Liver Cancer Open Access
Copyright ©The Author(s) 2004. Published by Baishideng Publishing Group Inc. All rights reserved.
World J Gastroenterol. Apr 15, 2004; 10(8): 1137-1140
Published online Apr 15, 2004. doi: 10.3748/wjg.v10.i8.1137
Rapid progression of hepatocellular carcinoma after Radiofrequency Ablation
Andrea Ruzzenente, Giovanni de Manzoni, Matteo Molfetta, Silvia Pachera, Bruno Genco, Matteo Donataccio, Alfredo Guglielmi, First Department of General Surgery, Verona University Medical School, Ospedale Maggiore Borgo Trento, Piazzale Stefani 1, 37126 Verona, Italy
Author contributions: All authors contributed equally to the work.
Correspondence to: Dr Andrea Ruzzenente, First Department of General Surgery, Verona University Medical School, Ospedale Maggiore Borgo Trento, Piazzale Stefani 1, 37126 Verona, Italy. aruzzen@tin.it
Telephone: +39-45-8072484 Fax +39-45-8072484
Received: November 22, 2003
Revised: December 10, 2003
Accepted: December 24, 2003
Published online: April 15, 2004

Abstract

AIM: To report the results of radiofrequency ablation (RFA) of hepatocellular carcinoma (HCC) in cirrhotic patients and to describe the treatment related complications (mainly the rapid intrahepatic neoplastic progression).

METHODS: Eighty-seven consecutive cirrhotic patients with 104 HCC (mean diameter 3.9 cm, 1.3 SD) were submitted to RFA between January 1998 and June 2003. In all cases RFA was performed with percutaneous approach under ultrasound guidance using expandable electrode needles. Treatment efficacy (necrosis and recurrence) was estimated with dual phase computed tomography (CT) and alpha-fetoprotein (AFP) level.

RESULTS: Complete necrosis rate after single or multiple treatment was 100%, 87.7% and 57.1% in HCC smaller than 3 cm, between 3 and 5 cm and larger than 5 cm respectively (P = 0.02). Seventeen lesions of 88(19.3%) developed local recurrence after complete necrosis during a mean follow up of 19.2 mo. There were no treatment-related deaths in 130 procedures and major complications occurred in 8 patients (6.1 %). In 4 patients, although complete local necrosis was achieved, we observed rapid intrahepatic neoplastic progression after treatment. Risk factors for rapid neoplastic progression were high preoperative AFP values and location of the tumor near segmental portal branches.

CONCLUSION: RFA is an effective treatment for hepatocellular carcinoma smaller than 5 cm with complete necrosis in more than 80% of lesions. Patients with elevated AFP levels and tumors located near the main portal branch are at risk for rapid neoplastic progression after RFA. Further studies are necessary to evaluate the incidence and pathogenesis of this underestimated complication.


INTRODUCTION

Hepatocellular carcinoma (HCC) is one of the most frequent solid tumors with a worldwide incidence between 250 000 and 1 000 000 new cases per year[1,2].

Surgical therapies could be applied only in 10-20% of patients[3,4]. Liver resection is applicable in a small portion of patients because of advanced neoplastic stage or severity of liver diseases. Liver transplantation is available only in a small number of patients for shortage of donors[5].

The majority of patients, ineligible for surgical therapies, can be submitted to local ablative therapies like percutaneous ethanol injection (PEI) and radiofrequency ablation (RFA). These local ablative therapies were considered to be radical in small HCCs[6].

RFA showed good control of tumors with necrosis in more than 90% of HCC smaller than 5 cm[7-10]. In HCC larger than 5 cm results were unsatisfactory with complete necrosis in less than 30%[11].

Frequency of major complications related to the procedure was low, ranging from 5% to 15%[12,13]. Self-limiting intraperitoneal bleeding, liver abscess and right pleural effusions have been the most frequently reported complications[7,14].

Tumor seeding along the needle tract was also described but its incidence ranging from 0.6% to 12%, has been a matter of debate[15-18].

Rapid intrahepatic neoplastic progression after treatment was described in literature only in 1 case report after transcatheter arterial chemoembolization (TACE) and RFA[19].

To our knowledge no authors described this complication after RFA treatment.

The aim of this study was to describe the treatment related complications (mainly the rapid intrahepatic neoplastic progression) and the response rate of RFA of HCC in cirrhosis.

MATERIALS AND METHODS

From January 1st, 1998 to June 1st, 2003 patients submitted to RFA at the 1st Department of Surgery of Verona University Medical School were included in this study. Before treatment a detailed description of procedure was provided to patients and written informed consent was obtained from all cases. HCC was diagnosed on the basis of radiological criteria (2 coincident imaging techniques) or combined criteria [1 imaging technique associated with elevated alpha-fetoprotein (AFP) levels] according to Barcellona EASL Conference[6]. Fine needle biopsy was performed only in cases of uncertain diagnosis[6]. Before undergoing the procedure, patients underwent baseline clinical and laboratory evaluation of hepatic function, coagulation profile, blood cells and platelet count, hepatitis B and C virus serology and serum AFP level. Severity of cirrhosis was classified according to Child-Pugh classification and CLIP score[20,21]. Patients eligible for RFA with Child-Pugh B cirrhosis and/or multinodular tumors, and small number of patients with Child-Pugh A cirrhosis and single potentially resecable tumor were included in the study.

Exclusion criteria from study were extra-hepatic metastasis, more than 4 nodules, tumor diameter > 7 cm, Child-Pugh C cirrhosis, severe ascites, severe coagulopathy (platelets count < 40 000/mmc and PT > 1.5 INR) if not corrected with medical therapy and fresh-frozen plasma.

Antibiotic prophylaxis was administered in all patients before treatment. All patients were treated in operating room under general anesthesia. Treatment was conducted in all patients with percutaneous approach under ultrasound guidance using a radiofrequency generator (RITA medical system model 500 and 1 500, Mountain View, CA) through an expandable electrode needle as previously described[22]. Blood count and liver function tests were performed 12 and 24 h after RFA.

All patients were discharged after 1 d, unless complications necessitated a longer hospitalization.

Treatment results were estimated by dual-phase computed tomography (CT) and AFP level performed 30 d after the procedure. CT and serum AFP were performed every 3 mo for the first year and then every 6 mo.

At dual phase, CT complete necrosis was defined as the absence of pathologic enhancement within or at the periphery of the treated HCC after at least 2 consecutive CT examinations.

Incomplete necrosis or local recurrences of HCC detected during follow up were retreated with RFA or PEI.

Statistical analysis

Data were collected prospectively and analyzed with statistical software (SPSS inc., Chicago, IL). Comparisons between different categories were carried out with contingency tables, and significance was determined by χ2. For all comparisons, significance was set at 0.05.

RESULTS

From January 1st , 1998 to June 1st , 2003, 87 patients with 104 HCCs and liver cirrhosis were submitted to RFA. Mean age was 67.9 years (range 41-88 years). Patient characteristics are described in Table 1. The mean follow up time was 19.2 mo. After the first treatment complete necrosis was achieved in 76 of 104 HCCs (73.1%). In 28 HCCs with incomplete necrosis RFA was repeated. After multiple treatments (range 2-4) 12 of 28 HCCs, with incomplete necrosis were completely ablated. Complete necrosis was achieved in HCC smaller than 3 cm, between 3 cm and 5 cm and bigger than 5 cm in 100%, 87.7% and 57.1%, respectively (P = 0.02). The elevated AFP level before treatment was decreased to normal levels after complete necrosis. During the follow up 17 of 88 HCCs (19.3%) with complete necrosis showed local recurrence and 30 of 87 patients (34.4%) developed new intrahepatic tumors.

Table 1 Characteristics of 87 cirrhotic HCC patients treated with RFA.
Characteristicn(%)
Gender
Male7181.6
Female1618.4
Ethiology of cirrhosis
HCV related4652.9
HBV related1112.6
HBV+HCV33.4
Alcoholic2427.7
Other causes33.4
Child-Pugh classification
A4855.2
B3944.8
C00
CLIP score
02528.7
14248.3
21921.8
411.2
Number of lesions
Single5360.9
Multiple3439.1
Morphology of HCC
Infiltrating1817.3
Noninfiltrating8682.7
Alfa-fetoprotein level
< 200 kU/L7990.8
200 kU/L89.1
Treatment related complications

In 87 patients, 130 procedures were performed and treatment related complications occurred in 22 cases (16.9%) (Table 2). Minor complications occurred in 13 cases: fever > 38 °C and moderate pain for 5-6 d in 10 cases, right pleural effusions in 2 cases, cutaneous burn in the insertion site of the neddle in 1 case. Major complications were observed in 8 patients: rapid tumor intrahepatic progression in 4 cases, bacterial endocarditis in 1 case, needle track seeding in 1 case, intraperitoneal bleeding in 1 case, hepatic decompensation in 1 case. All treatment related complications were managed with medical therapy. No treatment related mortality was observed.

Table 2 Treatment-related complications occurred in 130 pro-cedure.
Events n (%)
Minor complications13 (10)
Fever (> 38 °C) and moderate pain (5-6 d)10 (7.7)
Right pleural effusion2 (1.5)
Cutaneous burn1 (0.8)
Major complications8 (6.1)
Rapid tumor progression4 (2.9)
Bacterial endocarditis1 (0.8)
Neoplastic seeding1 (0.8)
Peritoneal bleeding1 (0.8)
Hepatic decompensation1 (0.8)
Rapid tumor progression

After treatment, CT examination showed tumor complete necrosis with a wide neoplastic spread to the adjacent liver segments (Figure 1). After 30 d, AFP values showed a rapid increase in 3 of 4 patients, from a pretreatment value of 119 kU/L, 560 kU/L and 1 313 kU/L to 4 997 kU/L, 2 500 kU/L and 5 282 kU/L, respectively. In the fourth patient, the baseline AFP value of 69 kU/L did not increase. Characteristics of patients and tumors are described in Table 3. We analyzed 10 variables in order to identify the risk factors for rapid tumor progression. The high AFP level and location of the tumor near the primary or secondary portal vein branches were more representative variables (Table 4). During the follow up 2 patients died after 2 and 3 mo for tumor progression, two patients were alive after 11 and 7 mo and they were submitted to transcatheter arterial chemoembolization (TACE).

Figure 1
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Figure 1 Contrast-enhancement arterial phase computed tomography (CT) scans before treatment (upper image) and 30 d after treatment (lower image). Tumor shows local necrosis (arrow) and rapid progression of the tumor in the left lobewith pathologic enhancement at CT.
Table 3 Caracteristics of four patients with rapid tumor progression after RFA.
Gender, age, etiologyTumor size (cm)LocationDifferentiation
1. Male, 66 yr, alcohol3.5V segmentNear right portal trunkaPoor
2.Male, 75 yr, HCV3.8VI segmentNear segmental portal branchaPoor
3. Male, 59 yr, HBV, HCV4.5VII segmentNear cava veinPoor
3.Male, 62 yr, HBV4.5IV segmentNear segmental portal branchaModerate
a: ≤ 1 cm from main or segmental portal branches.
Table 4 Risk factors for rapid tumor progression in 87 patients.
VariablesNo tumor progression (83)Tumor progression (4)P value
Child-Pugh class
A/B45/383/10.41
CLIP score
0/1/2/425/40/17/10/2/2/00.43
Number lesions
Single/multiple50/332/20.68
AFP value
< 200/≥ 200 kU/L77/62/20.04
Tumor size
< 3 cm/3-5 cm/5-7 cm10/59/140/4/00.45
Tumor morphology
Infiltrating/15/681/30.72
noninfiltrating
Portal vein thrombosis
No/main portal71/1/33/0/10.17
branch/sectorial
Tumor location
Peripheral/near60/231/30.04
main portal
Treatment
Duration RFA (min)27.7±13.725.6±7.50.40
Number insertions2.0±1.31.7±0.90.33
DISCUSSION

More than 80% of patients with HCC could not be submitted to surgical treatment due to advanced tumor stage and poor hepatic function[3,4]. In selected patients ablative treatments could achieve good results, which were similar to those of surgical resection in small HCCs[23,24]. RFA could achieve complete necrosis in 90% of lesions smaller than 5 cm[7-10,22]. In our study local recurrence occurred in 19.3%of tumors with complete necrosis and it was related to tumor size. There were no local recurrences during the follow up for HCCs smaller than 3 cm. In early clinical results RFA showed low incidence of major complications (5-15%)[12,13,25]. Most frequent complications reported in literature were: capsular necrosis, intraperitoneal hemorrhage (usually self-limiting), subcapsular hematoma, cholecistitis, hepatic abscesses[7,14]. Needle track seeding after RFA was reported with low incidence (0.6-2.8%), but in a recent study in 32 patients Llovet et al reported an incidence of 12%[15-18]. The authors identified that tumors with poor differentiation, subcapsular location and high AFP levels were at risk for needle track seeding[15].

Another complication recently observed was the rapid tumor progression after local treatment[19]. This complication after RFA was described in only one case report in a patient who was previously submitted to TACE. In our experience 4 patients (4.5%) showed rapid intrahepatic spread of HCC after RFA without extrahepatic metastasis. To our knowledge this is the first report that describes this type of complication after RFA. Seki et al, in their case report, suggested that aggressive biological behavior of the tumor might be involved in tumor progression[19]. Moreover the author suggested that neoplastic cell spreading might have been promoted by TACE with selection of highly malignant cells with low adhesive potential after partial necrosis.

Our paper describes the occurrence of rapid neoplastic spread after RFA and we have identified the possible risk factors for this complication. Assessment of tumor and patients characteristics showed that high AFP level and location of tumor near the portal vein branches were associated with this complication.Moreover 3 of 4 patients had a poor differentiation of the tumor.

In our opinion, mechanisms involved in the pathogenesis of neoplastic progression may be the following. a) Tumors with vascular invasion are characterized by elevated intratumoral pressure[26]. RFA during energy application may increase intratumoral pressure and favor intravascular spread of the tumor. b) Hooks delivering in “umbrella type” expandable needles may promote migration of neoplastic cells into portal vein branches. c) Creation of arterovenus fistula was reported after RFA[12,27]. This alteration of hepatic vascularization may promote migration of neoplastic cells into portal vein circulation.

Definitive conclusions cannot be drawn because this complication is probably still underestimated. In our opinion, tumors with a high AFP level, location near the main portal branches and poor differentiation should be carefully evaluated before RFA treatment.

Footnotes

Edited by Wang XL and Xu FM

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