Scolaris Content Display Scolaris Content Display

Xiongshao para la reestenosis después de la intervención coronaria percutánea en pacientes con cardiopatía coronaria

Collapse all Expand all

Antecedentes

La intervención coronaria percutánea (ICP) con colocación de stent es un tratamiento estándar para la cardiopatía coronaria (CC). La reestenosis intrastent después de la ICP sigue siendo un problema clínico importante. Se informó que la cápsula de Xiongshao es beneficiosa para prevenir la reestenosis después de la ICP en pacientes con CC. Sin embargo, no está clara cuál es la fuerza de la evidencia que apoye su uso.

Objetivos

Evaluar sistemáticamente la eficacia y la seguridad de la cápsula de la hierba medicinal china Xiongshao en cuanto a la prevención de la reestenosis después de la ICP en pacientes con CC.

Métodos de búsqueda

Se hicieron búsquedas en el Registro Cochrane Central de Ensayos Controlados (Cochrane Central Register of Controlled Trials, CENTRAL) en The Cochrane Library (número 3 de 2012), MEDLINE (OVID) (1948 hasta la semana 1 de marzo de 2012), EMBASE (OVID) (1980 hasta la semana 10 de 2012), ISI Web of Science with Conference Proceedings (1970 hasta el 14 de marzo de 2012), LILACS (1982 al 15 de marzo de 2012), Chinese biomedical literature database (1980 a mayo de 2012), China National Knowledge Infrastructure (1994 a mayo de 2012), Chinese Medical Current Contents (1994 a mayo de 2012), VIP Database for Chinese Technical Periodicals (1989 a mayo de 2012), Chinese Master's Theses Full‐Text Database (1994 a mayo de 2012), China Doctor Dissertation Full‐Text Database (1994 a mayo de 2012), y China Proceedings of Conference Full‐Text Database (1994 a mayo de 2012). También se buscaron ensayos en curso y registros de investigación.

Criterios de selección

Se incluyeron todos los ensayos controlados aleatorizados que compararon la cápsula de Xiongshao sola / más medicación occidental convencional versus medicación occidental convencional sola / más placebo en participantes con CC que cumplieron los criterios de diagnóstico reconocidos y que habían sido sometidos de forma exitosa a la ICP.

Obtención y análisis de los datos

Dos autores de la revisión, de forma independiente, seleccionaron los ensayos y extrajeron los datos. Dos autores de la revisión evaluaron de forma independiente el riesgo de sesgo de los ensayos incluidos con la herramienta de la Colaboración Cochrane, y cualquier desacuerdo se resolvió mediante discusión con un tercer autor. Los datos se agruparon para el metanálisis mediante el modelo de efectos fijos, y los resultados se expresaron como riesgos relativos (RR) con intervalos de confianza del 95% (IC).

Resultados principales

En esta revisión, se incluyeron cuatro ensayos con 649 participantes. Dos de estos ensayos (459 participantes) se diseñaron como ensayos aleatorizados, doble ciego, controlados con placebo con una descripción metodológica adecuada; los otros dos ensayos (190 participantes) describieron un diseño metodológico inadecuado. Los cuatro ensayos con 649 participantes se incluyeron en el metanálisis. Se observaron diferencias significativas en las tasas de reestenosis, la angina de pecho recurrente y los eventos adversos cardiovasculares graves entre la cápsula de Xiongshao más medicación occidental convencional y la misma medicación occidental convencional sola; los valores del RR (IC del 95%) fueron de 0,41 (0,22 a 0,75), 0,47 (0,31 a 0,72) y 0,47 (0,25 a 0,90), respectivamente. La cápsula de Xiongshao más medicación occidental convencional mostró reducciones más significativas de la reestenosis (RR 0,52; IC del 95%: 0,33 a 0,80), la angina de pecho recurrente (RR 0,26; IC del 95%: 0,18 a 0,38), y los eventos adversos cardiovasculares graves (RR 0,45; IC del 95%: 0,28 a 0,70) que la misma medicación occidental convencional más placebo. Los resultados de seguridad y los eventos adversos relacionados con la cápsula de Xiongshao se presentaron en dos ensayos, que no informaron ningún evento adverso.

Conclusiones de los autores

Las estimaciones generales indican un efecto protector del Xiongshao en la reestenosis y muestran que la cápsula de Xiongshao puede usarse para prevenir la reestenosis después de la ICP en pacientes con CC. Sin embargo, esta evidencia se deriva de ensayos aleatorizados pequeños, todos realizados en China, y dos de los ensayos incluidos mostraron limitaciones metodológicas importantes que debilitan la validez de los hallazgos. Se necesitan ensayos de investigación adicionales de alta calidad con tamaños de la muestra suficientes.

PICOs

Population
Intervention
Comparison
Outcome

The PICO model is widely used and taught in evidence-based health care as a strategy for formulating questions and search strategies and for characterizing clinical studies or meta-analyses. PICO stands for four different potential components of a clinical question: Patient, Population or Problem; Intervention; Comparison; Outcome.

See more on using PICO in the Cochrane Handbook.

Resumen en términos sencillos

Cápsula de Xiongshao para la prevención de la reestenosis después de la intervención coronaria percutánea en pacientes con cardiopatía coronaria

La cardiopatía coronaria (CC) es la causa principal de muerte y discapacidad a nivel mundial. La intervención coronaria percutánea (ICP) con colocación de stent es el tratamiento no quirúrgico estándar para la CC. Sin embargo, la limitación principal es el bloqueo repetido de los vasos sanguíneos después de la colocación de stent. Los datos de los estudios experimentales y realizados en seres humanos indicaron que la cápsula de Xiongshao, un producto medicinal a base de hierbas chinas, puede ser beneficiosa para prevenir la reestenosis de los vasos sanguíneos después de la ICP. Se revisó sistemáticamente la evidencia disponible actualmente con el objetivo de realizar una evaluación fiable de los efectos y la seguridad del Xiongshao en los bloqueos repetidos de los vasos sanguíneos después de la ICP.

Se identificaron cuatro ensayos que probaron tratamientos basados en la cápsula de Xiongshao. Dos ensayos compararon la cápsula de Xiongshao más la medicina occidental convencional con la misma medicina occidental convencional más placebo; los otros dos ensayos compararon la cápsula de Xiongshao más la medicina occidental convencional con la misma medicina occidental convencional sola para prevenir la reestenosis después de un procedimiento de ICP en pacientes con cardiopatía coronaria. Estos ensayos informaron que la administración de la cápsula de Xiongshao causó una reducción significativa en las tasas de incidencia de reestenosis, la angina de pecho recurrente y los eventos adversos cardiovasculares graves sin efectos adversos considerables después de la ICP. Por lo tanto, la cápsula de Xiongshao puede representar una opción para la prevención de la reestenosis intrastent después de la ICP. Sin embargo, aunque las estimaciones generales indican un efecto protector del Xiongshao en la reestenosis, la evidencia se deriva en parte de ensayos aleatorizados pequeños, todos realizados en China, con algunas limitaciones metodológicas que debilitan la validez de los hallazgos. Se necesitan ensayos de investigación adicionales de alta calidad con tamaños de la muestra suficientes.

Authors' conclusions

Implications for practice

Based on this systematic review of four trials with 649 participants, summary estimates indicate that Xiongshao capsule may have a protective effect in preventing restenosis and recurrence angina pectoris and in reducing the incidence of serious cardiovascular adverse events, and Xiongshao capsule may be an option for preventing restenosis without adverse effects after PCI in CHD patients. However, data on the effects of Xiongshao capsule on all‐cause mortality and on quality of life after PCI in study participants with coronary heart disease are lacking. Because of the relatively small samples of the included studies, some binary outcomes were highly significant between comparison groups and showed large relative risk reductions; these results are likely implausible and should be considered with great caution for practice.Therefore no strong evidence has been found for preventing restenosis after PCI with Xiongshao capsule.

Implications for research

Further research should consider the following points:

  • Methods of random sequence generation and allocation concealment should be adequately described.

  • Blinding of outcome assessors should be applied to reduce detection bias.

  • Sample size calculation should be applied in the study.

  • Clinical trial registries should be encouraged to provide the available protocol.

  • Participants with withdrawal/drop‐out during the trial should be clearly described.

  • The follow‐up period should be long enough to assess the long‐term efficacy and safety of the treatment.

  • Adverse effects and economic evaluation should be appraised in the study.

Summary of findings

Open in table viewer
Summary of findings for the main comparison. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Patient or population: patients with restenosis after percutaneous coronary intervention in coronary heart disease
Settings: hospitals
Intervention: Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM)

Outcomes

Illustrative comparative risks* (95% CI)

Relative effect
(95% CI)

No of Participants
(studies)

Quality of the evidence
(GRADE)

Comments

Assumed risk

Corresponding risk

Control

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM)

All‐cause death: not measured

See comment

See comment

Not estimable

See comment

All‐cause death not measured

Cardiac mortality
Follow‐up: 6‐24 months

See comment

See comment

Not estimable

190
(2 studies)

⊕⊕⊕⊝
moderate1

No cardiac death occurred

Serious adverse events
Follow‐up: mean 6 months

Study population

RR 0.47
(0.25 to 0.9)

108
(1 study)

⊕⊕⊕⊕
high2,3

400 per 1000

188 per 1000
(100 to 360)

Moderate

400 per 1000

188 per 1000
(100 to 360)

Restenosis
Coronary angiography
Follow‐up: mean 6 months

Study population

RR 0.41
(0.22 to 0.75)

190
(2 studies)

⊕⊕⊕⊕
high4,5

312 per 1000

128 per 1000
(69 to 234)

Moderate

313 per 1000

128 per 1000
(69 to 235)

Recurrence angina pectoris
Treadmill exercise test
Follow‐up: 6‐24 months

Study population

RR 0.47
(0.3 to 0.72)

190
(2 studies)

⊕⊕⊕⊝
moderate6,7

479 per 1000

225 per 1000
(144 to 345)

Moderate

477 per 1000

224 per 1000
(143 to 343)

Health‐related quality of life: not measured

See comment

See comment

Not estimable

See comment

Health‐related quality of life not measured

*The basis for the assumed risk (e.g. the median control group risk across studies) is provided in footnotes. The corresponding risk (with its 95% confidence interval) is based on the assumed risk in the comparison group and the relative effect of the intervention (and its 95% CI).
CI: Confidence interval; RR: risk ratio.

GRADE Working Group grades of evidence:
High quality: Further research is very unlikely to change our confidence in the estimate of effect.
Moderate quality: Further research is likely to have an important impact on our confidence in the estimate of effect and may change the estimate.
Low quality: Further research is very likely to have an important impact on our confidence in the estimate of effect and is likely to change the estimate.
Very low quality: We are very uncertain about the estimate.

1Both trials did not describe method of concealment of allocation. One trial did not report method of randomisation.
2Concealment of allocation not reported.
3RR 0.47, 95% CI 0.25 to 0.90.
4Both trials did not describe method of concealment of allocation. One trial did not report method of randomisation.
5RR 0.41, 95% CI 0.22 to 0.75.
6Both trials did not describe method of concealment of allocation. One trial did not report method of randomisation. Furthermore, blinding was not performed.
7RR 0.47, 95% CI 0.3 to 0.72.

Open in table viewer
Summary of findings 2. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Patient or population: patients with restenosis after percutaneous coronary intervention in coronary heart disease
Settings: hospitals
Intervention: Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo

Outcomes

Illustrative comparative risks* (95% CI)

Relative effect
(95% CI)

No of Participants
(studies)

Quality of the evidence
(GRADE)

Comments

Assumed risk

Corresponding risk

Control

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo

All‐cause death: not measured

See comment

See comment

Not estimable

See comment

All‐cause death not measured

Cardiac mortality
Follow‐up: 6‐12 months

See comment

See comment

Not estimable

432
(2 studies)

⊕⊕⊕⊕
high

Cardiac death not occurred

Serious adverse events
Follow‐up: 6‐12 months

Study population

RR 0.45
(0.28 to 0.7)

432
(2 studies)

⊕⊕⊕⊕
high1

237 per 1000

107 per 1000
(66 to 166)

Moderate

249 per 1000

112 per 1000
(70 to 174)

Restenosis
Coronary angiography
Follow‐up: mean 6 months

Study population

RR 0.52
(0.33 to 0.8)

432
(2 studies)

⊕⊕⊕⊕
high

233 per 1000

121 per 1000
(77 to 186)

Moderate

246 per 1000

128 per 1000
(81 to 197)

Recurrence angina pectoris with 1 month follow‐up
Treadmill exercise test
Follow‐up: mean 30 days

Study population

RR 0.31
(0.1 to 0.92)

314
(1 study)

⊕⊕⊕⊕
high2

83 per 1000

26 per 1000
(8 to 76)

Moderate

83 per 1000

26 per 1000
(8 to 76)

Recurrence angina pectoris with 3 months' follow‐up
Treadmill exercise test
Follow‐up: mean 3 months

Study population

RR 0.37
(0.19 to 0.71)

314
(1 study)

⊕⊕⊕⊕
high3

191 per 1000

71 per 1000
(36 to 136)

Moderate

191 per 1000

71 per 1000
(36 to 136)

Recurrence angina pectoris with 6 months' follow‐up
Treadmill exercise test
Follow‐up: mean 6 months

Study population

RR 0.26
(0.18 to 0.38)

432
(2 studies)

⊕⊕⊕⊕
high4

460 per 1000

120 per 1000
(83 to 175)

Moderate

495 per 1000

129 per 1000
(89 to 188)

Health‐related quality of life: not measured

See comment

See comment

Not estimable

See comment

Health‐related quality of life not measured

*The basis for the assumed risk (e.g. the median control group risk across studies) is provided in footnotes. The corresponding risk (with its 95% confidence interval) is based on the assumed risk in the comparison group and the relative effect of the intervention (and its 95% CI).
CI: Confidence interval; RR: risk ratio.

GRADE Working Group grades of evidence:
High quality: Further research is very unlikely to change our confidence in the estimate of effect.
Moderate quality: Further research is likely to have an important impact on our confidence in the estimate of effect and may change the estimate.
Low quality: Further research is very likely to have an important impact on our confidence in the estimate of effect and is likely to change the estimate.
Very low quality: We are very uncertain about the estimate.

1RR 0.45, 95% CI 0.28 to 0.70.
2RR 0.31, 95% CI 0.10 to 0.92.
3RR 0.37, 95% CI 0.19 to 0.71.
4RR 0.26, 95% CI 0.18 to 0.38.

Background

Description of the condition

In developed countries, cardiovascular disease is and will remain one of the primary causes of death and disability (Andrew 2009). Cardiovascular disease is also expected to become the main cause of death and disability in developing countries (Reddy 2004). Coronary heart disease (CHD), the main cardiovascular disease, is responsible for about half of cardiovascular deaths. For example, CHD was responsible for one of five deaths in the United States in 2003, and it is the single largest killer of Americans. In fact, about 40% of people who experience a coronary attack in a given year will die from it (Thom 2006). As one of the major treatments for CHD, percutaneous coronary intervention (PCI) is currently the foremost modality, and it plays an important role in relief of symptoms of coronary ischemia (Grech 2003). The main limitation of PCI is in‐stent restenosis (Ma 2010).

Restenosis is the healing response of the arterial wall to mechanical injury, which can be defined clinically or angiographically. Clinically it is defined as the presentation of recurrent angina or objective evidence of myocardial ischemia, whereas angiographic restenosis is the presence of > 50% diameter stenosis in the stented segment (Mitra 2006; Teirstenin 1997). The diagnosis of restenosis is usually based on angiographic evidence in a clinical setting. Patients who have undergone balloon angioplasty have been reported to have a 20% to 50% incidence rate of restenosis, and most require revascularization within six months (Grech 2003; Serruys 1994). The risk of restenosis has a negative impact on the long‐term survival of patients treated with this procedure (Serruys 1994). When coronary artery stenting was introduced in CHD, a significant improvement on the reduction of restenosis rates was noted compared with angioplasty alone (Mitra 2006). With the development and universal application of drug‐eluting stents (DESs), the recurrence rate of restenosis has been reduced to less than 10% (Perkins 2010; Stone 2004). However, the DES has been shown to lead to adverse side effects such as a higher rate of stent thrombosis and acute or chronic vascular occlusion (Aziz 2007; Lagerqvist 2007; Moses 2003). According to Liistro's report, late (more than six months) total occlusion after paclitaxel eluting stent implantation occurs in approximately 4% of patients (Liistro 2001). Furthermore, after completed elution of active agents from the DES, the risk of restenosis rapidly increases. In addition, many studies have shown that DES does not reduce late cardiac‐related death and myocardial infarction (MI) (Camenzind 2006; Kim 2008; Pfisterer 2006). Although dual antiplatelet therapy after PCI is effective in reducing cardiac‐related death, MI, and stroke (Ten 2001), premature discontinuation may result in insufficient antiplatelet coverage, which greatly increases risks of stent thrombosis, MI, and death (Cindy 2007). So treatment for restenosis after PCI remains a challenging clinical issue.

Description of the intervention

Chinese herbal medicines (CHMs) include extracts from mixtures of herbs, single herbs, compound Chinese herbs, Chinese patent medicine, and Chinese medicine formulae (Liu 2010). CHMs use a variety of herbs in different combinations to restore a balance of body, energy, and spirit to treat disease. Their pharmacological actions are different from those of pharmaceutical chemicals (western medicine). Many pharmacological and clinical studies have indicated that CHMs can be used for dilating coronary vessels, improving blood circulation, preventing inflammation and immune reactions and platelet aggregation, reducing peroxidative injury, and inhibiting proliferation and migration of vascular smooth muscle cells (Li 2008b; Men 2008; Tang 2001; Wang 2010). As a method of supplemental therapy, CHMs have been tested in clinical trials in China for prevention and treatment of in‐stent restenosis after PCI (Gong 2003; Liang 2010; Ren 2010).

Xiongshao is composed primarily of two constituents (Chuanxiong andChishao) and comes under the Xuefu zhuyu formulate. This traditional Chinese medicine formulate has been and remains the main treatment for cardiovascular disease in China. Many modern studies have showed that the Xuefu zhuyu formulate can be used for improving microcirculation, dilating cardiac vessels, preventing thrombosis, removing blood stasis, and suppressing the aggregation of platelets (Geng 2011; Lei 2002; Luo 2006; Tang 2010), and it is helpful in resisting the loss of lumens after PCI (Fang 2002; Li 2006; Shi 1997). Pharmacological and clinical studies have found that Xiongshao is effective in preventing in‐stent restenosis (Chen 2005; Lu 2006b; Xu 2001; Xu 2004a). Xiongshao is available in capsule form, and several biologically active ingredients have been identified to date, including ferulaic acid, protocatechuic acid, caffeic acid, chrysophanic acid, gallic acid, progallin A, and hendecanoic acid (Wang 2001). A pill of Xiongshao capsule contains about 0.25 g valid ingredients, which is equal to 30 g Chuanxiong and 15 g Chishao (Xu 2001).

How the intervention might work

Various clinical factors, including lesion location, residual stenosis, numbers of stents, stent length, occlusion, and bifurcating lesion, were the main factors associated with restenosis after PCI (Mitra 2006). The mechanism of restenosis involved mainly two processes - neointimal hyperplasia and vascular remodeling - which jointly participated in the pathological course of atherosclerotic lumen stricture (Costa 2005). Injury to the endothelium was one of the initiating elements of pathological vascular remodeling, and hyperlipaemia could intensify its formation (Bauters 1996; Casscells 1994). The mechanisms of restenosis also relate to platelet aggregation, inflammatory cell infiltration, release of growth factors, and medial smooth muscle cell (SMC) modulation and proliferation (Bayata 2010; Carter 1994). Lu's study showed that Xiongshao capsule could improve pathological vascular remodeling and inhibit intima hyperplasia by regulating the content of collagens within blood vessels (Lu 2006b). Another study found that Xiongshao could significantly inhibit pathological vascular remodeling after balloon injury, and it reduced late lumen loss in a porcine coronary balloon injury experiment (Xu 2001). Furthermore, Xiongshao capsule could prevent the formation of atherosclerosis by inhibiting intimal proliferation after balloon injury in rabbits with experimental atherosclerosis (Xu 2004a). In studies of its molecular mechanism, Xiongshao capsule was shown to reduce levels of total cholesterol (TC) and low‐density lipoprotein cholesterol (LDL‐C) in an atherosclerosis rabbit model, and to inhibit platelet aggregation after injury to the endothelium (Li 2008a). Xiongshao capsule could markedly inhibit the proliferation of SMC caused by endothelin‐1 (ET‐1), and it could induce apoptosis of SMC (Xu 2000). Moreover, Xu's study showed that Xiongshao capsule could regulate vascular activity and improve the function of endothelium‐dependent vascular dilation, which apparently led to decreased plasma ET‐1 and increased serum Nitric Oxide (NO) levels (Xu 2004a).

Why it is important to do this review

Over the past three decades, PCI technology has largely revolutionized the field of cardiology through the use of balloon angioplasty and different coronary stents. As a nonmedical treatment for coronary artery disease, coronary angioplasty with stenting is currently most popular. However, in‐stent restenosis has become the major limitation in its application (Hamid 2007). Although the DES has proved superior to the bare‐metal stent (BMS) in reducing the incidence of restenosis, DES‐related restenosis continues at a rate of 5% to 10%, and is especially more frequent in complex lesion subsets (Vaknin‐Assa 2010). On the other hand, prolonged dual antiplatelet therapy may lead to the risk of upper gastrointestinal bleeding (Lemos 2004), and results of randomised controlled trials (RCTs) show that treatment with DES was not associated with a reduction in death or in MI (Gupta 2010; Kirtane 2009). Today more than three million PCIs and consecutive implantation of one or more stents are performed worldwide every year. At least 0.15 to 0.3 million cases of in‐stent restenosis in these patients will be recurrent per year, even if DES implantation is used in all cases (Joost 2010). So the issue of restenosis will continue to be notable and remains a clinical challenge in the field of cardiology.

For many years, Xuefu zhuyu concentrated pill, Xiongshao capsule, Shuxinyin capsule, Fufang Danshen drop, and other treatments have been used widely in CHM to prevent restenosis after PCI. Most of these treatments have been reported to have positive effects on reducing the rate of restenosis (He 2010; Ren 2008; Shi 1997; Wang 2002; Yu 1998; Zeng 2004). Xiongshao capsule is one of the most frequently used treatments in CHM, and many significant results have shown a reduced incidence of restenosis and clinical end point events after PCI in participants with CHD when compared with control groups (Chen 2005; Lu 2006b; Xu 2000). A few studies have reported toxicity between Xiongshao capsule and other drugs, and it occasionally has caused upset stomach or dry stool when used clinically (Chen 2005; Lu 2006b). However, the effectiveness and adverse effects of Xiongshao capsule have not been assessed systematically. The objective of this review is to assess the efficacy and safety of the CHM Xiongshao capsule in preventing restenosis after PCI in study participants with CHD.

Objectives

To systematically assess the efficacy and safety of the Chinese herbal medicine Xiongshao capsule in preventing restenosis after PCI in study participants with CHD.

Methods

Criteria for considering studies for this review

Types of studies

Only RCTs were included.

Types of participants

Participants of either sex and any age or ethnic origin had been given a clinical diagnosis of coronary heart disease based on recognised diagnostic criteria. They were required to have successfully undergone a PCI operation and had been allocated to receive treatment with Xiongshao capsule/plus conventional western medicine or control compared with placebo +/‐ conventional western medicine, and to have received treatment for at least one month.

Studies that included participants with graft vessel disease, serious left main coronary artery disease, serious cardiac inadequacy (ejection fraction [EF] < 35%), serious cardiac valve disease, and serious hepatic failure or renal failure were excluded (CSCCMA 2009).

Types of interventions

Xiongshao capsule used alone or in combination with conventional western medicine compared with the same conventional western medicine alone or plus placebo. Conventional treatment included oral aspirin, clopidogrel, angiotensin‐converting enzyme (ACE) inhibitors, β‐adrenergic receptor blockers, statins, or nitrates, or any other agents recommended by percutaneous transluminal coronary intervention guidelines (CSCCMA 2009).

Types of outcome measures

Primary outcomes

  • Cardiac mortality.

  • All‐cause mortality.

  • Serious adverse events (acute myocardial infarction (AMI), target lesion or vessel revascularization, repeat PCI, coronary artery bypass (CABG)).

Secondary outcomes

  • Recurrence angina pectoris.

  • Restenosis (defined angiographically).

  • Health‐related quality of life (ideally determined using validated instruments).

All outcomes were assessed early (within one month) and later (after three+ months).

Search methods for identification of studies

A comprehensive and exhaustive search strategy was formulated in an attempt to identify all relevant studies regardless of published or unpublished and without language restrictions.

Electronic searches

The following main electronic databases were searched:

  • Cochrane Central Register of Controlled Trials (CENTRAL) in The Cochrane Library (Issue 3 of 2012).

  • MEDLINE (OVID) (from 1948 to week 1 March 2012).

  • EMBASE (OVID) (from 1980 to week 10 2012).

  • ISI Web of Science with Conference Proceedings (from 1970 to 14 March 2012).

  • LILACS (from 1982 to 15 March 2012).

  • CBMdisc (Chinese Biomedical Literature Database (from 1980 to May 2012).

In addition, the following special Chinese full‐text databases were searched:

  • China National Knowledge Infrastructure (CNKI, from 1994 to May 2012).

  • Chinese Medical Current Contents (CMCC, from 1994 to May 2012).

  • VIP Database for Chinese Technical Periodicals (VIP; from 1989 to May 2012).

The following unpublished literature databases were searched:

  • Chinese Master's Theses Full‐Text Databases (CMFD; from 1994 to May 2012).

  • China Doctor Dissertation Full‐Text Database (CDFD; from 1994 to May 2012).

  • China Proceedings of Conference Full‐Text Database (CPCD; from 1994 to May 2012).

Search strategies for English language databases are listed in Appendix 1. Strategies for searching the Chinese databases are listed in Appendix 2.

Searching other resources

Ongoing and unpublished trials were searched (30 May 2012) in the following clinical trial registers:

In addition, the reference list for each identified study was reviewed. Bibliographies and reviews for relevant studies were also examined, and experts and pharmaceutical companies in the field were contacted to discuss relevant ongoing trials.

Data collection and analysis

Selection of studies

Two review authors (HYC and LJM) independently scanned abstracts, titles, or both sections of every record retrieved according to the inclusion criteria. For items of literature with unclear information in the title or in the abstract, the full text was retrieved for clarification. All potentially relevant articles were investigated as full text. The most complete literature was selected, or the data were pooled, when two or more publications pertained to a single trial. The divergent views of two review authors were arbitrated by a third review author (GHZ). When resolution of disagreement was not possible, articles were added to those 'awaiting assessment' and were clarified through contact with original authors.

Data extraction and management

Two review authors (HYC and LJM) independently extracted data using the data extraction form, and results were checked for accuracy by a third review author (JFC). Discrepancies were resolved by discussion if necessary. We maximized the yield of information by simultaneous evaluating all available data when duplicate publications and companion papers of a primary article were identified. We extracted the following information from each included trial, if possible.

  • Basic information: titles, authors, publication status, etc.

  • Baseline characteristics: diagnostic criteria of CHD, mean age, gender proportions, sample numbers, routine risk factors for CHD, types of coronary stents, complications, and characteristics of vascular lesions.

  • Description of methodology: method of randomisation, method of concealment of allocation, exclusions post randomisation, blinding, losses to follow‐up.

  • Intervention characteristics: doses, routes and names of administered drugs, period of treatment, follow‐up period.

  • Outcomes: primary and secondary outcomes, adverse events.

In addition, we contacted the original authors for additional information if data from these trials were insufficient or missing.

Assessment of risk of bias in included studies

Two review authors (JFC and LJM) independently assessed the risk of bias in included trials using The Cochrane Collaboration tool, and the following criteria were applied (Higgins 2011). We contacted the original authors to confirm and validate methods of allocation concealment and randomisation procedures if descriptions of methodological quality were unclear in reports of included trials:

  • Was the allocation sequence randomly generated?

  • Was the treatment allocation adequately concealed?

  • Was knowledge of the allocated interventions adequately prevented during the study?

  • Were incomplete outcome data adequately addressed?

  • Were reports of the study free of suggestion of selective outcome reporting?

  • Was the study apparently free of other problems that could put it at a high risk of bias?

In addition, baseline characteristics, co‐interventions avoided, and level of compliance between comparison groups in all included studies were assessed.

Measures of treatment effect

For dichotomous outcomes

Dichotomous data (restenosis, mortality, recurrence of angina, adverse events, and major cardiac adverse effects) were expressed as risk ratios (RRs) with 95% confidence interval (CIs). Data were pooled by the fixed‐effect model, but the random‐effects model was also used when heterogeneity among studies was obvious.

For continuous data

Continuous outcomes (such as quality of life) were analysed using weighted mean differences (95% CIs) or standardized mean differences (95% CIs) when different measurement scales were applied. Skewed data and nonquantitative data were presented descriptively.

Unit of analysis issues

All four included trials were RCTs with a standard design in the present review, therefore no unit of analysis issues had to be managed. If trials with nonstandard designs, such as cluster‐randomised trials, become available in the future, we will assess the unit of analysis by using the methods described in the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011).

Dealing with missing data

We contacted the original authors and obtained relevant missing data as far as possible. We carefully evaluated the importance of numerical data such as numbers of randomly assigned patients and intention‐to‐treat (ITT) and per‐protocol populations. We carefully evaluated attrition rates, for example, exclusions post randomisation, drop‐outs, losses to follow‐up, and withdrawals, and critically appraised issues of missing data.

We planned to perform sensitivity analyses to assess the impact on overall treatment effects of included trials that did not report an intention‐to‐treat analysis, with high rates of participant attrition or with other missing data.

Assessment of heterogeneity

We assessed the heterogeneity between included trials by using the Chi‐square test on N‐1 degrees of freedom with a significance level of 0.1 (Lau 1997). We also specifically examined heterogeneity with the I2 statistic, quantifying inconsistency across studies to assess the impact of heterogeneity on the meta‐analysis (Higgins 2003). When heterogeneity was not significant (P ≥ 0.1), the results were pooled using a fixed‐effect model and the Mantel‐Haenszel method (Petitti 1994). When high levels of heterogeneity were noted among trials (I2 > 70% or P < 0.1), we planned to analyse study components, including participants, diseases, interventions, comparisons, outcomes, etc, in the included studies, and to try to explain the source of heterogeneity by subgroup analysis or sensitivity analysis. A random‐effects meta‐analysis with the DerSimonian and Laird method was planned for use as an overall summary if heterogeneity among trials was considered moderate.

Assessment of reporting biases

We did not assess the potential publication by using funnel plots because only four trials are included in the present review (Higgins 2011; Sterne 2001). Selective reporting was unclear because of lack of protocols for the RCTs.

Data synthesis

We statistically summarised pooled effects if exacted outcomes were available and were sufficiently similar and of sufficient quality. We performed statistical analyses according to the statistical guidelines referenced in the current version of the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011).

When the test of heterogeneity was not significant, a meta‐analysis of data was performed using fixed‐effect models, otherwise random‐effects models. However, we provided a narrative, qualitative summary when heterogeneity was substantial.

All data were analysed by using the statistical software RevMan 5.1 (Oxford, England) of The Cochrane Collaboration, and all P values were two‐sided.

Subgroup analysis and investigation of heterogeneity

Subgroup analyses were performed to explore the source of heterogeneity based on the following:

  • Types of PCI (such as percutaneous transluminal coronary angioplasty [PTCA]) and BMS and DES.

  • Follow‐up period (such as 3, 6, 12 months).

  • Types of control (such as using conventional western medicine alone, conventional western medicine plus placebo).

  • Course of treatment using Xiongshao capsule (such as 1, 3, 6 months).

Sensitivity analysis

We did not conduct sensitivity analyses in the present review because few trials were included. We will perform sensitivity analyses in the future to explore the influence of the following factors on heterogeneity:

  • Repeating the analysis excluding unpublished studies.

  • Repeating the analysis taking account of study quality.

  • Reanalysing the data using different statistical analysis models (fixed‐ and random‐effects models).

  • Repeating the analysis excluding studies using the following filters: cluster‐randomisation, high rate of participant attrition, missing data on primary outcomes.

Results

Description of studies

For a detailed description of studies, see Characteristics of included studies; Characteristics of excluded studies.

Results of the search

In total, 1977 records were searched out by using the electronic search strategies listed in Appendix 1 and Appendix 2. Of these, 1588 records came from English databases, and 389 records from Chinese databases. After duplicates among different databases were removed, 1612 potentially relevant records (1284 English records, 328 Chinese records) were kept for further assessment. We excluded 1594 records after closer scrutiny of the title and available abstract. The full texts of 18 remaining records were downloaded for careful assessment. Finally we excluded five articles; the reasons for exclusion are listed in Characteristics of excluded studies. We prepared a PRISMA flow diagram to describe the articles identified through our searches (Figure 1).


Study flow diagram.

Study flow diagram.

Included studies

A total of four studies with 13 citations were included in the review (see Characteristics of included studies). All of the four included studies were of parallel, two‐arm, randomised, controlled design; one study (Chen 2006) used a multi‐centre, randomised, double‐blind, placebo‐controlled design, and was supported by a grant from the national Tenth Five‐Year Projects Plan (No. 2001BA701A20). All included studies were conducted in China, and were performed in a hospital setting.

A total of 649 participants were included in the four trials (Chen 2006; Liu 2012; Lu 2006; Xu 2002). Numbers of participants in each trial ranged from 82 (Liu 2012) to 335 (Chen 2006). Ages of participants ranged from 30 to 75 years. All 649 participants showed objective evidence of myocardial ischemia or AMI (at least one > 50% stenosis was documented by coronary angiogram) and had undergone a successful PTCA and/or coronary stenting procedure. Of the four included studies, two (Liu 2012; Xu 2002) compared Xiongshao capsule plus conventional western medicine with the same conventional western medicine alone, and the other two (Chen 2006; Lu 2006) compared Xiongshao capsule plus conventional western medicine with the same conventional western medicine plus placebo. Conventional western medicine agents, such as aspirin, ticlopidine, ditiazem (Herbesser), nitroglycerin, heparin, etc, were taken as routine administration before, during, and after the operation. Then Xiongshao capsule or placebo was initiated on the day of the PCI procedure for both groups (250 mg, three times per day). All included trials reported cardiac mortality, restenosis, recurrence angina pectoris, and serious cardiovascular adverse events such as AMI, target lesion or vessel revascularization, and repeat PCI or CABG. No trial reported outcomes of all‐cause mortality and health‐related quality of life. Two trials reported outcomes of safety and side effects such as blood pressure; heart rate; routine tests of blood, urine, and stool; test of kidney and liver function; etc.

Excluded studies

In total, five articles were excluded on the basis of their full‐text versions. Reasons for exclusion were as follows: Only abstracts were published in two articles (Chen 2002Xu 2002), and a bulletin of medical research in another article (Chen 2006). No outcome data were available in two articles (Xu 2004; Xu 2007). Further information on this can be found in Characteristics of excluded studies.

Risk of bias in included studies

Of the four included studies, we assessed two studies (Chen 2006; Lu 2006) as having a low risk of bias across five aspects of the assessment because of details of design and methodology provided. The other studies were judged as having a high risk of bias because one or more main aspects of the assessment had a high risk of bias. All included trials had prespecified inclusion and exclusion criteria, except for one (Lu 2006). Two trials stated that they performed an ITT analysis to evaluate the data (Chen 2006; Lu 2006). Two trials did not state that they performed an ITT analysis, and we tried to contact the original author with no response. It is difficult to judge whether all outcomes were published because no trial protocol was available for all included studies. Assessment of risk of bias for each included trial is described in the risk of bias tables in the Characteristics of included studies. Authors' judgements about the risk of bias for each included trial are provided in Figure 2 and Figure 3.


Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

Risk of bias summary: review authors' judgements about each risk of bias item for each included study.


Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

Allocation

Three studies reported an adequate sequence generation by using random digit tables or computerized random digit generators (Chen 2006; Lu 2006; Xu 2002). Two studies reported allocation concealment (Chen 2006; Lu 2006). In other studies the method of allocation concealment was unclear because of lack of useful information (Liu 2012; Xu 2002). Detailed information is shown in Figure 2.

Blinding

Two studies (Chen 2006; Lu 2006) were designed with a placebo control group; therefore blinding of patients and personnel (physicians) was substantial. As a result of this, the outcome assessment was not likely to be influenced by the allocation concealment used. So we assessed these studies (Chen 2006; Lu 2006) as having a low risk of bias for performance and detection bias. Detailed information is shown in Characteristics of included studies and Figure 2.

Incomplete outcome data

Although the flow of patients was not reported in any of the included studies, two studies (Chen 2006; Lu 2006) provided information on participants regarding withdrawal, drop‐outs, exclusions post randomisation, or losses to follow‐up, and attrition rates between comparison groups were similar. In two studies (Liu 2012; Xu 2002), the same numbers of participants were randomly assigned and analysed. So we assessed all included studies that had low risk for incomplete outcome data. Further information is given in Characteristics of included studies and Figure 2.

Selective reporting

No study protocols were available for any of the included studies. According to described outcomes in the methods section and reported outcomes in the results section of the publication, we made judgements on this domain. We believed all included studies to be free of selective reporting because the same outcomes were described in the methods and reported in the results. Further information is provided in Characteristics of included studies and Figure 2.

Other potential sources of bias

Baseline information such as general risk factors for CHD, diagnostic criteria, angiographic data, etc, between comparisons was considered to be similar in the four included studies; furthermore most of them listed a statistical table of their clinical and angiographic baseline characteristics. In addition, usage of Xiongshao capsule and conventional western medicines was similar, and co‐intervention was not reported in each included trial. So we considered all four included trials to be free of other potential sources of bias. Detailed information is shown in Characteristics of included studies and Figure 2..

Effects of interventions

See: Summary of findings for the main comparison Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) for restenosis after percutaneous coronary intervention in patients with coronary heart disease; Summary of findings 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo for restenosis after percutaneous coronary intervention in patients with coronary heart disease

No data were given on the primary outcome of all‐cause mortality and on secondary outcomes of health‐related quality of life in any of the included trials. No cardiac mortality was reported in any included trials (Analysis 1.1; Analysis 2.1). We were able to perform meta‐analyses on only three outcomes in this review.

1. Xiongshao capsule plus conventional western medicine versus conventional western medicine

Serious adverse events

One trial reported outcomes of serious cardiovascular adverse events including CABG, nonfatal target lesion MI, and repeat PCI after follow‐up for six months (Xu 2002). In comparing Xiongshao capsule plus conventional western medicine with conventional western medicine alone, the ITT analysis involving 108 patients showed an obvious difference between comparison groups (RR 0.47; 95% CI 0.25 to 0.90; Analysis 1.2) .

Restenosis

Restenosis rates at six months after the PCI operation were reported in two trials with 190 participants (Liu 2012; Xu 2002) and showed a statistically significant difference between the two treatments (RR 0.41, 95% CI 0.22 to 0.75, Analysis 1.3).

Recurrence angina pectoris

Two trials (Liu 2012; Xu 2002) of 190 participants, including 94 in the intervention groups and 96 in the control groups, investigated recurrence angina pectoris at six months' follow‐up. A meta‐analysis of two trials showed a significant effect in favour of Xiongshao capsules plus conventional western medicine when compared with conventional western medicine alone (RR 0.47, 95% CI 0.30 to 0.72, Analysis 1.4) .

2. Xiongshao capsule plus conventional western medicine versus conventional western medicine plus placebo

Two trials involving 459 participants compared Xiongshao capsule plus conventional western medicine with conventional western medicine plus placebo (Chen 2006; Lu 2006). The numbers of trial participants were 335 (Chen 2006) and 124 (Lu 2006), respectively. Interventional duration was six months, and outcomes including serious adverse events, restenosis, and recurrence angina pectoris were measured. The follow‐up periods of different outcomes were different, ranging from one month to two years in different trials.

Serious adverse events

Two trials reported outcomes of serious adverse events after the PCI operation at six months' follow‐up (Lu 2006) or two years' follow‐up (Chen 2006), respectively. Different types of serious adverse events were noted between the two trials. Serious adverse events including CABG, nonfatal target lesion MI, and target lesion revascularization were reported in Chen's trial (Chen 2006), and CABG, nonfatal target lesion MI, and repeat target vessel angioplasty were reported in Lu's trial (Lu 2006). Subgroup analysis revealed that participants administered Xiongshao capsule plus conventional western medicine had significantly fewer serious adverse events than participants given conventional western medicine plus placebo at six months' follow‐up (RR 0.42, 95% CI 0.19 to 0.95) or two years' follow‐up (RR 0.46, 95% CI 0.26 to 0.76) after the PCI operation (Analysis 2.2).

Restenosis

Two trials involving 432 participants reported outcomes of restenosis rates between comparison groups after six months' follow‐up (Chen 2006; Lu 2006). In the two trials analysed, Xiongshao capsule plus conventional western medicine were more effectual in preventing restenosis after PCI than was conventional western medicine plus placebo (RR 0.52, 95% CI 0.33 to 0.80, Analysis 2.3).

Recurrence angina pectoris

Recurrence angina pectoris in one trial involving 314 participants was investigated at one month, three months', and six months' follow‐up after PCI (Chen 2006). Another trial involving 118 participants investigated this outcome only at six months' follow‐up after PCI (Lu 2006). Significant differences in preventing the incidence of recurrence angina pectoris after PCI favoured Xiongshao capsule plus conventional western medicine at various follow‐up periods. The RR value (95% CI) was 0.31 (95% CI 0.1 to 0.92, Analysis 2.4) at one month, 0.37 (95% CI 0.19 to 0.71, Analysis 2.5) at three months', and 0.26 (95% CI 0.18 to 0.38,Analysis 2.6) at six months' follow‐up, respectively.

3. Safety and adverse events

Outcomes of safety with Xiongshao capsule were reported in one trial (Chen 2006) involving 335 participants. Results showed that blood pressure, heart rate, routine tests of blood, urine, and stool, and tests of liver and kidney function revealed no statistically significant difference between comparison groups at six months after PCI. Two trials (Chen 2006; Lu 2006) involving 459 participants reported adverse events according to trial duration. Although two participants suffered from gastric discomfort in the Xiongshao capsule group, this had resolved without interruption of Xiongshao capsule treatment. Granulocytopaenia was reported in one participant in the placebo control group and was considered to be related to concomitant administration of the western medicine ticlopidine.

Discussion

Summary of main results

Four randomised trials were included in this review. Two trials compared Xiongshao capsule plus conventional western medicine with conventional western medicine. Others compared Xiongshao capsule plus conventional western medicine with conventional western medicine plus placebo. All included trials had the same intervention durations and the same doses of Xiongshao capsule were used. Slight clinical heterogeneity was noted in the interventions of included trials.

In this systematic review, we found evidence from two trials (Liu 2012; Xu 2002) indicating that Xiongshao capsule combined with conventional western medicine was significantly better in preventing restenosis and recurrence angina pectoris when compared with conventional western medicine alone (RR 0.41, 95% CI 0.22 to 0.75; RR 0.47, 95% CI 0.30 to 0.72). Furthermore, in the meta‐analysis of these two outcomes, no statistical heterogeneity was noted among the comparisons (all I2 = 0%). Results from one trial (Xu 2002) suggest that Xiongshao capsule combined with conventional western medicine was significantly better in reducing serious cardiovascular adverse events when compared with conventional western medicine alone (RR 0.47; 95% CI 0.25 to 0.90) after PCI.

In the analysis of Xiongshao capsule plus conventional western medicine versus the same conventional western medicine plus placebo(Chen 2006; Lu 2006), participants given Xiongshao capsule plus conventional western medicine had a significant reduction in rate of restenosis, recurrence angina pectoris, and serious cardiovascular adverse events when compared with those given the same conventional western medicine plus placebo.

Overall completeness and applicability of evidence

This review includes a meta‐analysis of four trials involving 649 participants with coronary heart disease who had undergone successful PCI. This analysis reveals that Xiongshao capsule may be effective in preventing serious cardiovascular adverse events, restenosis, and recurrence angina pectoris. Although the age and gender of participants in the included trials were representative of CHD patients who undergo successful PCI operations, the sample numbers of included trials was not enough; furthermore, all participants were recruited from Chinese populations. This fact could have an impact on the applicability of the intervention.

Quality of the evidence

Most of the trials included in this review provided detail information on study design, randomisation, allocation concealment, and baseline data. Two of four included trials (Chen 2006; Lu 2006) were designed as randomised, double‐blind, placebo‐controlled trials. One was identified as multi‐centre, large‐scale RCT. Overall trial quality was reasonable, and trials were assessed as having a low risk of bias with The Cochrane Collaboration 'Risk of bias' tool. Although the other two included trials (Liu 2012; Xu 2002) did not mention the method of allocation concealment used, which was considered to be one of the most important causes of bias in a randomised controlled trial (Altman 2001), the effect of allocation concealment on outcomes was similar. These trials can therefore be considered to provide reasonably good evidence on six months' follow‐up of preventing restenosis and recurrent angina pectoris and reducing the incidence of serious cardiovascular adverse events after PCI in CHD patients.

Potential biases in the review process

We attempted to minimise bias in the review process. First, a comprehensive search without language restrictions was conducted to identify all relevant studies. Second, two review authors independently assessed the studies for inclusion and carried out data extraction to ensure that all relevant data had been obtained. Two review authors independently assessed the bias risk of included studies according to the rules of the Cochrane Handbook for Systematic Reviews of Interventions, and disagreements were resolved by consensus. In addition, we strictly followed the protocol outline in performing the review. Nevertheless, potential biases exist. For example, the process of assessing risk of bias might involve some degree of subjective judgement on the part of the assessors. Publication bias was not assessed by using a funnel figure in this review because fewer than ten studies were used for each comparison variable. Publication bias was possible because we found that all included studies had been published, and most reported outcomes were positive. Many of the outcomes predefined in the protocol, such as health‐related quality of life and all‐cause mortality, were not measured in the included studies; therefore we could not review the data for the purpose of weighing the effect estimated.

Agreements and disagreements with other studies or reviews

We did not identify any other systematic reviews with a focus on Xiongshao capsule for restenosis after PCI in patients with CHD. Two systematic reviews (Ren 2008; Zheng 2012) on Chinese herbal medicines for restenosis after PCI were published in 2008 and 2012. One review (Zheng 2012) included 52 trials involving 34 Chinese herbal medicines, and the other review (Ren 2008) included 17 trials involving 15 Chinese herbal medicines. Patients with coronary heart disease who had successfully undergone PCI were included in the reviews (Ren 2008; Zheng 2012). The conclusion of the reviewers was that current evidence from randomised trials shows that Chinese herbal medicines may be helpful in preventing restenosis (Ren 2008; Zheng 2012). Although other reviews (Ren 2008; Zheng 2012) did not focus on the same objectives defined for this review, their conclusions are similar.

Study flow diagram.
Figures and Tables -
Figure 1

Study flow diagram.

Risk of bias summary: review authors' judgements about each risk of bias item for each included study.
Figures and Tables -
Figure 2

Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.
Figures and Tables -
Figure 3

Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 1 Cardiac mortality.
Figures and Tables -
Analysis 1.1

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 1 Cardiac mortality.

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 2 Serious adverse events.
Figures and Tables -
Analysis 1.2

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 2 Serious adverse events.

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 3 Restenosis.
Figures and Tables -
Analysis 1.3

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 3 Restenosis.

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 4 Recurrence angina pectoris.
Figures and Tables -
Analysis 1.4

Comparison 1 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM), Outcome 4 Recurrence angina pectoris.

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 1 Cardiac mortality.
Figures and Tables -
Analysis 2.1

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 1 Cardiac mortality.

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 2 Serious adverse events.
Figures and Tables -
Analysis 2.2

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 2 Serious adverse events.

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 3 Restenosis.
Figures and Tables -
Analysis 2.3

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 3 Restenosis.

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 4 Recurrence angina pectoris with 1 month follow‐up.
Figures and Tables -
Analysis 2.4

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 4 Recurrence angina pectoris with 1 month follow‐up.

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 5 Recurrence angina pectoris with 3 months follow‐up.
Figures and Tables -
Analysis 2.5

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 5 Recurrence angina pectoris with 3 months follow‐up.

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 6 Recurrence angina pectoris with 6 months follow‐up.
Figures and Tables -
Analysis 2.6

Comparison 2 Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo, Outcome 6 Recurrence angina pectoris with 6 months follow‐up.

Summary of findings for the main comparison. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Patient or population: patients with restenosis after percutaneous coronary intervention in coronary heart disease
Settings: hospitals
Intervention: Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM)

Outcomes

Illustrative comparative risks* (95% CI)

Relative effect
(95% CI)

No of Participants
(studies)

Quality of the evidence
(GRADE)

Comments

Assumed risk

Corresponding risk

Control

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM)

All‐cause death: not measured

See comment

See comment

Not estimable

See comment

All‐cause death not measured

Cardiac mortality
Follow‐up: 6‐24 months

See comment

See comment

Not estimable

190
(2 studies)

⊕⊕⊕⊝
moderate1

No cardiac death occurred

Serious adverse events
Follow‐up: mean 6 months

Study population

RR 0.47
(0.25 to 0.9)

108
(1 study)

⊕⊕⊕⊕
high2,3

400 per 1000

188 per 1000
(100 to 360)

Moderate

400 per 1000

188 per 1000
(100 to 360)

Restenosis
Coronary angiography
Follow‐up: mean 6 months

Study population

RR 0.41
(0.22 to 0.75)

190
(2 studies)

⊕⊕⊕⊕
high4,5

312 per 1000

128 per 1000
(69 to 234)

Moderate

313 per 1000

128 per 1000
(69 to 235)

Recurrence angina pectoris
Treadmill exercise test
Follow‐up: 6‐24 months

Study population

RR 0.47
(0.3 to 0.72)

190
(2 studies)

⊕⊕⊕⊝
moderate6,7

479 per 1000

225 per 1000
(144 to 345)

Moderate

477 per 1000

224 per 1000
(143 to 343)

Health‐related quality of life: not measured

See comment

See comment

Not estimable

See comment

Health‐related quality of life not measured

*The basis for the assumed risk (e.g. the median control group risk across studies) is provided in footnotes. The corresponding risk (with its 95% confidence interval) is based on the assumed risk in the comparison group and the relative effect of the intervention (and its 95% CI).
CI: Confidence interval; RR: risk ratio.

GRADE Working Group grades of evidence:
High quality: Further research is very unlikely to change our confidence in the estimate of effect.
Moderate quality: Further research is likely to have an important impact on our confidence in the estimate of effect and may change the estimate.
Low quality: Further research is very likely to have an important impact on our confidence in the estimate of effect and is likely to change the estimate.
Very low quality: We are very uncertain about the estimate.

1Both trials did not describe method of concealment of allocation. One trial did not report method of randomisation.
2Concealment of allocation not reported.
3RR 0.47, 95% CI 0.25 to 0.90.
4Both trials did not describe method of concealment of allocation. One trial did not report method of randomisation.
5RR 0.41, 95% CI 0.22 to 0.75.
6Both trials did not describe method of concealment of allocation. One trial did not report method of randomisation. Furthermore, blinding was not performed.
7RR 0.47, 95% CI 0.3 to 0.72.

Figures and Tables -
Summary of findings for the main comparison. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) for restenosis after percutaneous coronary intervention in patients with coronary heart disease
Summary of findings 2. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo for restenosis after percutaneous coronary intervention in patients with coronary heart disease

Patient or population: patients with restenosis after percutaneous coronary intervention in coronary heart disease
Settings: hospitals
Intervention: Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo

Outcomes

Illustrative comparative risks* (95% CI)

Relative effect
(95% CI)

No of Participants
(studies)

Quality of the evidence
(GRADE)

Comments

Assumed risk

Corresponding risk

Control

Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo

All‐cause death: not measured

See comment

See comment

Not estimable

See comment

All‐cause death not measured

Cardiac mortality
Follow‐up: 6‐12 months

See comment

See comment

Not estimable

432
(2 studies)

⊕⊕⊕⊕
high

Cardiac death not occurred

Serious adverse events
Follow‐up: 6‐12 months

Study population

RR 0.45
(0.28 to 0.7)

432
(2 studies)

⊕⊕⊕⊕
high1

237 per 1000

107 per 1000
(66 to 166)

Moderate

249 per 1000

112 per 1000
(70 to 174)

Restenosis
Coronary angiography
Follow‐up: mean 6 months

Study population

RR 0.52
(0.33 to 0.8)

432
(2 studies)

⊕⊕⊕⊕
high

233 per 1000

121 per 1000
(77 to 186)

Moderate

246 per 1000

128 per 1000
(81 to 197)

Recurrence angina pectoris with 1 month follow‐up
Treadmill exercise test
Follow‐up: mean 30 days

Study population

RR 0.31
(0.1 to 0.92)

314
(1 study)

⊕⊕⊕⊕
high2

83 per 1000

26 per 1000
(8 to 76)

Moderate

83 per 1000

26 per 1000
(8 to 76)

Recurrence angina pectoris with 3 months' follow‐up
Treadmill exercise test
Follow‐up: mean 3 months

Study population

RR 0.37
(0.19 to 0.71)

314
(1 study)

⊕⊕⊕⊕
high3

191 per 1000

71 per 1000
(36 to 136)

Moderate

191 per 1000

71 per 1000
(36 to 136)

Recurrence angina pectoris with 6 months' follow‐up
Treadmill exercise test
Follow‐up: mean 6 months

Study population

RR 0.26
(0.18 to 0.38)

432
(2 studies)

⊕⊕⊕⊕
high4

460 per 1000

120 per 1000
(83 to 175)

Moderate

495 per 1000

129 per 1000
(89 to 188)

Health‐related quality of life: not measured

See comment

See comment

Not estimable

See comment

Health‐related quality of life not measured

*The basis for the assumed risk (e.g. the median control group risk across studies) is provided in footnotes. The corresponding risk (with its 95% confidence interval) is based on the assumed risk in the comparison group and the relative effect of the intervention (and its 95% CI).
CI: Confidence interval; RR: risk ratio.

GRADE Working Group grades of evidence:
High quality: Further research is very unlikely to change our confidence in the estimate of effect.
Moderate quality: Further research is likely to have an important impact on our confidence in the estimate of effect and may change the estimate.
Low quality: Further research is very likely to have an important impact on our confidence in the estimate of effect and is likely to change the estimate.
Very low quality: We are very uncertain about the estimate.

1RR 0.45, 95% CI 0.28 to 0.70.
2RR 0.31, 95% CI 0.10 to 0.92.
3RR 0.37, 95% CI 0.19 to 0.71.
4RR 0.26, 95% CI 0.18 to 0.38.

Figures and Tables -
Summary of findings 2. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo for restenosis after percutaneous coronary intervention in patients with coronary heart disease
Comparison 1. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM)

Outcome or subgroup title

No. of studies

No. of participants

Statistical method

Effect size

1 Cardiac mortality Show forest plot

2

190

Risk Ratio (IV, Fixed, 95% CI)

0.0 [0.0, 0.0]

1.1 follow‐up 6 months

1

108

Risk Ratio (IV, Fixed, 95% CI)

0.0 [0.0, 0.0]

1.2 follow‐up 2 years

1

82

Risk Ratio (IV, Fixed, 95% CI)

0.0 [0.0, 0.0]

2 Serious adverse events Show forest plot

1

108

Risk Ratio (IV, Fixed, 95% CI)

0.47 [0.25, 0.90]

3 Restenosis Show forest plot

2

190

Risk Ratio (IV, Fixed, 95% CI)

0.41 [0.22, 0.75]

4 Recurrence angina pectoris Show forest plot

2

190

Risk Ratio (IV, Fixed, 95% CI)

0.47 [0.30, 0.72]

4.1 follow‐up 6 months

1

108

Risk Ratio (IV, Fixed, 95% CI)

0.50 [0.29, 0.86]

4.2 follow‐up 2 years

1

82

Risk Ratio (IV, Fixed, 95% CI)

0.42 [0.21, 0.85]

Figures and Tables -
Comparison 1. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM)
Comparison 2. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo

Outcome or subgroup title

No. of studies

No. of participants

Statistical method

Effect size

1 Cardiac mortality Show forest plot

2

432

Risk Ratio (IV, Fixed, 95% CI)

0.0 [0.0, 0.0]

1.1 follow‐up 6 months

1

118

Risk Ratio (IV, Fixed, 95% CI)

0.0 [0.0, 0.0]

1.2 follow‐up 1 year

1

314

Risk Ratio (IV, Fixed, 95% CI)

0.0 [0.0, 0.0]

2 Serious adverse events Show forest plot

2

432

Risk Ratio (IV, Fixed, 95% CI)

0.45 [0.28, 0.70]

2.1 follow‐up 6 months

1

118

Risk Ratio (IV, Fixed, 95% CI)

0.42 [0.19, 0.95]

2.2 follow‐up 1 year

1

314

Risk Ratio (IV, Fixed, 95% CI)

0.46 [0.26, 0.79]

3 Restenosis Show forest plot

2

432

Risk Ratio (IV, Fixed, 95% CI)

0.52 [0.33, 0.80]

4 Recurrence angina pectoris with 1 month follow‐up Show forest plot

1

314

Risk Ratio (IV, Fixed, 95% CI)

0.31 [0.10, 0.92]

5 Recurrence angina pectoris with 3 months follow‐up Show forest plot

1

314

Risk Ratio (IV, Fixed, 95% CI)

0.37 [0.19, 0.71]

6 Recurrence angina pectoris with 6 months follow‐up Show forest plot

2

432

Risk Ratio (IV, Fixed, 95% CI)

0.26 [0.18, 0.38]

Figures and Tables -
Comparison 2. Xiongshao capsule (XSC) plus conventional western medicine (CWM) versus conventional western medicine (CWM) plus placebo