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.
Hepatic alveolar echinococcosis (HAE) is a severe zoonotic disease caused by Echinococcus multilocularis, primarily affecting the liver. Due to its insidious nature, the patients are often diagnosed at advanced stage, posing significant treatment challenges. We comprehensively examines the progress in surgical techniques for HAE management, focusing on various strategies across different disease stages. For the patients with early-stage HAE, ablation therapy has emerged as an effective treatment option. In the moderate to advanced cases, numerous surgical techniques and innovative approaches have been introduced, including laparoscopic surgery and liver transplantation, with particular emphasis on ex vivo liver resection and autotransplantation. These advancements offer more effective treatment options for the patients with advanced HAE. However, significant challenges persist, notably the preservation of adequate liver function while achieving complete lesion removal. Future research should prioritize the exploration and optimization of existing surgical methods, especially for advanced HAE cases. This includes refining surgical techniques through precise preoperative evaluation and staging, as well as developing novel surgical approaches to enhance safety and efficacy. Furthermore, multicenter and long-term follow-up prospective studies are crucial for validating the effectiveness of new surgical techniques and strategies. Through these concerted efforts, it is anticipated that the survival rates and quality of life for HAE patients will significantly be improved, marking a new era in the management of this complex disease.
ObjectiveTo explore the influencing factors of textbook outcomes (TO) after radical resection for hepatic alveolar echinococcosis (HAE). MethodsClinical data from 427 patients diagnosed with HAE at the Ganzi Branch of West China Hospital, Sichuan University, between 2015 and 2022, were retrospectively collected. The least absolute shrinkage and selection operator regression (LASSO) was first used to screen potential influencing factors for achieving TO (predictive model A). Univariate and multivariate logistic regression analysis were then used to explore the influencing factors of TO (predictive model B). A Nomogram was further constructed and validated. ResultsA total of 427 patients who successfully underwent radical liver resection were included, of which 174 patients (40.7%) achieved TO. Compared to the non-TO group, patients in the TO group had higher proportions of WHO PNM stage of P 1+2 [62.6% (109/174) vs 42.3% (140/253)], N0 [77.0% (134/174) vs 63.6% (161/253)], lesion diameter≤10 cm [77.0% (134/174) vs 64.8% (164/253)], albumin-bilirubin index (ALBI) ≤–2.6 [70.1% (122/174) vs 59.3% (150/253)], and minor liver resection [71.8% (125/174) vs 50.2% (127/253)], higher prealbumin (181 mg/L vs 169 mg/L) and albumin (39 g/L vs 38 g/L) levels, shorter postoperative hospital stay (15 d vs 19 d), and lower hospitalization costs (51 727 RMB vs 62 715 RMB), P<0.05. LASSO regression analysis indicated that P stage, lesion diameter, ALBI, and liver resection method were potential influencing factors for achieving TO after HAE surgery (model A), P<0.05. The TO rate for P 1+2 stage was higher than that of P 3+4 stage, the TO rate for lesion diameter ≤ 10 cm was higher than that of lesion diameter >10 cm, the TO rate for ALBI ≤–2.6 was higher than that of ALBI >–2.6, and the TO rate for minor liver resection was higher than of major liver resection. Multivariate logistic regression analysis showed that P stage (OR=1.800, P=0.025) and liver resection method (OR=1.974, P<0.001) were influencing factors for achieving TO (model B). The TO rates for P1+2 stage and minor liver resection were higher. Predictive model A demonstrated higher accuracy and stability compared to predictive model B (AUC: 0.754 vs 0.712, C-index: 0.756 vs 0.707). ConclusionsAmong patients undergoing radical resection for HAE, less than half achieved TO. Striving to achieve TO can significantly shorten the length of hospital stay and effectively reduce medical costs. The TO predictive model based on P stage, lesion diameter, ALBI, and liver resection method is superior to the model based solely on P stage and liver resection method.
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 summarize short-term and long-term effects of ex vivo liver resection followed by autotransplantation (Abbreviation: autotransplantation) in treatment of advanced hepatic alveolar echinococcosis (HAE).MethodThe clinical data and follow-up data of 17 patients with advanced HAE who underwent autotransplantation from November 2016 to July 2019 in the Ganzi Tibetan Autonomous Prefecture People’s Hospital were retrospectively analyzed.ResultsThe autotransplantations were performed successfully in the 17 patients with advanced HAE. Ten patients underwent the inferior vena cava (IVC) reconstruction with autologous saphenous veins, 5 patients underwent the artificial revascularization, 1 patient underwent the direct anastomosis of the original IVC, and 1 patient didn’t reconstructed (the retroperitoneal collateral circulation was abundant). The mean liver graft mass was 681.3 g (365–1 350 g) and operation time was 11.5 h (9–16 h). The median anhepatic period was 312 min (175–450 min), blood loss was 2 000 mL(950–4 500 mL), red blood cell suspension transfusion was 6.4 U (1–20 U), and fresh frozen plasma was 1.1 L (0.8–2.0 L). The postoperative hospital stay was 5 to 45 d with an average of 25.6 d. There were 4 patients with the postoperative hepatic enveloping effusion, 1 patient with bile leakage, and 1 patient with bile duct stenosis. All of them were treated and cured, and no death occurred. The follow-up time of 17 patients was 3 to 35 months with an average of 9.5 months, no recurrence of HAE and distant metastasis were observed.ConclusionsIn highlands, autotransplantation in treatment of advanced HAE patients with different IVC reconstruction is satisfactory, but it has a higher risk and is difficult. Choice of intraoperative reconstruction materials, judgment of posterior peritoneal collateral circulation, presence or absence of tension in end-to-end anastomosis of the IVC require precise consideration. At the same time, anticoagulation therapy and complications management are difficult, and it is only suitable for plateau medical center with rich experience.
ObjectiveTo explore the clinical application of in vivo hepatectomy with preservation of retrohepatic inferior vena cava (IVC) for hepatic alveolar echinococcosis (HAE) with the invasion of IVC. MethodsThe clinicopathologic data of a complicated HAE patient with large lesion (maximum cross-section 12.6 cm×9.6 cm), infiltrative growth, unclear boundary with surrounding tissues, and invasions of diaphragm and IVC (invasion length up to 4.6 cm) admitted to the Department of Liver Surgery in the West China Hospital of Sichuan University in December 2021 was retrospectively collected. The three-dimensional reconstruction of the liver model was performed by Mimics Medical 21.0 software before operation. The invading IVC of the right liver lesion was measured and the resection was simulated. During the operation, the HAE lesion and the affected IVC were gradually separated from IVC by the hemostatic forceps, and the residual lesions were gradually removed. ResultsIn this patient, the HAE lesion of right liver was resected, the IVC was entirely preserved, and the resection of liver was consistent with the preoperative three-dimensional reconstruction plan. The operation time was 275 min, the bleeding was approximately 500 mL. On the first day after the operation, the alanine aminotransferase and aspartate aminotransferase were increased, no obvious abnormalities were observed in the plasma albumin and bilirubin, the patient recovered and was discharged on the seventh day after the operation. No complications occurred after the operation, and no recurrence or metastasis of HAE was observed during follow-up period. ConclusionsHepatectomy with preservation of retrohepatic IVC for HAE with invasion of IVC is safe and effective. Taking albendazole regularly after surgery will help maintain disease-free survival.
Objective
To evaluate effects of three-dimensional (3D) visualized reconstruction technology on short-term benefits of different extent of resection in treating hepatic alveolar echinococcosis (HAE) as well as some disadvantages.
Methods
One hundred and fifty-two patients with HAE from January 2014 to December 2016 in the Department Liver Surgery, West China Hospital of Sichuan University were collected, there were 80 patients with ≥4 segments and 72 patients with ≤3 segments of liver resection among these patients, which were designed to 3D reconstruction group and non-3D reconstruction group according to the preference of patients. The imaging data, intraoperative and postoperative indicators were recorded and compared.
Results
The 3D visualized reconstructions were performed in the 79 patients with HAE, the average time of 3D visualized reconstruction was 19 min, of which 13 cases took more than 30 min and the longest reached 150 min. The preoperative predicted liver resection volume of the 79 patients underwent the 3D visualized reconstruction was (583.6±374.7) mL, the volume of intraoperative actual liver resection was (573.8±406.3) mL, the comparison of preoperative and intraoperative data indicated that both agreed reasonably well (P=0.640). Forty-one cases and 38 cases in the 80 patients with ≥4 segments and 72 patients with ≤3 segments of liverresection respectively were selected for the 3D visualized reconstruction. For the patients with ≥4 segments of liver resection, the operative time was shorter (P=0.021) and the blood loss was less (P=0.047) in the 3D reconstruction group as compared with the non-3D reconstruction group, the status of intraoperative blood transfusion had no significant difference between the 3D reconstruction group and the non-3D reconstruction group (P=0.766). For the patients with ≤3 segments of liver resection, the operative time, the blood loss, and the status of intraoperative blood transfusion had no significant differences between the 3D reconstruction group and the non-3D reconstruction group (P>0.05). For the patients with ≥4 segments or ≤3 segments of liver resection, the laboratory examination results within postoperative 3 d, complications within postoperative 90 d, and the postoperative hospitalization time had no significant differences between the 3D reconstruction group and the non-3D reconstruction group (P>0.05).
Conclusion
3D visualized reconstruction technology contributes to patients with HAE ≥4 segments of liver resection, it could reduce intraoperative blood loss and shorten operation time, but it displays no remarkable benefits for ≤3 segments of liver resection.
ObjectiveTo explore the reasonable and feasible safe distance for radical resection of hepatic alveolar echinococcosis (HAE). MethodsLiver samples were collected prospectively from 20 HAE patients (from Jan. 2019 to Jun. 2019) undergoing liver resection in West China Hospital of Sichuan University. A total of three samples containing lesion and adjacent liver tissue were collected from each patient, which were divided into lesion group, 0 to0.5 cm liver tissue group (contained 0.5 cm), 0.5 to 1.0 cm liver tissue group (contained 1.0 cm), 1.0 to 1.5 cm liver tissue group (contained 1.5 cm), and 1.5 to 2.0 cm liver tissue group (contained 2.0 cm). Comparisons of the Cox1 expressionand the liver fibrosis area between HAE lesion and adjacent liver tissues were performed. ResultsBoth expression of Cox1 and fibrosis area in HAE lesion were significantly higher than those in the adjacent liver tissues (P<0.000 1). However, there was no significant difference among the four kinds of adjacent liver tissues (P>0.05). There was a significant positive correlation between the expression of Cox1 and the fibrosis area both in HAE lesion and adjacent liver tissues (P<0.05). ConclusionsBoth the expression of Cox1 and degree of the liver fibrosis are significant higher in HAE lesion comparing to adjacent liver tissues, however, no significant difference is found among adjacent liver tissues. Consequently, a safe distance of 0.5 cm may be reasonable and feasible on the basis of the criteria for sample collection in the study.
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.
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.
