Objective To explore the effect of ex-vivo liver resection and autologous liver transplantation (ERAT) combined with complicated hepatic venous reconstruction for end stage hepatic alveolar echinococcosis (AE). Method Theclinical data of one case with hepatic AE who treated in Organ Transplantation Center of Sichuan Provincial People’s Hospital in December 2017 was analyzed retrospectively. Results Pre-operative examination and intraoperative exploration revealed the hepatic vein (HV) and retrohepatic inferior vena cava (RHIVC) were invaded widely. We successfully initiated operation through vivo and ex-vivo hepatic AE resection, portal vein reconstruction, right/short/right inferior HV reconstruction into a wide mouth outflow with the assist of autogenous saphenous vein, and then piggyback autologous liver transplantation by wide mouth outflow-artificial inferior vena cava anastomosis (side to side). The operative time was 16 hours, and blood loss was 1 000 mL approximately. The patient was admitted routine treatment after hepatectomy. The inject low-molecular-weight heparin sodium was admitted for anticoagulant therapy 24 hours after operation. This patient recovered smoothly without bile leakage, bleeding, infection and liver failure, and so on. The patient was discharged uneventfully 14 days after operation, and there was no special situation during the6 months follow-up period. Conclusions ERAT is an ideal surgical method for end stage hepatic AE. Hepatic parenchymal transection and individual duct reconstruction, especially hepatic outflow reconstruction, are the key steps for ERAT.
ObjectiveTo summarize and analyze the application of ex vivo liver resection and autotransplantation (ELRA) in the treatment of hepatobiliary diseases. MethodThe related literature about ELRA used to treat various hepatobiliary space-occupyingdiseases at home and abroad in recent years was comprehensively searched and summarized. ResultsELRA had overcome the limitations of limited operational space in traditional surgery for the treatment of hepatobiliary space-occupying diseases reduced dependence on donor livers, and avoided post-transplant rejection. It had been applied in the treatment of hepatic alveolar echinococcosis, liver cancer, cholangiocarcinoma, and rare liver space-occupying diseases. ConclusionsWith the maturation of ELRA techniques and the continuous improvement of ex vivo liver perfusion technology, along with rigorous preoperative evaluation and meticulous postoperative management, postoperative complications of ELRA have significantly decreased compared to the initial stages of its application. By strictly adhering to surgical indications, this procedure is expected to be used treatment in an increasing number of hepatobiliary space-occupying diseases.
ObjectiveTo summarize the key operative points and efficacy of ex-vivo ex-vivo liver resection and autologous liver transplantation (ELRA) using various vascular materials for hepatic vein reconstruction in the treatment of end-stage hepatic alveolar echinococcosis (HAE). MethodThe clinicopathologic data of a patient with end-stage HAE who underwent ELRA combined with complex hepatic vein reconstruction were retrospectively analyzed. ResultsThe patient was a 60-year-old male who was admitted to the Sichuan Provincial People’s Hospital due to giant alveolar hydatid in the liver, with a body weight of 60 kg and a standard liver volume of 1 024.5 mL. The imaging showed that the hydatid invaded the first and second hepatic portals, middle hepatic vein, left hepatic vein, and retrohepatic inferior vena cava. The three-dimensional reconstruction of CT showed that the residual liver volume was 1 270.6 mL. The patient received supportive treatment after admission and underwent ELRA following strict evaluation. Intraoperatively, it was found that the multiple hepatic veins and retrohepatic inferior vena cava were widely invaded. The liver was split in vivo and the mass was excised ex vivo by “in vivo first” principle. The hepatic vein was repaired and reconstructed into a wide mouth outflow tract using allogeneic veins, autologous inferior mesenteric vein, and hepatic round ligaments, then performed the autotransplantation by wide mouth outflow-artificial inferior vena cava anastomosis (end to side). The operative time was 16 h, and the intraoperative blood loss was approximately 2 000 mL. FK506 was orally administered after operation, and low-molecular-weight heparin sodium was administered 24 h later for anticoagulation. The patient was returned to the general ward on the 6th day after the operation, and the enhanced CT scan showed that the hepatic outflow tract was unobstructed, without stenosis and thrombosis, and the patient was discharged on day 18 after the operation. The patient was pathologically diagnosed with alveolar echinococcosis. ConclusionsFrom the results of this case, combination of multiple vascular materials to reconstruct the hepatic outflow tract is an optional procedure for ELRA in treatment of end-stage HAE. Strict preoperative evaluation, skillful vascular anastomosis technique, and postoperative anticoagulation are important measures to maintain patency of postoperative reconstruction vessel.
ObjectiveTo discuss the clinical application of two-step hepatectomy for hepatic alveolar echinococcosis which invaded the second and the third porta hepatis.MethodsThe clinical data of 60 patients with hepatic alveolar echinococcosis invaded the second and the third porta hepatis who treated with two-step hepatectomy in West China Hospital of Sichuan University and The People’s Hospital of Ganzi Tibetan Autonomous Prefecture of Sichuan Province from Jan. 2013 to Jun. 2017 were analyzed retrospectively.ResultsSixty patients had underwent radical hepatectomy successfully and no death happened during perioperative period. The average operative time was 309.17 min (150–475 min) and intraoperative blood loss was 586.67 mL (100–3 000 mL). Forty-eight patients blocked the blood flowing into the liver, the average blocking time was 25.85 min (15–50 min); 24 patients suffered red blood cell suspension, the average amount was 3.79 U (2–8 U), and 9 patients were infused with fresh frozen plasma, the average amount was 527.78 mL (350–850 mL). The average of hospital stays was 17.5 days (7–39 days) and average of hospitalization cost was 49 323.43 yuan (28 045.32–61 243.15 yuan). The liver function indicators returned to normal within 7 days after operation. After operation, 3 patients suffered from biliary fistula, 3 patients suffered from pleural effusion, 3 patients suffered from peritoneal effusion, 10 patients suffered from effusion. According to the rank of complication: 10 patients were defined as grade Ⅰ, 3 patients were defined as grade Ⅱ, 6 patients were defined as grade Ⅲa. The average follow-up time of 60 patients was 14.47 months (1–31 months). No recurrence and death occurred during follow-up period.ConclusionThe two-step hepatectomy in treatment of hepatic alveolar echinococcosis invaded the second and the third porta hepatis can avoid the large flucyuations of intraoperative blood pressure and other vital signs, can increase the safety of surgery and reduce the difficulty and risk of surgery.
ObjectiveTo summarize the surgical technique and indications for liver masses involving the second and the third porta hepatis.MethodsThirteen cases of liver mass involving the second and the third porta hepatis, who underwent surgery in West China Hospital of Sichuan University from June 2013 to September 2016 were collected retrospectively, then made a statistical analysis, including patients’ information, characteristics of liver masses, operation information, and result of followed-up.ResultsOf the 13 cases, there were 3 cases of hepatic alveolar echinococcosis, 4 cases of hepatocellular carcinoma, 4 cases of intrahepatic cholangiocarcinoma, and 2 cases of liver metastasis induced by colon cancer. The mean tumor diameter was 12.5 cm (7–21 cm). Preoperative imaging examinations showed that mass had involved the second and the third porta hepatis, and all masses were resected by surgery without perioperative death, including 7 cases of right three hepatectomy resection, 1 case of left three hepatectomy resection, 4 cases of right hepatectomy resection, and 1 case of left hemi hepatectomy resection; among them, 9 cases were performed caudal lobectomy resection. The mean of operative time was 313 min (210–450 min), the mean of intraoperative blood loss was 592 mL (300–1 100 mL). Four cases received blood transfusion with 300–450 mL (mean of 338 mL). The total hepatic blood inflow occlusion time was 25–55 min (mean of 42 min). Five cases received venous reconstruction, and 1 case received hepatic vein reconstruction. After operation, ascites occurred in 6 cases, pleural effusion occurred in 6 cases, liver failure occurred in 2 cases, bile leakage occurred in 2 cases, pulmonary infection occurred in 3 cases, deep vein thrombosis occurred in 1 case. All of the 13 cases were followed-up for 1–39 months (median time was 14 months), during the followed-up period, 4 cases died, including 3 cases of intrahepatic cholangiocarcinoma and 1 case of liver metastasis induced by colon cancer.ConclusionIt is encouraging to apply the vascular reconstruction and skilled hepatic partition technique for resection lesions which involved the second and the third porta hepatis, through meticulous preoperative evaluation and preparation.
ObjectiveTo explore value of partial liver preservation in situ for ex-vivo liver resection and auxiliatry autologous liver transplantation in end-stage hepatic alveolar echinococcosis.MethodsThe clinical data of one patient with end-stage hepatic alveolar echinococcosis treated with auxiliatry autologous liver transplantation combined partial liver preservation in situ were analyzed retrospectively. This patient was admitted on January 2019. During the auxiliatry autologous liver transplantation procedure, the S1, S4-S8 segments of the liver were resected for mass dissection, whereas the S2 and S3 segments of left liver were preserved in situ.ResultsThe preoperative evaluation and intraoperative exploration indicated that the mass located in the S4, S5, S8 segments, which was adjacent to the first hepatic portal and involved the anterior wall of posterior inferior vena cava, middle hepatic veins, the opening of right hepatic veins and the right wall of left hepatic veins. Based on the " in situ first” principle, the left lesion was slit using the anterior approach, the left hepatic vein was repaired and the S2 and S3 segments were preserved in situ. Then, the right lesion to involved hepatic vein was slit along the right interlobar fissure. The right hepatic artery, right portal vein and right bile duct were divided separately. The S1 and S4-S8 segments were removed completely. Next, the mass was resected, the out flow of the right liver was reconstructed using the allogeneic veins during the ex-vivo liver resection. Then, the auxiliatry autologous right liver transplantation was initiated by the wide-caliber hepatic vein-artificial inferior vena cava anastomosis. The surgical procedures lasted for 12 h, and the intraoperative bleeding was approximately 800 mL. The patient was routinely treated and smoothly recovered after the operation.ConclusionsProcedure of auxiliatry autologous liver transplantation preserved part functional liver in situ during ex-vivo resection, which could maintain stability of systemic and portal vein circulation, hold part liver function during operation, preserve functional liver furthest, and reduce risk of hepatic failure, is an effective attempt for end stage hepatic alveolar echinococcosis.
ObjectiveTo explore the clinical application of variant associating liver partition and portal vein ligation for staged hepatectomy (ALPPS) combined with inferior vena cava reconstruction for end stage hepatic alveolar echinococcosis (HAE).MethodThe clinical data of one case with HAE who treated in Organ Transplantation Center of Sichuan Provincial People’s Hospital in November 2017 was analyzed retrospectively.ResultsComputed tomography revealed that the three hepatic veins and retrohepatic inferior vena cava were invaded by multiple and giant hydatid lesions. Only the segment 6 retained the complete portal vein and hepatic vein return branch. Remnant liver volume/standard liver volume (RLV/SLV) of this patient was 24.9%. Surgical exploration was performed after preoperative examination. In the first stage, ligation of the left portal vein and the right anterior lobe portal vein were performed to increase portal blood supply at S6 while partial split of the liver. The patient recovered well after operation without complications such as bile leakage and infection. Six months after the first stage surgery, the second stage surgery was performed, and RLV/SLV measured before surgery was 48.3%. S1–5/S7–8 were completely removed and the hepatic inferior vena cava was reconstructed with artificial blood vessels. The patient was discharged on 10 days after operation, and there was no complications and relapses occurred during the 18 months follow-up period.ConclusionsVariant ALPPS combined with inferior vena cava reconstruction is an effective attempt to treat end stage HAE with multiple and giant hydatid lesions and insufficient RLV.
ObjectiveTo investigate the predictive value of preoperative red blood cell distribution width to platelet count ratio (RPR) and platelet-albumin-bilirubin (PALBI) scoring for postoperative complications after radical resection of hepatic alveolar echinococcosis (HAE). MethodsAccording to the inclusion and exclusion criteria, the clinicopathologic data of patients diagnosed with HAE and underwent radical hepatectomy in the Affiliated Hospital of Qinghai University from January 2018 to October 2022 were retrospectively collected. The risk factors affecting postoperative complications after radical hepatectomy for HAE were analyzed by univariate and multivariate unconditional logistic regression analysis, which were used to construct the nomogram. The receiver operating characteristic curve was used to evaluate the value in predicting postoperative complications by nomogram model. The discrimination of the nomogram was evaluated using Bootstrap internal 1 000 resampling and evaluated using a consistency index. The predicted postoperative complications probability by nomogram and actual postoperative complications probability were calculated by Kaplan-Meier method, and the calibration curve was drawn. The calibration ability of the nomogram model was evaluated by Hosmer-Lemeshow goodness-of-fit test. The decision curve analysis was used to evaluate clinical benefit of the nomogram model. ResultsA total of 160 patients with HAE radical hepatectomy were included, of which 105 had no postoperative complications and 55 had postoperative complications. The multivariate unconditional logistic regression analysis showed that the operation time ≥207 min, intraoperative bleeding ≥650 mL, and albumin <38 g/L, RPR ≥0.054, and higher PALBI grading (3 levels) were the risk factors affecting postoperative complications after HAE radical hepatectomy (OR>1, P<0.05). Based on the risk factors, the nomogram was constructed. The area under the receiver operating characteristic curve (95%CI) predicted by the nomogram for the postoperative complications was 0.873 (0.808, 0.937), with an optimal cutoff value of 0.499. The consistency index was 0.855 for discriminating postoperative complications after HAE radical hepatectomy. The calibration curve was tested by Hosmer-Limeshow and showed a good fit between the predicted curve by the nomogram and actual curve (χ2=3.193, P=0.367), indicating that the nomogram had a good calibration ability. The decision curve analysis showed that there was a good clinical applicability within the range of 11% to 93% of the threshold probability. ConclusionsThe preoperative RPR and PALBI scoring are risk factors affecting postoperative complications after radical hepatectomy for HAE. The nomogram constructed with risk factors including RPR and PALBI has a good predictive value for postoperative complications after radical hepatectomy for HAE.
ObjectiveTo investigate the risk factors affecting severe postoperative complications (Clavien-Dindo classification Ⅲa or higher) in patients with end-stage hepatic alveolar echinococcosis (HAE) underwent ex vivo liver resection and autotransplantation (ELRA), and to develop a nomogram prediction model. MethodsThe clinical data of end-stage HAE patients who underwent ELRA at the West China Hospital of Sichuan University from January 2014 to June 2024 were retrospectively analyzed. The logistic regression was used to analyze the risk factors affecting severe postoperative complications. A nomogram prediction model was established basing on LASSO regression and its efficiency was evaluated using receiver operating characteristic (ROC) curve, calibration curve, and decision curve analysis. Simultaneously, a generalized linear model regression was used to explore the preoperative risk factors affecting the total surgery time. Test level was α=0.05. ResultsA total of 132 end-stage HAE patients who underwent ELRA were included. The severe postoperative complications occurred in 47 (35.6%) patients. The multivariate logistic analysis results showed that the patients with invasion of the main trunk of the portal vein or the first branch of the contralateral portal vein (type P2) had a higher risk of severe postoperative complications compared to those with invasion of the first branch of the ipsilateral portal vein (type P1) [odds ratio (OR) and 95% confidence interval (CI)=8.24 (1.53, 44.34), P=0.014], the patients with albumin bilirubin index (ALBI) grade 1 had a lower risk of severe postoperative complications compared to those with grade 2 or higher [OR(95%CI)=0.26(0.08, 0.83), P=0.023]. Additionally, an increased total surgery time or the autologous blood reinfusion was associated with an increased risk of severe postoperative complications [OR(95%CI)=1.01(1.00, 1.01), P=0.009; OR(95%CI)=1.00(1.00, 1.00), P=0.043]. The nomogram prediction model constructed with two risk factors, ALBI grade and total surgery time, selected by LASSO regression, showed a good discrimination for the occurrence of severe complications after ELRA [area under the ROC curve (95%CI) of 0.717 (0.625, 0.808)]. The generalized linear regression model analysis identified the invasion of the portal vein to extent type P2 and more distant contralateral second portal vein branch invasion (type P3), as well as the presence of distant metastasis, as risk factors affecting total surgery time [β (95%CI) for type P2/type P1=110.26 (52.94, 167.58), P<0.001; β (95%CI) for type P3/type P1=109.25 (50.99, 167.52), P<0.001; β (95%CI) for distant metastasis present/absent=61.22 (4.86, 117.58), P=0.035]. ConclusionsFrom the analysis results of this study, for the end-stage HAE patients with portal vein invasion degree type P2, ALBI grade 2 or above, longer total surgery time, and more autologous blood transfusion need to be closely monitored. Preoperative strict evaluation of the first hepatic portal invasion and distant metastasis is necessary to reduce the risk of severe complications after ELRA. The nomogram prediction model constructed based on ABLI grade and total surgery time in this study demonstrates a good predictive performance for severe postoperative complications, which can provide a reference for clinical intervention decision-making.
ObjectiveTo explore the efficiency of two-stage hepatectomy applicated in complex alveolar echinococcosis. MethodThe clinical data of one case who suffered from complicated alveolar echinococcosis with multiple lesions and then treated with two-stage hepatectomy were analyzed retrospectively. ResultsPreoperative enhanced CT revealed that the hydatid lesion with irregular shape, measuring 14.1 cm×9.2 cm, invaded several segments including left medial lobe and right anterior lobe of liver and the right branch of portal vein and medium hepatic vein were entirely surrounded by it. After preoperative examination surgical exploration was performed, two larger lesions measuring 6 cm×5 cm×4 cm and 5 cm×4 cm×4 cm respectively were found in caudate lobe of liver, three smaller lesions were found in the right and left lobe of liver, among which two measured 2 cm×2 cm×1 cm in the right lobe and one measured 3 cm×2 cm×1 cm in the left lobe. Mesohepatectomy was performed in the first stage, the lesion in left medial lobe and right anterior lobe of liver and the right anterior branch of portal vein were resected during the procedure. The patient recovered well after the operation without complications such as bile leakage or hemorrhage observed. The second stage surgery was performed at three months after operation, the computed tomograph before the surgery revealed that the remained lesions in the right lobe of liver did not proceed obviously and the left lateral external lobe of liver regenerated significantly. In the second stage, the right anterior lobe and part of the right posterior lobe of liver were resected. The patient was discharged on 7 days after operation, and there was no complication and relapse during the 7 months of follow-up period. ConclusionTwo-stage hepatectomy applicated in treating complicated alveolar echinococcosis with multiple lesions is safe and feasible, offering a choice with smaller trauma, lower expense and less complications for patients compared with liver transplantation.