Effects of Chinese herbal formula Erxian decoction for treating osteoporosis: a systematic review.

PURPOSE: The aim is to systematically assess the effectiveness and safety of Chinese herbal formula Erxian decoction (EXD) for treating osteoporosis.
MATERIALS AND METHODS: Six databases were searched from inception through September 17, 2016, without language restriction. All randomized controlled trials of EXD for osteoporosis were included. One or more outcome measures including fracture, change in bone mineral density (BMD), pain symptom improvement, bone biochemical markers, quality of life, adverse event or adverse drug reaction were evaluated. Study selection, data extraction, quality assessment, and data analyses were conducted according to Cochrane standards.
RESULTS: Eight trials including 644 patients investigated the effects of EXD in the treatment of osteoporosis. The methodological quality of the included trials was generally low. The meta-analysis from two trials showed favorable effects of EXD in improving BMD of lumbar spine (mean difference [MD]: 0.05 [0.03, 0.06]; I2=0%; P<0.00001) and BMD of femoral great trochanter (MD: 0.06 [0.02, 0.10]; I2=59%; P=0.005) compared with caltrate tablets. The other meta-analysis from two trials showed beneficial effects of EXD plus caltrate tablets and calcitriol in improving BMD of femoral neck (MD: 0.04 [0.00, 0.09]; I2=56%; P=0.04), the level of calcium (MD: 0.20 [0.15, 0.24]; I2=0%; P<0.00001), and phosphorus (MD: -0.28 [-0.39, -0.17]; I2=68%; P<0.00001) compared with caltrate tablets and calcitriol alone. The adverse drug reactions of EXD were mainly slight gastrointestinal symptoms.
CONCLUSION: The study provides suggestive evidence of the superiority of EXD monotherapy or combination therapy over basic supplements for treating osteoporosis. However, the evidence remains weak. More rigorously designed and measured, randomized double-blind, placebo-controlled trials with larger sample size are needed to verify the current conclusions.

Introduction

Osteoporosis is a pathological condition that can lead to the reduction of bone mass and the impairment of the bone architecture, which increases the risk of falling and fracture.1,2 The disease affects a large amount of the population, especially the elderly and postmenopausal women, being considered a very important problem as a growing concern of aging.3 In the last two decades, significant progress has been made in epidemiology studies and in understanding its complex pathogenesis. However, the pathogenesis of osteoporosis is still complex and multifactorial, which makes us put more emphasis on preventing and treating this “silent disease”.4,5 Furthermore, a growing body of research evidence has fostered the development of clinical practice guidelines to monitor and provide appropriate choices for osteoporosis intervention.

Reducing loss of bone mass, adequately treating clinical symptoms, and preventing osteoporotic fractures are the major therapeutic targets. Therefore, osteoporosis management usually includes pharmacological approaches, physiotherapy interventions, health education measures, and in rare cases, surgical treatment.6 Among the treatment strategies, the application of drugs in the management of osteoporosis remains a clinical challenge as a result of patient selection, potential adverse effects or patient adherence.7 Calcium (Ca), vitamin D, bisphosphonates, and calcitonin are the commonly used medications. However, an increasing number of studies demonstrated that using these conventional medicines increased the risk of cardiovascular events.8,9 A recent study revealed that 8.5% reported low adherence to osteoporosis medications and 21.6% of patients stopped their medication completely over the 2-year follow-up period.10 Therefore, there is a need to seek alternative and effective treatment alternatives for osteoporosis. Clinical practice has shown a bright future for Chinese herbal medicine and Chinese herbal formulas in treating osteoporosis.11,12

Erxian decoction (EXD), a traditional Chinese herbal formula, has been widely used for treating many chronic diseases, such as osteoporosis, menopausal syndrome, and delayed puberty in the past 60 years.13,14 EXD is made up of six herbs, containing Epimedii Folium (Yinyanghuo), Curculiginis Rhizoma (Xianmao), Morindae Officinalis Radix (Bajitian), Anemarrhenae Rhizoma (Zhimu), Phellodendri Chinensis Cortex (Huangbai), and Angelicae Sinensis Radix (Danggui).13 Twelve anti-osteoporotic constituents, such as icariin, anemarsaponin BII, and berberine were isolated through bioactivity-guided fractionation.15 More and more fundamental researches revealed that EXD had a definite anti-osteoporotic effect similar to estrogen.16–18 EXD displayed inhibitory effects on osteoclastic bone resorption, including decreasing the formation of bone resorption pits, the number of multinucleated osteoclasts, and so on.19 A recent experimental study further confirmed that EXD could increase bone mass, elevate osteocalcin protein levels in vivo, and promote the self-renewal and osteoblastic differentiation of bone mesenchymal stem cells ex vivo in ovariectomized mice.20

A previous systematic review and randomized double-blind controlled trial has shown that EXD is effective in improving menopausal symptoms.21,22 Nevertheless, there is no critically appraised evidence such as systematic reviews or meta-analysis to justify the clinical use of EXD for osteoporosis. Thus, the aim of the current systematic review is to investigate the effectiveness and safety of EXD for the condition.

Materials and methods

Search strategy

Two authors (Mu XH and Ma S) independently performed the literature search using predetermined inclusion/exclusion criteria. A computer-based online search was conducted in the PubMed, Embase, Cochrane Library, Chinese National Knowledge Infrastructure (CNKI), Chinese Scientific Journal Database (VIP), and Wanfang databases. In addition, the reference lists of all obtained articles were examined for additional studies. All the articles were considered without language limitation. All of the searches ended on September 17, 2016. Search terms were Erxian decoction (Er-xian decoction) combined with osteoporosis. The strategy for searching PubMed was listed: ((osteoporosis [MeSH Terms]) AND Erxian decoction) OR Er-xian decoction.

Study selection

Randomized controlled trials (RCTs) were included, but crossover randomized trials and quasi-randomized trials were excluded. Diagnosis of osteoporosis was established by bone mineral density (BMD) examination. The following interventions were considered for inclusion: EXD versus no treatment or placebo, EXD versus routine anti-osteoporosis medications, EXD plus anti-osteoporosis medications versus anti-osteoporosis medications, EXD plus anti-osteoporosis medications versus placebo plus anti-osteoporosis medications. Modified EXD changes based on traditional Chinese medicine syndrome differentiations were acceptable. The outcome measures included fracture, change in BMD, pain symptom improvement, bone biochemical markers, quality of life, adverse event, or adverse drug reaction (ADR). Any differences in opinion regarding inclusion in the review were resolved by discussion or consulting a third party.

Data extraction and analysis

Two investigators (Jia YS and Chai LM) independently extracted details of each included study: the principal authors, year of publication, sample sizes, patients’ characteristics, details of intervention, details of control interventions, intervention durations, and outcomes for each study. When important data were not available, authors of the relevant study were contacted and requested to provide missing data.

Two authors (Li JY and Wei X) assessed the RCTs based on a 7-item quality checklist from the Cochrane Handbook, comprising: 1) random sequence generation; 2) allocation concealment; 3) blinding of participants and personnel; 4) blinding of outcome assessment; 5) incomplete outcome data; 6) selective reporting; and 7) other bias.23 The quality of RCTs was categorized into three levels: low risk of bias (all the items were assessed as having low risk of bias), high risk of bias (at least one item was assessed as having high risk of bias), and unclear risk of bias (at least one item’s risk of bias was in unclear). Discrepancies were resolved by consensus through discussion between the two investigators, if needed, by consulting a third party (Xu L).

Data analysis was conducted using the Review Manager 5.2 software provided by the Cochrane Collaboration. The mean difference (MD) was applied for studies using the same scale, and the standardized MD was utilized when the reported scales differed, along with 95% confidence intervals. For the meta-analysis of the traditional Chinese medicine compound recipe, random-effects model was used to analyze the data.24 I2 values ≤50% indicated acceptable heterogeneity among studies. The relative strength of treatment efficacy was illustrated by forest plots. When possible, sensitivity analyses were conducted for all outcomes.

Results

Literature search results

A flow chart depicted the search process and study selection (Figure 1). A total of 232 articles were initially identified, all of which came from electronic databases. Full text papers of 20 studies were retrieved. Twelve articles were excluded with reasons listed as follows: the intervention included other Chinese herbal formula (n=6), there was no control group (n=4), and the outcome was not appropriate (n=2). Finally, a total of eight trials including EXD or modified EXD were included.25–32 All the papers were published in Chinese. Eight selected trials could be retrieved in the Chinese databases, including CNKI, VIP and Wanfang databases. The characteristics of included trials were listed in Table 1.

Figure 1

Study selection process. Databases were PubMed, Embase, Cochrane Library, Chinese National Knowledge Infrastructure (CNKI), Chinese Scientific Journal Database (VIP), and Wanfang databases.

Table 1

Characteristics of included trials

Study ID	Sample size (EG/CG)	Age(years, mean)	Sex (male/female)	Experimental group	Comparison group	Duration of treatment	Outcome assessment
Wu et al25	58 (30/28)	EG: 68.65±7.07CG: 67.91±7.37	NR	EXD (a dose/d, Qd, oral administration)	Caltrate tablets (600 mg, Qd, oral administration)	6 months	BMD (LS, FGTCa, P, ALP
Zhu and Gu26	70 (35/35)	EG: 61.2±5.6CG: 60.4±5.8	Postmenopausal women	EXD (a dose/d, Bid, oral administration) + CG	Salmon Calcitonin (50 IU every day, intramuscular injection)	3 months	BMD (LSALP, BGP, CT, E2
Gao27	78 (39/39)	EG: 42.3±5.6CG: 40.7±4.9	EG: 19/20CG: 21/18	EXD (a dose/d, oral administration)	Women: Nilestriol (2~4 mg every 2 weeks, oral administration)Men: testosterone propionate (20~25 mg every 2 weeks, intramuscular)	2 months	BMD (LS, FN, WA, FGT
Liu28	138 (69/69)	56.2±9.3	Postmenopausal women	Modified EXD (a dose/d, oral administration) + CG	Caltrate tablets (600 mg, Qd, oral administration) and calcitriol (0.25 μg, Qd, oral administration)	3 months	BMD (LS, FNCa, P, ALP, ADR
Jiang et al29	70 (35/35)	EG: 64.64±8.73CG: 69.41±5.21	Postmenopausal women	Modified EXD (a dose/d, oral administration) + CG	Caltrate tablets (600 mg, Qd, oral administration) and calcitriol (0.25 μg, Bid, oral administration)	3 months	BMD (LS, FNCa, P, ALP, ADR
Liu30	70 (35/35)	EG: 42.5±5.1CG: 43.6±5.4	EG: 15/20CG: 16/19	Modified EXD (a dose/d, Bid, oral administration)	Caltrate tablets (600 mg, Qd, oral administration)	2 months	BMD (LS, FN, WA, FGTVAS score Ca, P, ALP
Xu et al31	80 (40/40)	EG: 63.19±5.13CG: 64.32±6.34	Postmenopausal women	Modified EXD (a dose/d, oral administration) + CG	Caltrate tablets (600 mg, Qd, oral administration), Vitamin D (125 IU, Qd, oral administration) and Alfacalcidol (0.25 μg, Qd, oral administration)	3 months	BMD (FNALP, E2
Ye et al32	80 (40/40)	EG: 48.40±7.58CG: 47.10±3.11	Postmenopausal women	EXD (a dose/d, Bid, oral administration) + CG	Elcatonin (10 IU per time, twice a week, intramuscular injection)	3 months	BMD (LS, tibiaVAS score, ADR

Abbreviations: EG, experimental group; CG, comparison group; NR, not reported; EXD, Erxian decoction; LS, lumbar spine; FN, femoral neck; WA, Ward’s area; FGT, femoral great trochanter; BMD, bone mineral density; Ca, calcium; P, phosphorus; CT, calcitonin; E2, estradiol; ADR, adverse drug reaction; VAS, visual analog scale; ALP, alkaline phosphatase; BGP, bone gla protein.

Study and participant characteristics

Eight trials involved a total of 644 patients diagnosed with osteoporosis. The variation in the mean age of participants was 40–70 years. Two trials enrolled middle- and old-aged people,27,30 five trials just enrolled postmenopausal women,26,28,29,31,32 and one trial did not state the sex distribution of participants.25 The different compositions of EXD or modified EXD were presented in Table 2. The controls were routine anti-osteoporosis medications which had six types of groups: 1) caltrate tablets, 2) salmon calcitonin, 3) hormonal treatment, including nilestriol or testosterone propionate, 4) caltrate tablets and calcitriol, 5) caltrate tablets and vitamin D plus alfacalcidol, and 6) elcatonin. The total treatment duration ranged from 2 months to 6 months. The outcome covered BMD, clinical symptoms score, bone metabolism markers, and ADRs.

Table 2

Composition of formula

Study ID	Formula	Composition of formula
Wu et al25	EXD	NR
Zhu and Gu26	EXD	Epimedii Folium (Yinyanghuo) 20 g, Curculiginis Rhizoma (Xianmao) 20 g, Morindae Officinalis Radix (Bajitian) 15 g, Anemarrhenae Rhizoma (Zhimu) 12 g, Phellodendri Chinensis Cortex (Huangbai) 15 g, Angelicae Sinensis Radix (Danggui) 10 g
Gao27	EXD	Epimedii Folium (Yinyanghuo) 30 g, Curculiginis Rhizoma (Xianmao) 30 g, Morindae Officinalis Radix (Bajitian) 15 g, Anemarrhenae Rhizoma (Zhimu) 10 g, Phellodendri Chinensis Cortex (Huangbai) 10 g, Angelicae Sinensis Radix (Danggui) 10 g
Liu28	Modified EXD	Epimedii Folium (Yinyanghuo) 15 g, Curculiginis Rhizoma (Xianmao) 15 g, Morindae Officinalis Radix (Bajitian) 15 g, Anemarrhenae Rhizoma (Zhimu) 10 g, Angelicae Sinensis Radix (Danggui) 10 g, Testudinis Carapacis Et Plastri Colla (Guijiajiao) 12 g, Corni Fructus (Shanzhuyu) 12 g, Lycii Fructus (Gouqi) 12 g, Salviae Miltiorrhizae Radix Et Rhizoma (Danshen) 15 g
Jiang et al29	Modified EXD	Epimedii Folium (Yinyanghuo) 15 g, Curculiginis Rhizoma (Xianmao) 15 g, Morindae Officinalis Radix (Bajitian) 10 g, Anemarrhenae Rhizoma (Zhimu) 15 g, Phellodendri Chinensis Cortex (Huangbai) 10 g, Angelicae Sinensis Radix (Danggui) 15 g, Pyritum (Zirantong) 10 g
Liu30	Modified EXD	Epimedii Folium (Yinyanghuo) 15 g, Curculiginis Rhizoma (Xianmao) 10 g, Morindae Officinalis Radix (Bajitian) 15 g, Anemarrhenae Rhizoma (Zhimu) 15 g, Phellodendri Chinensis Cortex (Huangbai) 10 g, Angelicae Sinensis Radix (Danggui) 5 g, Corni Fructus (Shanzhuyu) 10 g, Rehmanniae Radix Praeparata (Shudihuang) 30 g, Dioscoreae Rhizoma (Shanyao) 15 g, Drynariae Rhizoma (Gusuibu) 15 g, Cyathulae Radix (Chuanniuxi) 10 g, Glycyrrhizae Radix Et Rhizoma (Gancao) 3 g, Jujubae Fructus (Dazao) 30 g
Xu et al31	Modified EXD	Epimedii Folium (Yinyanghuo) 20 g, Curculiginis Rhizoma (Xianmao) 20 g, Morindae Officinalis Radix (Bajitian) 20 g, Anemarrhenae Rhizoma (Zhimu) 15 g, Phellodendri Chinensis Cortex (Huangbai) 10 g, Angelicae Sinensis Radix (Danggui) 15 g, Testudinis Carapacis Et Plastri Colla (Guijiajiao) 10 g, Corni Fructus (Shanzhuyu) 10 g, Lycii Fructus (Gouqi) 10 g, Salviae Miltiorrhizae Radix Et Rhizoma (Danshen) 10 g
Zhu and Gu32	EXD	Epimedii Folium (Yinyanghuo) 15 g, Curculiginis Rhizoma (Xianmao) 15 g, Morindae Officinalis Radix (Bajitian) 10 g, Anemarrhenae Rhizoma (Zhimu) 6 g, Phellodendri Chinensis Cortex (Huangbai) 6 g, Angelicae Sinensis Radix (Danggui) 10 g

Abbreviations: EXD, Erxian decoction; NR, not reported.

Methodological quality of included trials

The methodological quality assessments were summarized in Table 3. All of the included trials were evaluated and deemed to be of generally poor methodological quality. Two trials stated that the method of random number table was used,26,29 one trial described the random allocation using SPSS software.32 The others only mentioned that “subjects were randomized into two groups”, but did not report the detailed methods for sequence generation. None of the trials reported allocation concealment and used matched placebo to blind participants and practitioners. The number of dropout or withdrawal cases and intention-to-treat analysis were not mentioned, so the item “incomplete outcome data” was not identified. Selective reporting was unclear because the protocols of all the trials were not accessible. The baseline information on the age, sex, and the outcomes was not adequate in the four trials.25,28,29,31

Table 3

Methodological quality of the included trials

Study ID	Random sequence generation	Allocation concealment	Blinding of participants and personnel	Blinding of outcome assessment	Incomplete outcome data	Selective reporting	Other bias
Wu et al25	−	?	−	?	?	?	?
Zhu and Gu26	+	?	−	?	?	?	+
Gao27	−	?	−	?	?	?	+
Liu28	−	?	−	?	?	?	?
Jiang et al29	+	?	−	?	?	?	?
Liu30	−	?	−	?	?	?	+
Xu et al31	−	?	−	?	?	?	?
Ye et al32	+	?	−	?	?	?	+

Notes: “+”, low risk of bias; “−”, high risk of bias; “?”, unclear risk of bias.

Fracture prevention and quality of life

None of the trials reported the fracture incidence and quality of life as the observed outcomes.

BMD

The trials that tested the BMD values in different parts of the body were analyzed.

Improvement of BMD in lumbar spine. Seven trials studied the benefits of improved BMD in lumbar spine and two meta-analyses could be performed.25–30,32 Two studies including 128 participants compared the effect of EXD with caltrate tablets to measure the outcome.25,30 A meta-analysis showed a significant beneficial effect of EXD compared with caltrate tablets in improving BMD of lumbar spine (MD: 0.05 [0.03, 0.06]; I2=0%; P<0.00001) (Figure 2). In addition, two studies including 208 participants compared the effect of EXD plus caltrate tablets and calcitriol with caltrate tablets and calcitriol.28,29 A pooled analysis indicated that there was no significant difference between the integrative therapy and routine treatment drugs in improving BMD of lumbar spine (MD: 0.08 [−0.03, 0.18]; I2=91%; P=0.15) (Figure 3).

Figure 2

Forest plot of comparison between EXD and caltrate tablets. The outcome was BMD in lumbar spine.

Abbreviations: EXD, Erxian decoction; BMD, bone mineral density; CI, confidence interval; SD, standard deviation; df, degrees of freedom.

Figure 3

Forest plot of comparison between EXD plus caltrate tablets and calcitriol versus caltrate tablets and calcitriol. The outcome was BMD in lumbar spine.

Abbreviations: EXD, Erxian decoction; BMD, bone mineral density; CI, confidence interval; SD, standard deviation; df, degrees of freedom.

The other three trials were not included in meta-analyses.26,27,32 One study by Zhu and Gu indicated EXD plus salmon calcitonin was better than the use of salmon calcitonin alone over a period of three months (P<0.05).26 Anther study found a greater improvement in the EXD group compared to hormonal treatment over a period of two months (P<0.05).27 Another study demonstrated that the result of the EXD plus elcatonin group was significantly better than elcatonin monotherapy in enhancing the BMD in lumbar spine L2 to L4 after three months (P<0.001).32

Improvement of BMD in femoral neck. Five trials studied BMD in femoral neck, and one meta-analysis was conducted to evaluate the effect of the Chinese herbal formula.27–31 The meta-analysis from two trials demonstrated that EXD plus caltrate tablets and calcitriol was superior to caltrate tablets and calcitriol alone in improving BMD of femoral neck (MD: 0.04 [0.00, 0.09]; I2=56%; P=0.04) (Figure 4).28,29

Figure 4

Forest plot of comparison between EXD plus caltrate tablets and calcitriol versus caltrate tablets and calcitriol. The outcome was BMD in femoral neck.

Abbreviations: EXD, Erxian decoction; BMD, bone mineral density; CI, confidence interval; SD, standard deviation; df, degrees of freedom.

The other three trials were not included in meta-analyses.27,30,31 Gao’s study showed EXD alone had a significant advantage compared to hormonal treatment in enhancing BMD of femoral neck (P<0.05).27 Another study showed a significant treatment effect of modified EXD compared with caltrate tablets (P=0.009).30 Xu et al confirmed the effect of combination therapy (modified EXD plus anti-osteoporosis medicine) was better than anti-osteoporosis medicine alone after three months of therapy (P<0.05).31

Improvement of BMD in femoral great trochanter. Three trials observed the effect of BMD in femoral great trochanter.25,27,30 One meta-analysis could be performed.25,30 The meta-analysis showed there is significant beneficial effect in EXD group compared to caltrate tablets group (MD: 0.06 [0.02, 0.10]; I2=59%; P=0.005) (Figure 5). The remaining trial reported that the EXD group experienced more benefits than the hormonal treatment group (P<0.05).27

Figure 5

Forest plot of comparison between EXD and caltrate tablets. The outcome was BMD in femoral great trochanter.

Abbreviations: EXD, Erxian decoction; BMD, bone mineral density; CI, confidence interval; SD, standard deviation; df, degrees of freedom.

Improvement of BMD in Ward’s area. Two trials observed the effect of BMD in Ward’s area.27,30 One trial reported that EXD group experienced more benefits than the hormonal treatment group after two months (P<0.05).27 The other trial also found modified EXD showed more improvement than caltrate tablets after two months of treatment (P<0.001).30

Improvement of BMD in tibia. Only one trial assessed the effect of BMD in tibia.32 The result revealed that the curative effect experienced by the EXD plus elcatonin group was better than the elcatonin group after three months (P<0.001).

Pain symptom

Two trials used the pain score as the outcome.30,32 One trial showed that the modified EXD was better than caltrate tablets in reducing pain (visual analog scale score) after two months (P<0.001). The other trial evaluated the pain-relieving effect of EXD plus elcatonin.32 After three-month treatment, EXD plus elcatonin could significantly improve the pain symptom of osteoporosis compared with elcatonin alone (P<0.001).

Bone biochemical markers

The trials that measured the blood Ca, phosphorus (P), alkaline phosphatase (ALP), bone gla protein (BGP), calcitonin (CT), and estradiol (E2) were analyzed.

Improvement of Ca, P, ALP. Five trials analyzed the level of blood Ca and two meta-analyses were conducted.25,26,28,30 No statistical difference in blood Ca (MD: −0.13 [−0.28, 0.01]; I2=38%; P=0.06), blood P (MD: 0.13 [−0.19, 0.49]; I2=91%; P=0.39), and blood ALP (MD: −1.21 [−5.54, 3.12]; I2=0%; P=0.59) were found between the EXD group and caltrate tablets group. However, EXD plus caltrate tablets and calcitriol significantly increased the level of blood Ca (MD: 0.20 [0.15, 0.24]; I2=0%; P<0.00001) and lowered the level of blood P (MD: −0.28 [−0.39, −0.17]; I2=68%; P<0.00001) compared with caltrate tablets and calcitriol based on the meta-analysis. No statistical differences in blood ALP (MD: −1.87 [−7.58, 3.84]; I2=0%; P=0.52) were found between the integrative therapy group and routine treatment drugs group.

The other two trials were not analyzed in meta-analyses.26,31 One trial showed a statistically significant difference in favor of EXD plus salmon calcitonin in improving the level of ALP compared to salmon calcitonin (P<0.05) after three months.26 The other showed a statistically significant difference in favor of the combination therapy in improving the level of ALP compared to caltrate tablets and vitamin D plus alfacalcidol (P<0.05) after three months.31

Improvement of BGP, CT, E2. Two trials analyzed the level of blood BGP, CT, E2 and no meta-analysis could be conducted.26,31 The statistical data indicated that EXD plus salmon calcitonin was better than salmon calcitonin alone with regard to increasing the level of BGP (P<0.05), CT (P<0.05), E2 (P<0.01) after three months.26 The other data also indicated that the combination therapy was better than caltrate tablets and vitamin D plus alfacalcidol with regard to increasing the level of E2 (P<0.05) after three months.31

Adverse effects

Three trials (3/8) reported the ADRs.28,29,32 One trial demonstrated 1 case with abdominal distension (1/69, 1.45%), 3 cases (2/69, 4.35%) with constipation and 2 cases (2/69, 2.90%) with stomach upset in the modified EXD plus caltrate tablets and calcitriol group.28 However, the occurrence of ADRs was higher in the caltrate tablets and calcitriol group (P<0.05), including 5 cases with abdominal distension (5/69, 7.25%), 7 cases (7/69, 10.14%) with constipation, and 6 cases (6/69, 8.70%) with stomach upset. Another trial exhibited 1 case with diarrhea (1/40, 2.5%) in the EXD group, 1 case with facial flushing (1/40, 2.5%), and 1 case with nausea (1/40, 2.5%) in the elcatonin group.32 And the adverse effects were not serious in the Chinese medicine group. No ADRs were found in another trial.29 The remaining five trials did not mention whether the adverse events were monitored.

Publication bias

The funnel plots were not conducted due to the inadequate number of included osteoporosis studies.

Discussion

Plant-based therapies including traditional Chinese medicines have long been used to prevent and treat osteoporosis and have received extensive attention.33–35 According to the theory of Chinese medicine, Shen-Jing deficiency (Kidney essence) plays an important part in the development of osteoporosis and is better for diagnosing osteoporosis.36 Therefore, kidney-tonifying herbs or herbal formula contribute to treating both the disease and the Chinese medicine syndromes.36,37 Among the several Chinese medicine prescriptions, EXD is one of the most representative formulas reflecting kidney-tonifying principle.38 To our knowledge, this is the first systematic review on EXD for osteoporosis with regard to different outcomes.

A detailed analysis was performed based on the different interventions, controls, and outcomes. One aggregated result indicated that EXD was more effective for participants in increasing BMD of lumbar spine and femoral great trochanter than for those in the caltrate tablets group in only two studies. The other aggregated result showed that EXD plus caltrate tablets and calcitriol was more effective in increasing BMD of femoral neck and improving the level of blood Ca and P than caltrate tablets and calcitriol in only two studies. Additionally, two independent trials showed that modified EXD or EXD plus elcatonin significantly improved pain symptoms in patients with osteoporosis. The ADR of EXD might be abdominal distension, constipation, diarrhea, and stomach upset.

In our review, quality of life was not observed in the previous studies. Also, there was insufficient evidence to support or refute the value of EXD monotherapy or combination therapy compared with other active therapies alone because of the limited number of studies. A randomized double-blind, placebo-controlled trial was not found in the literature. Thus, the definite effect of Chinese medicine still needs to be proven by scientific research. Placebo control is of equal importance as active control in clinical trials of Chinese medicine.39 Further studies should first compare EXD with placebo or no treatment. More standard therapies, such as bisphosphonate or exercise, need to be considered as a control. Our results indicated that a minimal valid duration of EXD for osteoporosis might be at least 2 months. Nevertheless, the longer duration may achieve better gains. Unlike diabetes and hypertension, conventional drugs for osteoporosis can bring persistent structural benefits.40,41 But so far the long-term effects and safety of EXD are still unknown.

Before accepting the above findings, the following limitations should be noted. First, in all the articles published in People’s Republic of China, there were no data about the effect of EXD for treating osteoporosis in other countries. Therefore, the potential selection bias could not be ruled out. Second, the majority of studies failed to report the random method, did not use blinding, did not describe the number and the reason of withdrawal, and did not register the study protocol. Similar to the several systematic reviews of alternative medicine for osteoporosis, the methodological quality of RCTs is the major problem affecting the efficacy evaluation.42,43 The researchers of Chinese medicine should attach more importance to improve reporting quality using the Consolidated Standards of Reporting Trials (CONSORT) statement.44 Third, our results may be affected by the modified herbs, dosing parameters of EXD, and treatment duration. Fourth, the information on the adverse events or ADR is inadequate. The safety of EXD needs to be rigorously monitored in future clinical trials. Due to the poor quality of the previous studies, the results of our review are likely to be influenced by many factors.

Conclusion

The present meta-analysis proved that EXD monotherapy or EXD plus caltrate tablets and calcitriol for osteoporosis may have beneficial effects on the improvement of BMD at anatomical sites. EXD plus caltrate tablets and calcitriol can significantly improve the level of Ca and P. As a result of the methodological drawbacks in the previous studies, more rigorously designed and measured, randomized double-blind, placebo-controlled trials with larger sample size are needed to verify the current conclusions.