Background
Hepatocellular carcinoma (HCC) is one of the five most common malignancies worldwide. Each year, more than 690,000 people die from liver cancer, and the number is increasing every year [
1]. HCC is also the third most frequent cause of tumor-related death [
2]. The clinical staging system of HCC has an important function for selecting treatment modes and evaluating prognosis, and in recent years, the Barcelona Clinic Liver Cancer (BCLC) staging system has received more attention. According to the BCLC staging system, only patients with very early stage and stage A (early stage) HCC should undergo surgical resection, ablation, or liver transplantation. Patients with stage B HCC should be treated with transcatheter arterial chemoembolization (TACE) [
3]. However, many studies have indicated that for patients with BCLC stage B HCC, the prognosis of surgical resection is better than that of TACE [
4‐
7], indicating that it is feasible and applicable for some patients with BCLC stage B HCC to undergo R0 section. However, the portion of patients with stage B that will achieve better outcomes from surgical treatment remains unclear. Moreover, the standard indicators or influencing risk factors for selection of HCC patients with stage B toward surgical resection have not yet been established. Therefore, study of the risk factors for prognosis of BCLC stage B after surgical treatment has profound significance in forming a guideline for clinical treatment of this sort of patients. Clarification of major factors influencing curative efficiency will enable clinicians to estimate whether a patient with BCLC stage B HCC may achieve a better prognosis from R0 resection and identification of those patients with non-improved outcomes should be more carefully monitored after resection. This study aims to provide surgeons with a guideline to estimate clinical treatment and predict prognosis to guide postoperative treatment.
Methods
Case data
From 2001 to 2012, 827 patients with HCC underwent R0 hepatic resection in the Affiliated Hospital of Qingdao University, China and 78 patients suffered BCLC stage B HCC disease. We declare that informed consents for the use of their clinical data in this study were obtained from all participants or their next of kin before follow up and before the study began. We thank them a lot for their consent of this study. BCLC staging was determined using liver ultrasonography or computed tomography (CT) and thorough clinical assessment. All the patients had 2–5 cancerous nodules with a cumulative tumor size of >3.0 cm, a Child-Pugh score of A-B, and performance status of 0, and thus, were classified as BCLC stage B. Pathological diagnoses were made for all patients. There were 66 men and 12 women (ratio 5.5:1) and their age ranged 33–80 years old, with an average of 55.9 years. The clinicopathological features of the 78 patients are shown in Table
1. The collection of clinical data was approved by the Ethic Committee of Affiliated Hospital of Qingdao University.
Table 1
Clinicopathological features of 78 patients with Barcelona Clinic Liver Cancer stage B hepatocellular carcinoma
Sex (male/female) | 66:12 (84.6 %:15.4 %) |
Age (years) | 56.0 (33–80) |
Alcohol consumption (no/yes)a
| 56:20 (73.7:26.3) |
Preoperative TACE (no/yes) | 67:11 (85.9 %:14.1 %) |
HBsAg (negative/positive) | 7:71 (9.0 %:91.0 %) |
Anti-HCV (negative/positive) | 76:2 (97.4 %:2.6 %) |
ALT (U/L) | 45.5 (12–191) |
GGT (U/L) | 49.5 (15–395) |
Child–Pugh Classification (A/B) | 76:2 (97.4 %:2.6 %) |
Cirrhosis (no/yes) | 5:73 (6.4 %:93.6 %) |
Portal hypertension (no/yes) | 65:13 (83.3 %:16.7 %) |
Liver resection range (hepatic segment) | 2 (1–4) |
Resection margin (mm)a
| 5 (0–30) |
Anatomical resection (yes/no) | 18:60 (23.1 %:76.9 %) |
Hepatic inflow occlusion (no/yes) | 33:45 (42.3:57.7) |
Intraoperative blood loss (mL) | 300 (100–3500) |
Blood transfusion (mL) | 0.0 (0–1100) |
Preoperative alpha-fetoprotein (μg/L) | 17.8 (1.1–1211.0) |
Cumulative tumor size (cm) | 5.0 (2.5–20.0) |
Tumor number | 3 N |
Differentiation (high/middle and low/necrosis) | 3:73:2 (3.8 %:93.6 %:2.6 %) |
Liver capsule invasion (no/yes) | 12:66 (15.4 %:84.6 %) |
Surgical methods
All 78 cases underwent liver resection in accordance with the Couinaud segmentation method to implement hepatic segmentectomy or combined resection for adjacent liver segments (anatomical resection) or partial hepatectomy containing tumor (nonanatomical resection). R0 hepatic resection means there were no residual cancer cells present in the surgical margin when checked microscopically and no tumor visible with the naked eyes.
Follow-up study
Serum alpha-fetoprotein, liver function tests, liver ultrasonography or CT and lung CT scan were performed monthly for 3 months after surgical resection. The time of recurrence after resection was adjudged by the presence of clear masses on imaging examination. The follow-up ended on 31 December 2015 or when patients died. The median follow-up time was 31.4 months (ranging 3.3–113.2 months).
Statistical analysis
All the data were statistically analyzed with SPSS Statistics software for Windows, Version 13.0 (SPSS Inc., Chicago, IL, USA). The Kaplan-Meier survival analysis (log-rank test) was used to analyze disease-free survival (DFS) and overall survival (OS). The factors with P < 0.05 were enrolled in the Cox regression hazard model. P < 0.05 was considered significant.
Discussion
Tumor recurrence after resection is an important factor affecting the prognosis of patients with HCC. The BCLC staging system was proposed in 1999 by Llovet et al. [
8] and modified by the American Association for the Study of Liver Diseases in 2005 [
9]. This staging system comprehensively considers tumor size and number, vascular invasion, liver function, and general condition. It has been accepted worldwide at present. The system recommends that patients with stage B HCC should be treated with TACE. However, many studies have indicated that for patients with BCLC stage B HCC, the prognosis for surgical resection treatment is superior to that for TACE. For example, from 171 patients with BCLC stage B HCC, Lin [
5] found that the 1-, 2- and 3-year OS rates after surgical resection or TACE was 83, 62 and 49 % or 39, 5 and 2 %, respectively. The prognosis of surgical resection was obviously better than that of TACE.
Considering that patients with BCLC stage B HCC frequently have multiple tumors with or without vascular invasion and intrahepatic metastasis, we think that it is necessary to explore further the indicators of surgical resection for this stage HCC to obtain a better prognosis. In this study, we identified that tumor number ≥4 and cumulative tumor size >5 cm were independent risk factors influencing the prognosis of BCLC stage B HCC after R0 liver resection. Median DFS and OS in patients with these two factors were 12.0 and 25.0 months, respectively, which were significantly lower than those of patients with tumor number 2 or 3 and cumulative tumor size ≤5 cm (31.0 and 67.0 months,
P < 0.01). In keeping with our current study, many studies have proved that tumor number [
10‐
14] and tumor size [
10,
11,
15‐
17] can affect prognosis after resection of HCC. For example, Shah et al. [
10] discovered that multiple tumors and large tumor size are independent risk factors of postoperative recurrence of HCC.
It is clinically significant that tumor number and size have been identified as two independent risk factors. The blood supply of HCC is mainly from the hepatic artery and portal vein. Therefore, large tumors always have a more abundant blood supply, grow faster, break through the capsule more easily and transfer to and infiltrate the surrounding liver tissue readily. Large tumors also more easily cause invasion of the portal vein, increasing the probability of postoperative intrahepatic recurrence. Multiple tumors in the liver are mostly due to intrahepatic metastasis, and an increase in tumor number usually indicates more rapid metastasis. For these patients, even if the visible tumors are totally removed, small metastases may also be present in the liver, resulting in recurrence of HCC, which is consistent with the finding of this study that patients with HCC stage B with ≥4 tumors or a cumulative tumor size of >5.0 cm had higher postoperative recurrence rates.
Our study was limited by the small sample size and regional area, which may not be representative of patients with BCLC stage B HCC in other areas. Moreover, the follow-up period for some patients was relatively short. Nonetheless, these patients were included in the analysis because they meet the BCLC stage B-staging standard, although they had many significant risk factors reported already, e.g., age of >60 years; 4–5 nodules; tumor size of >5.0 cm; significant amount of perioperative blood loss; and much higher AFP, ALT, and GGT levels than normal. In spite of these limitations, the results of this study revealed that both tumor number and tumor size were the main staging indicators of BCLC stage B HCC. Therefore, our study has important significance in estimating clinical treatment and predicting the prognosis to guide postoperative treatment.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
WX collected and analyzed the data. WZ collected and analyzed the data. WL collected the data and wrote the manuscript. All authors read and approved the final manuscript.