18 November 2019: Articles 
Novel Therapeutic Strategy Using Interventional Radiology (IVR) for Hepatitis C Virus (HCV)-Related Decompensated Liver Cirrhosis: A Case Report
Unusual clinical course, Unusual or unexpected effect of treatment, Diagnostic / therapeutic accidents
Takuya Iwamoto AE 1*, Issei Saeki B 1, Isao Hidaka B 1, Tsuyoshi Ishikawa D 1, Taro Takami DF 1, Isao Sakaida F 1DOI: 10.12659/AJCR.919240
Am J Case Rep 2019; 20:1699-1704
Abstract
BACKGROUND: The appearance of direct acting antivirals (DAAs) has produced a major paradigm shift in hepatitis C virus (HCV) infection treatment, and virus elimination has become possible in most patients. Improvement of the model for end-stage liver disease (MELD) score by elimination of HCV has been reported, but for decompensated liver cirrhosis, it is also important to overcome various complications before antiviral treatment.
CASE REPORT: A 72-year-old male, who had been treated for HCV-related liver cirrhosis was referred to our hospital for treatment of refractory hepatic encephalopathy. At that time, his Child-Pugh score was 10 and class was C. On contrast-enhanced computed tomography (CT), a splenorenal shunt, splenomegaly, and splenic artery aneurysm were noted. The disease was also complicated by cytopenia associated with hypersplenism, and embolization of the splenic artery aneurysm and partial splenic embolization (PSE) were concomitantly performed. One month after the PSE, balloon occluded retrograde transvenous obliteration (BRTO) for refractory hepatic encephalopathy was performed. Hepatic functional reserve improved compared with that at the first examination, and SOF/LDV therapy was initiated. Fortunately, no adverse effect occurred during treatment, and sustained virologic response (SVR) was achieved. Hepatic functional reserve further improved thereafter. At the time of this report, a Child-Pugh A status was being maintained without administration of a branched chain amino acid preparation, drugs for hyperammonemia, or diuretics.
CONCLUSIONS: We encountered a patient with decompensated liver cirrhosis accompanied by complications of hypersplenism, hepatic encephalopathy, and splenic artery aneurysm. These complications were overcome by treatment with PSE and BRTO, which led to DAAs treatment and a marked improvement of hepatic function.
Keywords: Hepatitis C Antibodies, Liver Cirrhosis, Splenomegaly, hepatic encephalopathy, Hepatitis C, hypersplenism, Radiography, Interventional
Background
The treatment outcome of chronic liver disease type C has markedly improved compared with that in the era of interferon (IFN)-based treatment. After telaprevir was launched in 2011, direct acting agents (DAAs) that directly inhibit virus multiplication in combination with pegylated interferon and ribavirin have greatly improved therapeutic effects [1–3]. Furthermore, a NS5A inhibitor and second-generation protease inhibitor appeared in 2014, and IFN-free therapy for genotype 1 with oral drugs alone without IFN has become possible [4]. A nucleic acid-type NS5B polymerase inhibitor, sofosbuvir (SOF), for genotype 2 then appeared in 2015 [5], and a ledipasvir (LDV)/SOF combination tablet for genotype 1 was subsequently introduced [6]. In 2017, the introduction of a pan-genotype oral drug, glecaprevir (GLE)/pibrentasvir (PIB) has allowed control of chronic liver disease type C, including compensated liver cirrhosis [7]. SOF/velpatasvir (VEL) became available for treatment of decompensated liver cirrhosis in Japan in January 2019 [8]. Decompensated liver cirrhosis may be included in the treatment target in the future and the risk of complications can be reduced by elimination of hepatitis C virus (HCV) [9–11]. However, improvement of activities of daily living (ADL) and quality of life (QOL) and prolongation of survival cannot be expected with this treatment alone, and greater importance is attached to control of various complications, such as portal hypertension. We encountered a patient with decompensated liver cirrhosis type C and several complications, including cytopenia associated with hypersplenism, hepatic encephalopathy accompanied by hyperammonemia, and splenic artery aneurysm with a risk of rupture. Treatment with partial splenic embolization (PSE) and balloon-occluded retrograde transvenous obliteration (BRTO) were performed for improvement of hepatic functional reserve and control of complications, and HCV was successfully eliminated by SOF/LDV.
Case Report
The patient was a male in his 70s. He had been diagnosed with chronic hepatitis C at about 40 years old and the disease course was followed with therapy for liver support. Decreases in platelets and choline esterase were noted from 2006 and the patient was diagnosed with hepatic cirrhosis. Treatment continued thereafter, but he became aware of disturbance of consciousness while driving a car in 2014, and Aminoleban administration was initiated for a diagnosis of hepatic encephalopathy. Control of the disease by dietary and drug therapies became difficult in June 2015, and the patient was referred to our hospital for close examination and treatment of refractory hepatic encephalopathy.
Blood test data in the first examination are shown in Table 1. Pancytopenia and increases in enzymes of the hepatobiliary system and serum ammonia were detected. The Child-Pugh score was 9. On contrast-enhanced computed tomography (CT), a splenorenal shunt and the paraumbilical vein were markedly dilated, and splenomegaly (610 cm3) and splenic artery aneurysm (diameter 3 cm) were noted (Figure 1).
Since the splenic artery aneurysm was located close to the tail of the pancreas, combined surgical resection of the spleen and tail of the pancreas was desirable, but the risk was considered to be high based on the hepatic functional reserve, and interventional radiology (IVR) was selected. The disease was also complicated by cytopenia associated with hypersplenism, and embolization of the splenic artery aneurysm and PSE were concomitantly performed (Figure 2). Since the platelet count increased to about 100 000/L thereafter and the effect of aneurysm embolization was favorable, the patient was discharged. Elective BRTO for refractory hepatic encephalopathy after discharge was scheduled, but hepatic encephalopathy recurred, and the patient was urgently readmitted. BRTO was performed (Figure 3A) after the condition was stabilized by treatment with drip infusion, and complete obstruction of the shunt vessels was confirmed by postoperative CT (Figure 3B). No complication developed and the patient was discharged with rapid remission.
Outpatient treatment was continued thereafter, and more than 1 year passed without recurrence of hepatic encephalopathy or development of hepatocellular carcinoma (HCC). Hepatic functional reserve improved compared with that at the first examination (Table 2), and treatment of HCV was initiated in response to a request from the patient. At this time, decompensated liver cirrhosis was not covered by national health insurance and there was a possibility of adverse effects. After a sufficient explanation that included these issues, consent was obtained from the patient and his family, and SOF/LDV therapy was initiated. Fortunately, no adverse effect occurred during treatment, and SVR was achieved. Hepatic functional reserve further improved thereafter. At present, a Child-Pugh A status is being maintained without administration of a branched chain amino acid preparation, drugs for hyperammonemia, or diuretics.
Discussion
We encountered a patient with decompensated liver cirrhosis accompanied by complications of hypersplenism, hepatic encephalopathy, and splenic artery aneurysm. These complications were overcome by treatment with PSE and BRTO, which led to DAAs treatment and a marked improvement of hepatic functional reserve. Liver transplantation for decompensated liver cirrhosis is the only life-saving treatment for end-stage liver failure, but it was difficult to perform in our patient due to his age and the absence of a donor. The appearance of DAAs has produced a major paradigm shift in HCV treatment, and virus elimination has become possible in most patients. Compensated liver cirrhosis was the original target of DAAs (SOF/LDV, etc.), but SOF/VEL became available for treatment of decompensated liver cirrhosis in Japan in January 2019. However, when this case was treated, SOF/VEL could not be used yet, so we had to use SOF/LDV, which has no indication for decompensated cirrhosis. The patient himself strongly requested HCV treatment; his hepatic functional reserve was on an improving trend until the situation close to the compensated cirrhosis. Therefore, treatment was performed after giving sufficient informed consent to the person and family. Improvement of the model for end-stage liver disease (MELD) score by elimination of HCV has been reported [12], but for de-compensated liver cirrhosis, it is also important to overcome various complications before antiviral treatment.
Our patient was first treated for complications of splenic artery aneurysm with a risk of rupture and hypersplenism-associated thrombocytopenia. For the treatment method, PSE and splenectomy were considered, but surgical resection was judged to be high-risk based on the hepatic functional reserve. PSE has become safely applicable to the periphery of the splenic artery with advances in IVR, and its use as pretreatment for hepatitis C has been frequently reported as complications have decreased [13,14]. PSE can amend not only hematological abnormalities, including thrombocytopenia and leukopenia, but also abnormal portal hemodynamics [15,16]. The hepatic venous pressure gradient (HVPG) that reflects portal pressure and its changes may predict the development of new varices and variceal hemorrhage in patients with portal hypertension [17]. Thus, in the treatment strategy, PSE to correct pancytopenia and coil embolization of the splenic artery aneurysm with a risk of rupture were performed first. After these procedures, the platelet count increased as expected and no severe complication occurred.
The patient had repeatedly developed hepatic encephalopathy, which was considered to be caused by the presence of a well-developed splenorenal shunt. Thus, BRTO was performed 1 month after PSE. BRTO decreased the serum ammonia level, and together with an increase in portal blood flow, hepatic functional reserve gradually increased, as previously reported [18–20]. Some studies have demonstrated that blood steal from the portal-splenic venous system to the systemic circulation through large collateral pathways might contribute to worsened hepatic functional reverse, and the presence of major shunts might be one of the prognostic factors in patients with portal hypertension [21–23]. On the other hand, some reports have described not only amelioration of hepatic function, but also improvement in vital prognosis due to increased portal flow volume by occlusion of portosystemic shunts [18,20,23,24]. The patient was followed at the outpatient clinic thereafter. Hepatic functional reserve stably improved with an increase in albumin, and diuretic administration became unnecessary. Thus, subsequently, we decided to treat HCV infection. Hepatic functional reserve further improved thereafter.
Treatment with DAAs may be increasingly used for decompensated liver cirrhosis. The most important points in this approach are to complete treatment safely and improve hepatic functional reserve to extend survival, for which the maximum therapeutic intervention for decompensated liver cirrhosis may be desirable. The LDV/SOF tablet used in our patient is a combination of a nucleic acid-type NS5B polymerase inhibitor, sofosbuvir, which is a “chain terminator” that directly inhibits HCV RNA synthesis, and an NS5A inhibitor, ledipasvir. Sofosbuvir exerts its pharmacological after metabolism in the liver [25]. In cases with a very large portal-systemic shunt, as in our patient, it is unclear whether such drugs appropriately reach the liver and exert a pharmacological effect. In these cases, treatment after obstruction of the shunt may be desirable to acquire the maximum therapeutic effect on HCV infection. Antiviral therapy alone may also be insufficient to improve hepatic functional reserve in many cases of decompensated liver cirrhosis, but improvement to close to a normal level may be possible through a combined approach of correcting splenomegaly and shunt vessels.
Patients with hepatic cirrhosis of Child-Pugh grade C in Japan have a 3-year survival rate of 30.7%. Our patient has maintained a Child-Pugh grade A status as of 3 years after treatment, showing marked improvement of survival of a patient with liver failure. The combination of treatment reported here requires further validation in more cases of decompensated liver cirrhosis.
Conclusions
We encountered a patient with decompensated liver cirrhosis accompanied by complications of hypersplenism, hepatic encephalopathy, and splenic artery aneurysm. These complications were overcome by treatment with PSE and BRTO, which led to DAAs treatment and a marked improvement of hepatic function.
References:
1.. Jacobson IM, McHutchison JG, Dusheiko G, Telaprevir for previously untreated chronic hepatitis C virus infection: N Engl J Med, 2011; 364; 2405-16, pmid: 21696307
2.. Zeuzem S, Andreone P, Pol S, Telaprevir for retreatment of HCV infection: N Engl J Med, 2011; 364; 2417-28, pmid: 21696308
3.. Kumada H, Toyota J, Okanoue T, Telaprevir with peginterferon and ribavirin for treatment-naïve patients chronically infected with HCV of genotype 1 in Japan: J Hepatol, 2012; 56; 78-84, pmid: 21827730
4.. Lee C, Daclatasvir: Potential role in hepatitis C: Drug Des Devel Ther, 2013; 7; 1223-33
5.. Molina JM, Orkin C, Iser DM, Sofosbuvir plus ribavirin for treatment of hepatitis C virus in patients co-infected with HIV (PHOTON-2): A multicentre, open-label, non-randomised, phase 3 study: Lancet, 2015; 385; 1098-106, pmid: 25659285
6.. Mizokami M, Yokosuka O, Takehara T, Ledipasvir and sofosbuvir fixed-dose combination with and without ribavirin for 12 weeks in treatment-naive and previously treated Japanese patients with genotype 1 hepatitis C: An open-label, randomised, phase 3 trial: Lancet Infect Dis, 2015; 15; 645-53, pmid: 25863559
7.. Zeuzem S, Foster GR, Wang S, Glecaprevir-pibrentasvir for 8 or 12 weeks in HCV genotype 1 or 3 infection: N Engl J Med, 2018; 378; 354-69, pmid: 29365309
8.. Younossi ZM, Stepanova M, Jacobson IM, Sofosbuvir and velpatasvir with or without voxilaprevir in direct-acting antiviral-naïve chronic hepatitis C: Patient-reported outcomes from POLARIS 2 and 3: Aliment Pharmacol Ther, 2018; 47(2); 259-67, pmid: 29181842
9.. Di Marco V, Calvaruso V, Ferraro D, Effects of viral eradication in patients with hepatitis C virus and cirrhosis differ with stage of portal hypertension: Gastroenterology, 2016; 151; 130-39, pmid: 27039970
10.. Bruno S, Stroffolini T, Colombo M, Sustained virological response to interferon-alpha is associated with improved outcome in HCV-related cirrhosis: A retrospective study: Hepatology, 2007; 45; 579-87, pmid: 17326216
11.. Veldt BJ, Heathcote EJ, Wedemeyer H, Sustained virologic response and clinical outcomes in patients with chronic hepatitis C and advanced fibrosis: Ann Intern Med, 2007; 147; 677-84, pmid: 18025443
12.. Calvaruso V, Mazzarelli C, Milazzo L, Daclatasvir-based regimens in HCV cirrhosis: Experience from the Italian early access program: Sci Rep, 2019; 9; 585, pmid: 30679515
13.. Shimizu H, Takatsuka K, Nakano H, Long-term evaluation of partial splenic embolization followed by interferon therapy in patients with hepatitis C virus (HCV) cirrhosis and thrombocytopenia: Intern Med, 2014; 53; 925-31, pmid: 24785882
14.. Tahara H, Takagi H, Sato K, A retrospective cohort study of partial splenic embolization for antiviral therapy in chronic hepatitis C with thrombocytopenia: J Gastroenterol, 2011; 46; 1010-19, pmid: 21594564
15.. Chikamori F, Kuniyoshi N, Kawashima T, Short-term portal hemodynamic effects of partial splenic embolization for hypersplenism: Hepatogastroenterology, 2007; 54(78); 1847-49, pmid: 18019732
16.. Mukaiya M, Hirata K, Yamashiro K, Changes in portal hemodynamics and hepatic function after partial splenic embolization (PSE) and percutaneous transhepatic obliteration (PTO): Cancer Chemother Pharmacol, 1994; 33(Suppl.); S37-41, pmid: 8137483
17.. Groszmann RJ, Garcia-Tsao G, Bosch J, Beta-blockers to prevent gastroesophageal varices in patients with cirrhosis: N Engl J Med, 2005; 353(21); 2254-61, pmid: 16306522
18.. Akahane T, Iwasaki T, Kobayashi N, Changes in liver function parameters after occlusion of gastrorenal shunts with balloon-occluded retrograde transvenous obliteration: Am J Gastroenterol, 1997; 92; 1026-30, pmid: 9177524
19.. Kato T, Uematsu T, Nishigaki Y, Therapeutic effect of balloon-occluded retrograde transvenous obliteration on portal-systemic encephalopathy in patients with liver cirrhosis: Intern Med, 2001; 40; 688-91, pmid: 11518103
20.. Fukuda T, Hirota S, Sugimura K, Long-term results of balloon-occluded retrograde transvenous obliteration for the treatment of gastric varices and hepatic encephalopathy: J Vasc Interv Radiol, 2001; 12; 327-36, pmid: 11287510
21.. Ohnishi K, Sato S, Saito M, Clinical and portal hemodynamic features in cirrhotic patients having a large spontaneous splenorenal and/or gastrorenal shunt: Am J Gastroenterol, 1986; 81(6); 450-55, pmid: 3518409
22.. Nakano R, Iwao T, Oho K, Splanchnic hemodynamic pattern and liver function in patients with cirrhosis and esophageal or gastric varices: Am J Gastroenterol, 1997; 92(11); 2085-89, pmid: 9362198
23.. Kumamoto M, Toyonaga A, Inoue H, Long-term results of balloon-occluded retrograde transvenous obliteration for gastric fundal varices: Hepatic deterioration links to portosystemic shunt syndrome: J Gastroenterol Hepatol, 2010; 25(6); 1129-35, pmid: 20594229
24.. Choi YH, Yoon CJ, Park JH, Balloon-occluded retrograde transvenous obliteration for gastric variceal bleeding: Its feasibility compared with transjugular intrahepatic portosystemic shunt: Korean J Radiol, 2003; 4(2); 109-16, pmid: 12845306
25.. Murakami E, Tolstykh T, Bao H, Mechanism of activation of PSI-7851 and its diastereoisomer PSI-7977: J Biol Chem, 2010; 285; 34337-47, pmid: 20801890
In Press
Case report 
Am J Case Rep In Press; DOI: 10.12659/AJCR.949976
Case report 
Am J Case Rep In Press; DOI: 10.12659/AJCR.950290
Case report 
Am J Case Rep In Press; DOI: 10.12659/AJCR.950607
Case report 
Am J Case Rep In Press; DOI: 10.12659/AJCR.950985
Most Viewed Current Articles
07 Dec 2021 : Case report 
17,691,734
DOI :10.12659/AJCR.934347
Am J Case Rep 2021; 22:e934347
06 Dec 2021 : Case report 
164,491
DOI :10.12659/AJCR.934406
Am J Case Rep 2021; 22:e934406
21 Jun 2024 : Case report
113,090
DOI :10.12659/AJCR.944371
Am J Case Rep 2024; 25:e944371
07 Mar 2024 : Case report
59,175
DOI :10.12659/AJCR.943133
Am J Case Rep 2024; 25:e943133