Efficacy and safety of different doses of evolocumab in reducing low-density lipoprotein cholesterol levels: A meta-analysis.

Evolocumab has been considered as an efficacious, safe and promising therapeutic modality for hypercholesterolemia and is associated with cardiovascular diseases. The efficacy and safety of two different doses of evolocumab were evaluated and the safety of evolocumab was compared with that of a placebo and ezetimibe. PubMed and EMBASE databases were searched and randomized controlled trials that examined the effect and safety of evolomucab compared with a placebo and ezetimibe were retrieved. Two authors independently performed article reviews and study quality evaluations. Odds ratios (ORs) were calculated using a fixed or random-effects model [95% confidence intervals (CIs)]. In the direct comparison, a significant reduction was observed in the muscle-associated events compared with ezetimibe [OR=0.54 (95% CI, 0.31-0.93); P (Z)=0.03, P (Q)=0.43, I2=0%]. In the adjusted indirect comparison of evolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W, no significant differences in efficacy [OR=1.04 (95% CI, 0.55-1.99); P (Z)=0.90] or adverse events [OR=1.08 (95% CI, 0.66-1.74); P (Z)=0.76] were identified. The funnel plots of these direct comparison studies indicated that there was no publication bias. The results of this meta-analysis demonstrate that evolocumab significantly reduced low-density lipoprotein cholesterol levels, and no difference was noted between evolocumab 140 mg Q2W and evolocumab 420 mg Q4W. Furthermore, evolocumab had fewer muscle-associated events than ezetimibe.

Introduction

Reduction in low-density lipoprotein cholesterol (LDL-C) levels has been included in practice guidelines as a fundamental method of reducing cardiovascular events and mortality. Based on previous studies, statin therapy has been considered as a first-line treatment strategy for targeting atherosclerotic cardiovascular disease (1–4). While receiving moderate- or high-intensity statin therapy, numerous patients were unable to achieve LDL-C concentrations <70 mg/dl. In addition, certain patients terminated statin therapy due to their inability to tolerate the effective doses and experiencing adverse events. Therefore, non-statin therapy for LDL-C reduction has been considered, and novel effective medication and treatment strategies for reducing LDL-C levels have become a focus of research.

During the past 3 years, monoclonal antibodies, which inhibit proprotein convertase subtilism/kexin type 9 (PCSK9), have emerged as a novel class of therapeutic agent that target LDL-C levels (5). Evolocumab, a fully human monoclonal antibody, effectively reduced LDL-C levels and has been investigated in phase 3 trials (6–10). In these trials, the patients were randomized to groups of placebo, ezetimibe, 140 mg Q2W or 420 mg Q4W evolocumab. When compared with the control group, the two different doses of evolocumab significantly reduced the LDL-C levels. However, to the best of our knowledge, there are no studies that demonstrate different outcomes between the two different doses of evolocumab. In the current adjusted indirect meta-analysis, the efficacy and safety of two different doses of evolocumab were evaluated.

Materials and methods

Literature search strategy

PubMed (https://www.ncbi.nlm.nih.gov/pubmed) and Embase (https://www.embase.com) were searched from January 2000 to April 2015, utilizing the following search terms without language restrictions: (Randomized trial OR clinical trial) AND blind OR random AND control (placebos OR ezetimibe) NOT (comment OR editorial OR meta-analysis OR letter) AND (proprotein convertase subtilisin/kexin type 9 OR PCSK9) inhibitor (evolocumab OR AMG145) AND (140 mg Q2W OR 420 mg Q4W) AND efficacy (LDL-C level OR LDL-C concentration) OR safety OR tolerability. Two reviewers (C.C. and S.S.) evaluated the identified titles, and the manuscripts were retrieved when the reviewers deemed them to be potentially relevant. The results were evaluated to determine whether data on PCSK9 inhibitors had been reported.

Study selection

The review included high quality studies fulfilling the following inclusion criteria: i) Randomized, controlled phase 3 trial comparing evolocumab, placebo or ezetimibe, with a follow-up of 12 months; ii) the report supplied data on the rate of patients who achieved LDL-C concentrations <70 mg/dl or data on the percentage of adverse events; iii) analysis was performed on evolocumab 140 mg Q2W and 420 mg Q4W; iv) when different studies reported on the same population, the study that included a larger sample size and performed evaluation using more comprehensive methods was included.

Data extraction

The following data elements were extracted from each report according to a fixed protocol: Author, publication year, study design, characteristics of trial participants, median follow-up, mean age, and ratio of males, females, diabetes cases, smokers and hypertension cases, as well as data regarding efficacy and safety separated by the different doses of evolocumab. For studies with more than one control group, the most appropriate control group was used. Two authors (C.C. and S.S.) independently conducted the data extraction, and any disagreement was resolved by discussion.

End-points and definitions

The efficacy end-point was the percentage of patients who achieved LDL-C concentrations <70 mg/dl (1.8 mmol/l). The primary safety end-point was the rate of any adverse events. The secondary safety end-point included back pain, headache, nasopharyngitis, muscle-associated events and potential injection-site reactions. All missing data from studies were obtained from supplements.

Statistical analysis

Random-effect odds ratios (ORs) and 95% confidence intervals (CIs) were calculated using Review Manager 5.3 (Copenhagen: The Nordic Cochrane Centre, The Cochrane Collaboration, Denmark), and the outcomes that demonstrated a smaller heterogeneity (I2<50%, χ2 test; two-tailed P<0.1) were confirmed by a fixed-effects model to avoid small studies being overly weighted. Two-tailed P<0.05 was considered to indicate a statistically significant difference (11,12). Secondly an Indirect Meta-analysis Tool (Metcardio; Turin, Italy) was used for the adjusted indirect comparison according to Song et al (13). Pooled OR (comparing evolocumab 140 mg Q2W or evolocumab 420 mg Q4W vs. placebo) and interaction OR for evolocumab 140 mg Q2W or evolocumab 420 mg Q4W was calculated. In addition, pertinent 95% CI and Z scores for two-tailed hypothesis testing were calculated (P<0.05 was considered to indicate a statistically significant difference). The interaction ORevolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W was calculated as follows: ln (ORevolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W)=ln (ORevolocumab 140 mg Q2W vs. placebo) - ln (ORevolocumab 420 mg Q4W vs. placebo), and var [ln (ORevolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W)] = var [ln (ORevolocumab 140 mg Q2W vs. placebo)] + var [ln (ORevolocumab 420 mg Q4W vs. placebo)], where ln is the natural logarithm, and var is the variance.

For the direct meta-analysis, a funnel plot was generated for assessment of publication bias; in addition, sensitivity analysis was conducted by removing the study one by one when a significant heterogeneity was observed.

Results

Study selection and characteristics

The initial search identified 275 reports from PubMed and Embase. After screening the titles and abstracts, 15 articles (6–10,14–23) were selected and underwent further full-text identification. Subsequently five studies (14,20–23), which were phase 2 studies, were excluded; three studies (15–17) were regarding alirocumab, two (18,19) included data on the same population, and one study (6) did not include 12-month outcomes (Fig. 1). Four publications (7–10) were included in the current meta-analysis. Three studies (7,8,10) were included in the indirect comparison of evolocumab 140 mg Q2W and evolocumab 420 mg Q4W without the Goal Achievement after Utilizing an Anti-PCSK9 Antibody in Statin Intolerant Subjects (GAUSS-2 trial) (9), which did not include a placebo group. In the safety analysis, the RUTHERFORD-2 Investigators (10) were excluded, as it does not contain precise data on placebo and ezetimibe groups. The details are presented in Tables I and II.

Figure 1.

Study flow chart.

Table I.

Characteristics of included studies.

	Study
Characteristic	LAPLACE-2	MENDEL-2	GAUSS-2	RUTHERFORD-2
First autor (Ref.)	Robinson et al (7)	Koren et al (8)	Stroes et al (9)	Raal et al (10)
Year	2014	2014	2014	2015
Patients (n)	1,896	614	307	329
Median follow-up (weeks)	12	12	12	12
Age (years)	59.8	53.2	61.7	51.2
Males (%)	54.2	31.1	54.1	42.2
Diabetes (%)	15.5	0.2	20.2	NA
Smoker (%)	NA	11.7	7.8	NA
Hypertension (%)	NA	28.7	58.9	NA

Table II.

Data extracted from the included studies.

	LAPLACE-2 trial (Robinson et al 2014)				MENDEL-2 trial (Koren et al 2014)				GAUSS-2 trial (Stroes et al 2014)			RUTHERFORD-2 trial (Raal et al 2015)
	Placebo		Evolocumab		Placebo		Evolocumab					Placebo		Evolocumab
Variable	Q2W (n=281)	Q4W (n=277)	Q2W (n=555)	Q4W (n=562)	Q2W (n=76)	Q4W (n=78)	Q2W (n=153)	Q4W (n=153)	Ezetimibe (n=154)	Ezetimibe (n=102)	Evolocumab (n=205)	Q2W (n=54)	Q4W (n=55)	Q2W (n=104)	Q4W (n=103)
Adverse events	25	13	44	34	34	34	73	61	70	74	135	23	30	61	63
Headache	10	5	10	10	3	1	5	5	5	9	16	1	3	4	5
Nasopharyngitis	NA	NA	NA	NA	1	2	3	3	3	3	7	2	3	8	11
Muscle-associated events	NA	NA	NA	NA	3	3	6	2	5	23	25	0	1	8	2
Potential injection-site reactions	NA	NA	NA	NA	2	6	10	6	7	8	6	2	2	5	8
Efficacy	35	30	499	493	1	0	97	89	NA	NA	NA	1	1	71	65
Back pain	NA	NA	NA	NA	6	8	14	6	NA	NA	NA	0	1	2	6

In the direct comparison, the meta-analytic pooling implied that evolocumab markedly reduced the LDL-C level to <70 mg/dl (1.8 mmol/l) when compared with the placebo [OR=70.86, 95% CI, 51.28–97.91; P (Z)<0.01, P (Q)=0.82, I2=0%] (Fig. 2), without significant differences noted in adverse events [OR=1.09, 95% CI, 0.86–1.39; P (Z)=0.47, P (Q)=0.65, I2=0%] (Fig. 3), back pain [OR=0.92, 95% CI, 0.49–1.72; P (Z)=0.79, P (Q)=0.18, I2=38%], headache [OR=0.84, 95% CI, 0.50–1.42; P (Z)=0.52, P (Q)=0.69, I2=0%], nasopharyngitis [OR=1.60, 95% CI, 0.71–3.60; P (Z)=0.26, P (Q)=0.85, I2=0%], muscle-associated event [OR=1.24, 95% CI, 0.52–2.93; P (Z)=0.63, P (Q)=0.26, I2=25%] and potential injection-site reactions [OR=1.22, 95% CI, 0.61–2.43; P (Z)=0.57, P (Q)=0.30, I2=19%]. All the data on comparison of evolocumab 140 mg Q2W vs. placebo or evolocumab 420 mg Q4W vs. placebo are presented in Table III. A head-to-head comparison of evolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W demonstrated no significant differences in the efficacy [OR=1.04, 95% CI, 0.55–1.99; P (Z)=0.90] and the risk of back pain [OR=1.48, 95% CI, 0.15–14.53; P (Z)=0.73], headache [OR=0.68, 95% CI, 0.23–2.06; P (Z)=0.50], nasopharyngitis [OR=1.28, 95% CI, 0.24–6.82; P (Z)=0.77], muscle-associated events [OR=4.43, 95% CI, 0.32–59.31; P (Z)=0.27], potential injection-site reactions [OR=2.09, 95% CI, 0.34–12.71; P (Z)=0.42] and any adverse events [OR=1.08, 95% CI, 0.66–1.74; P (Z)=0.76] (Table IV).

Figure 2.

Efficacy of two different doses of evolocumab in reducing the level of low-density lipoprotein cholesterol to <70 mg/dl (1.8 mmol/l) when compared with a placebo. CI, confidence interval.

Figure 3.

Safety of two different doses of evolocumab in any adverse events compared with a placebo. CI, confidence interval.

Table III.

All pooled ORs comparing evolocumab 140 mg Q2W or evolocumab 420 mg Q4W vs. placebo [the fixed-model was used for smaller heterogeneity (I2<50%, χ2 test; two-tailed P<0.1), otherwise the random model was used].

Variable	OR	95% CI	χ2	Freedom	OR	95% CI	χ2	Freedom
Efficacy	72.35	(46.09–113.97)	0.92	2	69.39	(43.65–110.31)	1.23	2
Adverse events	1.13	(0.81–1.56)	2.29	2	1.05	(0.74–1.50)	0.98	2
Back pain	1.29	(0.51–3.23)	0.21	1	0.87	(0.11–7.15)	3.21	1
Headache	0.76	(0.33–1.36)	1.45	2	1.11	(0.50–2.46)	0.80	2
Nasopharyngitis	1.85	(0.51–6.80)	0.05	1	1.44	(0.50–4.10)	0.66	1
Muscle-associated events	2.17	(0.24–19.59)	2.07	1	0.50	(0.12–2.02)	0.51	1
Potential injection-site reactions	1.90	(0.62–5.85)	0.41	1	0.91	(0.22–3.73)	2.10	1

OR, odds ratio; CI, confidence interval.

Table IV.

Adjusted indirect comparison of evolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W.

Variable	Odds ratio	95% confidence interval	Z score	Two-tailed P-value
Efficacy	1.04	(0.55–1.99)	0.13	0.90
Adverse events	1.08	(0.66–1.74)	0.30	0.76
Back pain	1.48	(0.15–14.53)	0.34	0.73
Headache	0.68	(0.23–2.06)	0.67	0.50
Nasopharyngitis	1.28	(0.24–6.82)	0.29	0.77
Muscle-associated events	4.43	(0.32–59.31)	1.10	0.27
Potential injection-site reactions	2.09	(0.34–12.71)	0.80	0.42

In the overall safety analysis, a significant reduction was observed in the muscle-associated events compared with ezetimibe [OR=0.54, 95% CI, 0.31–0.93; P (Z)=0.03; P (Q)=0.43, I2=0%]. No obvious difference in the risk of headache [OR=0.77, 95% CI, 0.48–1.24; P (Z)=0.27, P (Q)=0.72, I2=0%], nasopharyngitis [OR=1.09, 95% CI, 0.41–2.89; P (Z)=0.87, P (Q)=0.88, I2=0%], potential injection-site reactions [OR=0.80, 95% CI, 0.47–1.36; P (Z)=0.41, P (Q)=0.23, I2=32%] and any adverse events [OR=0.87, 95% CI, 0.74–1.04; P (Z)=0.13, P (Q)=0.75, I2=0%] (Fig. 4). The subgroup analysis showed the same results, in the placebo and ezetimibe groups. The outcomes are presented in Table V.

Figure 4.

Forest plots of odds ratio with 95% CI for the safety of evolocumab in any adverse events compared with a placebo and ezetimibe. CI, confidence interval.

Table V.

Evolocumab safety outcomes.

	Evolocumab vs. placebo				Evolocumab vs. ezetimibe				Evolocumab vs. control
	OR	95% CI	P (Q)	P (Z)	OR	95% CI	P (Q)	P (Z)	OR	95% CI	P (Q)	P (Z)
Adverse events	0.88	(0.72–1.09)	–	0.25	0.85	(0.63–1.17)	0.46	0.32	0.87	(0.74–1.04)	0.75	0.13
Headache	0.63	(0.32–1.24)	–	0.18	0.92	(0.47–1.81)	0.84	0.82	0.77	(0.48–1.24)	0.72	0.27
Nasopharyngitis	–	–	–	–	1.09	(0.41–2.89)	0.88	0.87	1.09	(0.41–2.89)	0.88	0.87
Muscle-associated events	–	–	–	–	0.54	(0.31–0.93)	0.43	0.03	0.54	(0.31–0.93)	0.43	0.03
Potential injection-site reactions	0.94	(0.39–2.22)	–	0.88	0.67	(0.21–2.12)	0.10	0.49	0.80	(0.47–1.36)	0.23	0.41

OR, odds ratio; CI, confidence interval.

Publication bias and sensitivity analysis

The funnel plots of these direct comparison studies indicated no evidence of publication bias, therefore are not included in the present study. Furthermore, the sensitivity analysis in the direct comparison was conducted by removing the largest study when a significant result was observed, the results remained unchanged (data not shown).

Discussion

The results of the current meta-analysis indicated that evolocumab was associated with a reduced risk of muscle-associated events when compared with ezetimibe, and different doses of evolocumab resulted in the same outcomes with regard to efficacy and safety. In the direct meta-analysis, the two doses of evolocumab appeared to exert a significant LDL-C lowering effect. As a fully human monoclonal antibody, evolocumab offers promising therapeutic applications in the control of PCSK9-regulated pathologies; inhibiting direct binding of PCSK9 and LDL receptors, reducing the degradation of the receptor, increasing LDL receptor activity on the hepatocyte surface and, ultimately, improving the uptake of plasma lipoprotein (24,25). Within the above-mentioned mechanism, evolocumab has demonstrated significant reduction in LDL-C levels (6–10). Furthermore, in the current safety analysis, a significant difference was observed in the muscle-associated events group when the evolocumab group was compared with the ezetimibe group, which suggested that evolocumab was associated with fewer muscle-associated events than ezetimibe. Therefore, evolocumab was demonstrated to be safe and well tolerated.

In previous phase 1 and phase 2 trials (14,26), no significant differences were identified in efficacy between the intravenous and subcutaneous groups, and evolocumab was characterized by a dose-dependent LDL-C reduction in terms of effect and duration. The higher the dosage that patients take, the longer the duration of the effect. Therefore, two doses are commonly administered; 140 mg evolocumab, subcutaneously, every 2 weeks and 420 mg evolocumab, subcutaneously, every 4 weeks. The head-to-head comparison of evolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W indicated no significant differences in efficacy and any adverse events, including back pain, headache, nasopharyngitis, muscle-associated events and potential injection-site reactions. This high-dosage, long-interval administration of evolocumab 420 mg Q4W is desirable. The results imply that clinicians should preferentially administer evolocumab 420 mg Q4W in order to improve patient compliance and convenience. As there was no direct evidence of a comparison between evolocumab 140 mg Q2W and evolocumab 420 mg Q4W, an adjusted indirect comparison was made in the present study to evaluate the efficacy and safety of different doses of evolocumab. Random errors are sources of discrepancies between the direct and the adjusted indirect comparison. As the adjusted indirect comparison widens the confidence interval, infrequent significant differences may be caused. Therefore, there remains a lack of direct evidence as to whether evolocumab 140 mg Q2W and evolocumab 420 mg Q4W possess different efficacy and safety.

However, there are various key issues that require attention with regard to investigating PCSK9 inhibitors. It remains to be elucidated as to whether a reduction in LDL-C levels using a PCSK9 inhibitor may result in a reduction in cardiovascular events. Therefore, long-term, extensive, randomized clinical trials with definite cardiovascular endpoints are required. In addition, a long-term follow-up of security and tolerance is required to establish whether PCSK9 inhibitors elicit an immune response, which may lead to a loss of responsiveness to treatment. Furthermore, although injectable treatment reduces the dosing frequency, patient acceptance levels should be considered and relevant guidance is required. Finally, monoclonal antibodies are expensive, which presents a limitation for their clinical application.

In conclusion, according to the current meta-analysis outcomes, evolocumab presents as an efficacious, safe and promising therapeutic strategy for hypercholesterolemia and the associated cardiovascular diseases. The head-to-head comparison of evolocumab 140 mg Q2W vs. evolocumab 420 mg Q4W indicated no significant differences in efficacy and adverse events. Furthermore, in the safety analysis, evolocumab had a reduced risk of muscle-associated events when compared with ezetimibe and the placebo groups.