Efficacy and Safety of a Chinese Herbal Formula (Invigorating Kidney and Strengthening Spleen) in Chronic Hepatitis B Virus Carrier: Results from a Multicenter, Randomized, Double-Blind, and Placebo-Controlled Trial

He, Jinsong; Zhou, Daqiao; Tong, Guangdong; Xing, Yufeng; Chen, Yingjie; Zhang, Xiaohui; Zhan, Bolin; Gao, Hui; Zhou, Xiaozhou; Xiong, Yiqun; Liu, Xinliang; Peng, Lisheng; Qiu, Mei; Zheng, Yingjun

doi:https://doi.org/10.1155/2013/961926

Evidence-Based Complementary and Alternative Medicine

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Abstract Introduction Methods Results Discussion Conclusions Acknowledgments References Copyright Related Articles

Research Article | Open Access

Volume 2013 | Article ID 961926 | https://doi.org/10.1155/2013/961926

Efficacy and Safety of a Chinese Herbal Formula (Invigorating Kidney and Strengthening Spleen) in Chronic Hepatitis B Virus Carrier: Results from a Multicenter, Randomized, Double-Blind, and Placebo-Controlled Trial

Jinsong He,^1,2Daqiao Zhou,^1,2Guangdong Tong,^1,2Yufeng Xing,¹Yingjie Chen,¹Xiaohui Zhang,³Bolin Zhan,¹Hui Gao,¹Xiaozhou Zhou,^1,2Yiqun Xiong,³Xinliang Liu,³and Lisheng Peng¹ et al.

Academic Editor: Hyunsu Bae

Received06 Mar 2013

Accepted12 Jun 2013

Published10 Jul 2013

Abstract

A Chinese Herbal Formula (CHF) has acquired a certain therapeutic effect on chronic HBV infection. To assess the efficacy and safety of CHF on HBV replication in chronic HBV carriers, we performed a randomized, double-blind, and placebo-controlled trial involving patients from 16 centers. A total of 300 confirmed chronic HBV carriers were randomized at baseline in a ratio of 2 : 1 to receive either CHF or placebo for 52 weeks. The results showed that a greater proportion of CHF than placebo treated patients achieved virological response at week 52; the mean decline of serum HBsAg levels in the CHF group dropped more obviously than that in the control group at all stages of the treatment; however, the rates of HBeAg loss and seroconversion had no difference between the two groups. Meanwhile, were presented significant increases in IFN-γ; IL-2 levels and reductions in IL-4 and IL-10 levels in the treatment group compared to the control group at week 52. There were no drug-related serious adverse events. In conclusion, the treatment with 52-week CHF is safe and effective in inhibiting HBV replication in chronic HBV carriers. The ability of the compound to modulate host immune function probably contributed to this effect.

1. Introduction

Hepatitis B virus (HBV) infection continues to be prevalent worldwide. It was reported by the World Health Organization (WHO) that an estimated two billion people have been infected with HBV all over the world, and of these, some 350 million develop chronic infection [1]. About one million people die every year due to liver failure, cirrhosis, and hepatocellular carcinoma related to HBV infection [2]. HBV infection is endemic in China, with about 93 million people who are chronically infected. In 2006, a national survey showed a HBsAg seroprevalence of 7.18% among Chinese aged 1–59 years [3, 4].

Chronic HBV infection is a dynamic process. The natural history of prenatally or early childhood-acquired chronic HBV infection can be divided into four different phases: immune tolerant phase, immune clearance phase, residual inactive phase, and HBV reactivation phase [5]. Patients in the immune tolerant phase are usually seropositive for HBeAg and have high viral loads (>2 × 10⁶ IU/mL) but with a normal serum alanine aminotransferase (ALT) and normal or nearly normal findings on liver histology [6]. The latter are termed asymptomatic chronic HBV carriers. In this phase, the spontaneous HBeAg loss is very low, and these patients are highly contagious because they maintain high levels of viremia. Recently, a few studies compared the HBV DNA levels in blood to the progression of chronic HBV infection. A prospective cohort study with an 11-year followup in China indicated that viral load was associated with increased mortality from hepatocellular carcinoma (HCC) and chronic liver disease among HBV carriers [7]. The REVEAL-HBV study showed that elevated serum HBV DNA level (≥10,000 copies/mL) was a strong risk predictor of HCC independent of HBeAg, serum ALT level, and liver cirrhosis. A similar association between HBV DNA levels and development of cirrhosis has also been disclosed [8, 9]. Thus, it is possible that HBV carriers in immune tolerant phase, characterized with high level of HBV DNA replication and normal or low ALT level, still have high infectivity and the risk of progress to cirrhosis and HCC.

At present, interferon (IFN) and nucleosides/nucleotides (NAs) are well accepted effective drugs available for the treatment of chronic hepatitis B. However, these two kinds of drugs have definite indications for treatment. When HBV carriers are in the immune tolerant phase, the three authoritative consensus guidelines [10–12] all recommended that treatment should not be initiated unless apparent inflammation, necrosis, and/or fibrosis are found by liver biopsy. These patients were required to be followed up at least every 3–6 months because of poor efficacy treated by IFN and NAs. But realistically, that is only an unpalatable choice, and to reduce the high risk of progress to cirrhosis and HCC, billions of chronic HBV carriers in China are seeking safe and effective treatments to suppress HBV DNA replication and associated liver disease long term. A self-administered questionnaire survey showed that one-third of patients with chronic hepatitis B had used traditional Chinese medicine (TCM) in Hong Kong [13]. A review by Stickel and Schuppan claimed that several recent surveys from Europe and the United States have demonstrated that up to 65% of patients with liver disease took herbal preparations [14].

After years of practice, TCM has acquired a certain therapeutic advance in the treatment of chronic HBV infection. Several studies in vitro indicated that Phyllanthus species could suppress the replication of HBV by inhibiting DNA polymerase activity and mRNA transcription [15–17]. In a preliminary study, the researchers found that Phyllanthus amarus treatment had a distinct curative effect (HBsAg clearance) in chronic carriers of hepatitis B virus [18]. The recent study suggested that the aqueous extracts of Ardisia chinensis and Pithecellobium clypearia have strong anti-DHBV activities in vitro, which were comparable to those of 2′, 3′-dideoxycytidine [19]. Meanwhile, several systematic reviews of Chinese medicinal herbs for chronic hepatitis B indicated that herbal compounds Fuzheng Jiedu Tang, Jianpi Wenshen recipe, and Polyporus umbellatus polysaccharide showed anti-HBV activities [20–22]. A recently updated systematic review of randomized controlled trials (RCTs) of TCM formulations against HBV in China (from 1998 to 2008) suggests that TCMs have a similar antiviral activity as IFN/LAM (Lamivudine) on chronic hepatitis B, which was evidenced by the loss of serum HBeAg and HBV DNA [23]. However, the early trials were flawed in terms of experimental design, and results obtained only weakly supported the utility of the TCM. By contrast, our empirical Chinese herbal formula (invigorating kidney and strengthening spleen) appears to be effective in inhibiting HBV DNA replication upon treatment of chronic HBV carrier [24]. Therefore, the aim of this study was designed to evaluate the antiviral efficacy and safety of this formula in chronic HBV carriers by a prospective, multicenter, double-blinded, placebo-controlled, and large registration trial.

2. Patients and Methods

2.1. Patients

The study was performed in 16 major hospitals from China, which belong to one of four areas: East China (Shanghai Shuguang hospital, Shanghai University of Traditional Chinese Medicine; Changhai Hospital, Second Military Medical University; The Second Hospital Affiliated to Zhejiang University of Traditional Chinese Medicine; Tai’An Hospital of Traditional Chinese Medicine), South China (Shenzhen Hospital affiliated to Guangzhou University of Chinese Medicine; Foshan Hospital of Traditional Chinese Medicine; The Third People’s Hospital of Shenzhen; The Third Affiliated Hospital of Sun Yat-sen University; Guangdong Hospital of Traditional Chinese Medicine), West China (Attached Hospital of Chengdu University of Traditional Chinese Medicine; West China Hospital, West China School of Medicine, Sichuan University), and North China (Beijing Ditan Hospital, Capital Medical University; Xiyuan Hospital, China Academy of Traditional Chinese Medicine; 302 Military Hospital of China; First Hospital Affiliated to Tianjin University of Traditional Chinese Medicine; Beijing YouAn Hospital, Capital Medical University). Eligible patients comprised males and females infected by HBV, with clinical diagnosis confirming to chronic hepatitis B carrier. Diagnostic criteria were detectable hepatitis B surface antigen (HBsAg) and HBeAg in serum for more than 6 months, serum HBV DNA level greater than 20,000 IU/mL, persistently normal serum ALT, and aspartate aminotransferase (AST) levels continuous followup more than 3 times in one year and minimal or mild inflammatory histologic changes. Inclusion and exclusion criteria used for patient selection are shown in Table 1.

The study was approved by the Ethics Committees at Shenzhen Hospital affiliated to Guangzhou University of Chinese Medicine and was conducted in accordance with ethical guidelines of the 1975 Declaration of Helsinki and the Good Clinical Practice Guidelines. All enrolled subjects gave witnessed written informed consent before enrollment. The clinical trial registration identifier is ChiCTR-TRC-09000425.

2.2. Preparation of Medication

Chinese Herbal Formula (invigorating kidney and spleen decoction) was composed of Epimedium, Cuscuta, Eucommia, Astragalus membranaceus, Phyllanthus urinaria, Salvia miltiorrhiza, Panax notoginseng, and so forth, which are listed in Table 2. The placebo was composed of water soluble starch, glucosum anhydricum, edible chocolate brown pigment, and lyochromes. Both of them were made into drug granules in Shenzhen Sanjiu Medical & Pharmaceutical Co., Ltd., China, as a renowned GMP certified state-level manufacturer of concentrated herbal extracts (its products can be purchased in China). The whole production process, from validating the raw materials to the final products, strictly complied with the standards of Good Manufactory Practice and Chinese Pharmacopoeia [25]. Decoction and extraction of each dried medicinal herb was performed in a single batch, respectively. After extraction, herbal preparation was separated, concentrated, and spray-dried into the form of a granule. The chemical compositions of the final products were analyzed, while all the herbals were tested to ensure the safety for human consumption including heavy metals, microorganism contamination, and insecticides. Finally all kinds of granules were mixed in accordance with their proportion in the Chinese Herbal Formula and packed in sealed plastic sachets. The composition of a sachet of granules (38.6 g) was the same as that of 210 g raw herbs, which was daily dose of each patient. The placebo is similar to the herbal granules in shape, color, taste, and packaging.

2.3. Study Design

The study was a multicenter, randomized, double-blinded, and placebo-controlled clinical trial of Chinese Herbal Formula versus placebo in a ratio of 2 : 1 for 52 weeks. Each patient was instructed to have a sachet of granules (38.6 g, either study drug or placebo), dissolved with 200 mL warm water in a cup, and to take 100 mL of the solution in the morning and the rest in the afternoon every day.

Randomization was performed within one month after the screening had been completed, using voice interactive random assortment system carried out by a third party who was not involved in patient management. After the first clinic visit at baseline, patients were required to return during weeks 4 and 12, and then every 12 weeks thereafter through week 52. At each clinic visit, laboratory tests were performed to evaluate liver function and determine the safety of treatment and possible adverse events. Serum was assayed for HBV DNA, HBsAg and antibody to HBsAg (anti-HBs), and HBeAg and antibody to HBeAg at baseline and at weeks 24 and 52. Serum helper T cell 1 and helper T cell 2 (Th1/Th2) cytokines levels, including Interleukin-2 (IL-2), Interleukin-4 (IL-4), Interleukin-10 (IL-10), and Interferon-γ (IFN-γ), were detected at baseline and at week 52.

Patients were withdrawn from the study for any of the following reasons: elevated serum ALT (>2 × ULN, upper limit of normal), occurrence of intolerable or worsening adverse events, and failure to comply with the protocol or withdrew consent.

2.4. Laboratory Assays

Virus was uniformly assayed at the central laboratory of liver disease, Shenzhen Hospital affiliated to Guangzhou University of Chinese Medicine, China. Serum HBV DNA levels were quantified using the COBAS Taqman assay (Roche Diagnostics, Branchburg, NJ, USA) that has a lower limit of detection of 12 IU/mL. HBsAg, anti-HBsAg, HBeAg, and anti-HBeAg were measured by the Architect i2000 assay (Abbott Laboratories); HBsAg titer in serum was quantified according to the manufacturer’s instructions. An initial manual dilution of 1 : 100 was performed on all samples. Samples with HBsAg titers of greater than 250 IU/mL were manually diluted at 1 : 500 to bring the reading within the linear range. Samples with HBsAg levels of less than 0.05 IU/mL at 1 : 100 dilution were retested undiluted. Serum cytokine levels of IL-2, IL-4, IL-10, and IFN-γ were detected by ELISA Kits (Pharmingen, San Diego, CA, USA) according to the manufacturer’s instruction.

2.5. End Points

Primary efficacy end point was the proportion of patients with a virological response at week 52. Virological response was defined as a decrease in HBV DNA levels by at least 2log₁₀ units in the serum following treatment compared to pretreatment levels. The degree of decrease in HBV DNA level was assessed by log reduction at the end of treatment.

Secondary efficacy end points were the proportion of patients with a virological response at week 24, the proportions of patients with serum HBV DNA level decreasing to less than 5log₁₀ IU/mL at week 52, and mean degree of decrease in HBV DNA level at weeks 24 and 52. The mean decrease in serum HBV DNA levels was also compared among patients with different baseline HBV DNA levels to determine whether the patients with lower baseline HBV DNA levels showed a larger decrease after treatment, whether these groups differed in the frequency of HBeAg loss or seroconversion to anti-HBe, whether there was a difference in the decrease in HBsAg level (≥0.5log₁₀ IU/mL from baseline) at weeks 24 and 52. Further, the mean serum levels of IL-2, IL-4, IL-10, and IFN-γ at week 52 were compared with pretreatment levels, as well as compared between the two groups. In addition, adverse events including symptoms, signs, and clinical laboratory abnormalities within 52 weeks was documented, and discontinuation of therapy were recorded.

2.6. Sample Size Determination

Chronic hepatitis B carriers were usually in the immune tolerant phase for up to several decades. During this phase, the rate of spontaneous or treatment-induced HBeAg seroconversion was less than 5% per year, and the range of fluctuating HBV DNA level was less than 1log₁₀ IU/mL [26–30]. This suggests that the rate of spontaneously virological response within 52 weeks was no more than 5% in chronic hepatitis B carriers without effective treatment. Based on prior experience with TCM in treating chronic hepatitis B carrier, we assumed the occurrence rate of virological response within 52 weeks is 17%. To detect a difference in virological response between the treatment group and the control group with 80% power and a 5% level of significance, the sample size required per group was 103 according to the formula [31]. With the randomization weighted 2 : 1 and allowing a patient dropout rate of approximately 20%, it is estimated that 200 patients in the treatment group and 100 patients in the control group would be enough for this study based on conservative principles.

2.7. Statistical Analysis

The intention-to-treat analysis included all patients who were randomly allocated to one of the two groups. A last observation carried forward analysis was conducted for any missing data of primary or secondary outcomes. Analysis of safety included data for all patients who had taken at least one dose of study medication after randomization. SPSS 15.0 package (SPSS Inc., Chicago, IL, USA) was used to perform the analysis. Continuous variables were expressed as mean ± standard deviation. An independent samples t-test was performed to calculate differences between prior and after treatment in one group. A paired samples t-test was used to compare difference between the two groups. Categorical variables were expressed as absolute and relative frequencies. The Chi-square test or Fisher exact test was used to compare the difference in proportions between the two groups. A value < 0.05 at a two-tailed test was considered statistically significant.

3. Results

3.1. Demographic Data and Baseline Characteristics

The study was conducted between May 2009 and May 2011. A total of 2837 patients with a confirmed diagnosis of chronic hepatitis B carrier were screened. Among them, 372 patients met the inclusion criteria except liver histology then underwent liver biopsy. Finally 300 patients with only mild inflammatory necrosis and fibrosis, without bridging or confluent necrosis, were enrolled and randomized to receive either Chinese Herbal Formula (200 patients) or placebo (100 patients) treatment. The baseline demographic and clinical characteristics of the two groups were similar and summarized in Table 3. There was no significant difference in the age, gender ratio, ALT levels, and virological baseline characteristics between the two cohorts.

Review of the patient charts indicated that most of recruited patients had good compliance during treatment. However, at week 24, 25 patients were lost, including 19 who were treated with Chinese Herbal Formula and 6 in the control group. At week 52, another 8 patients were lost, including 7 in the treatment group and 1 in the control group. The common reason for discontinuing treatment was withdrawal of consent and lost to followup (details shown in Figure 1). Thus, 174 (87%) patients in the treatment group and 93 (93%) patients in the control group completed the 52-week treatment (Figure 1).

3.2. Virological Response

The proportion of patients with reduced HBV DNA levels of >2log₁₀ IU/mL were 7% (14/200) at week 24 and 19% (38/200) at week 52 for the treatment group, as compared to 3% (3/100, ) and 5% (5/100, ), respectively, for the control group. Among patients in the treatment group, serum HBV DNA was undetectable in 0.5% (1/200) at week 24 and 0.5% (1/200) at week 52; in the control group it was in 0% (0/100) and 1% (1/100), respectively. There was no significant difference between the two groups ( and , resp.) (Table 4).

At week 24, the mean reductions from baseline in serum HBV DNA level in the treatment and the control groups were 0.34log₁₀ and 0.06log₁₀ IU/mL, respectively ( between the two groups). When categorized by baseline HBV DNA levels, the mean reductions in HBV DNA levels in each of the groups was 0.48log₁₀ (treatment) and 0.05log₁₀ IU/mL (placebo), respectively, for baseline levels in the range of 5 to <7log₁₀ IU/mL (). For patients with baseline HBV DNA values ranging from 7 to <9log₁₀ IU/mL, the corresponding decreases were 0.26log₁₀ and 0.06log₁₀ IU/mL, respectively (). For patients with baseline HBV DNA values >9log₁₀ IU/mL, the corresponding decreases were 0.63log₁₀ and 0.05log₁₀ IU/mL, respectively (). Similarly, at week 52, the mean reductions from baseline HBV DNA levels in serum in the treatment group and the control groups was 0.86log₁₀ and 0.05log₁₀ IU/mL, respectively (). When categorized by baseline HBV DNA levels, the mean reduction in HBV DNA levels in each of the groups was 1.10log₁₀ (treatment) and 0.05log₁₀ IU/mL (placebo), respectively, for baseline levels in the range of 5 to <7log₁₀ IU/mL (). For patients with baseline HBV DNA values ranging from 7 to <9log₁₀ IU/mL, the corresponding decreases were 0.76log₁₀ and 0.05log₁₀ IU/mL, respectively (). For patients with baseline HBV DNA values >9log₁₀ IU/mL, the corresponding decreases were 1.05log₁₀ and 0.06log₁₀ IU/mL, respectively () (Table 4). At the end of the treatment period (week 52), 13% (26/200) of treated patients and 3% (3/100) of patients given placebo had HBV DNA levels decrease to <5log₁₀ IU/mL ().

3.3. Serological Response

At week 24, there was no obvious difference between the two groups in the rate of patients who achieved HBeAg loss (3.5% (7/200) versus 2.0% (2/100), ), as well as HBeAg seroconversion (3.0% (6/200) versus 1.0% (1/100), ). After 52 weeks of treatment, when HBeAg loss was compared in treatment and control groups (5.5% (11/200) versus 3.0% (3/100), resp.), no differences were seen (). Analogous results were obtained when assaying for HBeAg seroconversion (4.0% (8/200) versus 3.0% (3/100), ).

HBsAg levels declined from the pretreatment levels of 4.56 (±0.62) to 4.39 (±0.73) by week 24, and to 4.13 (±0.87) log₁₀ IU/mL by week 52 of CHF treatment (, , resp.). Among placebo treated patients, HBsAg levels were 4.60 (±0.60) prior to treatment, 4.57 (±0.67) at week 24, and 4.51 (±0.75) log₁₀ IU/mL at week 52 (, , resp.) (Figure 2). Taking a change of ≥0.5log₁₀ IU/mL as significant, only 23 (11.5%) of the 200 patients in the treatment group and 4 (4%) of the 100 patients in the control group showed a significant decline in HBsAg levels at 24 week (). Whereas at the end of 52-week treatment, a higher rate of significant decline in HBsAg levels was observed in the treatment group compared to the control group (27% (54/200) versus 7% (7/100), resp., ).

3.4. Serum Cytokine Levels

After 52 weeks of CHF treatment, patients showed a significant increase in the mean levels of serum IFN-γ and IL-2 compared to the levels of these cytokines determined prior to treatment ( versus , ; versus , , resp.). In addition, there was a marked decrease in the mean serum levels of IL-4, and IL-10 ( versus , ; versus , , resp.). In contrast, there were no differences in levels of serum IFN-γ, IL-2, IL-4 and IL-10 before and after treatment with placebo in the control group ( versus , ; versus , ; versus , ; versus , ; resp.). Further, there were higher IFN-γ and IL-2 levels as well as lower IL-6 and IL-10 levels in the CHF treated group compared to patients administered placebo (, resp.) (Figure 3).

(a)

(b)

(c)

(d)

3.5. Adverse Events

The Chinese Herbal Formula was well tolerated. The incidence of adverse events in the CHF treated group was similar to that in the control (placebo) group, with the exception that the CHF treated patients had an increased appetite (17% versus 1%, ). The majority of adverse events were not verified to be related to drug. The most often occurred drug-related adverse events were gastrointestinal symptoms such as abdominal pain, abdominal distension, diarrhea, stomach disturbances, and appetite decreases. With reference to these most common adverse events, the treatment group had many more patients with abdominal pain (4.5% versus 3%, ), abdominal distension (7.5% versus 2%, ), diarrhea (7% versus 3%, ), and stomach disturbances (9.5% versus 5%, ) than those of the placebo group, but there were no statistical significant differences between the two groups. Adverse events were generally transient and mild to moderate, which were self-limited or well responded to conventional treatment. Three patients discontinued treatment in the CHF group because of the elevated ALT. Of them, one patient experienced increased serum ALT (<2 × ULN, upper limit of normal) at week 24, and it resolved spontaneously after the study drug was stopped. Another 2 patients with elevated serum ALT were observed at week 36, whose ALT were both >5 × ULN (375 U/L and 287 U/L, resp.). The study drug was immediately stopped and Entecavir 0.5 mg daily was given. Serum ALT in these patients gradually returned to normal on subsequent visits. There were no other clinical laboratory abnormalities in the two groups, and no serious adverse events were observed (Table 5).

4. Discussion

Despite recent developments in the treatment of chronic hepatitis B (CHB), consisting of multiple nucleoside/nucleotide analogs, none are suitable to treat chronic HBV carriers during the immune tolerance phase of infection. The majority of these patients need an effective and safe antiviral therapy in order to decrease persistently high levels of HBV DNA and prevent progression to cirrhosis and HCC. Virological response was defined as undetectable serum HBV DNA or below detection limit (complete virological response) or reductions in serum HBV DNA levels of ≥2log₁₀ IU/mL (partial virological response) [12]. In this study, compared with placebo, the Chinese Herbal Formula significantly increased the proportion of patients with reductions in serum HBV DNA of ≥2log₁₀ IU/mL from baseline, whereas it does not enhance the rate of patients with undetectable serum HBV DNA level after 52 weeks of treatment. Meanwhile, patients undergoing CHF therapy had a greater mean reduction in serum HBV DNA from pretreatment values compared to the control group, in which no significant reduction was observed. Among patients with pretreatment HBV DNA levels between 5 and 7log₁₀, CHF treatment resulted in a mean reduction in HBV DNA of 1.10log₁₀ IU/mL. These results suggest that CHF is effective in inhibiting virus replication in chronic HBV carriers, but it is not potent enough to facilitate HBV DNA clearance over 52 weeks.

HBeAg seroconversion, involving the clearance of HBeAg and the appearance of anti-HBe, is considered a marker of durable remission and an appropriate end point of anti-HBV therapy in HBeAg-positive patients with CHB [32, 33]. In the current study, there were no obvious differences in HBeAg loss and HBeAg seroconversion between the treatment and control groups at week 52. However, since HBeAg seroconversion is also associated with a sustained reduction in HBV-DNA levels and always occurred in patients with HBV-DNA concentrations reduced to <3log₁₀ copies/mL [34, 35], perhaps this result may change with prolonged treatment. Interestingly, the present study found that treatment with CHF was associated with a dramatic overall decline in HBsAg levels from pretreatment levels. Simultaneously, a higher percentage of patients with decline of ≥0.5log₁₀ IU/mL from baseline was observed in the CHF treated group (27%, 54/200) compared with the control group (7%, 7/100). These effects on HBsAg levels are of particular importance because a recent study has confirmed that an early decline of 0.5log₁₀ was a significant predictor of sustained virological response [36]. This decline in HBsAg levels may signify an immunological response that is independent of HBV DNA suppression during antiviral therapy, based on its positive correlation with intrahepatic HBV covalently closed circular (ccc) DNA, the main replicative template of HBV [37, 38].

It is well known that HBV clearance is mainly mediated by antiviral host immune responses. IFN-γ and IL-2 secreted by Th1 cells, which can enhance the human cellular immune response and benefit virus clearance, are principally involved in cell-mediated immunity. IL-4 and IL-10 have been reported to be higher in CHB and are secreted by Th2 cells which play a negative role in regulating the immune response and may be associated with the immune tolerant state of chronic HBV infection [39–41]. In the present study, there was significant upregulation of IFN-γ and IL-2 levels and reduction of IL-6 and IL-10 levels after 52 weeks of treatment compared to before therapy in the CHF treated compared to the control group. It is plausible that the host immunoreaction can be modulated by the administration of CHF, with a view to the medication’s effective action against HBV.

Most often, chronic HBV carrier state is asymptomatic. In ancient China, there was no description for such a disease. For the past few years, we raised a theory called “Kidney asthenia and hepatic blood prostrated by dampness-heat” as the pathogenesis of chronic HBV carrier state based on the natural history and clinical manifestation of chronic HBV infection and “Seasonal Febris Theory” of Traditional Chinese medicine [42]. In the course of infection, dampness heat was considered as the initiating agent. Spleen-kidney asthenia was its underlying factor; stagnation of the liver meridian was a critical section of its pathology. Simultaneous presentation of sthenia and asthenia acted upon each other, making the disease refractory. In this context, the main principles of treating chronic HBV infection are strengthening the spleen and invigorating the kidney, clearing away the heat evil and expelling superficial evils, activating blood circulation, and eliminating dampness.

Based on the above information and clinical experiences, we raised an empirical formula, the recipe of invigorating kidney, and strengthening spleen, in which Tu Si Zi, Xian Ling Pi, Du Zhong, and Huai Niu Xi can invigorate the kidney and be used as the principal medications. They can aim directly at the nature of kidney asthenia and expel the evils. According to the modern pharmacological studies, Xian Ling Pi was proved to improve immune function [43], Tu Shi Zhi has been found to possess various pharmacological functions including improving immune and protecting hepatic mitochondria as well as preventing hepatic injury [44, 45]. Ye Xia Zhu has known strong anti-HBV activities [16–18], which is bitter and cold and can clear away the heat evil and expel superficial evils. Huang Qi, Bai Shu, Fu Ling, and Zhu Ling can invigorate spleen and eliminate dampness and be used as ministerial medications. Zhi Ke, Dan Shen, San Qi, and Yu Jin can promote Qi and activate blood circulation to dissipate blood stasis and be used as adjuvants. Gou Qi Zi as a messenger can lead other medications to hepatic blood. Thus, the whole recipe aims at the core pathogenesis of chronic HBV carrier state, in which monarch, minister, assistant, and guide are reasonably put in place. Both spleen and kidney are invigorated while both asthenia and sthenia are treated. This approach integrates three therapeutical principles: clearing, invigorating, and promoting. Overall, it can strengthen spleen and invigorate kidney, clear away heat evil and expel superficial evils, promote blood circulation, and eliminate dampness [46].

Treatment with CHF was generally safe and well tolerated in this study. A number of patients experienced transient and not severe adverse effects in the course of treatment, and most of complaints reported were similar between the CHF and control groups. The most common adverse events were gastrointestinal symptoms, which were probably related to use of oral dissolved medicines for a long time because some components of them, when fasting, will stimulate the gastric mucosa. In consideration of some patients usually suffering from these symptoms under fasting condition, we recommend that the Chinese Herbal Formula should be taken 2 hours after a meal. Actually, the patients experienced less discomfort in the abdominal area since following this principle. Increased appetite associated with CHF should be beneficial to helping patients invigorate health effectively. This can be interpreted by theory of Traditional Chinese Medicine which states that “strengthening spleen is able to promote digestive absorption of nutriment.” Three patients treated with CHF were withdrawn because serum ALT increases were observed. However, the one with ALT <2 × ULN recovered spontaneously after stopping treatment. Another 2 patients with ALT >5 × ULN eventually resolved after appropriate treatment. Spontaneous elevations of ALT, or flares, are a well-recognized phenomenon in patients treated with PEG-IFN [47]. Two different types of flares were recognized during PEG-IFN therapy of HBeAg-positive chronic hepatitis B. Host-induced flares, characterized by an ALT flare followed by a subsequent decrease in HBV DNA, were associated with response to treatment and may result in decline and clearance of HBV DNA, HBeAg, and HBsAg. In contrast, virus induced flares, which occurred after an increase in HBV DNA level and most probably was indicative for increased expression of viral antigens, did not lead to treatment response [48, 49]. In the current study, with respect to reduction of HBV DNA level simultaneously occurred in these two patients with elevated ALT, which conform to the character of host induced flare, we speculated elevated ALT was due to the immune clearance. Furthermore, our results suggested the CHF had the positive effect on immune function. Further investigations are required to determine whether long-term the treatment leads to significant increase in serum ALT, which is one of the strongest signs of a chronic hepatitis B carrier entering to immune clearance phase.

To our knowledge, this is the first time that the efficacy and safety of Chinese Herbal Formula on chronic hepatitis B carriers has been evaluated in a prospective, multicenter double-blind, random placebo-controlled, and large-scale registration trial. In this work, the therapeutic effect indexes incorporated quantification of HBV DNA, HBsAg, and HBeAg determined by the most accurate methods at present, which provided a comprehensive understanding of Chinese Herbal Formula in inhibiting HBV replication. Although the results of the present study should be persuasive, there are some potential limitations in this study. First, all of the patients were ethnic Han Chinese adults from China. Applicability of these outcomes to other regions and ethnicities, therefore, is uncertain. Second, because of restrictions on time and funding, the follow-up analysis of the sustained effect of CHF has not been evaluated. These data could be the starting point for future research to understand long-term impact of the Chinese Herbal Formula on chronic HBV carriers.

Given the lack of recommended treatment options for chronic hepatitis B carrier who is still in the risk of progression to cirrhosis and HCC, any complementary and alternative medication that shows a certain degree of antiviral effect should not be ignored. In short future, a longer, randomized controlled trial of the Chinese Herbal Formula may be helpful to determine whether it would get better curative effect against HBV and keep sustained virus response, and even change the long-term prognosis of chronic HBV carriers, by increasing the duration of treatment and a consecutive long-term followup.

5. Conclusions

The Chinese Herbal Formula (invigorating kidney and strengthening spleen) is safe and effective in inhibiting HBV replication in chronic hepatitis B virus carriers. The ability of the compound to modulate host immune function probably contributed to this effect.

Conflict of Interests

No conflict of interests exists.

Acknowledgments

The authors would like to particularly thank all doctors participating in this study from 16 major hospitals for their care of these patients. This study was funded by the Major Science and Technology Project in the Eleventh 5-Year Plan period of China (no. 2008ZX10005-008). The study sponsor did not participate in the study design, data collection, analysis, and interpretation. Daqiao Zhou is the inventor of the Chinese Herbal Formula and main designer of the clinical study as well as direct scientific guidance to this study. Jinsong He and Guangdong Tong were directly involved in the design of the study and operational aspects, and Jinsong He also wrote the paper and interpreted the results. Yufeng Xing, Yingjie Chen, and Xiaohui Zhang planned and conducted large parts of the study and also contributed to writing paper preparation. Other people participated in screening and administrating some patients in this study. The authors are particularly grateful to Dr. Chunshan Wei for helping with statistical analysis and Prof. Mark Feitelson for his English editing.

References

World Health Organization, “Hepatitis B,” World Health Organization Fact Sheet 204, 2012, http://www.who.int/mediacentre/factsheets/fs204/en/.
View at: Google Scholar
D. Ganem and A. M. Prince, “Hepatitis B virus infection—natural history and clinical consequences,” The New England Journal of Medicine, vol. 350, no. 11, pp. 1118–1129, 2004.
View at: Publisher Site | Google Scholar
X. Liang, S. Bi, W. Yang et al., “Epidemiological serosurvey of hepatitis B in China—declining HBV prevalence due to Hepatitis B vaccination,” Vaccine, vol. 27, no. 47, pp. 6550–6557, 2009.
View at: Publisher Site | Google Scholar
F. M. Lu and H. Zhuang, “Management of hepatitis B in China,” Chinese Medical Journal, vol. 122, no. 1, pp. 3–4, 2009.
View at: Google Scholar
Y. Liaw, “Natural history of chronic hepatitis B virus infection and long-term outcome under treatment,” Liver International, vol. 29, no. 1, pp. 100–107, 2009.
View at: Publisher Site | Google Scholar
C. K. Hui, N. Leung, S. T. Yuen et al., “Natural history and disease progression in Chinese chronic hepatitis B patients in immune-tolerant phase,” Hepatology, vol. 46, no. 2, pp. 395–401, 2007.
View at: Publisher Site | Google Scholar
G. Chen, W. Lin, F. Shen, U. H. Iloeje, W. T. London, and A. A. Evans, “Past HBV viral load as predictor of mortality and morbidity from HCC and chronic liver disease in a prospective study,” The American Journal of Gastroenterology, vol. 101, no. 8, pp. 1797–1803, 2006.
View at: Publisher Site | Google Scholar
U. H. Iloeje, H. I. Yang, J. Su, C. L. Jen, S. L. You, and C. J. Chen, “Predicting cirrhosis risk based on the level of circulating hepatitis B viral load,” Gastroenterology, vol. 130, no. 3, pp. 678–686, 2006.
View at: Publisher Site | Google Scholar
C. J. Chen, H. I. Yang, J. Su et al., “Risk of hepatocellular carcinoma across a biological gradient of serum hepatitis B virus DNA Level,” The Journal of the American Medical Association, vol. 295, no. 1, pp. 65–73, 2006.
View at: Publisher Site | Google Scholar
European Association for the Study of the Liver, “EASL clinical practice guidelines: management of chronic hepatitis B,” Journal of Hepatology, vol. 57, no. 1, pp. 167–185, 2012.
View at: Google Scholar
Y. F. Liaw, N. Leung, J. H. Kao et al., “Asian-Pacific consensus statement on the management of chronic hepatitis B: a 2008 update,” Hepatology International, vol. 2, no. 3, pp. 263–283, 2008.
View at: Publisher Site | Google Scholar
A. S. F. Lok and B. J. McMahon, “Chronic hepatitis B: update 2009,” Hepatology, vol. 50, no. 3, pp. 661–662, 2009.
View at: Publisher Site | Google Scholar
V. W. Wong, M. Law, A. Y. Hui et al., “A hospital clinic-based survey on traditional Chinese medicine usage among chronic hepatitis B patients,” Complementary Therapies in Medicine, vol. 13, no. 3, pp. 175–182, 2005.
View at: Publisher Site | Google Scholar
F. Stickel and D. Schuppan, “Herbal medicine in the treatment of liver diseases,” Digestive and Liver Disease, vol. 39, no. 4, pp. 293–304, 2007.
View at: Publisher Site | Google Scholar
C. W. Chang, M. T.. Lin, S. S. Lee, K. C. S. C. Liu, F. L. Hsu, and J. Y. Lin, “Differential inhibition of reverse transcriptase and cellular DNA polymerase-α activities by lignans isolated from Chinese herbs, Phyllanthus myrtifolius Moon, and tannins from Lonicera japonica Thunb and Castanopsis hystrix,” Antiviral Research, vol. 27, no. 4, pp. 367–374, 1995.
View at: Publisher Site | Google Scholar
C. D. Lee, M. Ott, S. P. Thyagarajan, D. A. Shafritz, R. D. Burk, and S. Gupta, “Phyllanthus amarus down-regulates hepatitis B virus mRNA transcription and replication,” European Journal of Clinical Investigation, vol. 26, no. 12, pp. 1069–1076, 1996.
View at: Google Scholar
M. Ott, S. P. Thyagarajan, and S. Gupta, “Phyllanthus amarus suppresses hepatitis B virus by interrupting interactions between HBV enhancer I and cellular transcription factors,” European Journal of Clinical Investigation, vol. 27, no. 11, pp. 908–915, 1997.
View at: Google Scholar
S. P. Thyagarajan, S. Subramanian, T. Thirunalasundari, P. S. Venkateswaran, and B. S. Blumberg, “Effect of Phyllanthus amarus on chronic carriers of hepatitis B virus,” The Lancet, vol. 2, no. 8614, pp. 764–766, 1988.
View at: Google Scholar
K. T. Leung, L. C. M. Chiu, W. S. Lam, Y. Li, S. S. M. Sun, and V. E. C. Ooi, “In vitro antiviral activities of Chinese medicinal herbs against duck hepatitis B virus,” Phytotherapy Research, vol. 20, no. 10, pp. 911–914, 2006.
View at: Publisher Site | Google Scholar
J. P. Liu, H. McIntosh, and H. Lin, “Chinese medicinal herbs for asymptomatic carriers of hepatitis B virus infection,” Cochrane Database of Systematic Reviews, no. 2, Article ID CD002231, 2001.
View at: Google Scholar
J. P. Liu, H. McIntosh, and H. Lin, “Chinese medicinal herbs for chronic hepatitis B,” Cochrane Database of Systematic Reviews, no. 1, Article ID CD001940, 2001.
View at: Google Scholar
J. Liu, H. McIntosh, and H. Lin, “Chinese medicinal herbs for chronic hepatitis B: a systematic review,” Liver, vol. 21, no. 4, pp. 280–286, 2001.
View at: Publisher Site | Google Scholar
L. Zhang, G. Wang, W. Hou, P. Li, A. Dulin, and H. L. Bonkovsky, “Contemporary clinical research of traditional chinese medicines for chronic hepatitis B in china: an analytical review,” Hepatology, vol. 51, no. 2, pp. 690–698, 2010.
View at: Publisher Site | Google Scholar
J. He, D. Zhou, and G. Tong, “A randomized double-blind placebo-controlled clinical trial on a Chinese herbal formula (phyllanthus compound) in the treatment of chronic hepatitis B virus carriers,” Journal of Hepatology, vol. 50, supplement 1, 2009.
View at: Google Scholar
Chinese Pharmacopoeia Commission, Pharmacopoeia of the People's Republic of China, People's Medical Publishing House, Beijing, China, 2005.
T. T. Tran, “Immune tolerant hepatitis B: a clinical dilemma,” Gastroenterology & Hepatology, vol. 7, no. 8, pp. 511–516, 2011.
View at: Google Scholar
G. K. K. Lau, A. Nanji, J. Hou et al., “Thymosin-α1 and famciclovir combination therapy activates T-cell response in patients with chronic hepatitis B virus infection in immune-tolerant phase,” Journal of Viral Hepatitis, vol. 9, no. 4, pp. 280–287, 2002.
View at: Publisher Site | Google Scholar
J. L. Dienstag, E. R. Schiff, T. L. Wright et al., “Lamivudine as initial treatment for chronic hepatitis B in the United States,” The New England Journal of Medicine, vol. 341, no. 17, pp. 1256–1263, 1999.
View at: Publisher Site | Google Scholar
R. P. Perrillo, C. Lai, Y. Liaw et al., “Predictors of HBeAg loss after lamivudine treatment for chronic hepatitis B,” Hepatology, vol. 36, no. 1, pp. 186–194, 2002.
View at: Publisher Site | Google Scholar
M. F. Yuen, H. J. Yuan, C. K. Hui et al., “A large population study of spontaneous HBeAG seroconversion and acute exacerbation of chronic hepatitis B infection: implications for antiviral therapy,” Gut, vol. 52, no. 3, pp. 416–419, 2003.
View at: Publisher Site | Google Scholar
D. Curran, R. J. Sylvester, and G. H. Boes, “Sample size estimation in phase III cancer clinical trials,” European Journal of Surgical Oncology, vol. 25, no. 3, pp. 244–250, 1999.
View at: Publisher Site | Google Scholar
Y. Liaw, “HBeAg seroconversion as an important end point in the treatment of chronic hepatitis B,” Hepatology International, vol. 3, no. 3, pp. 425–433, 2009.
View at: Publisher Site | Google Scholar
Y. F. Liaw, G. K. K. Lau, J. H. Kao, and E. Gane, “Hepatitis B e antigen seroconversion: a critical event in chronic hepatitis B virus Infection,” Digestive Diseases and Sciences, vol. 55, no. 10, pp. 2727–2734, 2010.
View at: Publisher Site | Google Scholar
C. J. Liu, P. J. Chen, M. Y. Lai et al., “Viral factors correlate with hepatitis B e antigen seroconverson in patients with chronic hepatitis B,” Liver International, vol. 26, no. 8, pp. 949–955, 2006.
View at: Publisher Site | Google Scholar
M. H. Zheng, K. Q. Shi, Z. J. Dai, C. Ye, and Y. P. Chen, “A 24-week, parallel-group, open-label, randomized clinical trial comparing the early antiviral efficacy of telbivudine and entecavir in the treatment of hepatitis B e antigen-positive chronic hepatitis B virus infection in adult Chinese patients,” Clinical Therapeutics, vol. 32, no. 4, pp. 649–658, 2010.
View at: Publisher Site | Google Scholar
R. Moucari, V. Mackiewicz, O. Lada et al., “Early serum HBsAg drop: a strong predictor of sustained virological response to pegylated interferon alfa-2a in HBeAg-negative patients,” Hepatology, vol. 49, no. 4, pp. 1151–1157, 2009.
View at: Publisher Site | Google Scholar
A. J. V. Thompson, T. Nguyen, D. Iser et al., “Serum hepatitis B surface antigen and hepatitis B e antigen titers: disease phase influences correlation with viral load and intrahepatic hepatitis B virus markers,” Hepatology, vol. 51, no. 6, pp. 1933–1944, 2010.
View at: Publisher Site | Google Scholar
M. J. Sonneveld, V. Rijckborst, C. A. B. Boucher et al., “A comparison of two assays for quantification of Hepatitis B surface antigen in patients with chronic hepatitis B,” Journal of Clinical Virology, vol. 51, no. 3, pp. 175–178, 2011.
View at: Publisher Site | Google Scholar
T. R. Mosmann and R. L. Coffman, “TH1 and TH2 cells: different patterns of lymphokine secretion lead to different functional properties,” Annual Review of Immunology, vol. 7, pp. 145–173, 1989.
View at: Google Scholar
J. Vingerhoets, P. Michielsen, G. Vanham et al., “HBV-specific lymphoproliferative and cytokine responses in patients with chronic hepatitis B,” Journal of Hepatology, vol. 28, no. 1, pp. 8–16, 1998.
View at: Publisher Site | Google Scholar
R. Jiang, X. Feng, Y. Guo et al., “T helper cells in patients with chronic hepatitis B virus infection,” Chinese Medical Journal, vol. 115, no. 3, pp. 422–424, 2002.
View at: Google Scholar
G. Tong and S. Peng, “The view of treatment in chronic hepatitis B based on “seasonal febris theory” of traditional Chinese medicine,” Journal of Traditional Chinese Medicine, vol. 45, no. 10, pp. 726–728, 2004.
View at: Google Scholar
Z. Y. Shen, Z. J. Wu, L. W. Yu, D. X. Fu, and J. H. Huang, “Study the protection and combination on the total flavones of epimedium to the immunodeficiency rats induced by corticosterone,” Chinese Pharmacological Bulletin, vol. 23, no. 8, pp. 1061–1063, 2007.
View at: Google Scholar
Z. J. Wang, X. D. Wei, J. Sun, and O. Qing, “Effects of alcoholic extract of Semen Cuscutae on oxidative damage and complex activities of hepatic mitochondria respiratory chain of aging mice,” Heilongjiang Medicine and Pharmacy, vol. 31, no. 5, pp. 5–6, 2008.
View at: Google Scholar
W. Zhang, S. Chen, and L. Guiyuan, “Research on the relationship between the effect, flavor and meridian tropism of Cuscuta Chinese Lam and the modern pharmacology,” Lishizhen Medicine and Materia Medica Research, vol. 21, no. 4, pp. 808–811, 2010.
View at: Google Scholar
J. He, D. Zhou, G. Tong et al., “A randomized double-blind placebo-controlled clinical trial on a Chinese herbal formula (invigorating the kidney and the spleen gelatin capsule) in the treatment of chronic hepatitis B virus carriers,” Chinese Journal of Experimental Traditional Medical Formulae, vol. 16, no. 6, pp. 246–249, 2010.
View at: Google Scholar
R. P. Perrillo, “Acute flares in chronic hepatitis B: the natural and unnatural history of an immunologically mediated liver disease,” Gastroenterology, vol. 120, no. 4, pp. 1009–1022, 2001.
View at: Google Scholar
H. J. Flink, D. Sprengers, B. E. Hansen et al., “Flares in chronic hepatitis B patients induced by the host or the virus? Relation to treatment response during Peg-interferon α-2b therapy,” Gut, vol. 54, no. 11, pp. 1604–1609, 2005.
View at: Publisher Site | Google Scholar
M. J. Sonneveld, R. Zoutendijk, H. J. Flink, L. Zwang, B. E. Hansen, and H. L. A. Janssen, “Close monitoring of hepatitis B surface antigen levels helps classify flares during peginterferon therapy and predicts treatment response,” Clinical Infectious Diseases, vol. 56, no. 1, pp. 100–105, 2013.
View at: Google Scholar

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Copyright © 2013 Jinsong He et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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