Hepatocellular carcinoma (HCC) accounts for most primary liver tumours and is the fourth most common cause of cancer-related death in the world.1 The prognosis of the disease correlates strongly with liver function (defined by Child-Pugh’s class, bilirubin, albumin, clinically relevant portal hypertension, ascites), tumour status (defined by number and size of nodules, presence of vascular invasion, extrahepatic spread) and general tumourrelated health status.2 The Barcelona Clinic of Liver Cancer (BCLC) staging system divides patients into five groups to facilitate treatment selection and prognosis prediction.2 According to the guidelines of the European Association for the Study of the Liver (EASL) and the European Society of Medical Oncology (ESMO), transarterial chemoembolization (TACE) is the standard treatment for HCC in patients with intermediate-stage disease,
The principle of TACE is selective delivery of a high local concentration of a chemotherapeutic drug mixed with embolic material, which results in strong cytotoxic and ischemic effects.2 Two techniques are currently recommended: conventional TACE (cTACE) and drug-eluting microsphere transarterial chemoembolization (DEM-TACE).2,3 Conventional TACE (cTACE) uses a mixture of Lipiodol and chemotherapeutics, while DEM-TACE uses microparticles that can be loaded with a chemotherapeutic drug that is released in the target tissue slowly and in a controlled manner. The most frequently used drug in DEM-TACE is doxorubicin.7
Untreated patients with BCLC stage B disease have a median OS of 10 to 16 months after HCC diagnosis.2,8 The median OS for patients treated with TACE is approximately 20 months after treatment initiation.5,9 In well-selected patients, median OS can be prolonged to 30–50 months.2,3 A difference in OS between patients treated with doxorubicin-loaded DEM-TACE and those treated with cTACE has not been observed.10,11
A further improvement in TACE was the introduction of cone beam CT (CBCT) control during the procedure. CBCT is mounted on a C-arm fluoroscopy unit in the Institute of Radiology suite, allowing enhanced visibility in soft-tissue and vascular procedures. CBCT enables more precise implementation of TACE from planning to microcatheter positioning, which ensures visualization of the tumour-feeding vessels and parenchymal staining during TACE, achieving a detection accuracy significantly superior to that of standard 2D angiography.12,13
The aim of this single-institution retrospective study was to evaluate the safety and effectiveness of doxorubicin drug-eluting microsphere chemoembolization under CBCT control in patients with early and intermediate stage HCC.
The present retrospective study included 144 patients with early and intermediate stage HCC who underwent doxorubicin-loaded DEM-TACE at our interventional oncology centre between February 2010 and December 2018. The last date for follow-up evaluation was 31 January 2020. Clinical examination, laboratory tests and contrast-enhanced four-phase computed tomography (CT) or magnetic resonance (MR) imaging with hepatobiliary contrast media (Primovist; Bayer HealthCare, Germany) were performed for each patient at baseline. A decision in favour of treatment with doxorubicin-loaded DEM-TACE was reached by consensus at a multidisciplinary hepatopancreatobilliary tumour board (MTB) at our institution, consisting of abdominal and interventional radiologist, gastroenterologist, hepatic surgeon, nuclear medicine physician, oncologist, and pathologist. The inclusion and exclusion criteria for the study are presented in Table 1.
Inclusion and exclusion criteria (Child-Pugh; CP)
early-stage HCC patients ineligible for resection, transplantation or ablation; intermediate-stage HCC patients with a CP score of A or B (up to 7 points); treatment with DEM-TACE under cone beam CT control. | |
DEM-TACE prior to liver transplantation; inability of regular follow-up. |
DEM-TACE = drug-eluting microsphere transarterial chemoembolization; HCC = hepatocellular carcinoma
Written informed consent for the procedure was obtained from all patients before each treatment. The need for informed consent for publication was waived by the national ethics committee due to the retrospective, anonymized study design. The study was performed in accordance with the Helsinki Declaration ethical standards for biomedical studies on humans and was approved by the Republic of Slovenia National Medical Ethics Committee on the 18th of April 2017 (decision number 60/04/17). All data were collected from patient charts held at the Clinical Institute of Radiology, Clinical Department of Gastroenterology and Clinical Department of Abdominal Surgery at University Medical Centre Ljubljana.
The first treatment cycle was defined by at least two doxorubicin-loaded DEM-TACE procedures at intervals of 4–6 weeks (
Selective or superselective chemoembolization was performed with microparticles with varying diameters from different manufacturers loaded with 50–150 mg of doxorubicin: DC Beads (DC Bead®, Boston Scientific, Marlborough, Massachusetts) with a diameter of 70–150 μm, 100–300 μm or 300–500 μm; Tandem (Tandem®, Boston Scientific, Marlborough, Massachusetts) 2 ml or 3 ml of 40-μm, 75-μm and 100-μm, LifePearl microspheres (LifePearl®, Terumo Europe N. V, Belgium). The same size of the microparticles were then used for the following procedures in each patient. Since 2013, we have been using small microparticles (
In patients with multifocal tumours, the position of the microcatheter was changed within the same session to ensure superselective delivery to each lesion.13 Prior to microparticle delivery, CBCT was repeated to confirm the catheter position in feeding artery and complete coverage of the targeted lesions.
Procedure-related complications were classified as complications occurring during the procedure or complications detected up to 1 month after the procedure. The complications were classified as minor and major according to the CIRSE Quality-Improvement Guidelines for Hepatic Transarterial Chemoembolization.14 Postembolization syndrome (PES) was defined as fever, pain, nausea, elevation of liver transaminases (
Tumour treatment responses were evaluated with dynamic contrast-enhanced CT or dynamic MR imaging with hepatobiliary contrast media 2–3 months after the last doxorubicin-loaded DEM-TACE procedure according to the modified Response Evaluation Criteria in Solid Tumours (mRECIST).15 Patients with a complete response or a partial response were classified as having an objective response to treatment. In cases of an objective response to treatment, a radiological follow-up was performed every 3 months for the first 2 years, mostly with MRI of the liver. If no progression occurred after 2 years, follow-up imaging was then scheduled every 6 months. Doxorubicin-loaded DEM-TACE treatment was repeated when necessary in patients with residual or additional tumours observed on imaging,
Categorical variables were expressed as frequencies and percentages. Continuous variables were expressed as the mean ± standard deviation or the median and range in case of skewed distributions. Survival rates and the time to progression (TTP) were calculated using the Kaplan–Meier method and compared using the log rank test. The limit of statistical significance was set at
The follow-up time was determined as the number of months from the first doxorubicin-loaded DEM-TACE procedure until death or until 31 January 2020. The time to progression was calculated as the time until the date of imaging control showing progression or, in censored cases, until 31 January 2020, or patient death.
The analysis was performed using IBM® SPSS® Statistics 22 (International Business Machines Corp., Armonk, NY) for Windows.
The baseline demographic, clinical, laboratory and imaging characteristics of 144 patients included in the analysis are summarized in Table 2. The mean patient age was 67.9 ± 8.0 years, and most patients were male (88.2%). The median number of lesions per patient was 3 (range, 1–10), and the median size of the largest lesion was 3.8 cm. Ninety-one patients were classified as Child-Pugh class A (75.8%), and the remaining 29 were classified as class B (24.2%). Twenty-four of the 144 (16.7%) patients were not cirrhotic. The most common aetiology of cirrhosis was alcohol abuse (52.5%, n = 63), followed by other (20.8%, n = 25), hepatitis B (13.3%, n = 16) and hepatitis C (11.6%, n = 14). Ninety-two (63.9%) patients had unilobar, predominantly right lobe, disease. Clinical signs of portal hypertension were observed in 76 (52.8%) patients, and ascites was observed in 34 (23.6%) patients. Sixty-eight of 101 (67.3%) patients with available AFP data had an elevated AFP level (> 7.5 ng/mL).
Patient characteristics at baseline
Gender, number of patients (%) | |
---|---|
Male/Female | 127 (88.2)/17 (11.8) |
Mean ± SD | 67.9 ± 8 |
Number median of (range) lesions per patient, | 3 (1–10) |
Bilobar, n. (%) | 52 (36.1) |
Unilobar, n. (%) | 92 (63.9) |
Right lobe, n. (%) | 71 (49.3) |
Left lobe, n. (%) | 21 (14.6) |
Yes/No | 76 (52.8)/68 (47.2) |
Yes/No | 34 (23.6)/110 (76.4) |
Yes/No | 120 (83.3)/24 (16.7) |
Alcohol | 63 (52.5) |
HBV | 16 (13.3) |
HCV | 14 (11.6) |
Primary biliary cirrhosis | 2 (1.8) |
Other | 25 (20.8) |
5.7 ± 0.8 | |
A/B | 91 (75.8)/29 (24.2) |
A/B | 50(34.7)/94 (65.3) |
Albumin, [g/l] | 39.5 (28–50) |
Total bilirubin, [μmol/l] | 18 (5–83) |
AFP, [ng/ml] | 14.4 (1.1–12809.8) |
AST, [μkat/l] | 0.82 (0.35–3.29) |
GGT, [μkat/l] | 1.77 (0.25–24.95) |
Creatinine, [μmol/l] | 78 (39.0–148.0) |
AFP = alpha fetoprotein; AST = aspartate aminotransferase; GGT = gamma-glutamyl transferase); HBV = hepatitis B virus; HCV = hepatitis C virus; SD = standard deviation
Overall, 452 doxorubicin-loaded DEM-TACE procedures were performed in 144 patients. The median number of procedures per patient was 3 (range, 1–8). In 136 (94.4%) patients, at least two doxorubicin-loaded DEM-TACE procedures were performed. The remaining 8 (5.6%) patients had only one procedure at the time of their follow-up. Large microparticles (300–500 μm) were used in 16% of patients (n = 23), intermediate-size micro-particles (100–300 μm) in 19.4% of patients (n = 28) and small microparticles (40–100 μm) in 64.6% of patients (n = 93) in the first doxorubicin-loaded DEM-TACE procedure. The maximum cumulative dose of doxorubicin per procedure was 150 mg (range 50–150 mg). Doxorubicin-loaded DEM-TACE was the primary treatment for 120 patients (83.0%). Other treatments for HCC preceding the first doxorubicin-loaded DEM-TACE are presented in Table 3.
Hepatocellular carcinoma (HCC) treatment prior to initial doxorubicin-loaded drug-eluting microsphere transarterial chemoembolization (DEM-TACE)
Treatment | Number of patients (%) |
---|---|
No previous treatment | 120 (83.0) |
cTACE | 2 (1.4) |
Surgical resection | 13 (9.3) |
Transplantation | 1 (0.7) |
Surgical resection and RFA | 1 (0.7) |
Surgical resection and cTACE | 1 (0.7) |
RFA | 2 (1.4) |
MWA | 1 (0.7) |
ECT | 3 (2.1) |
cTACE = conventional TACE; ECT = electrochemotherapy; MWA = microwave ablation; RFA = radiofrequency ablation
PES occurred in 158 procedures (35.0%). All PES cases were managed medically and did not prolong hospitalization. In addition to PES, eleven (2.4% of all procedures) minor complications occurred and are presented in Table 4. Gastric erosions in symptomatic patients were detected by gastroscopy and treated medically. Intraprocedural small arterial branch rupture was immediately successfully treated with coil embolization.
Minor complications after drug-eluting microsphere transarterial chemoembolization (DEM-TACE) in the study population
Complications | Number of procedures (%) |
---|---|
Chest pain | 4 (0.9) |
Pain in the right shoulder | 1 (0.2) |
Hematoma puncture site at the | 3 (0.7) |
Gastric erosions | 2 (0.4) |
Intraprocedural branch rupture small arterial | 1 (0.2) |
Four (0.9% of all procedures) major complications were noted: ischemic cerebrovascular insult to the cerebellum, radial artery thrombosis following a transradial approach, variceal bleeding resulting from emesis after the procedure and infection of the necrotic tumour, which resolved after antibiotic treatment.
After a median follow-up of 23.8 months (range, 5.6–94.6), 115 patients had died. The one-, two-, three-, four- and five-year survival rates were 85%, 53%, 33%, 20% and 14%, respectively (Figure 1). The median OS was 25.8 months (95% CI: 22.1–29.5 months).
Kaplan-Meier curve of overall survival (entire study population).
Child-Pugh class, ascites and portal hypertension showed statistically significant differences with respect to OS on univariate analysis (Table 5) (
Overall survival after DEM-TACE in the study population Senči polja med vrsticami
Factor | Number of patients | Median survival | 95% CI | |
---|---|---|---|---|
Child-Pugh A | 91 | 26.6 | 17.7–35.5 | 0.008 |
Child-Pugh B | 29 | 19.6 | 18.4–20.8 | |
Portal hypertension | 76 | 20.2 | 14.7–25.7 | 0.001 |
No portal hypertension | 68 | 32.4 | 24.0–40.8 | |
Ascites | 34 | 19.6 | 15.3–23.9 | 0.016 |
No ascites | 110 | 29 | 23.0–35.0 | |
Unilobar disease | 92 | 24.9 | 21.0–28.8 | 0.609 |
Bilobar disease | 52 | 26.3 | 21.5–31.1 |
No statistically significant difference was observed between unilobar and bilobar disease
An objective response was achieved in 131 (91%) of 144 patients at the first dynamic contrast enhanced imaging follow-up. A complete response was achieved in 72 of 131 patients (55.0%) patients, and a partial response was achieved in 59 (45.0%) patients.
Progression was observed at the first imaging follow-up in 13 of 144 patients. Eight patients had target lesion progression, 3 patients had a new intrahepatic lesion, and 2 developed extrahepatic lesions. Further decisions were based on clinical evaluations, laboratory values and imaging data. Patients with target lesion progression were further treated with doxorubicin-loaded DEM-TACE (37.5%, n = 3) or systemic chemotherapy (25%, n = 2) or received best supportive care (37.5%, n = 3). Patients with new intrahepatic lesions were further treated with doxorubicin-loaded DEM-TACE (n = 1), systemic chemotherapy (n = 1), or both (n = 1). Both patients with extrahepatic lesions received systemic chemotherapy.
During the follow-up, progression was observed in 115 patients (79.9%). Of these, 27 patients (23.5%) had target lesion progression. The median time to progression was 10.2 months (95% CI: 8.3–12.1 months). Overall, further HCC treatment after progression was performed in 93 patients. Doxorubicin-loaded DEM-TACE was performed in 66 patients, MWA in 2 patients and both in 1 patient. Twenty-one patients were treated with systemic therapy alone, and 3 were treated with systemic therapy and doxorubicin-loaded DEM-TACE. The remaining 22 patients received best supportive care.
The purpose of this retrospective study was to evaluate the safety and effectiveness of DEM-TACE in patients with early and intermediate stage HCC. TACE is the standard of care for HCC patients with intermediate-stage disease. Moreover, for patients who are ineligible for surgical resection or percutaneous ablation, TACE is also considered a first-line treatment option in the early stage.16,17 However, intermediate HCC corresponds to a highly heterogeneous group of patients with significant variations in number and size of tumour, patient performance status and liver function, resulting in variable survival rates.18 The median OS for patients treated with TACE is reported to range from approximately 19 months to 40–50 months in well-selected patients2,3,9, which is consistent with our results. The median OS in our study was 25.8 months, with a range from 5.6 months to more than 7 years. A multicentric study by Han
Higher OS may be related to the high objective response rates achievable with TACE, which is supported by the fact that an objective response to treatment measured by mRECIST correlates with prolonged OS.21,22 According to the European Association for the Study of the Liver mRECIST represents the gold standard for radiologically evaluating tumour response during HCC locoregional treatment.2 Previously used EASL criteria express the change in the two dimensions of hyperenhancing tumour and therefore also reflect the extent of necrosis caused by the treatment. mRECIST criteria adopted a single long-axis measurement and are simplified objective measure of treatment response, especially with the use of superselective approach where little or no viable tumour is expected. An objective response to TACE is achieved in approximately 50% of patients, with the lowest rate reported to be approximately 16% and the highest reported to be approximately 85.6%.16,17,23 A prospective, randomized phase II study comparing doxorubicin-loaded DEM-TACE with cTACE showed higher objective response rates in the doxorubicin-loaded DEM-TACE group – 51.6%
The benefits of CBCT for intra-arterial liver procedures are now well established and documented. The detection accuracy of CBCT for HCC lesions is equivalent to those of multidetector CT and MRI and superior to that of angiography. CBCT is the most accurate imaging technique to identify tumour-feeding arteries and can be used to rule out nontarget embolization of nontumour-feeding extrahepatic arteries. These advantages of CBCT can result in better treatment efficacy of DEM-TACE and other intra-arterial therapies.13
DEM-TACE has been demonstrated to result in fewer complications than cTACE.24 In a systematic review of cTACE by Lencioni
Our study has some limitations. This was a retrospective study including only a limited number of patients and no control group. A standard treatment methodology and patient selection criteria for TACE are lacking due to the heterogeneity of the HCC patient population with BCLC stages A and B. Therefore, patient selection should be carefully considered to achieve the best outcomes. Subsequent studies should include a larger group of patients. Other medical centres should also be included since the results of this single-centre study may not be applicable to other centres and geographic regions. Furthermore, although four interventional radiologists performed DEM-TACE according to uniform protocols, minor variations, such as in catheterization selectivity, were inevitable. Finally, the treatment effect of DEM-TACE may also be significantly influenced by multimodality treatment; thus, the long-term outcomes might not be representative.
In conclusion, DEM-TACE under CBCT control in patients with early and intermediate stage HCC is a safe and effective method of care. The results of this study are consistent with that in our study from 2016, confirming that proper patient selection, routine utilization of CBCT control for superselective TACE guidance, regular treatment response evaluation and liver function tests, together with retreatment “on demand” results in high objective tumour response and survival rates.