Contrast-enhanced ultrasonography of the liver using SonoVue
Article information
Abstract
This review focuses on the use of contrast-enhanced ultrasonography (CEUS) with SonoVue (Bracco Imaging) for the diagnosis of focal liver lesions (FLLs), guidance during ablative treatment, and follow-up of liver tumors. Multicenter trials have shown that the performance of CEUS for the characterization of FLLs is similar to that of contrast-enhanced computed tomography or contrast-enhanced magnetic resonance imaging. CEUS with SonoVue has been effectively used for guiding the percutaneous treatment of malignant liver tumors that are invisible or poorly visualized in traditional gray-scale ultrasonography. Postprocedural CEUS may be used to detect and retreat residual viable tissue in the same ablative session. The use of CEUS for the assessment of diffuse liver disease is also discussed.
Introduction
With the widespread use of ultrasonography (US) as an imaging technique, due to its noninvasiveness, repeatability, and relatively low cost, the rate of incidentally detected focal liver lesions (FLLs) has increased. In asymptomatic and healthy persons without risk factors, these lesions are usually benign; therefore, it is of the utmost importance to arrive at a definitive diagnosis in a way that avoids more expensive studies that are not free of risks [1,2]. Nonetheless, early detection and characterization of primary and metastatic liver cancers could allow more effective treatments, thereby improving patients’ survival. Contrast-enhanced ultrasound (CEUS) is a real-time dynamic imaging technique that plays an important role in this setting because it permits the characterization of FLLs due to its ability to demonstrate the vascularity of the tumor.
Few US contrast agents are available on the market for performing CEUS studies. In Europe, the revision is accurate used is SonoVue (Bracco Imaging, Milan, Italy). Unlike computed tomography (CT) or magnetic resonance (MR) contrast media, SonoVue is a purely intravascular agent, without an interstitial extravascular phase, allowing the dynamic detection of microcirculation.
SonoVue is made up of microbubbles (2-10 μm) with a shell of phospholipids that are filled with sulfur hexafluoride gas. The contrast agent, which is confined in the vessels after the injection, presents a high reflectivity with a low mechanical index and allows the visualization of the tiny vessels in the capillary bed, thus permitting the dynamic detection of capillary microvascularization. The contrast agent is not excreted by the kidneys, and it can therefore be used in patients with impaired renal function in whom contrast-enhanced CT (CE-CT) or contrast-enhanced MR (CE-MR) is contraindicated. The safety of SonoVue has been retrospectively assessed in a series of 23,188 investigations performed in adult subjects: no fatal events occurred and the overall rate of serious adverse events was 0.0086% [3].
The liver has a dual blood supply, from the portal vein and the hepatic artery, which gives rise to three US contrast vascular phases: the arterial phase that starts within 20 seconds after the injection and continues for 30-45 seconds, followed by the portal venous phase that ends at 120 seconds, and then the late phase that lasts up to the clearance of the US contrast agent from the circulation (usually 6 minutes) [4].
Special perfusion software also allows blood volume-based parameters to be measured (e.g., maximum intensity and area under the curve) and flow rate-based parameters (e.g., mean transit time and time to peak) [5].
This review focuses on the use of CEUS with SonoVue for the diagnosis of FLLs, guidance during ablative treatments, and post-ablation follow-up of liver tumors. The use of CEUS for the assessment of diffuse liver disease is discussed as well.
Diagnosis of Focal Liver Lesions
SonoVue is a form of ultrasound contrast that has been widely used in Europe and parts of Asia for the characterization of FLLs for almost 15 years, and its performance has been evaluated in numerous studies.
The European Federation of Societies for Ultrasound in Medicine and Biology (EFSUMB) and the World Federation for Ultrasound in Medicine and Biology (WFUMB), together with representatives of other scientific bodies, have produced guidelines for the use of CEUS in the liver that report the enhancement patterns of benign and malignant FLLs after intravenous administration of the US contrast agent [4]. Sustained enhancement in the portal venous and late phases, without washout signs, is typically observed in almost all solid benign liver lesions, whereas hypo-enhancement in the late phases, corresponding to washout, is the key finding of malignancies (Figs. 1, 2) [4].
Multicenter trials have shown that the performance of CEUS for the characterization of FLLs is similar to that of CE-CT or CE-MR [6-9]. A meta-analysis including 8,147 FLLs showed that the overall sensitivity and specificity of CEUS for the diagnosis of malignant liver lesions were 93% (95% confidence interval [CI], 91 to 95) and 90% (95% CI, 88 to 92), respectively [10]. The meta-analysis comprised 45 studies, 35 (77.8%) performed with SonoVue and the other 10 with other contrast agents: Levovist in eight studies, Optison in one study, and Sonazoid in one study. Significant heterogeneity was found across studies; however, the sources of heterogeneity could not be sufficiently identified. Nonetheless, a sub-analysis revealed that there was no significant difference when evaluating studies using histology for all FLLs, when comparing high-quality and low-quality studies, or blinded versus nonblinded studies.
Westwood et al. [11] conducted a study, commissioned by the Secretary of Health of the United Kingdom, comparing the clinical effectiveness and cost-effectiveness of CEUS using SonoVue with that of CE-CT and CE-MR for the assessment of adults with FLLs in whom previous liver imaging studies were inconclusive. The authors reported that CEUS could provide similar diagnostic performance to other imaging modalities for the assessment of FLLs. Economic analyses indicated that CEUS was a cost-effective replacement for CE-MR. The use of CEUS instead of CE-CT was considered cost-effective in the characterization of nodules detected during the surveillance of cirrhotic patients and for the characterization of incidentally detected FLLs, with similar costs and effects for the detection of liver metastases from colorectal cancer.
A study that involved three centers and 485 subjects with 575 incidentally detected FLLs reported that CEUS correctly differentiated (benign vs. malignant) 559 of 575 lesions (97.2%), with 98.1% sensitivity and 95.7% specificity, and saved 175.39 Euros per patient [12]. In this study, CE-CT or CE-MR was the reference standard.
In patients without known pathologies, a meta-analysis that included 21 studies showed that the diagnostic accuracy of CEUS with SonoVue was not significantly different from that of CE-CT or CE-MR [13]. The sensitivity and specificity, respectively, were 88% (95% CI, 87 to 90) and 81% (95% CI, 79 to 84) for CEUS, 90% (95% CI, 88 to 92) and 77% (95% CI, 71 to 82) for CE-CT, and 86% (95% CI, 83 to 88) and 81% (95% CI, 76 to 85) for CE-MR.
In a multicenter study that enrolled 1,349 patients at 14 US centers, the overall diagnostic accuracy of CEUS in differentiating benign from malignant FLLs, compared to histology in more than 70% of cases or to CE-CT or CE-MR in the remaining cases, was 90.3% [7]. For the diagnosis of a malignant tumor, CEUS had a 92.3% positive predictive value and a 95.1% negative predictive value.
Unusual patterns of focal fat deposition may mimic malignancies and cause diagnostic challenges on imaging [14]. It has been reported that in the detection of liver metastases in cancer patients with geographic liver fatty infiltration on US, CEUS with SonoVue had 100% sensitivity and 97.1% specificity [15]. No statistically significant difference was found between CEUS and CE-MR in the detection of FLLs.
CEUS is a real-time dynamic imaging technique that can be used when CE-MR or CE-CT is inconclusive or contraindicated. In fact, this continuous real-time imaging modality may allow detecting the transient enhancement of a lesion that could be missed by other imaging modalities [16].
In the guidelines for management of hepatocellular carcinoma (HCC) produced by the American Association for the Study of Liver Disease and by the European Association for the Study of the Liver, CEUS was removed from the diagnostic algorithm for nodules in cirrhosis [17,18]. This choice was based on a study that enrolled a relatively low number of patients recruited over a long time and showed false-positive HCC diagnoses in patients with intrahepatic cholangiocellular carcinoma [19].
However, the use of CEUS for the characterization of nodules in cirrhotic livers is recommended by the Italian Association for the Study of the Liver and the Italian National Institute of Health’s Sistema Nazionale Linee Guida [20,21]. The British National Institute for Health and Clinical Excellence recommends the use of SonoVue for characterizing FLLs in adults whose cirrhosis is being monitored if CE-MR is not clinically appropriate, is not accessible or is not acceptable to the person, and when an unenhanced US scan is inconclusive [22].
In a retrospective study performed on 282 cirrhotic patients with 34 benign and 248 histologically proven malignant FLLs, a washout time >55 seconds identified patients with HCC with the highest level of accuracy (92.7%), whereas a washout time ≤55 seconds correctly identified the vast majority of the non-HCC malignancies (100% sensitivity, 98.2% specificity, 98.3% diagnostic accuracy) [23].
In a recent multicenter prospective trial, 442 cirrhotic patients were enrolled to assess the diagnostic performance of CE-CT, CE-MR, and CEUS, alone or in combination, for the diagnosis of HCC 10 to 30 mm in size [24]. CEUS, CE-CT, and CE-MR were performed in all patients within a month. This trial showed that the sensitivity of CEUS was low but the specificity was 92.9%, significantly higher than CE-CT (76.8%) and CE-MR (83.2%) for nodules 10-20 mm in size. The best sequential approach combined CE-MR and CEUS; thus, the authors suggested that CEUS could play a role in a 2-step algorithm for the noninvasive diagnosis of HCC.
The Liver Imaging Reporting and Data System using CEUS (CEUS LI-RADS) for the diagnosis of HCC in patients at risk was recently developed to improve the consensus and standardization regarding diagnostic performance, interpretation, and reporting [25]. CEUS LIRADS is an algorithm that classifies nodules from LR-1, a definitely benign lesion, through LR-5, which is definitely HCC (Figs. 3-8). A conclusive diagnosis of HCC is made when the nodule is ≥10 mm in size and the whole nodule or part of it shows hyperenhancement in the arterial phase followed by late (≥60 seconds) and mild washout. These criteria virtually eliminate the risk of misdiagnosing cholangiocarcinoma [25].
Due to the lack of a panoramic view, CEUS is not recommended for staging liver malignancies; however, the technique is highly accurate in the characterization of FLLs. In CEUS studies, liver metastases show a very rapid and marked washout, meaning that the conspicuity and detection increase in the late phase (Fig. 9), allowing the evaluation of the whole liver. In the setting of colorectal cancer after chemotherapy, it is recommended to replace unenhanced US with CEUS in the follow-up of patients with liver metastases [4].
CEUS with SonoVue has received approval for pediatric hepatic use in the United States, where it is available under the name of Lumason, but not yet in Europe, where it is still used off-label. The adverse events encountered in pediatric patients and the financial benefits of reducing the number of CT and MR examinations performed were recently reviewed in a series of 305 pediatric patients [26]. No immediate adverse reactions occurred. Delayed adverse reactions occurred in two patients: transient hypertension and transient tachycardia, and both were asymptomatic. The potential cost savings of CEUS were $74 per examination over CT and $180 over MR. In a retrospective survey analysis of 948 examinations from 29 European centers, five minor adverse events were recorded [27].
EFSUMB has released a position statement regarding the role of CEUS in pediatric practice, emphasizing that the literature has proven the feasibility, safety, and high diagnostic accuracy of CEUS regarding the characterization of FLLs, similar to CE-CT and CE-MR [28].
Ablative Treatment and Follow-up of Liver Tumors
CEUS with SonoVue has been effectively used for guiding the percutaneous treatment of malignant liver tumors that are invisible or poorly visualized in traditional gray-scale US [29,30]. In a series of 60 hepatic malignancies, the insertion of the radiofrequency electrodes was guided by CEUS in all lesions, and immediately after the ablation the primary effectiveness rate was 100%, as assessed using CE-MR [30].
A lesion that has been successfully ablated shows no enhancement after contrast administration, whereas residual viable HCC or metastases show the typical pattern of enhancement followed by washout (Fig. 10). However, an enhancing marginal rim can be seen during the first week after ablation, due to an inflammatory reaction that starts soon after the treatment [29,31]. This hyper-enhancing halo is usually regular, approximately 1.0 cm thick, and does not show washout in the late phase [29].
A retrospective study that enrolled 92 patients with 94 tumors showed that the diagnostic accuracy of postprocedural CEUS in the early evaluation of liver tumors following thermal ablation was comparable to both CEUS and CE-CT performed at 24 hours. Thus, it is suggested that postprocedural CEUS may be used to detect and retreat residual viable tissue in the same ablative session [32].
A cost-effectiveness analysis performed in a series of 93 patients with 148 HCCs indicated that the use of intra-procedural CEUS in comparison with standard treatment reduced the costs by 21.9%, because the use of the contrast allowed the detection of incomplete ablation, meaning that additional treatment could be performed during the same session [33].
In the follow-up of ablated tumors, CE-CT and CE-MR are the gold standard for the assessment of therapeutic efficacy because of their high diagnostic accuracy and the possibility of a thorough evaluation of potential metastatic sites [29]. However, CEUS can be used when CE-CT or CE-MR is inconclusive or contraindicated [29].
In a series of 588 patients with completely ablated tumors who were followed up serially, using alternating CEUS and CE-CT every 3 months for 2 years, recurrences developed in the same segment of the ablated lesion in 72% of cases; thus, CEUS proved to be effective despite the limited field of view in the arterial phase when compared to CE-CT and CE-MR [34]. Based on these findings, the authors suggested that including CEUS in patients’ follow-up may reduce the number of CE-CT and CE-MR examinations, thereby reducing costs and risks.
Diffuse Liver Disease
CEUS with SonoVue has been used for the assessment of liver disease severity in some studies that have evaluated, using dedicated software, the arrival time of the contrast in the hepatic veins. The rationale is that the capillarization of the sinusoids, together with the presence of arterio-venous and porto-venous shunts, leads to a decrease in the hepatic vein arrival time (HVAT) in patients with cirrhosis. In a study of 160 consecutive patients with cirrhotic (n=78) and noncirrhotic liver disease (n=82) and 14 healthy controls, it was shown that HVAT was lower in cirrhotic patients than in noncirrhotic patients and controls: 15.0±2.8, 21.5±3.4, and 25.6±4.7 seconds, respectively (P<0.05) [35]. A cutoff value of 17 seconds excluded liver cirrhosis with 91.1% sensitivity and 93.6% specificity. In another study performed to identify patients with portal hypertension, the HVAT was significantly shorter among the patients with cirrhosis than in controls (30.5±3.3 vs. 13.3±3.2 seconds, P<0.001) and a HVAT <14 seconds identified patients with clinically significant portal hypertension (area under the receiving operator characteristic curve, 0.95; sensitivity, 90.0%; specificity, 86.7%) [36].
Despite these interesting results, it should be emphasized that there is a large overlap between the pre-cirrhotic and cirrhotic stages of disease.
Conclusion
CEUS with SonoVue is a safe and cost-effective imaging procedure for the characterization of FLLs. It provides a real-time dynamic evaluation of FLLs without radiation exposure and can be used even when CE-CT or CE-MR is contraindicated. In several clinical scenarios, the technique is cost-effective compared to CE-CT or CE-MR, while having the same accuracy. CEUS allows an immediate characterization of the majority of FLLs incidentally discovered during unenhanced US, thus avoiding more expensive imaging studies that are not free of potential risks.
Limitations in the use of CEUS include the lack of a large field of view and the necessity of ensuring that an appropriate acoustic window is available. Moreover, the results are dependent on the expertise of the operator.
Notes
Giovanna Ferraioli has served as a speaker for Hitachi Ltd., Philips Medical Systems, and Toshiba Medical Systems.
Maria Franca Meloni has served as a speaker for Bracco.