Objective To report the authors’ own experience and results of recent studies of anatomical liver resection for patients with hepatocellular carcinoma (HCC). Methods From January 2004 to June 2005, anatomical liver resection procedure were completed in 93 patients with HCC. Surgical techniques were designed to reduce intraoperative blood loss, blood transfusion and postoperative complications by parenchymal crushing with kelly forceps, inflow and outflow selective clamping. In 13 patients with large liver tumors, liver hanging maneuver performed in the course of hemihepatectomy. Liver transection with intermittent closure of the blood influx to the liver, using a Pringle manoeuvre. Results Of 93 patients undergoing hepatectomy for HCC, underlying cirrhosis was present in 82 (88%) patients. The median blood loss was 300 ml (100-6 000 ml) and 71%(66/93) of the patients did not require blood transfusion.The postoperative complication rate was 34%(32/93), complications were primarily subphrenic collection (8 cases). Within 30 postoperative days, no death was recorded. Conclusion The anatomical liver resection of HCC may be improve the surgical outcome.
Objective?To approach feasibility, safety, and the application range of pure laparoscopic resection (PLR), hand-assisted laparoscopic resection (HALR), and robotic liver resection (RLR) in the minimally invasive liver resection (MILR). Methods?The clinical data of 128 patients underwent MILR in the Surgical Department of the Shanghai Ruijin Hospital from September 2004 to January 2012 were analyzed retrospectively. According to the different methods, the patients were divided into PLR group, HALR group, and RLR group. The intraoperative findings and postoperative recovery of patients in three groups were compared.?Results?There were 82 cases in PLR group, 3 cases of which were transferred to open surgery;the mean operating time was (145.4±54.4) minutes (range:40-290 minutes);the mean blood loss was (249.3±255.7) ml (range:30-1 500 ml);abdominal infection was found in 3 cases and biliary fistula in 5 cases after operation, but all recovered after conservative treatment;the mean length of hospital stay was (7.1±3.8) days (range:2-34 days). There were 35 cases in HALR group, 3 cases of which were transferred to open surgery;the mean operating time was (182.7±59.2) minutes (range:60-300 minutes);the mean blood loss was (754.3±785.2) ml (range:50-3 000 ml);abdominal infection was found in 1 case, biliary fistula in 2 cases, and operative incision infection in 2 cases after operation, but all recovered after conservative treatment;the mean length of hospital stay was (15.4±3.7) days (range:12-30 days). There were 11 cases in RLR group, 2 cases of which were transferred to open surgery; the mean operating time was (129.5±33.5) minutes (range:120-200 minutes); the mean blood loss was (424.5±657.5) ml (range:50-5 000 ml); abdominal infection was found in 1 case and biliary fistula in 1 case after operation, but all recovered after conservative treatment; the mean length of hospital stay was (6.4±1.6) days (range:5-9 days). The operating time (P=0.001) and length of hospital stay (P=0.000) of the RLR group were shortest and the blood loss (P=0.000) of the PLR group was least among three groups. Conclusions?Minimally invasive resection is a safe and feasible. Different surgical procedures should be chosen according to different cases. The robotic liver resection provides new development for treatment of liver tumor.
Objective To systematically evaluate effects of enhanced recovery after surgery (ERAS) programme on clinical outcomes of liver resection during perioperative period. Methods The randomized controlled trials (RCTs) of comparing ERAS programme with traditional care programme in patients underwent liver resection were searched by Wanfang, VIP, CNKI, PubMed, Embase, and Cochrane Library databases from inception to January 2016. The quality of the included RCT was assessed independently according to the Cochrane handbook–version 5.1.0 by two reviewers. Meta-analysis was conducted for the eligible RCTs by using RevMan 5.3.0. Results Seven RCTs containing 844 patients were included in this meta-analysis. There were 35 cases of benign tumor, 809 cases of malignant tumor. The ERAS programmes were performed in 415 patients, while the traditional care programmes were performed in 429 patients. Compared with the traditional care programme, the overall complications rate and the Dindo-Clavien grade Ⅰ complications rate were significantly lower〔OR=0.59, 95%CI (0.41, 0.87),P=0.007;OR=0.45, 95%CI (0.27, 0.76),P=0.002〕, the hospital stay and the first anal exhaust time were significantly shorter〔WMD=–2.66, 95%CI (–3.64, –1.69),P<0.000 01;WMD=–20.25, 95%CI (–32.08, –8.42),P=0.000 8〕 in the ERAS programme, but there was no statistically significant difference of the Dindo-Clavien grade Ⅱ–Ⅳ complications rate between these two groups〔OR=0.93, 95%CI (0.53, 1.63),P=0.80〕. Conclusions ERAS is a safe and effective programme in liver resection during perioperative period. Future studies should define active elements to optimize postoperative outcomes for liver resection.
Objective To verify the feasibility and effectiveness of the modified fast-track surgery (FTS) in the perioperative period of open liver resection. Methods A prospective randomized controlled trial was carried out in 188 consecutive patients undergoing open liver resection between March and December 2014 in the Department of Liver Surgery of West China Hospital. The modified fast recovery procedure and standard rehabilitation procedure were compared in terms of length of hospital stay after operation, hospitalization cost, complications and readmission rate. Results A total of 188 consecutive patients were enrolled in the trial. The analysis included 87 patients in the modified fast recovery group and 89 in the standard rehabilitation group. Compared with the standard rehabilitation group, the modified fast recovery group had a shorter length of hospital stay [(5.70±1.47)vs. (7.26±1.96) days] and a lower cost [(42.7±6.7)vs. (47.3±12.5) thousand yuan], and the differences were statistically significant (P<0.05). There were 20 complication cases in the modified group and 39 in the standard group with significant difference (P=0.003). There was no significant difference in the rate of readmission between the two groups (P=1.000). Compared with the standard group, patients in the modified group had less pain 8 hours, the 1st and 2nd days after surgery, better postoperative activities of daily living, more initiative cough times and off-bed activity times, longer duration of movement, and earlier bowel recovery and exhausting, and all the above differences were significantly different (P<0.05). Stepwise regression analysis showed that postoperative complications and bowel recovery and exhausting time were independent related factors for postoperative hospital stay (P<0.001). Conclusions Multimodal analgesia-based fast recovery procedure is feasible and effective in the perioperative period of partial hepatectomy. It can shorten the time of hospitalization and reduce the cost of hospitalization.
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.
Objective To evaluate the safety and efficacy of surgical resection for the second and the third hepatic portal tumor. Methods The clinical data of 39 patients who underwent surgical resection of the second and the third hepatic portal tumor were analyzed from May 2012 to May 2017 in our hospital. Among them, there were 29 patients with primary liver cancer, 6 patients with hepatic hemangioma, 2 patients with focal liver hyperplasia, and 2 patients with liver metastasis from colon cancer. Results Right liver resection was performed in 11 patients, left liver resection in 7 patients, left outer lobe resection in 6 patients, right trefoil excision in 5 patients, Ⅴand Ⅷ segment resection in 4 patients, Ⅶ and Ⅷ segment resection in 4 patients, local resection in 2 patients. In the resection, there were 16 patients without interruption of hepatic inflow, 21 patients with interrupted portal blood flow, 2 patients with total hepatic blood flow occlusion. The operative time of the 39 patients was 150–270 min (mean of 190 min), the intraoperative blood loss was 100–2 000 mL (mean of 680 mL). Postoperative bile leakage occurred in 2 patients, bleeding occurred in 1 patient, and no liver failure occurred. Twenty-six patients were followed-up of 31 liver cancer patients, and the follow-up time was 3–40 months, the median time was 8 months. During follow-up period, 12 patients died, 9 patients died of tumor recurrence, 3 patients died from liver failure. Of 8 patients, 5 patients with benign liver disease were followed-up for 7–18 months with living healthy, and the median time was 9 months. Conclusion The risk of surgical resection of tumors invaded the second and the third hepatic portal is mainly the accurate functional assessment of residual liver and the correct treatment of the main branches of the hepatic veins.
Objective To explore the correlations between the time of tracheal extubation and the intraoperative basic factors of ex vivo liver resection followed by autotransplantation in patients with advanced hepatic alveolar echinococcosis (HAE), and analyze the change trend of blood gas analysis during operation. Methods The data of 24 patients with advanced HAE who underwent ex vivo liver resection followed by autotransplantation in West China Hospital of Sichuan University between February 2014 and August 2017 were retrospectively analyzed. Results There were significant correlations between the extubation time and the duration of anesthesia (r=0.472, P=0.031), the amount of bleeding (r=0.524, P=0.015), the amount of erythrocyte suspensions infusion (r=0.627, P=0.002), and the amount of plasma infusion (r=0.617, P=0.003). There was no statistical difference in extubation time between patients with and without pulmonary complications in 3 months postoperatively [(23.74±15.84), (15.52±19.40) h, P=0.327]. Compared with those arterial blood gas results before the interruption, the pH value, blood glucose, lactic acid and base excess were statistically significantly different (P<0.05) at each time point after the interruption. Blood potassium increased at the end of operation compared with that before interruption (P<0.05); and the free calcium after blocking and opening increased with a temporary decrease (P<0.05); the hemoglobin decreased significantly after interruption and clamping (P<0.05). Conclusions Anesthesia length and bleeding should be reduced in ex vivo liver resection followed by autotransplantation, thus the extubation time would be shortened and the prognosis of the patients might be improved. Because of the longer anhepatic phase, the blood gas analysis varies largely. During operation, blood gas analysis and monitoring should be strengthened, and the acid-base balance and electrolytes should be maintained in time.
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 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.
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.