key: cord-0006730-w6i53vke
authors: Yu, Zhimin; Zhu, Jie; Jiang, Hai; He, Chuanchao; Xiao, Zhiyu; Wang, Jie; Xu, Junyao
title: Surgical Resection and Prognostic Analysis of 142 Cases of Hilar Cholangiocarcinoma
date: 2017-01-07
journal: Indian J Surg
DOI: 10.1007/s12262-016-1581-z
sha: 17480e9fe10045032fafbab159a174b0d5a6117b
doc_id: 6730
cord_uid: w6i53vke

Surgical resection for hilar cholangiocarcinoma is the only curative option, but low resectability rate and poor survival outcomes remain a challenge. This study was to assess the surgical resection for hilar cholangiocarcinoma and analyze the prognostic factors influencing postoperative survival. One hundred forty-two patients with hilar cholangiocarcinoma who underwent surgical resection between January 2006 and December 2014 were analyzed retrospectively based on clinicopathological and demographic data. Univariate and multivariate analysis against outcome were employed to identify potential factors affecting prognosis. Ninety-five patients were performed with R0 resection with median survival time of 22 months; whereas, 47 patients underwent non-R0 resection (R1 = 20, R2 = 27) with that of 10 months. Of these 95 patients, 19 underwent concomitant with vascular resection and reconstruction and 2 patients underwent pancreaticoduodenectomy. 64.8% patients (n = 92) underwent combined with hepatectomy. The one-year, three-year, and five-year survival rates after R0 resection were 76.3, 27.8, 11.3%, respectively, which was significantly better than that after non-curative resection (P = 0.000). Multivariate analysis revealed that non-curative resection (RR: 2.414, 95% CI 1.586–3.676, P = 0.000), pathological differentiation (P = 0.015) and preoperative serum total bilirubin above 10 mg/dL (RR: 1.844, 95% CI 1.235–2.752, P = 0.003) were independent prognostic factors. Aggressive curative resection remains to be the optimal option for hilar cholangiocarcinoma. Non-curative resection, pathological differentiation, and preoperative serum total bilirubin above 10 mg/ dL were associated with dismal prognosis.

Hilar cholangiocarcinoma (HCCA) comprising approximately 50% of all malignant bile duct tumors, is an intractable cancer [1] , which requires a high level of expertise in hepatobiliary surgery due to the deep anatomical location of tumor [2, 3] . In addition, curative resection for HCCA is a complex procedure involving hepatectomy, lymphadenectomy, vascular resection and reconstruction, even pancreaticoduodenectomy (PD) [4, 5] . Consequently, curative resection is a challenging surgery and carries with a considerable risk of mortality and severe postoperative morbidity [6, 7] . Undoubtedly, curative resection offers HCCA patients the only potential chance for long-term survival, but the rates of mortality and morbidity require further improvement [8] . Meanwhile, many definitive prognostic factors affecting the postoperative survival have not been identified and accepted by surgeons [9] [10] [11] [12] [13] , despite majority investigations have focused on this field. Therefore, the aims of this study were to assess the surgical management for HCCA and analyze potential factors influencing postoperative prognosis.

Zhimin Yu and Jie Zhu are co-first authors and contributed equally to this work. With the approval of local institutional review board, we reviewed the medical records of all potential candidates for surgery. Seventy-four patients without any surgical interventions were excluded due to multiple metastasis, severe preoperative malnutrition, compromised liver function or severe involvement of contralateral major vessels. Therefore, curative-intent laparotomy was conducted in the remaining 142 patients. Consequently, 95 patients underwent curative resection (R0 resection) and 47 patients were performed with palliative resection (R1 = 20, R2 = 27). All the 142 patients were enrolled into this study.

To comprehensively evaluate disease lesion and assess surgical resectability, the laboratory and imaging examinations were carried out for all candidates. The lesion location, proximal and distal extension of tumor as well as vascular involvement extent were evaluated by ultrasonography, multidetector row computed tomography (MDCT), and magnetic resonance cholangiopancreatography (MRCP). Patients who were scheduled to accept major hepatectomy with preoperative serum total bilirubin over 11.70 mg/dL (200 μmol/L) were suggested with biliary drainage prior to surgery. None of patients underwent portal vein embolization (PVE). Percutaneous transhepatic cholangial drainage (PTCD) under ultrasound guidance was performed for 33 patients and 4 patients underwent endoscopic nasobiliary drainage (ENBD). When the surgical approach of extended hepatectomy was established preoperatively, three dimensional computed tomography (3-D CT) volumetry was applied to calculate the remnant liver in order to avoid hepatic failure postoperatively. Definitive surgery arrangement was carried out when preoperative serum total bilirubin level decreased to below 11.70 mg/dL (200 μmol/L), whereas those without biliary drainage were performed with surgery within 7 days.

Surgical resections consisting of hemihepatectomy, extended hemihepatectomy, central hepatectomy, and external bile duct resection with or without caudate lobectomy were carried out on individuals referring to Bismuth-Corlette classification with imaging information. Locoregional lymphadenectomy including nodes at the hepatoduodenal ligament and upper part of the retropancreatic, and celiac nodes was routinely carried out. Upon the completion of the tumor resection, the biliary tract reconstruction was reestablished by Roux-en-Y bilioenteric anastomosis. Vascular resection and reconstruction was carried out only when vessels adhered to and could not be freed from tumor entity during skeletonization of the hepatoduodenal ligament, regardless of whether the macrovascular invasion was detected preoperatively by MDCT [14] . Meanwhile, the end-to-end anastomosis model or vascular prothesis was employed to reestablish vascular continuity.

Pathologic verification was performed for all resected specimens. R0 resection was of microscopically tumor-free and a microscopically positive margin was defined as R1 resection. R2 resection meant grossly positive margins. According to the predominant pathologic grade of differentiation, tumor was mainly classified as three types: well-differentiated, moderately differentiated, and poorly differentiated adenocarcinoma. Apart from these, perineural invasion, lymph nodal metastasis, vascular invasion including hepatic artery, portal vein, and tumor thrombi were also assessed.

Mortality was defined as any postoperative death occurring inhospital stay. Major complications were regarded as having a grade of III-IV according to Clavien-Dindo classification [15] .

Continuous variables were expressed as median and range. The category variables were expressed as numbers. Cumulative survival time counted from the month of surgery was calculated with the Kaplan-Meier method and difference in survival curves was compared through log-rank test. A Student's t test (two-tailed) or Mann-Whitney U tests and χ 2 test or Fisher's exact test were used to analyze continuous or categorical variables, respectively. A multivariate Cox proportional hazards regression analysis (enter method) was performed to identify variables with P values less than 0.05 in the univariate analysis. P values less than 0.05 was considered to be significant. The statistical analyses were performed with SPSS 17.0.

The current study population consisted of 84 male and 58 female patients with a mean age of 59.5 years (range, 28-82 years). According to Bismuth-Corlette classification, 16 (11.27%) patients were with type I, 15 (10.56%) with type II, 17 (11.97%) with type IIIA, 38 (26.76%) with IIIB, and 56 (39.44%) with IV. Clinicopathological and demographic features of these candidates showed no significant difference factors between these with R0 resection and those with noncurative resection, except for perineural invasion ( P = 0.000) ( Table 1) .

In the whole cohort, 95 patients were performed with R0 resection, while the remaining 47 underwent non-curative resection including R1 resection (n = 20) and R2 resection (n = 27). A total of 92 patients (92/142, 64.8%) underwent combined with hepatectomy. Meanwhile, 34 out of these 92 (37.0%) patients underwent caudate lobectomy. Consequently, the R0 resection rate of those who underwent combined with hepatectomy was 75% (69/92). In addition, another 2 patients with type I lesion were conducted with PD. The details of surgical procedures of candidates who underwent surgery were depicted in Table 2 .

Vascular resection and reconstruction was carried out in 19 patients including right hepatic artery alone (n = 6), portal bifurcation plus right hepatic artery (n = 3), and portal bifurcation alone (n = 10). The portal vein reconstruction was by model of end-to-end anastomosis (n = 12) and vascular prothesis (n = 1) between the residual trunk and corresponding branch, and the hepatic arterial reconstruction were based on fashion of end-to-end (n = 4) or with gastroduodenal artery anastomosis (n = 2 ).

The median postoperative hospital stay was 23 days (range 13-119 days) with curative resection and 14 days (8-105 days) with non-curative resection. The cumulative overall 1-year, 3year, and 5-year survival rates were 76.3, 27.8, and 11.3%, respectively, in curative resection group vs 36.4, 10.8, and 0% in non-resection group (P = 0.000). Median survival time after curative resection was 22 and 10 months after non-curative resection.

The perioperative overall mortality rate in this study was 7.0% (10/142). Mortality occurred to 10 patients consisting of 4 in curative resection group and 6 in non-curative resection group. The main causes of mortality included hepatic failure resulting in multiple organ failure (n = 6), pneumonia causing respiratory failure (n = 2), postoperative gastrointestinal hemorrhage (n = 1), and anastomosis site leakage (n = 1). A total of 83 patients suffered from postoperative complications with the overall morbidity rate of 58.5%. Meanwhile, 27.5% patients (39/83) encountered major complications (grade III to IV). Bile leakage was the most frequent complication and observed in 38 patients. Relaparotomy was required in 6 patients due to intra-abdominal bleeding (n = 4) and bilioenteric anastomosis bleeding (n = 2) within 7 days postoperatively. The details of postoperative complications were summarized in Table 3 .

Univariate analysis suggested CA19-9, preoperative serum total bilirubin, marginal status, pathological differentiation, and lymph nodes status were significant predictors for poor survival (Table 4 ). Meanwhile, Cox multivariate analysis disclosed that non-curative resection (RR: 2.414, 95% CI 1.586-3. 676, P = 0.000), pathological differentiation (P = 0.015), serum total bilirubin ≥10 mg/dL (RR: 1.844, 95% CI 1.235-2.752, P = 0.003) were independent prognostic factors ( Fig. 1 ).

Surgical resection has been recognized as an only potential curative option for HCCA [1, 2] . Despite close proximity to hilum vital structures and longitudinal extension of HCCA make curative resection a challenge, an improvement in postoperative survival has been reported with the advances of surgical techniques. The recent literature reviews of highvolume center of HCCA treated surgically indicate the median survival time is 16-40 months with 5-year survival rate of 11-40%, and perioperative mortality rate is around 10% with morbidity rate of approximate 42-75% [2, 4, 9, 13, 16, 17] . In the present study, combined hepatectomy including caudate lobectomy was conducted in 64.8% patients (92/142), and 13.39% patients (19/142) underwent concomitant vascular resection and reconstruction. Besides that, it was noted that 66.20% patients (94/142) who underwent surgical resection were with type III (IIIA or IIIB) or type IV lesion. Consequently, the one-year, three-year, and five-year survival rates in curative resection group were 76.3, 27.8, and 11.3%, respectively, and overall morbidity rate was 58.3% with perioperative mortality of 7.0%. Despite our results was not enough favorable but acceptable, at least, which was compatible with that reported in previous published series.

It is an incontrovertible fact combined hepatectomy or extended hepatectomy have markedly increased the resectable rate of HCCA [6, 18, 19] . It has been increased from traditionally 30% to currently 49.2-95% [2 , 9 , 13] . Simultaneously, the median survival of HCCA has also been dramatically ameliorated. KY. Paik et al. [20] reported 5-year survival rate was 64.2% without any in-hospital death of 16 patients who underwent right trisectionectomy with caudate lobectomy. In the study of Shimizu et al. [21] , the R0 rate was 63.6% for patients who underwent left-side hepatectomy and 5-year survival was 36.7% with median survival of 24.4 months. In addition, patients with type IV lesion were previously considered not suitable for surgery, which was documented by the American Joint Committee on Cancer (AJCC) cancer staging manual (7th, edition). However, a study of combined extended hepatectomy for those who with type IV from Jang et al. [22] indicated that median survival time was 16 months in curative resection group and 12 months in palliative resection group (P = 0.006). Consistent with the previous literatures, R0 resection rate of those who underwent combined with hepatectomy was 75% (69/92) in this series, which was higher than the overall curative resection rate of 66.9% (95/142). Furthermore, 67.86% (38/56) patients with type IV underwent curative resection with median survival time of 23 months, which was significantly better than that of 7 months with non-curative resection (P = 0.000). Although combined hepatectomy did not develop impacts on postoperative survival in our study (P = 0.302), we believed that combined hepatectomy was essential to obtain higher R0 resection rate and benefit selected HCCA patients.

For another, combined with vascular resection and reconstruction has also made contribution to improvement resectability of HCCA currently, though it was regarded as a External bile duct resection with S4b 2 1 2 2 2 Right hemihepatectomy 0 0 9 0 13

Right hemihepatectomy with S1 0 0 1 0 0

Extended right hemihepatectomy 0 0 2 0 5 Extended right hemihepatectomy with S1 0 0 0 0 4

Left hemihepatectomy 0 0 0 11 9 Left hemihepatectomy with S1 0 1 0 15 7

Extended left hemihepatectomy with S1 0 0 0 3 3

Central hepatectomy 0 0 0 2 4 Pancreaticoduodenectomy 2 0 0 0 0 common surgical contraindication previously [23, 24] . The 5 year survival rate of combined with portal vein resection and reconstruction for HCCA in series of over 10 cases reported ranges from 9.9% to 25% with mortality of 9.6%-40% [25, 26] . In the current series, the median survival time for 19 patients who underwent combined with vascular resection and reconstruction was 17 months with one-year, three-year survival rates of 78.8%, 21.3% respectively. And the mortality was 5.26% (1/19) . Although these outcomes was inferior to results in recent literatures, compared with median survival of advanced cholangiocarcinoma without any interventional procedures, combined with vascular resection and reconstruction offered advanced HCCA patients chance for acceptable survival benefits to some extent [27, 28] . As we all know, postoperative liver failure is the fatal complication of aggressive hepatic surgery, which makes the significance of preoperative biliary drainage under controversial debate to certain extent. Although zero mortality rate after R0 resection for HCCA has been achieved by Sano et al. with preoperative biliary drainage routinely applied [13] , multivariate analysis of their study also revealed preoperative cholangitis was associated with postoperative mortality and morbidity. In this study, patients who were scheduled to undergo major hepatectomy with preoperative serum total bilirubin over 11.70 mg/dL (200 μmol/L) were suggested with biliary drainage prior to surgery. Consequently, patients with preoperative serum total bilirubin below 10 mg/dL obtained apparent survival benefits than those with that above 10 mg/dL (20 vs 14 months, P = 0.003). Additionally, preoperative biliary drainage trends to result in bile duct infections, even delay treatment [29] . Therefore, to obtain the better outcomes of surgery, preoperative biliary drainage should be a selective procedure which is depended on preoperative definitive serum total bilirubin level and scheduled surgical policy.

Although many investigations published have established various clinicopathologic factors focusing on affecting prognosis of HCCA [9] [10] [11] [12] [13] 23] , the most consistently reported and well-recognized independently determinant factors is surgical margin status. Hepatitis and tumor thrombi regarded as potential prognostic factors were seldom discussed. To our knowledge, only a few studies have described the role of hepatitis 1 Overall survival rates according to the status of resection margin (P = 0.000), preoperative serum total bilirubin level (P = 0.020), and pathological differentiations (P = 0.004). Cox multivariate analysis revealed that non-curative resection (RR: 2.414, 95% CI 1.586-3.676, P = 0.000), preoperative serum total bilirubin above 10 mg/dL (RR: 1.844, 95%CI 1.235-2.752, P = 0.003) and pathological differentiation (P = 0.015) were independent prognostic risk factors for poor survival and should be further explored. As for tumor thrombi, few reports concerned can be traced in recent literatures. In this study, the pathological examination revealed 19 patients with tumor thrombi invasion. As a result, the median survival time with pathological tumor thrombi invasion was 16 months, comparing with 17 months in absence of tumor thrombi invasion (P = 0.378). With the limitation of small sample, we could not confirm that whether the poor survival was associated with tumor thrombi invasion. Even so, tumor thrombi as an interesting factor deserves further exploration. There are some limitations in this retrospective study. First, our relatively small study cohort resulting in influencing factors was not perceived as statistically reasonable or convincing. Second, in light of the retrospective nature of most published series including the current one, more valid data about surgical approach for HCCA should be provided by the future multicenter prospective studies. Last but not the least, the significance of postoperative adjuvant chemotherapy remains to be elaborated by randomized controlled trials, though our study did not demonstrate effects of adjuvant chemotherapy due to the small sample.

In summary, curative resection as a single curative therapy has benefited HCCA patients with acceptable mortality and morbidity. Combined hepatectomy with vascular resection and reconstruction have improved the resectability rate and survival outcomes. The further refinements of aggressive surgical techniques and improvement of therapeutic strategy would benefit more advanced HCCA patients.

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Conflict of Interest The authors declare that they have no conflict of interest.Ethical Approval All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.Informed Consent Informed consent was obtained from individual participants included in the study.