Background
Hepatocellular carcinoma (HCC) is the second leading cause of cancer mortality worldwide and the sixth most common type of cancer [
1]. Liver resection is an accepted first-line curative treatment and is performed in most HCC patients. Although recent advances in diagnosis, surgical techniques, and perioperative treatments have positively improved the safety and outcomes of hepatic surgery [
2], post-hepatectomy liver failure (PHLF) still occasionally occurs in clinical practice and remains the major cause of hepatectomy-related mortality [
3]. The risk for PHLF is high in patients with chronic liver disease or cirrhosis, especially in those patients who have portal hypertension or thrombocytopenia [
4,
5]. Hence, accurately assessing the safety of surgery prior to hepatectomy in these patients is imperative.
The prevalence of histologic cirrhosis is high among patients with hepatitis B virus (HBV) and hepatitis C virus (HCV) infections [
6]. In Asia, approximately 80% of HCC cases occur in patients with cirrhosis derived from chronic HBV infection [
7].These co-morbidities, along with portal hypertension [
8], are associated with increased morbidity or mortality because of a significant impairment in liver function [
9]. In addition, a palpable or enlarged spleen is common in these patients and is considered as an independent predictor of the presence of large esophageal varices, which carry a high risk of bleeding and allow the clinical progression of cirrhosis to be monitored [
10]. Moreover, the liver-to-spleen ratio has been used to evaluate the severity of liver disease and predict post-hepatectomy complications [
11]. Therefore, there is a need for preoperative spleen assessment during hepatic resection in HBV-associated HCC patients. This has resulted in the adoption of spleen size as a marker of the safety and prognosis of liver surgery [
12‐
14].
However, using spleen size in the context of hepatectomy in HBV-associated HCC patients has not yet been investigated. Therefore, the present study assessed the use of the splenic thickness (ST) compared with the indocyanine green retention rate 15 min (ICG R15) level to predict PHLF and other postoperative outcomes in HBV-associated HCC patients undergoing hepatic resection.
Methods
Patients
Between November 2013 and January 2017, 366 patients underwent curative hepatic resection for HCC at the Second Xiangya Hospital of Central South University. The inclusion criteria for this study were as follows: good liver functional reserve with Child-Pugh (CP) grade A or B, no treatment for HCC before liver resection, positivity of hepatitis B surface antigen (HBsAg), and no cardiopulmonary, renal, or cerebral dysfunction before liver resection. The exclusion criteria were as follows: co-infection with HCV and/or human immunodeficiency virus, previous splenectomy, and any other known cause of splenomegaly (i.e., hematopathy, infections, inflammatory, or primary splenic diseases). Finally, a total of 320 patients were included in this study. The patients were stratified into the normal spleen group (ST < 40 mm) or the thickened spleen group (ST ≥ 40 mm).
All patients gave their informed consent to participate in the clinical study, and approvals were obtained from the ethics committee at Central South University.
Perioperative management
Routine preoperative investigations were performed on all patients and included a thorough history, physical examination, routine blood tests, chest X-ray, ultrasonography, and contrast-enhanced computed tomography (CT) or magnetic resonance imaging (MRI) of the abdomen. A preoperative ICG clearance test and CT volumetry were undertaken routinely to evaluate the functional reserve of the future liver remnant. Anti-HBV treatment was administered to the patients following surgery as needed. Postoperative laboratory tests included routine blood tests, biochemical tests, and coagulation function tests and were performed on the first, third, fifth, and seventh days after surgery or thereafter as needed. Ultrasonography was performed on the fifth day after the surgery to detect whether there was pleural fluid or abdominal ascites.
Definitions
Splenic thickness was measured by ultrasound and defined as the transversal distance between the porta lienis and the point of tangency of the lateral border, which was examined by a senior radiologist who had extensive experience in sonography. Two or three measurements were averaged when the thickness of the anterior and posterior portions of the spleen differed considerably. All patients were imaged while resting in a supine position with an empty stomach. The ultrasonographic measurement of splenic thickness was technically feasible in all patients.
Liver resection was classified as minor hepatectomy (segmentectomy and non-anatomic wedge resection of two segments or fewer) and major hepatectomy (three Couinaud segments or more) [
15]. Liver cirrhosis and HCC were diagnosed by the pathological examination of the resected specimen. Clinically significant portal hypertension (CSPH) was defined by the presence of esophageal/gastric varices, splenomegaly (diameter greater than 12 cm on ultrasonography), or in patients with a low platelet count (PLT) (< 100 × 10
9/l) [
16]. The presence of esophageal varices (EV) was demonstrated by upper digestive endoscopy on all patients. PHLF was defined as a total serum bilirubin value > 50 μmol/l and a prothrombin time index < 50% (equal to an international normalized ratio (INR) > 1.7) on postoperative day 5 or thereafter, based on the International Study Group of Liver Surgery (ISGLS) classification [
17,
18]. The model for end-stage liver disease (MELD) score was calculated using the following formula: 11.2 × ln (international normalized ratio) + 9.57 × ln (creatinine, mg/dl) + 3.78 × ln (bilirubin, mg/dl) + 6.43 × (etiology—0 if cholestatic or alcoholic, 1 otherwise) [
19]. Postoperative complications were classified according to the Dindo-Clavien classification during the 30 days after hepatectomy [
20].A major complication was defined as grade 3 or above and a grade 2 or less qualified as a minor complication. Mortality was defined as death occurring during the 30 days after liver resection.
Statistical methods
Statistical analyses were performed using SPSS 17.0 (SPSS, Inc., Chicago, IL, USA). Categorical variables were presented as relative frequencies and percentages and were compared using the χ2 test or Fisher’s exact test. Continuous variables were expressed as the means ± standard deviation (SD) and were compared using the Mann-Whitney U test or Student’s test as appropriate. A statistically significant result was defined as P < 0.05, and the P values were two-sided. Univariate analysis and multivariate logistic regression analysis were performed to identify independent predictors for the development of PHLF and postoperative morbidity and mortality, and the adjusted odds ratio (OR) per standard deviation change and the 95% confidence interval (CI) were calculated. The predictive ability of ST and ICG R15 was assessed by the receiver operating characteristic (ROC) curve and the corresponding area under the ROC curve (AUC). The correlations between ST and other variables were tested by Spearman’s rank correlation coefficients.
Discussion
Given that there is a high mortality associated with PHLF, there is an increased interest in identifying HCC patients who are at risk for hepatic dysfunction or failure at the preoperative stage. An effective tool to achieve this target is volumetric analysis using CT scans. Nevertheless, PHLF remains a severe complication of hepatic resection, which occurs in approximately 8% of the patients undergoing major hepatectomy. Thus, early recognition and therapy are crucial to enhance the survival of patients in the setting of PHLF. The observation of preoperative splenomegaly and hypersplenism in patients with liver cirrhosis or chronic hepatitis prompted an investigation into whether splenic thickness is a predictor of hepatic resection. In the present study, we demonstrated for the first time that ST was associated with morbidity, PHLF, and mortality after hepatectomy, particularly in patients with ST ≥ 43.5 mm, where hepatic resection resulted in a significantly higher proportion of PHLF. Meanwhile, ST may be superior to the ICG R15 level in predicting the development of PHLF in HBV-associated HCC patients.
The spleen, though as a secondary peripheral lymphoid organ in the human body, has been considered unnecessary for life so far. Nevertheless, the spleen serves extremely significant immunological and hematological functions and is closely related to the liver [
21]. Owing to the spleen is anatomically linked to the liver via the portal vein system; once the histology and hemodynamics of hepatic had changed, so did the spleen. Many previous studies have introduced spleen size as a diagnostic criterion for cirrhosis [
22].The former finding of Chen X et al. [
23] in a cohort of hepatitis B cirrhosis patients showed the spleen volume and spleen multidimensional index increased with increasing Child-Pugh class of cirrhosis. Tsushima et al. [
24] reported that the spleen longitudinal diameter in patients with a non-alcoholic fatty liver disease was significantly higher than in healthy subjects. In addition, Murata Y et al. [
25] showed that patients with primary biliary cirrhosis (PBC) tended to have a larger spleen, especially in PBC patients who developed symptoms. However, some reports indicated that the spleen size in patients with alcoholic cirrhosis was smaller than in those with hepatitis C and non-alcoholic steatohepatitis cirrhosis [
22,
26].
Child-Pugh grade and MELD scores have been widely used to predict the risk of death and complications in patients with liver diseases, sometimes been considered as a further aspect of the liver cirrhosis severity [
27]. In our results, the patients with thickened spleen have a higher proportion of CP-B than normal group (15.5 vs. 7.2%, respectively), so does MELD (22.7 vs. 9.0%, respectively). And with increasing thickness of the spleen, the patients get higher MELD scores. This was in accordance with the recent study reported by Haliloglu N [
28]. Meanwhile, a thicker spleen seems to more likely to be in the context of cirrhosis in our present study. It can be said that the thicker the spleen is the more possibility to give results by abnormal liver in histology and function.
Among the various qualitative tests for liver function, ICG R15 has long been considered as one of the most powerful predictors of post-hepatectomy mortality [
29]. However, ICG R15 may be an inaccurate predictor under certain conditions, such as in patients with jaundice or heart failure. The value of splenic thickness in predicting PHLF was comparable to that of the ICG R15 level. According to the ROC curve analysis for predicting PHLF, the AUC for ST and ICG R15 level was 0.754 and 0.670, respectively, which suggested that ST is a superior predictor of PHLF compared with the ICG R15 level. Although the sensitivity of ST was 57.1% and relatively lower than the 65.7% for the sensitivity of the ICG R15 level, a higher specificity of ST may help the surgeon develop a better treatment plan, resulting in patients receiving treatment who would otherwise not be considered suitable for surgery based on the assessment of ICG R15. Moreover, the present study showed that ST was associated with morbidity and mortality after liver resection in HCC patients, which was not the case with the ICG R15 level. Thus, it can be concluded that ST was a better predictor of PHLF and other post-hepatectomy outcomes than the ICG R15 level. Postoperative complications, such as bleeding, abdominal infection, ascites, and liver dysfunction, will inevitably prolong the hospital stay, increase the cost of treatment, and even lead to death. Therefore, surgical procedures involving liver resection in patients with ST ≥ 43.5 mm should be given critically important perioperative consideration.
In general, patients with a greater degree of cirrhosis have a higher portal venous pressure (PVP). Recently, CSPH, as a surrogate measure of PVP, has been demonstrated to have the ability to predict the incidence of PHLF [
16]. Our study showed that CSPH is a risk factor for hepatectomy because the incidence of CSPH in patients with PHLF was 54.3% (19/35) versus 24.2% (69/285) in patients without PHLF. Indeed, 82.9% of the patients with PHLF had liver cirrhosis compared with 69.8% of the patients without PHLF. Furthermore, the incidence of CSPH was statistically significantly higher in the thickened spleen group and was accompanied by high TBIL and a greater presence of cirrhosis. In clinical practices, splenomegaly is usually defined as a longitudinal diameter > 12 cm [
30]. Prassopoulos P and colleagues indicated that splenic thickness had a strong correlation with splenomegaly [
31]. Furthermore, splenomegaly was viewed as a surrogate marker of portal hypertension in a previous study [
32]. In our study, in addition to splenomegaly, the clinical manifestations of portal hypertension included thickening of the portal veins and faster blood flow [
33]. A previous study suggested that portal vein diameter was an independent risk factor for CSPH and variceal bleeding [
34]. We found a positive correlation between ST and PVD, which indicates that patients with greater ST may have higher portal pressure, although the latter was not determined in this study.
A negative correlation between ST and PLT was found in this study, which was evident from the finding that a low platelet count was associated with greater ST. This negative correlation in our study is in agreement with the thrombocytopenia and splenomegaly that arise due to the sequestration and destruction of platelets in liver cirrhosis [
6]. Several clinical studies have indicated that preoperative thrombocytopenia is a risk factor associated with postoperative complications and mortality [
35,
36]. This was consistent with our result that preoperative PLT was significantly lower in the PHLF group than in the non-PHLF group. Furthermore, hypersplenism leading to thrombocytopenia, which is frequent in patients with cirrhosis due to portal hypertension [
37], may be a reason for the ability of ST to predict PHLF.
This study has certain limitations. First, we enrolled only HBV-infected HCC patients from China, and therefore, the study may suffer selection bias. Other causes of HCC include HCV infection and alcoholism, both of which are prevalent mainly in Europe and North America [
38] and may change the prediction value of splenic thickness in PHLF. Second, parameters such as spleen length, spleen width, or spleen index, which are indicative of splenomegaly, were not measured by CT in this study. Finally, because this study was a single-study site retrospective analysis of clinical data, future research will require a multicenter validation of our findings.