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. 2018 Apr 9;9:324. doi: 10.3389/fphar.2018.00324

Traditional Chinese Medicine for Bradyarrhythmia: Evidence and Potential Mechanisms

Shuo Liu 1,, Guihua Tian 1,2,, Jing Chen 3,, Xiaoyu Zhang 1,, Aiming Wu 1, Min Li 1, Yang Sun 1, Baoshan Liu 4,*, Yanwei Xing 5,*, Hongcai Shang 1,*
PMCID: PMC5900793  PMID: 29686614

Abstract

Importance: The incidence of Bradyarrhythmias is high among the population. However, at early stages of the disease, it cannot always get enough attention and is lack of safe and effective therapies, until it is serious enough to resort to pacemaker implantation. Traditional Chinese Medicine (TCM) has a long history of treating Bradyarrhythmia, with a lot of formulas being widely used in clinical practice. While the effectiveness and the underlying mechanisms of these formulas have not yet been clearly identified.

Objective: To evaluate the effectiveness of some common TCM formulas in treating patients with Bradyarrhythmia and to summarize the current evidence as to their mechanisms.

Data Sources: Relevant studies were identified by searching for papers published from January 2000 to August 2017 in Pubmed; EMBASE; the Cochrane Library (Cochrane Central Register of Controlled Trials); the China National Knowledge Internet; and the China biology medicine, Wanfang, and VIP databases. The following medical subject heading (MeSH) terms were included for Pubmed search and adapted for other databases as needed-“Medicine, Chinese Traditional,” “Bradycardia.”

Study Selection: Randomized clinical trials investigating treatment outcomes in Bradyarrhythmia patients with one of the six TCM formulas (Shenxian-shengmai oral liquid, Shensong Yangxin capsule, XinBao pill, Mahuang-Fuzi-Xixin decoction, Zhigancao decoction and Shengmai injection).

Data Extraction and Synthesis: Two independent reviewers performed the data extraction and assessed study quality. A meta-analysis was performed to calculate risk ratio (RR) and 95% confidence index (CI) using random-effects and fixed-effects model.

Results: A total of 121 clinical trials with 11138 patients were included. Of the six TCM formulas, SXSM (RR:1.33, 95% CI 1.27 to 1.39, P < 0.00001), SSYX (RR:1.52, 95% CI 1.40 to 1.66, P < 0.00001), XB can be more effective than common treatment (RR 1.18, 95% CI 1.11 to 1.26, P < 0.00001), as well as placebo (RR 5.33, 95% CI 2.88-9.87, P < 0.00001), but less effective than TCM dialectical therapy (RR:0.75, 95% CI 0.68 to 0.82, P < 0.00001). Compared to the control group, MFX (RR:1.30, 95%CI 1.23 to 1.37, P < 0.00001), ZGC (RR:1.35, 95%CI 1.23 to 1.48, P < 0.00001), SMI (RR:1.36, 95%CI 1.21 to 1.52, P < 0.00001) can be more effective. The overall quality of the included trials were relatively low, with the limitations of small sample size, inadequate descriptions in randomization, allocation concealment and blinding methods.

Conclusions and Relevance: There are evidence that some TCM formulas might help to relieve Bradyarrhythmias. But with the relatively low quality of the clinical trials and mechanism studies, we still need more high-quality researches to verify the conclusions.

Keywords: Traditional Chinese Medicine, Bradyarrhythmia, evidence-based medicine, mechanisms, systematic reviews and meta-analyses

Introduction

Bradyarrhythmias is a common arrhythmia encountered in clinical practice. Fatigability, reduced exercise capacity and symptoms of heart failure (HF) are most familiar signs of the persistent Bradyarrhythmia, along with some subtle symptoms such as irritability, lassitude, inability to concentrate, apathy, forgetfulness and dizziness. Dizziness, pre-syncope and syncope are common symptoms with intermittent severe forms of Bradyarrhythmias and are due to a sudden decrease in cerebral blood flow (Brignole et al., 2013). According to the survey from Tresch, in the Baltimore Longitudinal Study of Aging, the prevalence of unexplained Sinus bradycardia was approximately 4% and was nearly identical in men and women (Tresch and Fleg, 1986). With the development of technology, pacemaker implantation is widely used in treating different kinds of Bradyarrhythmias. In Dublin, the pacemaker implantation rate was 0.6% (Keaney et al., 2013). However, with the constraints of unbalanced economy and technology, the use of pacemaker implantation still cannot sufficiently meet the clinical needs (Baman et al., 2010). As for the patients with abnormal low heart rate, accompanied with symptoms of palpitation, panting and fainting, or patients with pacemaker contraindications, there are no safe and effective treatment from modern medicine so far.

TCM has a long history of treating Bradyarrhythmia, which may start from as early as the Han Dynasty in China (about 2,000 years ago). A Chinese physician named Zhang Zhongjing first gave the therapies for the symptoms the same as those of Bradyarrhythmia, which was recorded in the TCM classics Treatise on Febrile and Miscellaneous Diseases (Shang Han Lun in Chinese). Actually, there was no specific term for Bradyarrhythmia at that time, the clinicians assigned it as palpitation or slow pulse. For the pathogenesis, TCM physicians take it as stasis of blood because of Qi or Yang deficiency. Accordingly, TCM formulas are aiming to reinforcing Qi and warming Yang. Based on modern pharmacological research, these formulas can be effective alleviating Bradyarrhythmia by regulating sympathetic and parasympathetic nervous system, restraining myocardial collagen hyperplasia and fibrosis, reducing inflammation and increasing antioxidant activity, regulating myocardial energy metabolism and ion channels.

Nowadays, TCM is playing an important role in treating Bradyarrhythmia. For ease of use, TCM decoction has been developed into a variety of dosage forms, such as capsule, dropping pill, oral liquid and injection. What's more, TCM is increasingly welcomed in many developed countries, such as Australia and the United States (Hao et al., 2017). Therefore, to evaluate the treatment effect and identify potential mechanisms of TCM formulas for Bradyarrhythmias, we searched six of the most often used formulas (SXSM, SSYX, XB, MFX, ZGC, SMI) and gave this systematic review.

The search for and selection of RCTs

Data sources and searches

Relevant studies were identified by searching for papers published from January 2000 to August 2017 in Pubmed; EMBASE; the Cochrane Library (Cochrane Central Register of Controlled Trials); the China National Knowledge Internet; and the China biology medicine, Wanfang, and VIP databases. The following medical subject heading (MeSH) terms were included for Pubmed search and adapted for other databases as needed- “Medicine, Chinese Traditional”, “Bradycardia”; The search algorithm for MEDLINE was as follows: (((((((Traditional Chinese Medicine[Title/Abstract]) OR Chinese proprietary medicine[Title/Abstract])) OR “Medicine, Chinese Traditional”[Mesh])) OR ((((((((shenxian shengmai[Title/Abstract]) OR ((mahuang fuzi xixin[Title/Abstract]) OR zhigancao [Title/Abstract])) OR xin bao pill[Title/Abstract]) OR shensongyangxin[Title/Abstract]))) AND ((((((((((((Bradycardia[Title/Abstract]) OR Brugada Syndrome[Title/Abstract]) OR Heart Block[Title/Abstract]) OR Long QT Syndrome[Title/Abstract]))). Similar but adapted search terms were used for other databases of published reports or search engines. The reference lists of all retrieved papers were checked for other potentially relevant citations, and studies not included in the electronic sources mentioned previously were searched manually.

Study selection

We included reports of clinical studies with the following criteria: (1) Randomized clinical trials treating Bradyarrhythmia using TCM formulas (SXSM, SSYX, XB, MFX, ZGC, SMI), with no language limitation; (2) Studies reporting efficacy outcomes (healed, markedly effective, effective and ineffective). We excluded reports of studies with the following features: (1) Two or more TCM formulas vs. conventional therapies; (2) Studies with flaws such as inappropriate design, incomplete or wrong results; (3) TCM formulas vs. cardiac pacemaker; (4) Conference paper and academic dissertation; (5) Studies with patients less than 20 per group.

Data extraction and quality assessment

Two authors (SL, JC) reviewed the trials to ensure that they met inclusion criteria, abstracted the data and this was checked for accuracy by the other authors. Disagreements were resolved by consensus-based discussion. We performed objective assessment of the trials using the methods specified in the Cochrane Handbook of Systematic Reviews assessing for risks of bias (selection bias, performance bias, detection bias, attrition bias, reporting bias).

The initial search yielded 766 records, 763 in Chinese and 3 in English. After elimination of duplicate results, 268 articles with six formulas remained. Finally, 121 articles were reviewed and assessed. There were 32 of SXSM, 36 of SSYX, 21 of XB, 18 of MFX, 8 of ZGC, 6 of SMI (Figure 1).

Figure 1.

Figure 1

Flowchart of the included studies' selection process.

Data synthesis and analysis

Meta-analysis was performed according to the recommendations of Cochrane collaboration and in line with the PRISMA statement (Liberati et al., 2009). To assess effective rate, “cured” and “marked effective” cases are both seen as effective cases. All these analyses were performed using the Cochrane RevMan 5.3 program. Pooled treatment effects were estimated using relative risk (RR) with 95% confidence interval (CI), calculated by random-effects and fixed-effects model. Heterogeneity was assessed by chi-square tests and the I2 statistic-we defined I2 < 50% to be low heterogeneity, referring to the Cochrane Handbook of Systematic Reviews. Publication bias was estimated using funnel plots.

Study characteristics

A total of 121 clinical trials with 11,138 patients were included. 2,330 patients were from studies of SXSM, 4660 from SSYX, 1700 from XB, 1398 from MFX, 651 from ZGC, 399 from SMI (Table 1) (details of study characteristics were offered as Supplementary Material).

Table 1.

Components of formulas and mechanism of effect.

Name of formula Accepted name Main components Mechanism of effect References
Shenxian-shengmai oral liquid (SXSM) Panax ginseng C.A.Mey.
Epimedium brevicornu Maxim.
Cullen corylifolium (L.) Medik.
Lycium barbarum L.
Ephedra sinica Stapf
Asarum sieboldii Miq.
Salvia miltiorrhiza Bunge
Whitmania pigra Whitman
Ginsenosides, Ephedrine Hydrochloride, Psoralen, psoralen, icariin, protocatechuic aldehyde Regulate parasympathetic nervous system Liu et al., 2017
Shensong Yangxin Capsule (SSYX) Panax ginseng C.A.Mey.
Ophiopogon japonicus (Thunb.) Ker Gawl.
Cornus officinalis Siebold & Zucc.
Salvia miltiorrhiza Bunge
Ziziphus jujuba Mill.
Taxillus sutchuenensis (Lecomte) Danser
Paeonia anomala subsp. veitchii (Lynch) D.Y.Hong & K.Y.Pan
Eupolyphagasinensis Walker
Nardostachys jatamansi (D.Don) DC.
Coptis chinensis Franch.
Kadsura longipedunculata Finet & Gagnep.;
OsDraconis
saponins, phenolic acids, tanshinones, lignans, terpenoids, alkaloids and flavonoids, according to their chemical structures restrain Myocardial collagen proliferation and cardiac fibrosis Shen et al., 2014; Liu et al., 2015; Dang et al., 2016
XinBao pill (XB) Datura metel L.
Cervus nippon
Panax ginseng C.A.Mey.
Aconitum carmichaeli Debeaux
Cinnamomum cassia (L.) J.Presl
Panax notoginseng (Burkill) F.H.Chen
Abelmoschus moschatus Medik.
Venenum Bufonis
DryobalanopsaromaticaGwaertn.f.
atropine, scopolamine, Ginsenosides, Total velvet-antler polypeptide, Aconite normal butanol M2 receptor antagonism Shen et al., 2014; Liu et al., 2015; Dang et al., 2016
Mahuang-Fuzi-Xixin decoction (MFX) Ephedra sinica Stapf
Aconitum carmichaeli Debeaux
Asarum sieboldii Miq.
methyl ephedrine, aconine, songrine, fuziline, neoline, talatisamine, chasmanine, benzoylmesaconine, benzoylaconine and benzoylhypaconine reducing inflammation and increasing antioxidant activities Tang et al., 2015; Sun et al., 2016
Zhigancao decoction (ZGC) Glycyrrhiza uralensis Fisch. ex DC.
Zingiber officinale Roscoe
Cinnamomum cassia (L.) J.Presl
Panax ginseng C.A.Mey.
Rehmannia glutinosa (Gaertn.) DC.
Asini Corii Colla
Ophiopogon japonicus (Thunb.) Ker Gawl.
Cannabis sativa L.
Ziziphus jujuba Mill.
uncertain It may be related to the content of Ca2+ in muscle tissue or excitability of M receptor Hai et al., 2017
Shengmai injection (SMI) Panax ginseng C.A.Mey.
Ophiopogon japonicus (Thunb.) Ker Gawl.
Schisandra chinensis (Turcz.) Baill.
ginsenosides, lignans, steroidal saponins and homoiso-flavanones modulate the myocardial energy metabolism Wu et al., 2011; Zhan et al., 2015

Most of the studies only referred randomized allocation without specific randomization method. Only a few studies mentioned blinding of participants or outcome assessors. Most studies provided data of diagnostic standards and evaluation criterion (Figure 2). The time of publication of these 121 studies ranged from 2004 to 2017, 74 of which introduced the occurrence of side effects.

Figure 2.

Figure 2

Risk of bias graph (A) SXSM, (B) SSYX, (C) XB, (D) MFX, (E) ZGC, (F) SMI.

TCM for bradyarrhythmia evidence and mechanisms

Shenxian-shengmai oral liquid

SXSM is prepared from 8 herbs, namely red ginseng, epimedium, psoralen, medlar, ephedra, asarum, salvia, and leech (Table 1). It has been listed in the Chinese national directory of health insurance in 2017. Animal experiments showed that SXSM can increase heart rate by inhibiting heart parasympathetic transmission based on the decreased CHRNA2 (encodes nicotinic acetylcholine receptor) and increased ACE-1 (encodes acetylcholinesterase). SXSM upregulated ATP2A1 and FKBP1B, therefore, restored Ca2+ stores induced by restored expression of SERCA2a and FKBP12.6 contributed directly to increased heart rate. In addition, in ventricular myocardium, SXSM increased the supply of ATP by enhancing TCA cycle and oxidation-respiratory chain. It also upregulated proteins ranged from enzymes of TCA cycle to subunits of complex I and ATP synthase (Liu et al., 2017).

Studies (Liu and Li, 2010; Tang et al., 2010; Guo, 2011; Li G, 2011; Li H, 2011; Ma, 2011; Hu J. et al., 2012; Jiang et al., 2012; Sun et al., 2012; Wang and Liu, 2012; Wu et al., 2012, 2015; Yang et al., 2012; Ye, 2012; Hou et al., 2013; Li B, 2013; Zhuo, 2013; Bai and Hou, 2014; Du, 2014; Ma and Dong, 2014; Zhang, 2014; Dong and Ma, 2015; Gao et al., 2015; Jia, 2015; Sun and Luo, 2015; Yang and Ren, 2015; Zhou, 2015; He, 2016; Liu et al., 2016; Lu et al., 2016; Zhou et al., 2016; Liu H, 2017) of SXSM were included. Courses of the treatment ranged from 1 to 8 weeks. There were 2330 patients involved, including 1,197 in SXSM group (1,091 effective cases) and 1,133 in control group (780 effective cases). Meta-analyse was performed with a fixed-effect model as no significant heterogeneity was found (I2 < 50%, P > 0.1). It showed that SXSM was effective in treating Bradyarrhythmia (RR: 1.33, 95% CI 1.27 to 1.39, P < 0.00001) (Figure 3).

Figure 3.

Figure 3

SXSM for Bradyarrhythmia efficacy by meta-analysis.

Shensong yangxin capsule

SSYX is prepared from 12 ingredients such as Panax ginseng, dwarf lilyturf tuber, nardostachys root, etc. (Table 1). It was listed in the Chinese national directory of health insurance in 2009. Mass spectrometric and chromatographic detection identified major constituents including the saponins, phenolic acids, tanshinones, lignans, terpenoids, alkaloids, and flavonoids, according to their chemical structures (Liu et al., 2015). Animal experiments showed thatmRNA levels of TGF-β1, col-1, col-3, MMP-2, MMP-9 and α-SMA were downregulated, whereas Smad7 expression was upregulated after treatment with SSYX in rats with cardiac fibrosis (Shen et al., 2014). Meanwhile, SSYX can downregulated the level of ColI and ColIII, restrain Myocardial collagen proliferation (Dang et al., 2016). After blockage of the autonomic nervous system with metoprolol and atropin, SSYX had no effect on intrinsic HR (IHR), but decreased corrected sinus node recovery time (CSNRT) and sinus atrium conducting time (SACT). In isolated guinea pig ventricular myocytes, the most obvious effect of SSYX on action potential was a shortening of the action potential duration (APD) without change in shape of action potential.

Thirty-six studies (Sun and Liu, 2007; Liang, 2009; Ma, 2009; Ge L., 2010; Ge Y., 2010; Jin et al., 2010; Ma and Zhu, 2010; Zeng et al., 2010; Zhang, 2010, 2016,a,b; Zhang et al., 2010, 2011; Zhao, 2010; Ding et al., 2011; Zhao et al., 2011; Zhu, 2011, 2016; Jia and Wang, 2012; Pan and Cui, 2012; Xia et al., 2012; Gou, 2013; Li, 2013; Bao and Li, 2014; Liu et al., 2014,a,b; Wang D. et al., 2014; Wang W. et al., 2014; Wang X., 2014; Ding, 2016; Li et al., 2016; Wang, 2016; Wu, 2016; Wu et al., 2016; Gao, 2017; Lin, 2017) of SSYX were included. Courses of the treatment ranged from 2 weeks to 6 months. There were 4,660 patients involved, including 2,371 in SSYX group (2,016 effective cases) and 2,289 in control group (1,264 effective cases). Meta-analyse was performed with a randomized-effect model as heterogeneity was found (I2 > 50%, P < 0.10). Pooled result demonstrated that SSYX treatment is more effective than control treatment (RR:1.52, 95% CI 1.40 to 1.66, P < 0.00001). Subgroup analysis was made according to the types of Bradyarrhythmia. There were 26 studies of Bradyarrhythmia, 8 studies of Bradyarrhythmia accompanied with premature beat, 2 studies of Bradyarrhythmia with atrial fibrillation. Subgroup analysis demonstrated that differences between the 3 types of Bradyarrhythmia were not obvious (I2 = 56.3%, P = 0.10). And SSYX is effective in treating any of the 3 types of Bradyarrhythmia (P < 0.05) (Figure 4).

Figure 4.

Figure 4

SSYX for Bradyarrhythmia efficacy by meta-analysis.

Xinbao pill

XB consists of flos daturae, cornu cervi, ginseng, radix aconiti carmichaeli, etc. (Table 1). There were few basic research on this formula as a whole. The main active ingredient of flos daturae is atropine, whichis commonly used as an emergency medicine for improving heart rate (Gao et al., 2005). Cornu cervi extract canactivate the pi3k-akt signaling pathway which has important effects on the function of the heart (Zálesák et al., 2015; Zhang et al., 2016). As one of the main components of ginseng, Ginsenoside Rg5 promotes Angiogenesis and Vasorelaxation by Specific Activation of Insulin-like Growth Factor-1 Receptor. These findings revealed a mechanism for the positive regulation of vascular function (Cho et al., 2015). What's more, it was noted that Ginsenoside Rg2 can alleviate nervous system side effects caused by atropine in flos daturae, which may imply the advantage of TCM compatibility (Yang et al., 2009).

Twenty-one studies (Liu et al., 2009, 2014a; Chen et al., 2010, 2016; Di and Zhang, 2010; Zheng, 2011; Li et al., 2012; Zhao, 2012; Yu, 2013; Zhang, 2013, 2016a,b; Zhu, 2013; Li, 2014, 2016; Zhu and Zhang, 2014; Siqingqimuge, 2015; Wei et al., 2015; Xia et al., 2015; Gao et al., 2016; Hu and Zhao, 2016; Zhang and Li, 2016) of XB were included. Courses of the treatment ranged from 1 weeks to 3 months. There were 1,700 patients involved, including 797 in XB group (644 effective cases) and 903 in control group (699 effective cases). Subgroup analysis was performed as substantial heterogeneity was found (I2 > 50%, P < 0.10). It is divided into three subgroup based on the different treatments in control group. There were 12 studies comparing XB with common treatment, 7 studies comparing XB with TCM dialectical therapy, 2 studies comparing XB with placebo. The results showed that differences between the 3 subgroups were obvious (I2 = 97.9%, P < 0.05), indicating the source of heterogeneity. While minimal or no heterogeneity was observed within three subgroups (Figure 5).

Figure 5.

Figure 5

XB for Bradyarrhythmia efficacy by meta-analysis.

As a result, XB can be more effective than common treatment (RR 1.18, 95% CI 1.11-1.26, P < 0.00001), as well as placebo (RR 5.33, 95% CI 2.88-9.87, P < 0.00001), but less effective than TCM dialectical therapy (RR:0.75, 95% CI 0.68-0.82, P < 0.00001) (Figure 5).

Mahuang-Fuzi-Xixin decoction

MFX, a classical formula from Treatise on Febrile Diseases (Shang Han Lun in Chinese), is comprised of Ephedrae Herba (Ephedra), Aconiti Lateralis Radix Praeparata (Aconitum) and Asari Radix et Rhizoma (Asarum) (Table 1). Mass spectrometric and chromatographic detection identified 52 compounds, including alkaloids, amino acids and organic acids. The main constituents are methyl ephedrine, aconine, songrine, fuziline, neoline, alatisamine, chasmanine, benzoylmesaconine, benzoylaconine, and benzoylhypaconine (Sun et al., 2016). Experiments showed that MFX decoction significantly depressed the expression of IL-6, MCP-1 and TNF-α, and markedly increased expression of IL-10 in serum, indicating the effect of reducing inflammation and increasing antioxidant activities (Tang et al., 2015; Rong et al., 2016). That implied how MFX decoction may affect Bradyarrhythmiaas inflammation is related to myocardial injury which is one of the pathological basis of Bradyarrhythmia (Larsen et al., 2013).

Studies (Ning, 2004; Fan and Yang, 2005; Geng et al., 2010; Zhang L, 2011; Bao, 2012; Cheng, 2012; Wei and Liu, 2012; Deng et al., 2014; Fang et al., 2014; Wang Z, 2014; Xu and Long, 2014; Ji and Zhang, 2015; Du, 2016; Hu and Huang, 2016; Huang and Zhang, 2016; Yu, 2016; Yuan, 2016; Li, 2017) of MFX were included. Courses of the treatment ranged from 2 weeks to 3 months. There were 1398 patients involved, including 722 in MFX group (656 effective cases) and 676 in control group (472 effective cases). Meta-analyse was performed with a fixed-effect model as no significant heterogeneity was found (I2 < 50%, P > 0.10). It showed that MFX was effective in treating Bradyarrhythmia (RR:1.30, 95% CI 1.23 to 1.37, P < 0.00001) (Figure 6).

Figure 6.

Figure 6

MFX for Bradyarrhythmia efficacy by meta-analysis.

Zhigancao decoction

ZGC also comes from Treatise on Febrile Diseases (Shang Han Lun in Chinese). It is used as a representative formula to treat almost any kind of arrhythmia containing nine commonly used herbs (Radix glycyrrhizae preparata, Ginger, Cassia Twig, Ginseng, dried rehmannia, Donkey-hide gelatin, Radix Ophiopogonis, Fructus Cannabis, Fructus Ziziphi Jujubae). Recent studies showed that ZGC can effect the Ca2+ content in muscle tissue and the excitability of M receptors (Hai et al., 2017). It was reported that ZGC can also treat atrial fibrillation, which is a disease of opposite pathogenesis compared with Bradyarrhythmia. There may exist a two-way regulation effect that requires further study.

Eight studies (Hu, 2012; Qiu, 2012; Gao and Chen, 2014; Cheng, 2016; Kong, 2016; Long, 2016; Wang X., 2016; Zhou and Yang, 2016) of ZGC were included. Courses of the treatment ranged from 1 to 3 months. There were 651 patients involved, including 326 in ZGC group (279 effective cases) and 325 in control group (206 effective cases). Meta-analyse was performed with a fixed-effect model as no significant heterogeneity was found (I2 < 50%, P > 0.10). It showed that ZGC was effective in treating Bradyarrhythmia (RR:1.35, 95% CI 1.23 to 1.48, P < 0.00001) (Figure 7).

Figure 7.

Figure 7

ZGC for Bradyarrhythmia efficacy by meta-analysis.

Shengmai injection

SMI was developed from a classic TCM formula, which is a combination of Panax ginseng, Ophiopogon japonicas and Schisandra chinensis (Table 1). The constituents included ginsenosides, lignans, steroidal saponins and homoisoflavanones (Wu et al., 2011). Proteomics study found that SMI can up-regulate glucose oxidation, TCA cycle and ATP synthesis related proteins, down-regulate proteins catalyzing fatty acid β-oxidation, implying the inhibition of this pathway to avoid high oxygen consumption and modulate the myocardial energy metabolism (Zhan et al., 2015).

Six studies (Fang, 2005; Zhao and Wang, 2007; Li et al., 2008; Wang et al., 2012; Zheng and Zhao, 2015; Wu, 2017) of SMI were included. Courses of the treatment ranged from 14 to 20 days. There were 399 patients involved, including SMI in SMI group (176 effective cases) and 199 in control group (129 effective cases). Meta-analyse was performed with a fixed-effect model as no significant heterogeneity was found (I2 < 50%, P > 0.10). It showed that SMI was effective in treating Bradyarrhythmia (RR:1.36, 95%CI 1.21 to 1.52, P < 0.00001 (Figure 8).

Figure 8.

Figure 8

SMI for Bradyarrhythmia efficacy by meta-analysis.

Traditional Chinese medicine has a long history of treating arrhythmia using different kinds of therapies. There are some classic TCM formulas with constant compositions are widely accepted. In this article, we evaluated the effect of six of the most often reported TCM formulas for Bradyarrhythmia with systematic review method, and reviewed their different potential mechanisms as well as therapeutic features (Table 1).

We also assessed the equality of the Chinese patent medicine used in studies. Thirty-two RCTs evaluated the effect of SXSM. As a listed Chinese patent drug with the China's National Registrated No. Z20080183 and detailed drug instruction (containing components, description, dosage, indications etc. Figure 9A), SXSM is manufactured by a single company (Buchang Pharmaceutical Corporation, Heze, China). Thirty-six RCTs evaluated the effect of SSYX, (Shijiazhuang Yiling Pharmaceutical Co., Ltd.) produced the drug. SSYX is a listed Chinese patent drug with the China's National Registrated No. Z20103032 and detailed drug instruction (Figure 9B). XB was evaluated in 21 RCTs, 6 of which didn't specify any information of manufacturer and product batch number (Di and Zhang, 2010; Zhang, 2013; Zhu and Zhang, 2014; Wei et al., 2015; Hu and Zhao, 2016; Zhang and Li, 2016). Ten studies used XB produced by Guangdong Xinbao pharma-tech company (Liu et al., 2009; Chen et al., 2010; Li et al., 2012; Zhu, 2013; Li, 2014, 2016; Siqingqimuge, 2015; Xia et al., 2015; Gao et al., 2016; Zhang, 2016,a,b). Five studies used XB produced by Guangdong Taiantang Pharmaceutical company (Zheng, 2011; Zhao, 2012; Yu, 2013; Liu et al., 2014,a,b; Chen et al., 2016). The ingredients and dosage are basically the same in both XBs (Figure 9C). SMI was evaluated in 6 RCTs. Three studies didn't provide information of manufacturer and product batch number (Wang et al., 2012; Zheng and Zhao, 2015; Wu, 2017). Two studies used SMI produced by Suzhong Yaoye group pharmaceutical limited company (Zhao and Wang, 2007; Li et al., 2008). One study used SMI produced by China resources sanjiu pharmaceutical company (Fang, 2005). The ingredients are basically the same in both SMIs, but the dosages of injection are different (Figure 9D). None of the studies described the details about drug chemical profile or preparation methods.

Figure 9.

Figure 9

Four included Chinese patent medicine and their drug instructions (A) SXSM. (B) SSYX. (C) XB. (D) SMI.

Conclusion

In conclusion, TCM formulas showed treatment effect on Bradyarrhythmia while most of the included studies were in low quality. There were a number of clinical trials, but most of them had limitations on small sample size and inadequate descriptions in randomization methods, allocation concealment and blinding methods. Among the six included TCM formulas, SXSM, SSYX, XB, SMI were patent medicine which were authenticated and standardized on marker compounds according to the Chinese Pharmacopeia. But the chemical compounds of the same Chinese patent medicine may not be consistent when produced by different companies and in different batches. XB and SMI were produced by more than one manufacturer, and some of the studies included didn't specify information of manufacturer or product batch number. For herbal compound decoctions like ZGC and MFX, the components among different studies were hard to keep consistent, which made it more important to report full information of the ingredients. Apparently, the importance of components consistency was ignored in most of the current clinical studies. It is highly recommended to give full consideration of it and introduce the source of the species, origin, and concocted methods for each component. Moreover, high performance liquid chromatography, high performance capillary electrophoresis, and gas chromatography should be applied to quantitate the components. It would be helpful for further research and evaluation. On mechanism research, high quality literatures were rare. A lot of efforts had been wasted on repetitious researches of low level which cannot reveal the mechanism of TCM formulas. Therefore, high-quality clinical research and evidence are still needed to evaluate the effectiveness and safety of TCM formulas and innovative researches of mechanism are required as well.

Author contributions

HS and SL defined the research theme. SL, GT, and JC designed the methods and analyzed the data. JC interpreted the results. SL, YX, and XZ wrote the manuscript, and contributed equally to this work. All authors discussed the results and commented on the manuscript.

Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Acknowledgments

This study was supported by grants from the Basic Research Foundation of Beijing University of Chinese Medicine (no.2016-JYB-JSMS-026) and the National Natural Science Foundation of China (No. 81430098).

Glossary

Abbreviations

HF

heart failure

HR

heart rate

MFX

Mahuang-Fuzi-Xixin decoction

RCT

randomized controlled trial

SMI

Shengmai injection

SB

sinus bradycardia

SSS

sick sinus syndrome

SXSM

Shenxian-shengmai oral liquid

SSYX

Shensong Yangxin capsule

TCM

traditional Chinese medicine

XB

XinBao pill

ZGC

Zhigancao decoction.

Supplementary material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fphar.2018.00324/full#supplementary-material

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