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.
Objective To summarize the research status of echinococcosis- specific vaccine antigens, analyze their sources and application prospects, and to provide new ideas for the development of echinococcosis vaccine antigens and drug treatment. Method Research on echinococcosis-specific vaccine antigens at home and abroad was searched and reviewed. Results Natural hydatid antigens, such as cystic fluid crude antigen, protoscolex segment, germinal layer, etc. often appear due to the difficulty of material acquisition and cumbersome preparation, resulting in unstable evaluation indicators such as sensitivity and specificity. The gene or protein sequences of a new recombinant hydatid antigen was accessible, the reproducibility and specificity were better, and it was more suitable for batch production testing, which was the main direction of current research, such as rAgB8/1, rEm18, rEm2, etc. Conclusions Vaccine development is one of the main directions for the elimination of hydatidosis. In the interaction between echinococcus and human or animal hosts, the natural structural proteins or excretion/secretion proteins of echinococcus stimulate the host to produce anti-parasites immunity and immune clearance, and the search for these specific protein antigens is of great significance for vaccine development, and new drug treatment.
Objective To understand the advances in animal model and basic research of associating liver partition and portal vein ligation for staged hepatectomy (ALPPS), and to provide new ideas for basic research and clinical application of ALPPS. Methods The literatures on the basic research and animal models of ALPPS were analyzed and reviewed. Results By March 2018, there were 19 articles related to ALPPS animal models published, including 11 rat model articles, 4 mouse model articles, 2 pig model articles, 1 rabbit model article, and 1 sheep model article. These models of ALPPS were mainly simulated in normal liver background (16 articles), only 2 mouse model of colorectal liver metastasis and 1 rat model of ALPPS under the sclerotic liver background on Chinese article. In cases of rat’s models, portal blood flow deprivation of 20%–90% was finished by portal vein ligation, and the liver was localized and segmented according to the ischemic line and the ligaments of the liver, and the liver partition was mostly sutured and electrocoagulated to stop bleeding. In the above models, remnant liver hyperplasia was observed after surgery. The main causes of hyperplasia were serum cytokines-mediated [hepatocyte growth factor (HGF), interleukin-6 (IL-6), tumor necrosis factor-alpha (TNF-α), and so on] enhancement of proliferative gene, and secondly preservation of the portal vein lobes to increase blood volume and to accelerate liver proliferation. ConclusionsThe animal model is the main tool to study the safety of ALPPS and liver regeneration, but there are still few studies in the models with liver cirrhosis and liver tumors. The mechanism of liver regeneration after ALPPS is still unclear, and more basic experiments and clinical cases are needed for further study.
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.
Objective To explore feasibility and safety of ex vivo liver resection and autotransplantation in treating end-stage hepatic alveolar echinococcosis combined with secondary cavernous transformation of portal vein. Methods The patient was diagnosed with the end-stage hepatic alveolar echinococcosis combined with secondary cavernous transformation of portal vein. The ultrasonography, computed tomography, and magnetic resonance imaging were used to access the characteristics of the lesions and the extent of involvement of the portal vein and its branches. The liver model was reconstructed using a three-dimensional imaging data analysis system (EDDA Technology, Inc. USA), the remnant liver volume and the extent of involvement of the first hepatic hilum were recorded. Then the multidisciplinary team repetitively discussed the risks and procedures involved in the surgery. Finally, the ex vivo liver resection and autotransplantation was proposed. Results The preoperative evaluation showed the patient had a large intrahepatic lesion which severely invaded the retrohepatic inferior vena cava, the right hepatic vein, and the middle hepatic vein and were completely occluded, the left hepatic vein was partially invaded, and the portal vein was spongiform. The remnant liver volume was 912 mL, the ratio of residual liver volume to standard liver volume was 0.81. The preoperative liver function Child-Pugh score was grade A. The ex vivo liver resection and autotransplantation was successfully managed according to the expected schedule. The autografts (made by patient’s great saphenous vein) were used to reconstruct the hepatic vein and portal vein, and the retrohepatic inferior vena cava was not reconstructed. The patient recovered well and was discharged on day 20 after the operation. Conclusions Ex vivo liver resection and autotransplantation could successfully be applied in treating patient with end-stage hepatic alveolar echinococcosis combined with secondary cavernous transformation of portal vein. Adequate preoperative assessment and management of the first hepatic hilum are key to this operation.
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 formulate the classification criteria of femoral intertrochanteric fractures based on irreducibility or not in order to predict the difficulty of fracture recovery.MethodsA clinical data of 244 patients with closed femoral intertrochanteric fractures admitted between January 2017 and March 2020 was retrospectively analyzed. There were 116 males and 128 females with an average age of 77.9 years (range, 45-100 years). The cause of injury included falling in 190 cases, traffic accident in 36 cases, smashing in 13 cases, and falling from height in 5 cases. The time from injury to operation was 1-14 days (mean, 3.6 days). According toAO/Orthopaedic Trauma Association (AO/OTA) classification, the fractures were classified as type 31-A1 in 38 cases, type 31-A2 in 160 cases, and type 31-A3 in 46 cases. According to whether the recovery difficulty occurred after intraoperative closed traction reset, the patients were divided into reducible-group and irreducible-group; combined with the literature and preoperative imaging data of two groups, the classification criteria of femoral intertrochanteric fractures was formulated based on the irreducibility or not. The 244 fractures were classified by the doctors who did not attend the operation according to the classification criteria, predicted the difficulty of fracture reduction, and compared with the actual intraoperative reduction situation.ResultsThe 244 patients were divided into reducible-group (n=164, 67.21%) and irreducible-group (n=80, 32.79%) according to the intraoperative difficulty of reduction. Comparing the imaging data and characteristics of the two groups, and formulating the classification criteria of femoral intertrochanteric fractures based on irreducibility or not, the fractures were mainly divided into two categories of irreducibility and reducibility. The fractures of irreducibility category was divided into typesⅠ-Ⅴ, among which type Ⅲ was divided into subtypes 1-4; the fractures of reducibility category was divided into typesⅠand Ⅱ. Compared with the actual intraoperative evaluation results, the total accuracy rate of the doctors who did not attend the operation was 81.15% (198/244) based on the classification criteria of femoral intertrochanteric fractures. The accuracy rate of irreducibility category was 65.74% (71/108), and the reducibility category was 93.38% (127/136). All patients were followed up 13-25 months, with an average of 17.6 months. All fractures healed except 2 cases died of infection.ConclusionThe classification criteria of femoral intertrochanteric fractures based on irreducibility or not can accurately predict the reducible cases preoperatively, and most of the irreducible cases can be correctly predicted in a wider way. But the classification criteria still need to be further improved and supplemented.
Objective To summarize the methods, safety, and efficacy of the ex vivo liver resection followed by autotransplantation in the treatment of advanced hepatic alveolar echinococcosis (HAE). Method A retrospective analysis of clinical data and follow-up data in 21 cases who received ex vivo liver resection followed by autotransplantation in the treatment of HAE from February 2014 to December 2016 in West China Hospital was performed. Results All the patients successfully underwent ex vivo liver resection followed by autotransplantation and no death happened during operation. The median weight of remnant liver was 701.4 g (360–1 300 g), the average operation time were 13.6 h (9.4–19.5 h), the anhepatic phase time were 180–455 min with median of 314 min. The average of intraoperative blood loss were 2 379 mL (1 200–6 000 mL). The average of patients entered red blood cell suspension were 10.6 u (0–39.5 u), the average of fresh frozen plasma were 1 377 mL (0–6 050 mL) , of which 7 patients received autologous blood transfusion, with average of 1 578 mL (500–3 700 mL). The average of postoperative hospital stay were 23.5 days (4–51 days). Postoperative complications occurred in 12 patients during hospitalization, and 4 cases of postoperative complications were in grade Clavien-Dindo Ⅲ or above, 2 cases of grade Ⅴ (died). During the follow-up period, 19 patients were followed for a median of 16.2 months (3–38 months), no HAE recurrence or metastasis was found, only 1 patient were lost follow-up after surgery for 12 months. Massive ascites and hyponatremia were found in 1 patient who was diagnosis as left hepatic vein stenosis at the end of the 3 months after operation. The patient was cured after interventional treatment of hepatic vein stent implantation and angioplasty. Conclusions The ex vivo liver resection followed by autotransplantation provides radical treatment for patients with advanced HAE, but the surgery is difficult and has high risk of postoperative complications. The detailed preoperative evaluation, intraoperative pipeline reconstruction reasonably, and fine postoperative management can improve the patient’s survival, and reduce the rate of complications.