Statins for age-related macular degeneration

Abstract

Background

Age-related macular degeneration (AMD) is a progressive late onset disorder of the macula affecting central vision. Age-related macular degeneration is the leading cause of blindness in people over 65 years in industrialized countries. Recent epidemiologic, genetic, and pathological evidence has shown AMD shares a number of risk factors with atherosclerosis, leading to the hypothesis that statins may exert protective effects in AMD.

Objectives

The objective of this review was to examine the effectiveness of statins compared with other treatments, no treatment, or placebo in delaying the onset and progression of AMD.

Search methods

We searched CENTRAL (which contains the Cochrane Eyes and Vision Group Trials Register) (2014, Issue 6), Ovid MEDLINE, Ovid MEDLINE In-Process and Other Non-Indexed Citations, Ovid MEDLINE Daily, Ovid OLDMEDLINE (January 1946 to June 2014), EMBASE (January 1980 to June 2014), Latin American and Caribbean Health Sciences Literature Database (LILACS) (January 1982 to June 2014), PubMed (January 1946 to June 2014), the metaRegister of Controlled Trials (mRCT) (www.controlled-trials.com), ClinicalTrials.gov (www.clinicaltrials.gov), and the WHO International Clinical Trials Registry Platform (ICTRP) (www.who.int/ictrp/search/en). We did not use any date or language restrictions in the electronic searches for trials. We last searched the electronic databases on 5 June 2014.

Selection criteria

We included randomized controlled trials (RCTs) that compared statins with other treatments, no treatment, or placebo in participants who were either susceptible to or diagnosed as having early stages of AMD.

Data collection and analysis

We used standard methodological procedures expected by The Cochrane Collaboration. Two authors independently evaluated the search results against the selection criteria, abstracted data, and assessed risk of bias. We did not perform meta-analysis due to heterogeneity in the interventions and outcomes among the included studies.

Main results

Two RCTs with 144 total participants met the selection criteria. Both trials compared simvastatin versus placebo in older people (> 50 or 60 years) with high risk of developing AMD (drusen present on examination). The larger trial with 114 participants was conducted in Australia and used a higher dose (40 mg daily) of simvastatin for three years. Participants and study personnel in this trial were adequately masked; however, data were missing for 30% of participants at three years follow-up. The smaller trial of 30 participants was conducted in Italy and used a lower dose (20 mg) of simvastatin for three months. This trial reported insufficient details to assess the risk of bias.

Neither trial reported data for change in visual acuity. Analysis of 30 participants in the smaller trial did not show a statistically significant difference between the simvastatin and placebo groups in visual acuity values at three months of treatment (decimal visual acuity 0.21 ± 0.56 in simvastatin group and 0.19 ± 0.40 in placebo group) or 45 days after the completion of treatment (decimal visual acuity 0.20 ± 0.50 in simvastatin group and 0.19 ± 0.48 in placebo group). The lack of a difference in visual acuity was not explained by lens or retina status, which remained unchanged during and after the treatment period for both groups.

Preliminary analyses of 42 participants who had completed 12 months follow-up in the larger trial did not show a statistically significant difference between simvastatin and the placebo groups for visual acuity, drusen score, or visual function (effect estimates and confidence intervals were not available). Complete data for these outcomes at three years follow-up were not reported. At three years, the effect of simvastatin in slowing progression of AMD compared with placebo was uncertain (odds ratio 0.51, 95% confidence interval 0.23 to 1.09).

One trial did not report adverse outcomes. The second trial reported no difference between groups in terms of adverse events such as death, muscle aches, and acute hepatitis.

Authors’ conclusions

Evidence from currently available RCTs is insufficient to conclude that statins have a role in preventing or delaying the onset or progression of AMD.

PLAIN LANGUAGE SUMMARY

Statins for delaying the onset and progression of age-related macular degeneration

Review question

What are the effects of statins on delaying the onset and progression of age-related macular degeneration (AMD)?

Background

Age-related macular degeneration (AMD) is a progressive disease of the macula (area in the back of the eye affecting central vision). AMD is the leading cause of blindness in people over 65 years in industrialized countries. Studies have shown that some of the factors that may lead to heart disease and strokes are the same as those which may lead to AMD. Statins are a type of drug that aims to lower blood cholesterol levels. Statins are very effective in preventing strokes, so it is possible that they are also protective for AMD.

Study characteristics

We included two trials (144 total participants) in this review. Participants included men and women, most of whom were older than 50 years, who had good visual acuity. Participants were either susceptible to or had been diagnosed with an early stage of AMD. Both trials compared simvastatin with placebo. The larger trial with 114 participants and conducted in Australia used a higher dose of 40 mg per day and had a treatment period of three years. The smaller trial with 30 participants and conducted in Italy used a lower dose of 20 mg per day and had a treatment period of three months. The evidence provided in the review was up-to-date as of June 2014.

Key results

Neither trial provided sufficient evidence to determine whether statins are effective in delaying the onset or progression of AMD. Information was lacking for outcomes related to vision, quality-of-life, and adverse events.

Quality of the evidence

The overall quality of the evidence was low. In the smaller trial, the number of participants enrolled in the trial and the short treatment period may not have been sufficient for detecting the effect of statins on AMD, a disease which develops over time. In the larger trial, 30% of participants did not attend the three year follow-up visit. The amount of missing data hindered our ability to draw any reliable conclusions for this trial.

BACKGROUND

Description of the condition

Age-related macular degeneration (AMD) is a progressive late onset disorder of the macula that affects central vision. Although AMD is the leading cause of blindness in people over 65 years in industrialized countries (Congdon 2003), its pathogenesis is not clearly understood. It is believed that both genetic and environmental factors play a significant role in the development of the disease.

Epidemiology

The prevalence, incidence, and rate of progression of AMD increase with age. The prevalence of any AMD (referred to as age-related maculopathy) in the Beaver Dam Eye Study was less than 10% in persons aged 43 to 54 years, but more than tripled for persons aged 75 to 85 years (AAO 2014; Klein 1992; Klein 2001). Joint data from the United States, Netherlands, and Australia indicate the prevalence for late AMD is 0.2% in the 55 to 64 year old age group, rising sharply to 13% in people over 85 years (Mitchell 1995; Smith 2001). The 10-year incidence of both early AMD and late AMD was 12.1% and 2.1% respectively in the Beaver Dam Eye Study (Klein 2002). Individuals 75 years of age or older at baseline had significantly higher 10-year incidences of both early and advanced AMD (Klein 2002). The main risk factors for the development and progression of AMD include increasing age, smoking, and ethnicity. Other reported risk factors include low levels of antioxidants, dietary fat, heart disease, hypertension, genetic influences, alcohol consumption, and sun-light (AAO 2014). Most of the epidemiologic studies have had few incident cases of advanced AMD on which they have based their conclusions. Also, the long interval between population surveys has meant that some incident cases were likely to have been missed due to deaths during the long intervals between follow-up examinations or surveys, so that the incidence and progression of AMD could not be assessed reliably.

Clinical presentation and diagnosis

The early manifestations of AMD are the presence of yellowish deposits known as drusen or retinal pigment epithelium abnormalities such as hypopigmentation or hyperpigmentation observed during retinal examination of eyes. In general, these early clinical signs are not associated with significant vision loss. However, a proportion of people with drusen and pigmentary changes will progress to advanced AMD with geographic atrophy (large area of atrophy centered in the macula) or choroidal revascularization, both of which can have severe effects on central visual function (AAO 2014; AREDS 2001; CAPT 2004; Smeeth 2005).

Description of the intervention

Currently the treatments used for neovascular AMD include agents that interfere with vascular endothelial growth factor (VEGF), such as ranibizumab (Lucentis), bevacizumab (Avastin), and aflibercept (Eylea). Administration of these drugs, however, requires repeat intravitreous injection. Although the neovascularization may no longer appear to be ’active’, visual recovery or preservation is neither complete nor universal. The risks and benefits of long term use are also not known (Solomon 2014). Photocoagulation and photodynamic therapy were shown to have some benefit in preventing severe visual loss but only in a small proportion of patients with neovascular AMD and only for a limited time after treatment (MPS 1991; MPS 1994; Virgili 2007; Wormald 2007). The evidence as to the benefits and harms of surgical injection or implantation of steroids with antiangiogenic properties for treating neovascular AMD is weak (Geltzer 2013). Antioxidant vitamin and mineral supplements were revealed in the Age-Related Eye Disease Study (AREDS) (AREDS 2001) to reduce progression to advanced AMD, both the neovascular (’wet’) form and the geographic atrophy (’dry’) form, in persons with intermediate AMD. However, aside from the AREDS formulation, there has been no proven medical intervention for preventing the onset and progression of this disease (Evans 2012b; Evans 2012a).

How the intervention might work

The burden of disease would be greatly diminished if a treatment could prevent or delay the onset of early AMD or the progression of early AMD to advanced AMD. Epidemiologic, genetic, and pathological evidence has shown that a number of risk factors are shared by AMD and atherosclerosis, leading to suggestions that statins, which are known to be beneficial in patients with atherosclerotic disease and hyperlipidemia, may exert protective effects in AMD.

Possible pharmacological mechanisms of statins in preventing AMD include the following (Guymer 2005).

• Serum lipid lowering effects: statins may alter the deposition or resorption characteristics, or both, of lipids in Bruch’s membrane (a thin semi-permeable cellular structure that acts as the basement membrane for the retinal pigment epithelium and effectively mediates metabolic exchange between the retina and the choroid).

• Preserving vascular supply: statins may preserve vascular supply to the outer retina through a protective effect against atherosclerosis (Friedman 2004).

• The anti-inflammatory actions of statins: inflammation may be important in AMD pathogenesis (Penfold 2001). The anti-inflammatory properties of statins may provide additional protective effects. Statins down regulate the activation of transcription factors NF-B, AP-1, and hypoxia-inducible factor-1. They therefore have potentially relevant anti-inflammatory and antiproliferative effects that are relevant in the treatment of atherosclerotic diseases (Dichtl 2003). Elevated intraocular levels of vascular endothelial growth factor (VEGF) have an important role in the development of choroidal neovascularization (CNV) in AMD. Prior work indicates that statins reduce plasma levels of VEGF and down regulate transcription factors involved in VEGF expression. It is therefore conceivable that systemic statin use may reduce the incidence and progression of CNV via such cellular and molecular effects (Dichtl 2003).

• The antioxidant effect of statins: oxidized lipids and low density lipoproteins (LDL) may be the initial stimulus leading to inflammation in AMD (Gurne 1991; Spaide 1999). Statins may protect the outer retina, Bruch’s membrane, and choroid from oxidative damage.

• Inhibition of metalloproteinases: statins may also inhibit secretion of matrix metalloproteinases, which may be involved in fissuring and rupture of plaques and development of neovascularization (Guymer 2005).

Why it is important to do this review

The high prevalence of AMD, the anticipated increase in the aged population, and the limited role of available effective treatments highlight the need to search for new treatment strategies that aim at preventing or delaying onset or progression of AMD. A number of observational studies have examined the relationship between AMD and the use of statins; the results have been contradictory. In the Rotterdam Study, those using statins for more than 12 months had a similar incidence of AMD to those not using these drugs (adjusted hazard ratio 1.1, 95% confidence interval (CI) 0.7 to 1.9) (van Leeuwen 2003). In the Beaver Dam Eye Study, the five-year incidence of neovascular AMD was not found to be associated with statin use (odds ratio (OR) 0.9, 95% CI 0.46 to 1.78) (Klein 2001). A more recent analysis by Klein et al found that a history of statin use was not associated with the five-year incidence of early AMD (OR 1.16, 95% CI 0.71 to 1.91), progression of AMD (OR 1.16, 95% CI 0.75 to 1.78), or incidence of late AMD (OR 1.27, 95% CI 0.60 to 2.69) (Klein 2007b). Similar negative results were reported from the Women’s Health Initiative Sight Examination (WHISE), an ancillary study to the Women’s Health Initiative’s clinical trial of hormone replacement therapy (Klein 2007a). One study suggests increased risk with statin use (McGwin 2006). On the contrary, animal experiments showed that pitavastatin (so-called vascular statin) suppressed the formation and development of CNV in rats (Sagara 2007). A strong inverse association between statin use and AMD was reported by Hall et al in a cross-sectional study with 392 participants (OR 0.14, 95% CI 0.02 to 0.83) (Hall 2001) and by McGwin et al in a study that involved 550 cases of AMD and 5500 controls (OR 0.3, 95% CI 0.21 to 0.45) (McGwin 2003). Tan et al found that statin use was protective for indistinct soft drusen (hazard ratio 0.33, 95% CI 0.13 to 0.84), a key late AMD precursor lesion, based on their analysis of data from the Blue Mountains Eye Study (Tan 2007). In a population-based cohort study Smeeth et al assessed the effect of statins on a range of health outcomes. A sample of 129,288 people who initiated treatment with a statin were compared with a matched sample of 600,241 people who did not initiate treatment. The hazard ratio of AMD among non-exposed to exposed study participants was 1.17 (99% CI 1.00 to 1.38), providing no evidence to support a beneficial effect of statin treatment with respect to AMD (Smeeth 2009). Observational and animal studies have methodological limitations and may be subject to bias and confounding. A systematic collection and summary of currently available data from high-quality clinical trials provide the best evidence regarding this issue.

OBJECTIVES

The objective of this review was to examine the effectiveness of statins compared with other treatments, no treatment, or placebo in delaying the onset and progression of AMD.

METHODS

Criteria for considering studies for this review

Types of studies

We included randomized controlled trials (RCTs) and quasi-RCTs in this review. Studies that did not use randomization to allocate participants but utilized techniques intended to allocate patients in an unbiased fashion were considered to be quasi-randomized trials (for example, allocation based on day of the week, year of birth, or hospital admission number of consecutive patients).

Types of participants

We included trials that enrolled participants who were diagnosed as having early stages of AMD with no signs of CNV as determined by their study criteria.

Types of interventions

We included trials comparing statins, which inhibit the enzyme 3-hydroxy 3-methylglutaryl CoA reductase, with other treatments, no treatment, or placebo. We planned to include trials that compared different types of statin therapy, as well as trials in which statins in combination with another treatment were compared with the other treatment alone.

Types of outcome measures

Primary outcomes

The primary outcome for comparison of interventions was the change in visual acuity, categorized by three or more lines loss, no change (within three lines from baseline), three or more lines improvement. When continuous LogMAR data were available we analyzed the visual acuity and degree of change as continuous data. The primary time of outcome assessment was at three years followup, with different follow-up times analyzed as reported.

Secondary outcomes

The secondary outcomes for comparison of interventions were onset and progression of AMD, and were defined as:

1. incidence of early signs of AMD using definitions specified in the included studies;

2. incidence of progression from early AMD to intermediate or late stages of AMD using definitions specified in the included studies.

Adverse outcomes

We tabulated all systemic and ocular adverse effects related to either statins or other treatments as reported in the included studies. Specific adverse effects of interest were:

1. ocular adverse effects;

2. systemic adverse effects.

Economic data

We planned to document cost-benefit analyses and other data on economic outcomes in the reported studies.

Quality-of-life data

We planned to assess quality-of-life data when validated measures were reported.

Search methods for identification of studies

Electronic searches

We searched CENTRAL (which contains the Cochrane Eyes and Vision Group Trials Register) (2014, Issue 6), Ovid MEDLINE, Ovid MEDLINE In-Process and Other Non-Indexed Citations, Ovid MEDLINE Daily, Ovid OLDMEDLINE (January 1946 to June 2014), EMBASE (January 1980 to June 2014), Latin American and Caribbean Health Sciences Literature Database (LILACS) (January 1982 to June 2014), PubMed (January 1946 to June 2014), the metaRegister of Controlled Trials (mRCT) (www.controlled-trials.com), ClinicalTrials.gov (www.clinicaltrials.gov), and the WHO International Clinical Trials Registry Platform (ICTRP) (www.who.int/ictrp/search/en). We did not use any date or language restrictions in the electronic searches for trials. We last searched the electronic databases on 5 June 2014.

See: Appendices for details of search strategies for CENTRAL (Appendix 1), MEDLINE (Appendix 2), EMBASE (Appendix 3), LILACS (Appendix 4), PubMed (Appendix 5), mRCT (Appendix 6), ClinicalTrials.gov (Appendix 7) and ICTRP (Appendix 8).

Searching other resources

We searched the reference lists of the trials included in the review for additional trials. We used the Science Citation Index to find studies that had cited the identified trials.

Data collection and analysis

Selection of studies

Two authors independently evaluated the titles and abstracts resulting from the electronic and manual searches to identify potentially relevant studies for inclusion. We obtained full copies of all potentially or definitely relevant articles. Two authors worked independently to determine which studies met the selection criteria. We resolved discrepancies by discussion. We documented the excluded studies and reasons for exclusion in the ‘Characteristics of excluded studies’ table.

Characteristics of excluded studies [ordered by study ID]

Study	Reason for exclusion
Berendschot 2009	Study participants were not randomized to statin use; randomized controlled trial of participants on statins assigned to one of three dietary groups (control margarine, plant sterol-enriched margarine, or plant stanolenriched margarine)
Della Valle 2000	Study participants were not randomized; control arm included participants who refused to use simvastatin for various reasons
Drobek-Slowik 2008	Study participants were not randomized; history of statin use for people with AMD compared with people without AMD
Maguire 2009	Study participants were not randomized to statin use; retrospective study based on a cohort of trial participants
Mao 2009	Not the outcome of interest; randomized controlled trial of participants with AMD assigned to statins or placebo; analyzed hemodynamic changes after three months (no vision-related outcomes assessed)
Sen 2002	The study was in patients with diabetic retinopathy

AMD: age-related macular degeneration

Data extraction and management

Two authors independently abstracted data from the included study published in English (Guymer 2013). One Italian speaking colleague (Dr Gianni Virgili) extracted data from the included study published in Italian (Martini 1991). This information was verified by a second Italian speaking colleague (Dr Fabrizio Giansanti). Study characteristics extracted included: study design, participant characteristics, interventions, and outcomes assessed. One review author entered all data into Review Manager (Review Manager 2014) and a second author verified the data entered.

Assessment of risk of bias in included studies

Two authors or colleagues (GV and FG) assessed the risk of bias of included studies according to the methods described in Chapter 8 of the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011). The following parameters were considered: 1) sequence generation; 2) allocation concealment; 3) masking (blinding) of participants, personnel and outcome assessors; 4) incomplete outcome data; 5) selective outcome reporting; 6) other sources of bias. Each included study was judged to be at low risk of bias, high risk of bias, or unclear risk of bias for each parameter.

Measures of treatment effect

We followed guidelines in Chapter 9 of the Cochrane Handbook for Systematic Reviews of Interventions (Deeks 2011). Martini 1991 reported the decimal visual acuity (for example, 20/20 = 1.0; 20/25 = 0.8, … 20/200 = 0.10, etc) and standard deviation by trial group. The authors, however, did not report the mean difference between the two treatment arms (P value was mentioned). The mean difference in visual acuity could be calculated based on available data; however, the 95% CI could not be calculated because decimal visual acuity generally does not follow a normal or near-normal distribution.

Dealing with missing data

We contacted authors of RCT reports in an effort to retrieve unreported outcome information. We did not impute data for the purposes of this review; however, we used imputed data when reported in the included study reports and documented how missing data were handled. We will update the review when additional data become available.

Data synthesis

We did not perform a meta-analysis as only two trials were included and each trial reported different outcomes. We will consider meta-analysis when additional data become available.

Sensitivity analysis

We did not perform sensitivity analyses to determine the impact of exclusion of studies with lower methodological quality, exclusion of unpublished studies, or exclusion of industry-funded studies because no meta-analysis was conducted. We will perform a sensitivity analysis when data become available from additional clinical trials.

RESULTS

Description of studies

Results of the search

The electronic searches from 30 April 2009 retrieved 97 titles and abstracts, of which five appeared to be relevant. After examining the full text we excluded three reports of two studies (Della Valle 2000; Sen 2002), included one study (Martini 1991), and identified one ongoing study (Guymer 2013).

Updated electronic searches on 16 September 2011 retrieved 35 additional titles and abstracts. Of these 35 records, we assessed three in full and excluded two studies (Drobek-Slowik 2008; Maguire 2009) as they were not RCTs. We included another report from the ongoing study first published as an abstract in 2005 (Guymer 2013).

As of 5 June 2014, revised and updated searches yielded 187 new records (Figure 1). We assessed four potentially relevant reports in full, excluding two studies (Berendschot 2009; Mao 2009) and including two reports from the completed Guymer 2013 study. Overall, we excluded six studies and included two distinct trials in this review.

Figure 1.

Results for searching for studies for inclusion in the review.

Included studies

We included two studies with 144 total participants. The studies included men and women with good baseline visual acuity who were at risk for AMD (presence of drusen). Guymer 2013 included participants with normal cholesterol levels, whereas Martini 1991 included participants with high cholesterol levels (above 260 mg/dL). Guymer 2013, the larger study, enrolled 114 participants and was conducted in Australia. Martini 1991, the smaller study, enrolled 30 participants and was conducted in Italy. Both studies compared simvastatin with placebo: Guymer 2013 used a higher dose (40 mg/day) long-term (3 years) and Martini 1991 used a lower dose (20 mg/day) short-term (3 months). Although both studies assessed vision-related outcomes, they used different outcome definitions and time points precluding pooling of data. Only Guymer 2013 reported AMD-related outcomes and adverse events. The primary outcome of Martini 1991 was serum cholesterol level, which was not an outcome assessed in this review.

Excluded studies

We excluded six studies because they did not meet our inclusion criteria: four were not RCTs of statin use (Berendschot 2009; Della Valle 2000; Drobek-Slowik 2008; Maguire 2009), one enrolled participants with diabetic retinopathy (Sen 2002), and one did not include outcomes relevant to this review (Mao 2009). See: ‘Characteristics of excluded studies’ table.

Risk of bias in included studies

Risk of bias assessments are summarized in Figure 2. We judged Martini 1991 to be at unknown (’unclear’) risk of bias on all domains assessed (see ’Risk of bias in included studies’ table) because insufficient methodological details were reported.

Figure 2.

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

Allocation

Risk of selection bias was low for Guymer 2013 and unclear for Martini 1991. Guymer 2013 used a robust method of generating the random sequence by using permuted blocks of randomly varying size and storing the allocation list remotely.

Masking (performance bias and detection bias)

We assessed the methods used for masking as adequate for Guymer 2013 and unclear for Martini 1991. Guymer 2013 implemented proper masking of appropriate personnel. Each intervention, simvastatin and placebo, was identically packaged and properly masked limiting performance and detection bias.

Incomplete outcome data

Outcome data were missing for > 25% of participants in Guymer 2013, causing this trial to be judged at high risk of attrition bias. Authors of Guymer 2013 disclosed that 34/114 (30%) participants, 20/57 (35%) participants in the simvastatin group and 14/57 (25%) participants in the placebo group, missed the 3-year follow-up examination. As a result, the authors carried forward the AMD assessment from the last follow-up visit in their analysis of outcomes. However, use of the last-observation-carried-forward method is not a robust analytic practice in most situations (Li 2013) and may not be appropriate when measuring a progressive disease such as AMD.

Selective reporting

Guymer 2013 published results for their primary outcome as stated in their 1998 protocol; thus we assessed the trial to be at low risk of reporting bias. No protocol for Martini 1991 was available and we assessed the trial to be at unclear risk of selective outcome reporting.

Other potential sources of bias

Guymer 2013 reported imbalances between the statin and placebo groups with respect to participants with unilateral advanced AMD and smoking at baseline, with the statin group thus at higher risk of progression to advanced AMD.

Effects of interventions

Due to heterogeneity in outcome measures and time points between studies, we did not combine the study results in a meta-analysis.

Change in visual acuity

Neither trial reported change in visual acuity at three years followup, the primary outcome and time point for this review. Although visual acuity data wasn’t reported at three years in Guymer 2013, possibly because progression of AMD was their primary outcome and not visual acuity, data were reported in preliminary 12-month results. Analyses of 42 participants (19 in simvastatin arm and 23 in placebo arm) who completed 12 months follow-up showed no statistically significant difference between the two groups in visual acuity, drusen score, or visual function (effect estimates and CIs were not available). We contacted the trial investigators and will update the review as data become available.

In Martini 1991, analysis of 30 participants after three months of treatment showed similar results between the simvastatin and placebo groups in terms of visual acuity (decimal visual acuity 0.21 ± 0.56 in simvastatin group and 0.19 ± 0.40 in placebo group). The authors did not report values for mean changes in visual acuity. Visual acuity results were also similar at 45 days after the completion of the treatment period (decimal visual acuity 0.20 ± 0.50 in the simvastatin group and 0.19 ± 0.48 in the placebo group).

Onset and progression of AMD

Guymer 2013 used the last-observation-carried-forward method to account for AMD assessment data for 34 of 144 (24%) participants who missed the three-year follow-up visit. Participants assigned to simvastatin had a lower, but not statistically significant, odds of having AMD progression at three years compared with participants in the placebo group (OR 0.51, 95% CI 0.23 to 1.09). Martini 1991 did not report onset or progression of AMD but reported that the lens and retina status were unchanged during and after the treatment period for both groups.

Adverse outcomes

Guymer 2013 reported that adverse events occurred in 25/57 (44%) participants in the simvastatin group and 39/57 (68%) participants in the placebo group. Reported adverse events included death, muscle aches, and acute hepatitis. Participants did not have abnormal liver function. Martini 1991 did not report adverse events.

Economic and quality-of-life outcomes

Neither economic nor quality-of-life outcomes were reported from either study.

DISCUSSION

Summary of main results

We identified two RCTs, a total of 144 participants, comparing simvastatin with placebo. We did not perform meta-analysis due to the heterogeneity between the trials; Guymer 2013 used a higher dose (40 mg/day) of simvastatin over a longer time period (3 years) and Martini 1991 used a lower dose (20 mg/day) of simvastatin in a shorter time period (3 months). This review did not find sufficient evidence to determine the effectiveness and safety of statins to prevent or delay the progression of AMD.

Overall completeness and applicability of evidence

One trial (Martini 1991) had a small sample size of 30 participants at an early stage of disease. The second trial (Guymer 2013) had a larger sample size of 114 participants, but 30% of participants missed the 3-year follow-up. The evidence appears to be incomplete given that slightly less than one-third of the participants did not complete the last follow-up visit in the largest trial. The two included trials were limited to simvastatin. It is unknown whether other statins have similar or different effects. This evidence is applicable to participants at an earlier stage of the disease. Since the studies included participants with early AMD, the applicability of these findings to those with advanced AMD is unknown. The primary outcomes differed between the two studies, and neither trial reported change in visual acuity at three years follow-up as an outcome. The trials were conducted in Italy and Australia and the applicability of this evidence to other settings, such as the US and developing countries, is unknown. Limited information was available on whether findings were different across age and gender categories.

Quality of the evidence

Visual acuity was assessed at the completion of treatment (three months from baseline) and 45 days afterwards in Martini 1991. Because of the slow progressive nature of the disease, the short duration of treatment and follow-up may not provide useful information about the effectiveness of treatment. It may be that it was too short a period of treatment or follow-up to show an effect. In addition, the trial was graded as unclear for risk of bias because of insufficient methodological details. Although no ophthalmological adverse effects were reported during the study period, there was still a degree of uncertainty about the accuracy of this finding because of the short period of follow-up.

Progression and onset of AMD were assessed at three-year followup in Guymer 2013. However, the level of missing data was about 30% and the trial investigators used the last-observation-carried-forward method to account for the missing data. This method of dealing with missing data is not robust and may not be appropriate in assessing outcomes for progressive diseases, thus making the conclusions unreliable.

Potential biases in the review process

We followed standard methodological procedures recommended by The Cochrane Collaboration in order to minimize potential biases in the review process.

The absence of evidence on harms in the Martini 1991 trial may relate to the short duration of follow-up and inadequate power of the trial to detect meaningful differences in important but infrequent events between treatment groups. The long-term treatment and follow-up of the participants in the larger Guymer 2013 trial provide more information about the effectiveness of treatment and the potential harms; however, caution is needed in interpreting these results as data were missing for a substantial proportion of participants.

Agreements and disagreements with other studies or reviews

The American Academy of Ophthalmology does not list statins as a treatment option for AMD, which is consistent with our finding of inadequate evidence to support the use of statins to slow progression of early AMD. We also found little or no evidence that statins improve visual acuity outcomes in AMD.

AUTHORS’ CONCLUSIONS

Implications for practice

There is insufficient evidence from RCTs to justify the use of statins to delay the onset and progression of AMD or to improve visual acuity. The American Academy of Ophthalmology does not list statins as a treatment option for AMD, which is consistent with the results of the review.

Implications for research

Challenges exist in answering the question of whether statins have beneficial effect in the prevention and treatment of AMD. Because of the slow progressive nature of the disease, trials with a short duration of treatment or follow-up, or with a small sample size, provide limited information about the effectiveness of statins in the prevention and treatment of AMD. Given that direct treatments for AMD are available (e.g., anti-VEGF therapy) and a large proportion of older adults in the western populations are already on statins, it is unlikely that a new RCT would be designed to answer this question specifically. We envision that subsequent data addressing the effectiveness of statins for AMD would come from RCTs evaluating a separate clinical question in which AMD participants are included as a subgroup or AMD is analyzed as a secondary outcome. Future updates of this systematic review may provide conclusive findings to this question.

Characteristics of included studies [ordered by study ID]

Guymer 2013
Methods	Study design: randomized controlled trial Number randomized: 114 total; 57 simvastatin; 57 placebo Exclusions after randomization: none Number analyzed: at 36 months: 114 total; 57 simvastatin; 57 placebo Unit of analysis: individuals Losses to follow up: 34 participants total; 20 simvastatin; 14 placebo How was missing data handled?: last-observation-carried-forward method used for 34 participants; 11 participants with baseline data only and 23 participants who missed the 3-year follow-up visit Power calculation: 58 participants in each arm for power of 80% at alpha 0.05 to detect a 50% reduction in progression of disease
Participants	Country: Australia Mean age: 74.6 years overall; 74.8 years for simvastatin group; 74.4 years for placebo group Gender: 77/114 (68%) women 37/114 (32%) men total 39/57 (68%) women 18/57 (32%) men in the simvastatin group 38/57 (67%) women 19/57 (33%) men in the placebo group Inclusion criteria: 1) males and females aged 50 years and older; 2) able to assess the macula in at least one eye; 3) visual acuity ≥ 20/60 in study eye; 4) high risk drusen in both eyes: one or more large soft drusen, > 10 intermediate drusen, or late AMD in one eye and any drusen or pigment change in study eye; 5) normal cholesterol levels; and 6) not currently on cholesterol-lowering medications Exclusion criteria: 1) bilateral end-stage AMD; 2) medical or ophthalmic conditions which could potentially affect visual function, such as cataract, diabetes, glaucoma; 3) use of medications that may affect visual function, such as plaquenil, chloroquine, major tranquillizers; 4) currently on cholesterol-lowering medication; 5) use of statins is contraindicated; 6) alanine aminotransferase (ALT) two times the upper limit of normal; and 7) previous severe adverse or allergic reactions to statins Equivalence of baseline characteristics: no; more participants in simvastatin group had unilateral advanced AMD as compared with placebo; less smokers in placebo group than simvastatin group
Interventions	Intervention 1: two tablets of simvastatin (40 mg daily) for three years Intervention 2: placebo with an identical appearance for three years Length of follow-up: Planned: three years Actual: three years
Outcomes	Primary outcome, as defined in study reports: “Primary outcome was progression of non-advanced AMD to either advanced AMD or higher severity scores of non-advanced AMD”, evaluated every 6 months. “Advanced AMD was defined as presence of either CNV or geographic atrophy (GA). CNV was confirmed on angiography and GA was defined as an area of hypopigmentation 175 mm with a choroidal vessel in its base on colour photography.” Secondary outcomes, as defined in study reports: (1) change in visual function over time; (2) genotype as an effectmodifier of the association between statins and progression of AMD Adverse events reported: yes Intervals at which outcomes assessed: 1, 6, 12, 18, 24, 30, and 36 months
Notes	Funding sources: Ian Potter Foundation, John Reid Charitable Trust and Royal Victorian Eye and Ear Hospital; National Health and Medical Research Council (NHMRC) supported the study through a Centre for Clinical Research Excellence award to CERA (#529923), a Practitioner Fellowship (#529905) and a Senior Research Fellowship (#1028444); Wagstaff Fellowship; Victorian Government Disclosures of interest: co-author Paul Baird is a PLOS ONE Editorial Board member Study period: 3 years; 2003 to 2006 Reported subgroup analyses: yes Trial investigators provided information on loss to follow-up by intervention at three year follow-up (email communication) Trial reported at ARVO (abstract); trial registration number: ACTRN12605000320651 (registered at WHO International Clinical Trials Registry Platform)
Risk of bias
Bias	Authors’ judgement	Support for judgement
Random sequence generation (selection bias)	Low risk	“Randomization was performed by a bio- statistician using permuted blocks of randomly varying size.”
Allocation concealment (selection bias)	Low risk	“The hospital pharmacist packed the medication into identical containers according to the randomization code. The sequentially numbered containers were allocated to the participants by the study coordinator in order of enrolment.” “The allocation list was stored at a remote site.”
Masking (performance bias and detection bias)	Low risk	“The study staff, the participants, and data analysts were masked to treatment allocation until the analysis was finalised.”
Incomplete outcome data (attrition bias) All outcomes	High risk	Data missing for 34/114 (30%) participants at 3 years follow-up: 20/57 (35%) in the simvastatin group and 14/57 (25%) in the placebo group. Reasons for missing the 3-year visit were: personal, poor health, unable to contact, adverse reaction to study medication, reached late AMD, sick at 3-year follow-up, deceased, or developed macular hole. The study investigators imputed missing data using the last-observation-carried-forward method
Selective reporting (reporting bias)	Low risk	Primary and secondary outcomes reported in the 2013 results paper matched the protocol published in 2008
Other bias	Unclear risk	“Analysis was done ‘by person’ and used the data from the eye showing greatest progression. If one eye of a person worsened and the other eye showed improvement, the person was classified as having progressed”, but AMD progression by eye also was reported; at baseline, “the number of participants with unilateral advanced AMD was twice as large in the simvastatin group compared to the placebo group (x2 = 9.2, P = 0.002). Smoking also was less prevalent in the placebo group; the difference was marginally significant (x2 = 3.5, P = 0.06).”
Martini 1991
Methods	Study design: randomized controlled trial Number randomized: 30 participants total; 15 in each group Exclusions after randomization: none reported Number analyzed: 30 participants total; 15 in each group Unit of analysis: individuals Losses to follow up: none reported How was missing data handled?: not applicable Power calculation: none reported
Participants	Country: Italy Age: greater than 60 years Gender: not reported Inclusion criteria: participants with drusen (no CNV), good visual acuity (mean 0.52 LogMAR) and serum cholesterol level > 260 mg/dL Exclusion criteria: participants’ age less than 60 years Equivalence of baseline characteristics: not reported
Interventions	Intervention 1: simvastatin (20 mg daily) for 3 months Intervention 2: placebo for 3 months Length of follow-up: Planned: 4.5 months Actual: 4.5 months
Outcomes	Primary outcome, as defined in study reports: 1) serum cholesterol levels Secondary outcomes, as defined in study reports: 2) visual acuity; 3) microscopic eye examination; 4) fluorescein angiography; 5) electroretinography, and 6) visual evoked potentials Adverse events reported: no Intervals at which outcomes assessed: baseline, 3 months and 4.5 months
Notes	Funding sources: not reported Disclosures of interest: not reported Study period: not reported Reported subgroup analyses: no Attempted to contact trial investigators, but no reliable contact information found Article in Italian
Risk of bias
Bias	Authors’ judgement	Support for judgement
Random sequence generation (selection bias)	Unclear risk	No description was found in the article
Allocation concealment (selection bias)	Unclear risk	No description was found in the article
Masking (performance bias and detection bias)	Unclear risk	No description was found in the article
Incomplete outcome data (attrition bias) All outcomes	Unclear risk	No description was found in the article
Selective reporting (reporting bias)	Unclear risk	No description was found in the article
Other bias	Unclear risk	Inadequate information reported

AMD: age-related macular degeneration

CNV: choroidal neovascularization

mg/dL: milligrams per deciliter

APPENDICES

Appendix 1. CENTRAL search strategy

• #1 MeSH descriptor: [Retinal Degeneration] explode all trees

• #2 MeSH descriptor: [Macular Degeneration] explode all trees

• #3 MeSH descriptor: [Retinal Neovascularization] explode all trees

• #4 MeSH descriptor: [Choroidal Neovascularization] explode all trees

• #5 MeSH descriptor: [Macula Lutea] explode all trees

• #6 ((macul* or retina* or choroid*) near/4 degener*)

• #7 ((macul* or retina* or choroid*) near/4 neovasc*)

• #8 maculopath*

• #9 (macul* near/2 lutea*)

• #10 (macul* near/3 dystroph*)

• #11 (macul* near/2 syndrome)

• #12 ((macul* or geographic) near/2 atroph*)

• #13 ((macul* or retina*) near/2 edema*)

• #14 (AMD or ARMD or CNV)

• #15 {or #1-#14}

• #16 MeSH descriptor: [Hydroxymethylglutaryl-CoA Reductase Inhibitors] explode all trees

• #17 (Statin* or vastatin*)

• #18 (“hmg coenzyme” or “hmg co-enzyme”)

• #19 ((HMG near/3 COA*):ti,ab or (HMG near/3 “Co A”))

• #20 3-hydroxy-3-methylglutaryl

• #21 hydroxymethylglutaryl*

• #22 (hydroxymethyl near/3 glutaryl)

• #23 Atorvastatin* or liptonorm or Atorlip or atovarol or ci981 or “CI 981” or glustar or lipibec or lipitor or lowlipen or sortis or storvas or tahor or torvast or “ym 548” or ym548 or zarator or ezetimibe* or liptruzet or Ramipril* or “atocor R”

• #24 Cerivastatin or Kazak or rivastatin or Certa or “Bay w 6228” or “bay w6228” or Baycol or Lipobay

• #25 Bervastatin or “ls 2904” or ls2904

• #26 Crilvastatin or “pmd 387” or pmd387

• #27 dalvastatin or rg12561 or “rg 12561”

• #28 Fluvastatin or fluindostatin or Lescol or “XU 62-320” or “XU 62320” or xu62320 or canef or cranoc or “fractal lp” or leucol or lochol or locol or “sri 62320” or sri62320 or vastin

• #29 Glenvastatin or “hr 780” or hr780

• #30 MeSH descriptor: [Lovastatin] explode all trees

• #31 Lovastatin* or Mevinolin or “Monacolin K” or “6 Methylcompactin” or “MK 803” or MK803 or mk0803 or Mevacor or altocor or altoprev or artein or belvas or birotin or cholestra or cysin or ellanco or elstatin or “l 654969” or lipdip or lipivas or lofacol or lomar or lostatin or lovacel or lovacol or lovalip or lovalord or lovastan or lovasterol or lovastin or lovatadin or lowachol or lozutin or medostatin or meverstin or mevinacor or monakolin k or “msd 803” or neolipid or nergadan or ovasta or rodatin or rovacor or taucor or advicor

• #32 MeSH descriptor: [Meglutol] explode all trees

• #33 Meglutol or “3 Hydroxy 3 methylpentanedioic Acid” or “beta Hydroxy beta Methylglutarate” or “3 Hydroxy 3 methylglutaric Acid”

• #34 Mevastatin or compactin or mevastin or 6-demethylmevinolin or “CS 500” or CS500 or “ML 236B” or ML236B

• #35 mevinolin* or monacolin*

• #36 “Phosphoadenosine diphosphoribose” or “phospho-ADP ribose”

• #37 Pitavastatin or nisvastatin or itavastatin or alipza or itavastatin or livalo or livazo or pitava or ribar or vezepra or “P 872441” or “NK 104” or “nk104” or “nks 104” or nks104

• #38 MeSH descriptor: [Pravastatin] explode all trees

• #39 Pravastatin* or Eptastatin or Vasten or “CS 514” or CS514 or Lipemol or Liplat or Nu-Pravastatin or Prareduct or Mevalotin or Pravachol or Elisor or Selektine or Pravacol or Pravasin or Lipostat or “RMS 431” or RMS431 or “SQ 31000” or SQ31000 or “SQ 31,000” or SQ31,000 or Bristacol or astin or bristacol or cholespar or epatostantin or eptastatine or kenstatin or lipidal or liprevil or novales or prascolend or prastan or prava or pravaselect or pravasine or pravator or pravyl or sanaprav or selipran or stanidine or vasopran or xipral or pravafenix

• #40 Rosuvastatin* or ZD4522 or “ZD 4522” or Crestor or rosuvas or “s 4522” or s4522 or certriad

• #41 MeSH descriptor: [Simvastatin] explode all trees

• #42 Simvastatin* or Synvinolin or “MK 733” or MK733 or Zocor or avastinee or cholestat or clinfar or colastatina or colestricon or covastin or denan or epistatin or esvat or ethicol or eucor or ifistatin or kavelor or klonastin or kolestevan or “l 644128” or l644128 or lipecor or lipex or lipinorm or liponorm or lipovas or lodales or medipo or mersivas or nor-vastina or normofat or orovas or rechol or simbado or simcard or simchol or simovil or simtin or simvacor or simvahex or simvalord or simvastar or simvata or simvatin or simvor or simvotin or sinvacor or sinvastatin or sinvinolin or sivastin or starzoco or torio or valemia or vasilip or vasotenal or vazim or vidastat or zimmex or zocord or zovast or inegy or vytorin or zetsim or zintrepid or cholib or fenofibrate* or niacin-simvastatin or simcor or rosiglitazone-simvastatin or avandastat or sitagliptin-simvastatin or sitagliptin phosphate* or juvisync

• #43 tenivastatin

• #44 {or #16-#43}

• #45 #15 and #44

Appendix 2. MEDLINE (OvidSP) search strategy

1. Randomized Controlled Trial.pt.

2. Controlled Clinical Trial.pt.

3. (randomized or randomised).ab,ti.

4. placebo.ab,ti.

5. drug therapy.fs.

6. randomly.ab,ti.

7. trial.ab,ti.

8. groups.ab,ti.

9. 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8

10. exp animals/not humans.sh.

11. 9 not 10

12. exp Macular Degeneration/

13. exp Retinal Degeneration/

14. exp Retinal Neovascularization/

15. exp Choroidal Neovascularization/

16. exp Macula Lutea/

17. ((macul* or retina* or choroid*) adj4 degener*).tw.

18. ((macul* or retina* or choroid*) adj4 neovasc*).tw.

19. Maculopath*.tw.

20. (macul* adj2 lutea*).tw.

21. (macul* adj3 dystroph*).tw.

22. (macul* adj2 syndrome).tw.

23. ((macul* or geographic) adj2 atroph*).tw.

24. ((macul* or retina*) adj2 edema*).tw.

25. (AMD or ARMD or CNV).tw.

26. or/12–25

27. exp Hydroxymethylglutaryl-CoA Reductase Inhibitors/

28. (Statin* or vastatin*).tw.

29. ((HMG adj3 COA*) or (HMG adj3 Co A)).tw.

30. (hmg coenzyme or hmg co-enzyme).tw.

31. 3-hydroxy-3-methylglutaryl*.tw.

32. hydroxymethylglutaryl*.tw.

33. (hydroxymethyl adj3 glutaryl).tw.

34. (Atorvastatin* or liptonorm or Atorlip or atovarol or ci981 or “CI 981” or glustar or lipibec or lipitor or lowlipen or sortis or storvas or tahor or torvast or “ym 548” or ym548 or zarator or ezetimibe* or liptruzet or Ramipril* or “atocor R”).tw.

35. (Bervastatin or “ls 2904” or ls2904).tw.

36. (Cerivastatin or Kazak or rivastatin or Certa or “Bay w 6228” or “bay w6228” or Baycol or Lipobay).tw.

37. (Crilvastatin or “pmd 387” or pmd387).tw.

38. (dalvastatin or rg12561 or “rg 12561”).tw.

39. (Fluvastatin or fluindostatin or Lescol or “XU 62-320” or “XU 62320” or xu62320 or canef or cranoc or “fractal lp” or leucol or lochol or locol or “sri 62320” or sri62320 or vastin).tw.

40. (Glenvastatin or “hr 780” or hr780).tw.

41. exp Lovastatin/

42. (Lovastatin* or Mevinolin or “Monacolin K” or “6 Methylcompactin” or “MK 803” or MK803 or mk0803 or Mevacor or altocor or altoprev or artein or belvas or birotin or cholestra or cysin or ellanco or elstatin or “l 654969” or lipdip or lipivas or lofacol or lomar or lostatin or lovacel or lovacol or lovalip or lovalord or lovastan or lovasterol or lovastin or lovatadin or lowachol or lozutin or medostatin or meverstin or mevinacor or monakolin k or “msd 803” or neolipid or nergadan or ovasta or rodatin or rovacor or taucor or advicor).tw.

43. exp Meglutol/

44. (Meglutol or “3 Hydroxy 3 methylpentanedioic Acid” or “beta Hydroxy beta Methylglutarate” or “3 Hydroxy 3 methylglutaric Acid”).tw.

45. (Mevastatin or compactin or mevastin or 6-demethylmevinolin or “CS 500” or CS500 or “ML 236B” or ML236B).tw.

46. (mevinolin* or monacolin*).tw.

47. (“Phosphoadenosine diphosphoribose” or “phospho-ADP ribose”).tw.

48. (Pitavastatin or nisvastatin or itavastatin or alipza or itavastatin or livalo or livazo or pitava or ribar or vezepra or “P 872441” or “NK 104” or “nk104” or “nks 104” or nks104).tw.

49. exp Pravastatin/

50. (Pravastatin* or Eptastatin or Vasten or “CS 514” or CS514 or Lipemol or Liplat or Nu-Pravastatin or Prareduct or Mevalotin or Pravachol or Elisor or Selektine or Pravacol or Pravasin or Lipostat or “RMS 431” or RMS431 or “SQ 31000” or SQ31000 or “SQ 31,000” or SQ31,000 or Bristacol or astin or bristacol or cholespar or epatostantin or eptastatine or kenstatin or lipidal or liprevil or novales or prascolend or prastan or prava or pravaselect or pravasine or pravator or pravyl or sanaprav or selipran or stanidine or vasopran or xipral or pravafenix).tw.

51. (Rosuvastatin* or ZD4522 or “ZD 4522” or Crestor or rosuvas or “s 4522” or s4522 or certriad).tw.

52. exp Simvastatin/

53. (Simvastatin* or Synvinolin or “MK 733” or MK733 or Zocor or avastinee or cholestat or clinfar or colastatina or colestricon or covastin or denan or epistatin or esvat or ethicol or eucor or ifistatin or kavelor or klonastin or kolestevan or “l 644128” or l644128 or lipecor or lipex or lipinorm or liponorm or lipovas or lodales or medipo or mersivas or nor-vastina or normofat or orovas or rechol or simbado or simcard or simchol or simovil or simtin or simvacor or simvahex or simvalord or simvastar or simvata or simvatin or simvor or simvotin or sinvacor or sinvastatin or sinvinolin or sivastin or starzoco or torio or valemia or vasilip or vasotenal or vazim or vidastat or zimmex or zocord or zovast or inegy or vytorin or zetsim or zintrepid or cholib or fenofibrate* or niacin-simvastatin or simcor or rosiglitazone-simvastatin or avandastat or sitagliptin-simvastatin or sitagliptin phosphate* or juvisync).tw.

54. tenivastatin.tw.

55. or/27–54

56. 11 and 26 and 55

    The search filter for trials at the beginning of the MEDLINE strategy was from the published paper by Glanville (Glanville 2006).

Appendix 3. EMBASE.com search strategy

• #1 ’randomized controlled trial’/exp

• #2 ’randomization’/exp

• #3 ’double blind procedure’/exp

• #4 ’single blind procedure’/exp

• #5 random*:ab,ti

• #6 #1 OR #2 OR #3 OR #4 OR #5

• #7 ’animal’/exp OR ’animal experiment’/exp

• #8 ’human’/exp

• #9 #7 AND #8

• #10 #7 NOT #9

• #11 #6 NOT #10

• #12 ’clinical trial’/exp

• #13 (clin* NEAR/3 trial*):ab,ti

• #14 ((singl* OR doubl* OR trebl* OR tripl*) NEAR/3 (blind* OR mask*)):ab,ti

• #15 ’placebo’/exp

• #16 placebo*:ab,ti

• #17 random*:ab,ti

• #18 ’experimental design’/exp

• #19 ’crossover procedure’/exp

• #20 ’control group’/exp

• #21 ’latin square design’/exp

• #22 #12 OR #13 OR #14 OR #15 OR #16 OR #17 OR #18 OR #19 OR #20 OR #21

• #23 #22 NOT #10

• #24 #23 NOT #11

• #25 ’comparative study’/exp

• #26 ’evaluation’/exp

• #27 ’prospective study’/exp

• #28 control*:ab,ti OR prospectiv*:ab,ti OR volunteer*:ab,ti

• #29 #25 OR #26 OR #27 OR #28

• #30 #29 NOT #10

• #31 #30 NOT (#11 OR #23)

• #32 #11 OR #24 OR #31

• #33 ’retina maculopathy’/exp

• #34 ’retina degeneration’/exp

• #35 ’retina macula degeneration’/exp

• #36 ’retina neovascularization’/exp

• #37 ’subretinal neovascularization’/exp

• #38 ’retina macula lutea’/exp

• #39 ((macul* OR retina* OR choroid*) NEAR/4 degener*):ab,ti

• #40 ((macul* OR retina* OR choroid*) NEAR/4 neovasc*):ab,ti

• #41 maculopath*:ab,ti

• #42 (macul* NEAR/2 lutea*):ab,ti

• #43 (macul* NEAR/3 dystroph*):ab,ti

• #44 (macul* NEAR/2 syndrome):ab,ti

• #45 ((macul* OR geographic) NEAR/2 atroph*):ab,ti

• #46 ((macul* OR retina*) NEAR/2 edema*):ab,ti

• #47 amd:ab,ti OR armd:ab,ti OR cnv:ab,ti

• #48 #33 OR #34 OR #35 OR #36 OR #37 OR #38 OR #39 OR #40 OR #41 OR #42 OR #43 OR #44 OR #45 OR #46 OR #47

• #49 ’hydroxymethylglutaryl coenzyme a reductase inhibitor’/exp

• #50 statin*:ab,ti OR vastatin*:ab,ti

• #51 ’hmg coenzyme’:ab,ti OR ’hmg co-enzyme’:ab,ti

• #52 (hmg NEAR/3 coa*):ab,ti OR (hmg NEAR/3 ’co a’):ab,ti

• #53 ’3 hydroxy 3 methylglutaryl’:ab,ti

• #54 hydroxymethylglutaryl*:ab,ti

• #55 (hydroxymethyl NEAR/3 glutaryl):ab,ti

• #56 atorvastatin*:ab,ti OR liptonorm:ab,ti OR atorlip:ab,ti OR atovarol:ab,ti OR ci981:ab,ti OR ‘ci 981’:ab,ti OR glustar:ab,ti OR lipibec:ab,ti OR lipitor:ab,ti OR lowlipen:ab,ti OR sortis:ab,ti OR storvas:ab,ti OR tahor:ab,ti OR torvast:ab,ti OR ‘ym 548’:ab,ti OR ym548:ab,ti OR zarator:ab,ti OR ezetimibe*:ab,ti OR liptruzet:ab,ti OR ramipril*:ab,ti OR ’atocor r’:ab,ti

• #57 cerivastatin:ab,ti OR kazak:ab,ti OR rivastatin:ab,ti OR certa:ab,ti OR ‘bay w 6228’:ab,ti OR ‘bay w6228’:ab,ti OR baycol:ab,ti OR lipobay:ab,ti

• #58 bervastatin:ab,ti OR ‘ls 2904’:ab,ti OR ls2904:ab,ti

• #59 crilvastatin:ab,ti OR ‘pmd 387’:ab,ti OR pmd387:ab,ti

• #60 dalvastatin:ab,ti OR rg12561:ab,ti OR ‘rg 12561’:ab,ti

• #61 fluvastatin:ab,ti OR fluindostatin:ab,ti OR lescol:ab,ti OR ‘xu 62-320’:ab,ti OR ‘xu 62320’:ab,ti OR xu62320:ab,ti OR canef: ab,ti OR cranoc:ab,ti OR ’fractal lp’:ab,ti OR leucol:ab,ti OR lochol:ab,ti OR locol:ab,ti OR ‘sri 62320’:ab,ti OR sri62320:ab,ti OR vastin:ab,ti

• #62 glenvastatin:ab,ti OR ‘hr 780’:ab,ti OR hr780:ab,ti

• #63 lovastatin*:ab,ti OR mevinolin:ab,ti OR ’monacolin k’:ab,ti OR ’6 methylcompactin’:ab,ti OR ‘mk 803’:ab,ti OR mk803:ab,ti OR mk0803:ab,ti OR mevacor:ab,ti OR altocor:ab,ti OR altoprev:ab,ti OR artein:ab,ti OR belvas:ab,ti OR birotin:ab,ti OR cholestra: ab,ti OR cysin:ab,ti OR ellanco:ab,ti OR elstatin:ab,ti OR ‘l 654969’:ab,ti OR lipdip:ab,ti OR lipivas:ab,ti OR lofacol:ab,ti OR lomar: ab,ti OR lostatin:ab,ti OR lovacel:ab,ti OR lovacol:ab,ti OR lovalip:ab,ti OR lovalord:ab,ti OR lovastan:ab,ti OR lovasterol:ab,ti OR lovastin:ab,ti OR lovatadin:ab,ti OR lowachol:ab,ti OR lozutin:ab,ti OR medostatin:ab,ti OR meverstin:ab,ti OR mevinacor:ab,ti OR ’monakolin k’:ab,ti OR ‘msd 803’:ab,ti OR neolipid:ab,ti OR nergadan:ab,ti OR ovasta:ab,ti OR rodatin:ab,ti OR rovacor:ab,ti OR taucor:ab,ti OR advicor:ab,ti

• #64 meglutol:ab,ti OR ’3 hydroxy 3 methylpentanedioic acid’:ab,ti OR ’beta hydroxy beta methylglutarate’:ab,ti OR ’3 hydroxy 3 methylglutaric acid’:ab,ti

• #65 mevastatin:ab,ti OR compactin:ab,ti OR mevastin:ab,ti OR ’6 demethylmevinolin’:ab,ti OR ‘cs 500’:ab,ti OR cs500:ab,ti OR ’ml 236b’:ab,ti OR ml236b:ab,ti

• #66 mevinolin*:ab,ti OR monacolin*:ab,ti

• #67 ’phosphoadenosine diphosphoribose’:ab,ti OR ’phospho-adp ribose’:ab,ti

• #68 pitavastatin:ab,ti OR nisvastatin:ab,ti OR alipza:ab,ti OR itavastatin:ab,ti OR livalo:ab,ti OR livazo:ab,ti OR pitava:ab,ti OR ribar: ab,ti OR vezepra:ab,ti OR ‘p 872441’:ab,ti OR ‘nk 104’:ab,ti OR ‘nk104’:ab,ti OR ‘nks 104’:ab,ti OR nks104:ab,ti

• #69 pravastatin*:ab,ti OR eptastatin:ab,ti OR vasten:ab,ti OR ‘cs 514’:ab,ti OR cs514:ab,ti OR lipemol:ab,ti OR liplat:ab,ti OR ’nu pravastatin’:ab,ti OR prareduct:ab,ti OR mevalotin:ab,ti OR pravachol:ab,ti OR elisor:ab,ti OR selektine:ab,ti OR pravacol:ab,ti OR pravasin:ab,ti OR lipostat:ab,ti OR ‘rms 431’:ab,ti OR rms431:ab,ti OR ‘sq 31000’:ab,ti OR sq31000:ab,ti OR ‘sq 31,000’:ab,ti OR sq31,000:ab,ti OR astin:ab,ti OR bristacol:ab,ti OR cholespar:ab,ti OR epatostantin:ab,ti OR eptastatine:ab,ti OR kenstatin:ab,ti OR lipidal:ab,ti OR liprevil:ab,ti OR novales:ab,ti OR prascolend:ab,ti OR prastan:ab,ti OR prava:ab,ti OR pravaselect:ab,ti OR pravasine: ab,ti OR pravator:ab,ti OR pravyl:ab,ti OR sanaprav:ab,ti OR selipran:ab,ti OR stanidine:ab,ti OR vasopran:ab,ti OR xipral:ab,ti OR pravafenix:ab,ti

• #70 rosuvastatin*:ab,ti OR zd4522:ab,ti OR ‘zd 4522’:ab,ti OR crestor:ab,ti OR rosuvas:ab,ti OR ’s 4522’:ab,ti OR s4522:ab,ti OR certriad:ab,ti

• #71 simvastatin*:ab,ti OR synvinolin:ab,ti OR ‘mk 733’:ab,ti OR mk733:ab,ti OR zocor:ab,ti OR avastinee:ab,ti OR cholestat:ab,ti OR clinfar:ab,ti OR colastatina:ab,ti OR colestricon:ab,ti OR covastin:ab,ti OR denan:ab,ti OR epistatin:ab,ti OR esvat:ab,ti OR ethicol: ab,ti OR eucor:ab,ti OR ifistatin:ab,ti OR kavelor:ab,ti OR klonastin:ab,ti OR kolestevan:ab,ti OR ‘l 644128’:ab,ti OR l644128:ab,ti OR lipecor:ab,ti OR lipex:ab,ti OR lipinorm:ab,ti OR liponorm:ab,ti OR lipovas:ab,ti OR lodales:ab,ti OR medipo:ab,ti OR mersivas: ab,ti OR ’nor vastina’:ab,ti OR normofat:ab,ti OR orovas:ab,ti OR rechol:ab,ti OR simbado:ab,ti OR simcard:ab,ti OR simchol:ab,ti OR simovil:ab,ti OR simtin:ab,ti OR simvacor:ab,ti OR simvahex:ab,ti OR simvalord:ab,ti OR simvastar:ab,ti OR simvata:ab,ti OR simvatin:ab,ti OR simvor:ab,ti OR simvotin:ab,ti OR sinvacor:ab,ti OR sinvastatin:ab,ti OR sinvinolin:ab,ti OR sivastin:ab,ti OR starzoco:ab,ti OR torio:ab,ti OR valemia:ab,ti OR vasilip:ab,ti OR vasotenal:ab,ti OR vazim:ab,ti OR vidastat:ab,ti OR zimmex:ab,ti OR zocord:ab,ti OR zovast:ab,ti OR inegy:ab,ti OR vytorin:ab,ti OR zetsim:ab,ti OR zintrepid:ab,ti OR cholib:ab,ti OR fenofibrate*: ab,ti OR ’niacin simvastatin’:ab,ti OR simcor:ab,ti OR ’rosiglitazone simvastatin’:ab,ti OR avandastat:ab,ti OR ’sitagliptin simvastatin’: ab,ti OR sitagliptin:ab,ti AND phosphate*:ab,ti OR juvisync:ab,ti

• #72 tenivastatin:ab,ti

• #73 #49 OR #50 OR #51 OR #52 OR #53 OR #54 OR #55 OR #56 OR #57 OR #58 OR #59 OR #60 OR #61 OR #62 OR #63 OR #64 OR #65 OR #66 OR #67 OR #68 OR #69 OR #70 OR #71 OR #72

• #74 #48 AND #73

• #75 #32 AND #74

Appendix 4. LILACS search strategy

((Macul$ OR Mácul$ OR Retina$ OR Retiniana OR Choroid$ OR Coroide) AND (Degenera$ OR Neovasculariza$) OR MH:C11.768.585$ OR MH:C11.768.585.439$ OR MH: C11.768.725$ OR MH:C23.550.589.500.725$ OR MH: C11.941.160.244$ OR MH:C23.550.589.500.145$ OR MH:A09.371.729.522$ OR maculopath$ OR AMD OR ARMD OR CNV) AND (“Inhibidores de Hidroximetilglutaril-CoA Reductasas” OR “Inibidores de Hidroximetilglutaril-CoA Redutases” OR MH:D27.505.519.186.071.202.370$ OR MH:D27.505.519.389.370$ OR MH:D27.505.954.557.500.202.370$ OR Statin$ OR vastatin$ OR “hmg coenzyme” OR “hmg co-enzyme” OR hydroxymethylglutaryl$ OR Atorvastatin$ OR Cerivastatin OR Bervastatin OR Crilvastatin OR dalvastatin OR Fluvastatin OR Glenvastatin OR Lovastatin$ OR MH:D02.455.426.559.847.638.400$ OR MH:D04.615.638.400$ OR Meglutol OR MH:D02.241.081.337.351.550$ OR Mevastatin OR mevinolin$ OR “ Phosphoadenosine diphosphoribose” OR Pitavastatin OR Pravastatin$ OR MH:D02.455.426.559.847.638.930$ OR MH:D04.615.638.930$ OR Rosuvastatin$ OR Simvastatin$ OR MH:D02.455.426.559.847.638.400.900$ OR MH:D04.615.638.400.900$ OR tenivastatin)

Appendix 5. PubMed search strategy

• #1 ((randomized controlled trial[pt]) OR (controlled clinical trial[pt]) OR (randomised[tiab] OR randomized[tiab]) OR (placebo[tiab]) OR (drug therapy[sh]) OR (randomly[tiab]) OR (trial[tiab]) OR (groups[tiab])) NOT (animals[mh] NOT humans[mh])

• #2 ((macul*[tiab] OR retina*[tiab] OR choroid*[tiab]) AND degener*[tiab]) NOT Medline[sb]

• #3 ((macul*[tiab] OR retina*[tiab] OR choroid*[tiab]) AND neovasc*[tiab]) NOT Medline[sb]

• #4 Maculopath*[tiab] NOT Medline[sb]

• #5 (macul*[tiab] AND lutea*[tiab]) NOT Medline[sb]

• #6 (macul*[tiab] AND dystroph*[tiab]) NOT Medline[sb]

• #7 (macul*[tiab] AND syndrome[tiab]) NOT Medline[sb]

• #8 ((macul*[tiab] OR geographic[tiab]) AND atroph*[tiab]) NOT Medline[sb]

• #9 ((macul*[tiab] OR retina*[tiab]) AND edema*[tiab]) NOT Medline[sb]

• #10 (AMD[tiab] OR ARMD[tiab] OR CNV[tiab]) NOT Medline[sb]

• #11 #2 OR #3 OR #4 OR #5 OR #6 OR #7 OR #8 OR #9 OR #10

• #12 (Statin*[tw] OR vastatin*[tw]) NOT Medline[sb]

• #13 ((HMG COA*[tw]) OR (“HMG Co A”[tw])) NOT Medline[sb]

• #14 (“hmg coenzyme”[tw] OR “hmg co-enzyme”[tw]) NOT Medline[sb]

• #15 3-hydroxy-3-methylglutaryl*[tw] NOT Medline[sb]

• #16 hydroxymethylglutaryl*[tw] NOT Medline[sb]

• #17 (hydroxymethyl glutaryl[tw]) NOT Medline[sb]

• #18 (Atorvastatin*[tw] OR liptonorm[tw] OR Atorlip[tw] OR atovarol[tw] OR ci981[tw] OR “CI 981”[tw] OR glustar[tw] OR lipibec[tw] OR lipitor[tw] OR lowlipen[tw] OR sortis[tw] OR storvas[tw] OR tahor[tw] OR torvast[tw] OR “ym 548”[tw] OR ym548[tw] OR zarator[tw] OR ezetimibe*[tw] OR liptruzet[tw] OR Ramipril*[tw] OR “atocor R”[tw]) NOT Medline[sb]

• #19 (Bervastatin[tw] OR “ls 2904”[tw] OR ls2904[tw]) NOT Medline[sb]

• #20 (Cerivastatin[tw] OR Kazak[tw] OR rivastatin[tw] OR Certa[tw] OR “Bay w 6228”[tw] OR “bay w6228”[tw] OR Baycol[tw] OR Lipobay[tw]) NOT Medline[sb]

• #21 (Crilvastatin[tw] OR “pmd 387”[tw] OR pmd387[tw]) NOT Medline[sb]

• #22 (dalvastatin[tw] OR rg12561[tw] OR “rg 12561”[tw]) NOT Medline[sb]

• #23 (Fluvastatin[tw] OR fluindostatin[tw] OR Lescol[tw] OR “XU 62-320”[tw] OR “XU 62320”[tw] OR xu62320[tw] OR canef[tw] OR cranoc[tw] OR “fractal lp”[tw] OR leucol[tw] OR lochol[tw] OR locol[tw] OR “sri 62320”[tw] OR sri62320[tw] OR vastin[tw]) NOT Medline[sb]

• #24 (Glenvastatin[tw] OR “hr 780”[tw] OR hr780[tw]) NOT Medline[sb]

• #25 (Lovastatin*[tw] OR Mevinolin[tw] OR “Monacolin K”[tw] OR “6 Methylcompactin”[tw] OR “MK 803”[tw] OR MK803[tw] OR mk0803[tw] OR Mevacor[tw] OR altocor[tw] OR altoprev[tw] OR artein[tw] OR belvas[tw] OR birotin[tw] OR cholestra[tw] OR cysin[tw] OR ellanco[tw] OR elstatin[tw] OR “l 654969”[tw] OR lipdip[tw] OR lipivas[tw] OR lofacol[tw] OR lomar[tw] OR lostatin[tw] OR lovacel[tw] OR lovacol[tw] OR lovalip[tw] OR lovalord[tw] OR lovastan[tw] OR lovasterol[tw] OR lovastin[tw] OR lovatadin[tw] OR lowachol[tw] OR lozutin[tw] OR medostatin[tw] OR meverstin[tw] OR mevinacor[tw] OR “monakolin k” OR “msd 803”[tw] OR neolipid[tw] OR nergadan[tw] OR ovasta[tw] OR rodatin[tw] OR rovacor[tw] OR taucor[tw] OR advicor[tw]) NOT Medline[sb]

• #26 (Meglutol[tw] OR “3 Hydroxy 3 methylpentanedioic Acid”[tw] OR “beta Hydroxy beta Methylglutarate”[tw] OR “3 Hydroxy 3 methylglutaric Acid”[tw]) NOT Medline[sb]

• #27 (Mevastatin[tw] OR compactin[tw] OR mevastin[tw] OR 6-demethylmevinolin[tw] OR “CS 500”[tw] OR CS500[tw] OR “ML 236B”[tw] OR ML236B[tw]) NOT Medline[sb]

• #28 (mevinolin*[tw] OR monacolin*[tw]) NOT Medline[sb]

• #29 (“Phosphoadenosine diphosphoribose”[tw] OR “phospho-ADP ribose”[tw]) NOT Medline[sb]

• #30 (Pitavastatin[tw] OR nisvastatin[tw] OR itavastatin[tw] OR alipza[tw] OR itavastatin[tw] OR livalo[tw] OR livazo[tw] OR pitava[tw] OR ribar[tw] OR vezepra[tw] OR “P 872441”[tw] OR “NK 104”[tw] OR “nk104”[tw] OR “nks 104”[tw] OR nks104[tw]) NOT Medline[sb]

• #31 (Pravastatin*[tw] OR Eptastatin[tw] OR Vasten[tw] OR “CS 514”[tw] OR CS514[tw] OR Lipemol[tw] OR Liplat[tw] OR Nu-Pravastatin[tw] OR Prareduct[tw] OR Mevalotin[tw] OR Pravachol[tw] OR Elisor[tw] OR Selektine[tw] OR Pravacol[tw] OR Pravasin[tw] OR Lipostat[tw] OR “RMS 431”[tw] OR RMS431[tw] OR “SQ 31000”[tw] OR SQ31000[tw] OR “SQ 31,000”[tw] OR SQ31,000[tw] OR Bristacol[tw] OR astin[tw] OR bristacol[tw] OR cholespar[tw] OR epatostantin[tw] OR eptastatine[tw] OR kenstatin[tw] OR lipidal[tw] OR liprevil[tw] OR novales[tw] OR prascolend[tw] OR prastan[tw] OR prava[tw] OR pravaselect[tw] OR pravasine[tw] OR pravator[tw] OR pravyl[tw] OR sanaprav[tw] OR selipran[tw] OR stanidine[tw] OR vasopran[tw] OR xipral[tw] OR pravafenix[tw]) NOT Medline[sb]

• #32 (Rosuvastatin*[tw] OR ZD4522[tw] OR “ZD 4522”[tw] OR Crestor[tw] OR rosuvas[tw] OR “s 4522”[tw] OR s4522[tw] OR certriad[tw]) NOT Medline[sb]

• #33 (Simvastatin*[tw] OR Synvinolin[tw] OR “MK 733”[tw] OR MK733[tw] OR Zocor[tw] OR avastinee[tw] OR cholestat[tw] OR clinfar[tw] OR colastatina[tw] OR colestricon[tw] OR covastin[tw] OR denan[tw] OR epistatin[tw] OR esvat[tw] OR ethicol[tw] OR eucor[tw] OR ifistatin[tw] OR kavelor[tw] OR klonastin[tw] OR kolestevan[tw] OR “l 644128”[tw] OR l644128[tw] OR lipecor[tw] OR lipex[tw] OR lipinorm[tw] OR liponorm[tw] OR lipovas[tw] OR lodales[tw] OR medipo[tw] OR mersivas[tw] OR nor-vastina[tw] OR normofat[tw] OR orovas[tw] OR rechol[tw] OR simbado[tw] OR simcard[tw] OR simchol[tw] OR simovil[tw] OR simtin[tw] OR simvacor[tw] OR simvahex[tw] OR simvalord[tw] OR simvastar[tw] OR simvata[tw] OR simvatin[tw] OR simvor[tw] OR simvotin[tw] OR sinvacor[tw] OR sinvastatin[tw] OR sinvinolin[tw] OR sivastin[tw] OR starzoco[tw] OR torio[tw] OR valemia[tw] OR vasilip[tw] OR vasotenal[tw] OR vazim[tw] OR vidastat[tw] OR zimmex[tw] OR zocord[tw] OR zovast[tw] OR inegy[tw] OR vytorin[tw] OR zetsim[tw] OR zintrepid[tw] OR cholib[tw] OR fenofibrate*[tw] OR niacin-simvastatin[tw] OR simcor[tw] OR rosiglitazone-simvastatin[tw] OR avandastat[tw] OR sitagliptin-simvastatin[tw] OR sitagliptin phosphate*[tw] OR juvisync[tw]) NOT Medline[sb]

• #34 tenivastatin[tw] NOT Medline[sb]

• #35 #12 OR #13 OR #14 OR #15 OR #16 OR #17 OR #18 OR #19 OR #20 OR #21 OR #22 OR #23 OR #24 OR #25 OR #26 OR #27 OR #28 OR #29 OR #30 OR #31 OR #32 OR #33 OR #34

• #36 #11 AND #35

• #37 #1 AND #36

Appendix 6. metaRegister of Controlled Trials search strategy

(macular degeneration OR maculopathy OR Retinal Degeneration OR Retinal Neovascularization OR Choroidal Neovascularization) AND (statins OR Atorvastatin OR Cerivastatin OR Bervastatin OR Crilvastatin OR dalvastatin OR Fluvastatin OR Glenvastatin)

(macular degeneration OR maculopathy OR Retinal Degeneration OR Retinal Neovascularization OR Choroidal Neovascularization) AND (Lovastatin OR mevinacor OR Meglutol OR Mevastatin OR mevinolin OR Phosphoadenosine diphosphoribose)

(macular degeneration OR maculopathy OR Retinal Degeneration OR Retinal Neovascularization OR Choroidal Neovascularization) AND (Pitavastatin OR Pravastatin OR Rosuvastatin OR Simvastatin OR tenivastatin)

Appendix 7. ClinicalTrials.gov search strategy

(macular degeneration OR maculopathy OR Retinal Degeneration OR Retinal Neovascularization OR Choroidal Neovascularization) AND (statins OR Atorvastatin OR Cerivastatin OR Bervastatin OR Crilvastatin OR dalvastatin OR Fluvastatin OR Glenvastatin)

(macular degeneration OR maculopathy OR Retinal Degeneration OR Retinal Neovascularization OR Choroidal Neovascularization) AND (Lovastatin OR mevinacor OR Meglutol OR Mevastatin OR mevinolin OR Phosphoadenosine diphosphoribose OR Pitavastatin)

(macular degeneration OR maculopathy OR Retinal Degeneration OR Retinal Neovascularization OR Choroidal Neovascularization) AND (Pravastatin OR Rosuvastatin OR Simvastatin OR tenivastatin)

Appendix 8. ICTRP search strategy

macular degeneration AND statins OR macular degeneration AND Atorvastatin OR macular degeneration AND Cerivastatin OR macular degeneration AND Bervastatin OR macular degeneration AND Crilvastatin OR macular degeneration AND dalvastatin OR macular degeneration AND Fluvastatin OR macular degeneration AND Glenvastatin OR macular degeneration AND Lovastatin OR macular degeneration AND mevinacor OR macular degeneration AND Meglutol OR macular degeneration AND Mevastatin OR macular degeneration AND mevinolin OR macular degeneration AND Phosphoadenosine diphosphoribose OR macular degeneration AND Pitavastatin OR macular degeneration AND Pravastatin OR macular degeneration AND Rosuvastatin OR macular degeneration AND Simvastatin OR macular degeneration AND tenivastatin

maculopathy AND statins OR maculopathy AND Atorvastatin OR maculopathy AND Cerivastatin OR maculopathy AND Bervastatin OR maculopathy AND Crilvastatin OR maculopathy AND dalvastatin OR maculopathy AND Fluvastatin OR maculopathy AND Glenvastatin OR maculopathy AND Lovastatin OR maculopathy AND mevinacor OR maculopathy AND Meglutol OR maculopathy AND Mevastatin OR maculopathy AND mevinolin OR maculopathy AND Phosphoadenosine diphosphoribose OR maculopathy AND Pitavastatin OR maculopathy AND Pravastatin OR maculopathy AND Rosuvastatin OR maculopathy AND Simvastatin OR maculopathy AND tenivastatin

Retinal Degeneration AND statins OR Retinal Degeneration AND Atorvastatin OR Retinal Degeneration AND Cerivastatin OR Retinal Degeneration AND Bervastatin OR Retinal Degeneration AND Crilvastatin OR Retinal Degeneration AND dalvastatin OR Retinal Degeneration AND Fluvastatin OR Retinal Degeneration AND Glenvastatin OR Retinal Degeneration AND Lovastatin OR Retinal Degeneration AND mevinacor OR Retinal Degeneration AND Meglutol OR Retinal Degeneration AND Mevastatin OR Retinal Degeneration AND mevinolin OR Retinal Degeneration AND Phosphoadenosine diphosphoribose OR Retinal Degeneration AND Pitavastatin OR Retinal Degeneration AND Pravastatin OR Retinal Degeneration AND Rosuvastatin OR Retinal Degeneration AND Simvastatin OR Retinal Degeneration AND tenivastatin

Retinal Neovascularization AND statins OR Retinal Neovascularization AND Atorvastatin OR Retinal Neovascularization AND Cerivastatin OR Retinal Neovascularization AND Bervastatin OR Retinal Neovascularization AND Crilvastatin OR Retinal Neovascularization AND dalvastatin OR Retinal Neovascularization AND Fluvastatin OR Retinal Neovascularization AND Glenvastatin OR Retinal Neovascularization AND Lovastatin OR Retinal Neovascularization AND mevinacor OR Retinal Neovascularization AND Meglutol OR Retinal Neovascularization AND Mevastatin OR Retinal Neovascularization AND mevinolin OR Retinal Neovascularization AND Phosphoadenosine diphosphoribose OR Retinal Neovascularization AND Pitavastatin OR Retinal Neovascularization AND Pravastatin OR Retinal Neovascularization AND Rosuvastatin OR Retinal Neovascularization AND Simvastatin OR Retinal Neovascularization AND tenivastatin

Choroidal Neovascularization AND statins OR Choroidal Neovascularization AND Atorvastatin OR Choroidal Neovascularization AND Cerivastatin OR Choroidal Neovascularization AND Bervastatin OR Choroidal Neovascularization AND Crilvastatin OR Choroidal Neovascularization AND dalvastatin OR Choroidal Neovascularization AND Fluvastatin OR Choroidal Neovascularization AND Glenvastatin OR Choroidal Neovascularization AND Lovastatin OR Choroidal Neovascularization AND mevinacor OR Choroidal Neovascularization AND Meglutol OR Choroidal Neovascularization AND Mevastatin OR Choroidal Neovascularization AND mevinolin OR Choroidal Neovascularization AND Phosphoadenosine diphosphoribose OR Choroidal Neovascularization AND Pitavastatin OR Choroidal Neovascularization AND Pravastatin OR Choroidal Neovascularization AND Rosuvastatin OR Choroidal Neovascularization AND Simvastatin OR Choroidal Neovascularization AND tenivastatin

DATA AND ANALYSES

This review has no analyses.