Objective To explore the effect of “in situ first” ex vivo liver resection and autologous liver transplantation (ELRA) for end stage hepatic alveolar echinococcosis (HAE). Methods The clinicopathologic data of 85 end stage HAE cases were initially scheduled underwent ELRA from June 2019 to May 2022 in the Sichuan Provincial People’s Hospital were collected retrospectively. The included cases were operated under “in situ first” ERLA principle. The analyzed data included the final surgical style, operative time, time of anhepatic phase and intraoperative blood transfusion volume for ELRA cases. Results All the included 85 cases underwent radical HAE lesions resection and without perioperative death occurred. According to the principle of “in situ first”, 57 cases underwent HAE lesions resection combined vascular reconstruction without ex vivo liver resection (in situ resection group); 1 case underwent auxiliary partial autologous liver transplantation, and 27 cases underwent ERLA procedures (ELRA group). In the in situ resection group, the operative time was 210–750 min, (380±134)min, and the intraoperative blood transfusion was 0–3 250 mL with a median of 0 mL. In the ELRA group, the operative time was 450–1 445 min, (852±203) min, and the intraoperative blood transfusion was 0–6 800 mL with a median of 1 960 mL. The operative time and the amount of blood transfusion in the ELRA group were longer or more than those in the in situ resection group. The time of anhepatic phase for the ELRA group was 60–480 min, (231±83) min. On the 5th day after operation, except that the total bilirubin and direct bilirubin in the ELRA group were higher than those in the in situ resection group, the other indexes of liver function were similar between the two groups. The postoperative stay in ICU and the total postoperative hospital stay in the ELRA group were longer than those in the in situ resection group. Conclusions The advantage of “in situ first” ERLA principle for end stage HAE patients include resecting the HAE lesions radically without ex vivo liver resection and alleviating the hepatic ischemia and reperfusion injury. For the inevasible ELRA cases, “in situ first” principle could shorten the anhepatic phase and reduce intraoperative blood loss, and turn some cases to auxiliary partial autologous liver transplantation, which will reduce the risk of postoperative hepatic failure.
Evidence from numerous animal models and clinical studies in recent years has demonstrated that macrophages play an important role in the regulation of liver fibrosis regression. The safety and efficacy of utilizing autologous macrophages for the treatment of liver fibrosis have been demonstrated in patients and shows promising application prospects, but the therapeutic effects need to be improved. Cirrhotic liver undergoes a process of marked extracellular matrix degradation after partial hepatectomy surgery, and single-cell sequencing identified multiple restorative macrophage subsets that express different matrix metalloproteinases (MMPs) at high levels. Future efforts to further characterize this population of macrophages and improve their enrichment in the liver may allow macrophage therapy to be a highly effective strategy to reverse liver fibrosis.
The global incidence of benign biliary tract diseases is high. Not only its anatomical variations are complex and the disease heterogeneity is strong, but also its preoperative assessment methods, surgical techniques and diagnostic and treatment strategies need to be improved. Consequently, patients have many perioperative complications and a poor long-term prognosis. According to the anatomical characteristics of the biliary tract and the pathophysiological characteristics of benign biliary diseases, we propose the surgical treatment concept of benign biliary tract diseases with the removal of the diseased bile duct tree drainage as the core, which is different from the traditional biliary surgery that takes “patency and obstruction” as the focus of treatment, and “alleviates symptoms” as the treatment goal. Through a series of improvements such as preoperative evaluation, surgical planning, surgical operations, and postoperative management, we have designed a series of innovative diagnosis and treatment strategies and procedures with the goal of curing biliary diseases, with a view to changing the diagnosis and treatment status of biliary surgery. We hope that can change the current the diagnosis and treatment status of biliary surgery.
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.
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 effect of hepatic outflow reconstruction with allograft vascular in ex-vivo liver resection and autologous liver transplantation.MethodThe clinical data of a patient with end-stage hepatic alveolar echinococcosis admitted to the Organ Transplantation Center of Sichuan Provincial People’s Hospital in August 2019 who underwent the ex-vivo liver resection and autologous liver transplantation combined with hepatic vein reconstruction with allograft vascular were analyzed retrospectively.ResultsThe patient, a 44-year-old female, was admitted to Sichuan Provincial People’s Hospital for “pain in the right abdomen accompanied by skin and sclera yellow staining for 6+ months and aggravated for 20+ d”. When the patient was admitted, the general condition was poor, such as hyperbilirubin and hypoproteinemia. The body mass was 45 kg and the standard liver volume was 852 mL. The hydatid lesions corroded the first and second hilum of the liver, the right hepatic vein and the posterior inferior vena cava. It was difficult to reconstruct the outflow tract of the hepatic vein in vivo, and it was extremely difficult to completely remove the hydatid lesions in vivo. After admission, the patient was generally in a good condition after the PTCD treatment, then after discussion and rigorous evaluation, the ex-vivo hepatectomy combined with autologous liver transplantation was required. The operative time was 15 h and the intraoperative blood loss was approximately 2 000 mL. After the operation, the routine treatment was performed, the antiviral treatment was continued, the international standardized ratio value was monitored at 1.5–2.5, and the anti-immune rejection drugs were not needed. The patient was transferred to the general ward on the 4th day after the operation, and there were no bile leakage, bleeding, infection and other complications. the result of postoperative pathological diagnosis was the alveolar echinococcosis. The re-examination of enhanced CT on 1 week after the operation suggested that the hepatic outflow tract of allograft vascular reconstruction was unobstructed, no stenosis and no thrombosis occurred. The patient was following-up at present.ConclusionsIn treatment of end-stage hepatic alveolar echinococcosis by autologous liver transplantation, reconstruction of hepatic outflow should be individualized. Allograft venous vessels could be used as ideal materials due to their advantages of matched tube diameter and length, no anti-rejection, and low risk of infection.
ObjectiveTo summarize the application status and progress of indocyanine green fluorescence imaging in laparoscopic anatomic liver resection , and to analyze its advantages, limitations, and prospects.MethodThe literatures about indocyanine green fluorescence imaging in laparoscopic anatomic liver resection were reviewed.ResultsIndocyanine green fluorescence imaging had been preliminarily used in the operation of liver tumors and had shown its unique value in the anatomical liver resection, providing a new way to reduce the recurrence of liver cancer, improve the therapeutic effect, and prolong the survival time of patients.ConclusionsThe clinical application of indocyanine green fluorescence imaging in anatomic liver resection is still at the stage of development and popularization. Although it has unique advantages and development potential, it needs to be further improved in the aspects of tissue penetration, specificity, and staining success rate.
ObjectiveTo find out the risk factors affecting the prognoses and microvascular invasion (MVI) of patients with China Liver Cancer Staging-stageⅠ a (CNLC Ⅰ a) hepatocellular carcinoma (HCC). MethodsBased on the established inclusion and exclusion criteria, the clinicopathologic information and follow-up data of patients with CNLC Ⅰ a HCC were retrospectively collected, who underwent radical resection in the West China Hospital of Sichuan University from Jan. 2012 to Dec. 2016. The Cox proportional hazards regression was utilized to analyze the risk factors affecting the prognosis of patients with CNLC Ⅰ a HCC, and the non-conditional logistic regression was utilized to analyze the preoperative clinical indicators associating with MVI. ResultsA total of 300 patients with CNLC Ⅰ a HCC were included in this study, among which 51 (17.0%) cases accompanied with MVI. The follow-up period ranged from 2 to 104 months (median 39 months), with a recurrence time ranging from 2 to 104 months (median 52 months), and an overall survival time ranging from 3 to 104 months (median 98 months). During the follow-up period, postoperative recurrence occurred in 145 (48.3%) cases. The Cox proportional hazards regression analysis revealed that: tumor diameter >3 cm, presences of MVI and satellite nodules increased the risk of shortened recurrence time for the patients with CNLC Ⅰ a HCC (P<0.05); Factors including gamma-glutamyltranspeptidase level >60 U/L, tumor low differentiation, presences of MVI and satellite nodules were associated with shortened overall survival time for the patients with CNLC Ⅰ a HCC (P<0.05). The preoperative alpha-fetoprotein level ≥400 μg/L and tumor diameter >3 cm increased the risk of presence of MVI for the patients with CNLC Ⅰ a HCC [χ2=3.059, OR(95%CI)=2.357(1.047, 5.306), P=0.038; χ2=3.002, OR(95%CI)=2.301(1.026, 5.162), P=0.043]. ConclusionThe results of this study suggest that adopting corresponding strategies to address the risk factors affecting prognosis of patients with CNLC Ⅰ a HCC and the risk factors associated with MVI can have a significant clinical impact on improving surgical treatment outcomes for these patients.
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 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.