclusions The external iliac vein patch graft for IVC resection and reconstruction during hepatobiliary resection is technically simple, produces no stenosis or caliber change in the reconstructed IVC, and is applicable for at least half or less of a cross-sectional defect of the IVC wall to be reconstructed.     

Perinatal inferior vena cava thrombosis and absence of the infrarenal inferior vena cava

We report a case of infrarenal absence of the inferior vena cava (IVC) presenting as a major iliofemoral deep venous thrombosis in an adolescent. This is the first report of infrarenal IVC absence in which IVC thrombosis has been demonstrated in the perinatal period. We propose an association between perinatal IVC thrombosis and subsequent infrarenal IVC absence. In addition, the case demonstrates the importance of assessment for anatomical anomalies in patients presenting with apparently idiopathic deep venous thrombosis.