key: cord-0832257-jvcgcay1
authors: Sato, Akira; Yamauchi, Masahiro; Yamada, Takayuki; Kumano, Reiko; Adachi, Kayo; Ishii, Toshiya; Hayashi, Mikihito; Kumon, Daisuke
title: Successful natural interferon-β plus ribavirin therapy in a chronic hepatitis C patient after discontinuation of interferon-α treatment due to arrhythmia and interstitial pneumonia
date: 2014-06-06
journal: Clin J Gastroenterol
DOI: 10.1007/s12328-014-0500-8
sha: 1b6616fe20c678e18915ea2b6fab8b22309b45b6
doc_id: 832257
cord_uid: jvcgcay1

A 71-year-old female patient with hepatitis C virus genotype 1 had previously discontinued interferon (IFN)-α plus ribavirin therapy, pegylated IFN-α (pegIFN-α) monotherapy, and natural IFN-α monotherapy because of arrhythmia, interstitial pneumonia, and severe neurovegetative symptoms. She subsequently completed 72 weeks of natural IFN-β plus ribavirin therapy without remarkable adverse effects and achieved a sustained viral response, suggesting differences in the pharmacological properties and biological effects of IFN-α and IFN-β. Thus, natural IFN-β plus ribavirin therapy may be a treatment option for patients with poor tolerance to IFN-α or pegIFN-α treatments.

Treatments that help eradicate chronic hepatitis C virus (HCV) infections are essential for preventing disease progression to cirrhosis and hepatocellular carcinoma [1] . Interferon (IFN) is the standard therapy for chronic hepatitis C, and the combination of pegylated interferon-a (pegIFN-a) and ribavirin (RBV) therapy produces a sustained anti-viral response (SVR) in 50 % of patients infected with high viral loads of HCV genotype 1. Furthermore, higher SVR rates follow triple therapy with pegIFN-a and RBV plus telaprevir or simeprevir [2] . However, some patients fail to complete IFN treatments because of adverse effects such as interstitial pneumonia (IP), which is known as a critical adverse effect and can lead to death [3] , and cardiovascular events such as arrhythmia, which are rare among IFN-treated hepatitis C patients [4] . In contrast, the rates of treatment discontinuation and/or dose modification due to severe adverse effects of natural IFN-b (nIFN-b) are reportedly low [5, 6] , and the efficacy of combination therapy with RBV for genotype 1 chronic hepatitis C has been demonstrated [6] .

Herein, we report successful nIFN-b plus RBV therapy in a chronic hepatitis C patient after discontinuation of IFN-a plus RBV therapy, pegIFN-a therapy, and natural IFN-a therapy following arrhythmia, IP, and severe neurovegetative symptoms, respectively.

A 56-year-old female visited our hospital for the treatment of chronic hepatitis C in 1996. She was 153 cm in height and weighed 53.0 kg. In 1984, she had received surgery for an ovarian cyst and showed abnormally high transaminase levels at that time. She had never received blood transfusions, did not consume alcohol, and had no other history of serious illness. However, she had suffered from allergic reactions to several medicines, including urticaria following chloramphenicol and tetracycline treatments, angioedema from a sulfa drug, a reddish skin reaction following a patch test for fosfomycin calcium and skin disinfection with ethanol, and suffered from liver injury after treatment with oxatomide. In 1991, she was diagnosed with chronic hepatitis C, and in 1995, she was treated with IFN-a2b for 6 months. Although a transient biochemical response was achieved, hepatitis relapsed 7 months after cessation of IFN therapy, prompting treatment with ursodeoxycholic acid (UDCA). After a subsequent visit to our hospital, laboratory examinations revealed the following biochemical levels: aspartate aminotransferase, 117 IU/l; alanine aminotransferase (ALT), 189 IU/l; albumin, 5.0 g/ dl; c-glutamyl transpeptidase, 26 IU/l; platelet count, 16.3 9 10 4 /ll; a-fetoprotein (AFP) \5 ng/ml. She carried HCV genotype 1 and had a viral load of 5.5 Meq/ml. Hepatitis B virus surface antigens and antinuclear antibodies were negative, and thyroid function was normal. Abdominal ultrasound showed no cirrhosis, no fatty liver, and no mass lesions in the liver, and the patient was diagnosed with chronic hepatitis C genotype 1, with a high viral load that was refractory to IFN monotherapy. After addition of glycyrrhizin injections to UDCA therapy, her ALT levels gradually decreased, but fluctuated between 40 and 70 IU/l (Fig. 1) . In April 2002, examinations of a liver biopsy revealed chronic hepatitis (New Inuyama b Monitor ECG was taken on admission (6 weeks of treatment) and shows supraventricular tachycardia with 172 beats/min. c Holter ECG was taken on 4th day of admission and shows second degree AV block type 2 classification F2/A2), and combination therapy commenced with daily administration of 6 mega units (MU) IFN-a2b for 2 weeks and then three times per week, and RBV at 600 mg/ day. Four weeks later, HCV-RNA levels were assessed using an Amplicor Monitor and decreased from 400 to less than 0.5 KIU/ml. However, the patient complained of an occasionally slow pulse, and a Holter electrocardiogram (ECG) after 5 weeks of treatment revealed advanced atrial ventricular (AV) block (Fig. 2a) . After 6 weeks of treatment, the patient complained of palpitation attacks that persisted for more than 4 h, and ECG monitoring revealed supraventricular tachycardia of 170 beats/min (Fig. 2b) . After hospital admission, her symptoms gradually subsided but sometimes relapsed, and Holter ECG showed similar supraventricular tachycardia and AV block type 2 of the second degree (Fig. 2c) . Although an echocardiogram assessment showed no abnormalities, IFN treatment was considered to be the cause of arrhythmia and was stopped at the 7th week of therapy. For 4 months, arrhythmia occurred intermittently after IFN discontinuation, but it completely disappeared thereafter. She was then treated with glycyrrhizin injections and UDCA therapy. However, her ALT levels were not controlled and AFP levels gradually increased to more than 10 ng/ml. In 2007, treatment with 90-lg pegIFN-a2a every 7-10 days was started to control hepatitis. ALT and AFP levels subsequently normalized, but mild cough and sputum occurred from the 8th week of treatment. A local doctor then medicated the patient with an antitussive agent, but her symptoms deteriorated and she complained of shortness of breath at the 11th week of pegIFN-a2a treatment. Although her ALT and AFP levels remained normal and HCV-RNA levels decreased to 8.2 KIU/ml, a fine crackle was heard in her bilateral anterior lower chest, and her KL-6 levels increased to 780 U/ml. Although pulmonary function tests were normal, high-resolution computed tomography (HRCT) of the chest revealed bilateral linear and lenticular interstitial opacities, predominantly in the lung bases and periphery, indicating IP (Fig. 3) . Thus, PegIFN-a2a treatments were immediately discontinued, and the patient was administered theophylline and expectorants. Gradual recovery was observed, and no respiratory symptoms appeared after 3 months, even after cessation of treatments. Although HRCT observations were almost unchanged, serum KL-6 decreased to 427 U/ml, and glycyrrhizin injections and UDCA therapy were resumed. In 2008, the patient strongly requested treatment with IFN following insufficient efficacy of other treatments and commenced with 6-MU doses of nIFN-b three times a week under careful observation. Although no respiratory symptoms occurred and AFP levels were normalized, her ALT levels were insufficiently controlled, HCV-RNA levels were unchanged (from 4.9 to 4.9 log IU/ml), and the treatment was stopped after 6 months.

In April 2009, she was administered 3 MU doses of natural IFN-a twice a week because of increases in AFP levels after discontinuation of nIFN-b therapy. Although no respiratory symptoms appeared, the patient was unable to tolerate the treatment and suffered severe neurovegetative symptoms, including fever, fatigue, nausea, and tinnitus, and she discontinued treatment after 2 weeks. In September 2009, semiweekly treatments with 6-MU nIFN-b were resumed. Laboratory data and HCV characteristics before treatment and the interleukin 28B genotype are shown in Table 1 . Although AFP levels were normalized after 3 months, ALT levels and HCV-RNA load did not decrease. Therapy was continued without remarkable adverse effects, and in January 2010 (4 months after nIFN-b initiation), nIFN-b treatment was increased to three times a week with 600-mg/day RBV. Her HCV-RNA levels subsequently decreased from 5.1 to 3.4 log IU/ml at the 4th week and to 2.4 log IU/ml by the 8th week. After 24 weeks, serum HCV-RNA became undetectable, and the patient completed 72 weeks of combination therapy, which finally led to an SVR.

The patient presented here with chronic hepatitis C genotype 1b had a high viral load and suffered from two rare side effects of IFN-a treatment (arrhythmia and interstitial pneumonia), but was successfully treated with nIFN-b plus RBV therapy. It is well known that IFN treatment induces adverse effects that occasionally lead to treatment discontinuation in patients with viral hepatitis. In previous studies, rates of premature discontinuation of IFN monotherapy due to adverse effects in chronic hepatitis C patients were 4-9 % [7, 8] , and they were 7-12 % for RBV combination therapy [9] . Apart from hematologic disorders, neurovegetative symptoms and depression-related syndromes are the predominant reasons for discontinuation of both IFN monotherapy and RBV combination therapy [8, 10] , and dermatologic effects are also common after RBV combination therapy. Adverse cardiac events due to IFN treatments are rare among hepatitis C patients [11] , and reported treatment discontinuation rates are 0.1 and 0.96 % [12, 13] . Large studies show less frequent occurrence of these events [4, 10] . However, some severe cases reportedly developed severe arrhythmia and required intensive care or cardiac pacemakers [4, 14, 15] . In contrast, the side effects of such events due to IFN-b treatment have been reported in only one patient with multiple sclerosis, who was treated with recombinant IFN-b1a [16] . Moreover, adverse cardiac effects were abolished in chronic hepatitis C patients after changing from IFN-a to nIFN-b treatments [17] . RBV is reportedly associated with bradycardia after high doses in patients with severe acute respiratory syndrome [18] . In addition, in a case study, tachycardia and syncope attacks during combined pegIFN and RBV treatment were alleviated after RBV dose reduction [19] . The patient presented here had completed 6 months of IFN-a2b monotherapy without dose reduction and had subsequently completed RBV and nIFN-b treatment without remarkable side effects. Thus, arrhythmia may have been induced by drug interactions of IFN-a2b and RBV.

Although IP is a well-known adverse effect of IFN treatments for hepatitis C patients, and sometimes leads to death [20] , it occurs at a rate of only 0.3 % among Japanese patients treated with IFN monotherapy or combined RBV therapy [10, 12] and in only 0.01 % of patients in other countries [21] . To date, retreatment with IFN after the occurrence of IP has been reported in only three patients with hepatitis C. Of these, two cases changed from IFN-a2b or pegIFN-a2b to pegIFN-a2a and experienced relapse of IP [22, 23] , whereas the other case changed from pegIFN-a2a to pegIFN-a2b and completed the therapy without relapse [24] .

The incidence of IP due to IFN varies with IFN types and reportedly occurs in 0.29 % of cases for pegIFN-a2a, 0.12 % of cases for IFN-a2b, and 0.04 % of cases for nIFN-b [25] . In addition, the incidence of depression is lower after treatment with nIFN-b than with other types of IFN, and nIFN-b is generally tolerated in patients with a history of depression [26] . Furthermore, treatment discontinuation and/or dose reduction rates due to severe adverse effects during IFN-b treatment are generally low [5] . Thus, the Japan Society of Hepatology recommends the use of IFN-b in patients who are unable to tolerate IFN-a because of depression or other adverse effects [27] . Although the mechanisms behind improved tolerability of IFN-b remain unclear, drug concentrations after administration vary depending on the type of IFN [28] , with much higher sustained serum concentrations of IFN-a2a than nIFN-b. This may reflect the production of IFN-a2a using genetic recombination and/or its requirement of subcutaneous administration. In contrast, nIFN-b is produced using human fibroblasts and is intravenously administered. Furthermore, the intracellular mechanisms of action may also differ between these IFNs. Although IFN-a and -b bind to a common type I IFN receptor, they utilize different regions of the subunit for signaling [29] , producing different signaling and biological effects. In accordance, higher SVR rates have been shown with nIFN-b plus RBV therapy than with IFN-a plus RBV therapy [30] , and a previous case study shows SVR following nIFN-b plus ribavirine therapy after several unsuccessful courses of IFN-a therapy with and without RBV [31] .

Novel combination therapies using directly acting antivirals may become available in the near future and may produce excellent HCV eradication rates with fewer adverse effects [32] . However, some issues, such as countermeasures against drug resistance or suppressive effects on hepatocellular carcinoma development after SVR, remain unresolved. Moreover, prompt treatment is required in elderly patients and in patients with advanced liver stages to prevent hepatocellular carcinoma [27] . Hence, IFNs may remain the treatment of choice for patients with good tolerance. In conclusion, nIFN-b plus RBV therapy is an alternative treatment option for patients who fail to tolerate the adverse effects of pegIFN-a with or without concomitant RBV therapy.

Conflict of Interest: All authors declare that they have no conflict of interest.

Ethical Standards: This study was approved by the Medical Ethics Committee of St. Marianna University School of Medicine Yokohama City Seibu Hospital. The investigation conforms to the principles outlined in the Declaration of Helsinki.

Human/Animal Rights: All procedures followed were in accordance with the ethical standards of the responsible committee on human experimentation (institutional and national) and with the Helsinki Declaration of 1975, as revised in 2008(5).

Informed Consent: Informed consent was obtained from the patient prior to the study.

Open Access This article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited.

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