Which of the following is the drug of choice for the treatment rheumatoid arthritis?

Cochrane Database Syst Rev. 2014 Jun; 2014[6]: CD000957.

Monitoring Editor: Maria Angeles Lopez‐Olivo, Harish R Siddhanamatha, Beverley Shea, Peter Tugwell, George A Wells, Maria E Suarez‐Almazor,

The University of Texas, M.D. Anderson Cancer Center, Department of General Internal Medicine, 1515 Holcombe Blvd, Unit 1465, HoustonTexasUSA, 77030

University of Ottawa, Department of Epidemiology and Community Medicine, 501 Smyth Road, OttawaOntarioCanada, K1H 8L6

Faculty of Medicine, University of Ottawa, Department of Medicine, OttawaOntarioCanada, K1H 8M5

Abstract

Background

Methotrexate is a folic acid antagonist widely used for the treatment of neoplastic disorders. Methotrexate inhibits the synthesis of deoxyribonucleic acid [DNA], ribonucleic acid [RNA] and proteins by binding to dihydrofolate reductase. Currently, methotrexate is among the most commonly used drugs for the treatment of rheumatoid arthritis [RA]. This is an update of the previous Cochrane systematic review published in 1997.

Objectives

To evaluate short term benefits and harms of methotrexate for treating RA compared to placebo.

Search methods

The Cochrane Musculoskeletal Group Trials Register, The Cochrane Central Register of Controlled Trials [CENTRAL], MEDLINE and EMBASE were searched from 1966 to 1997 and then updated to November 2013. The search was complemented with a bibliography search of the reference lists of trials retrieved from the electronic search.

Selection criteria

Randomized controlled trials and controlled clinical trials comparing methotrexate [MTX] monotherapy against placebo alone in people with RA. Any trial duration and MTX doses were included.

Data collection and analysis

Two review authors independently determined which studies were eligible for inclusion, extracted data and assessed risk of bias. Outcomes were pooled using mean differences [MDs] for continuous variables or standardized mean differences [SMDs] when different scales were used to measure the same outcome. Pooled risk ratio [RR] was used for dichotomous variables. Fixed‐effect models were used throughout, although random‐effects models were used for outcomes showing heterogeneity.

Main results

Five trials with 300 patients were included in the original version of the review. An additional two trials with 432 patients were added to the 2013 update of the review for a total of 732 participants. The trials were generally of unclear to low risk of bias with a follow‐up duration ranging from 12 to 52 weeks. All trials included patients who have failed prior treatment [for example, gold therapy, D‐penicillamine, azathioprine or anti‐malarials]; mean disease duration that ranged between 1 and 14 years with six trials reporting more than 4 years; and weekly doses that ranged between 5 mg and 25 mg.

Benefits

Statistically significant and clinically important differences were observed for most efficacy outcomes. MTX monotherapy showed a clinically important and statistically significant improvement in the American College of Rheumatology [ACR] 50 response rate when compared with placebo at 52 weeks [RR 3.0, 95% confidence interval [CI] 1.5 to 6.0; number needed to treat [NNT] 7, 95% CI 4 to 22]. Fifteen more patients out of 100 had a major improvement in the ACR 50 outcome compared to placebo [absolute treatment benefit [ATB] 15%, 95% CI 8% to 23%].

Statistically significant improvement in physical function [scale of 0 to 3] was also observed in patients receiving MTX alone compared with placebo at 12 to 52 weeks [MD ‐0.27, 95% CI ‐0.39 to ‐0.16; odds ratio [OR] 2.8, 95% CI 0.23 to 32.2; NNT 4, 95% CI 3 to 7]. Nine more patients out of 100 improved in physical function compared to placebo [ATB ‐9%, 95% CI ‐13% to ‐5.3%]. Similarly, the proportion of patients who improved at least 20% on the Short Form‐36 [SF‐36] physical component was higher in the MTX‐treated group compared with placebo at 52 weeks [RR 1.5, 95% CI 1.0 to 2.1; NNT 9, 95% CI 4 to 539]. Twelve more patients out of 100 showed an improvement of at least 20% in the physical component of the quality of life measure compared to placebo [ATB 12%, 95% CI 1% to 24%]. No clinically important or statistically significant differences were observed in the SF‐36 mental component.

Although no statistically significant differences were observed in radiographic scores [that is, Total Sharp score, erosion score, joint space narrowing], radiographic progression rates [measured by an increase in erosion scores of more than 3 units on a scale ranging from 0 to 448] were statistically significantly lower for patients in the MTX group compared with placebo‐treated patients [RR 0.31, 95% CI 0.11 to 0.86; NNT 13, 95% CI 10 to 60]. Eight more patients out of 100 showed less damage to joints measured by an increase in erosion scores compared to placebo [ATB ‐8%, 95% CI ‐16% to ‐1%]. In the one study measuring remission, no participants in either group met the remission criteria. These are defined by at least five of [≥ 2 months]: morning stiffness of < 15 minutes, no fatigue, no joint pain by history, no joint tenderness, no joint swelling, and Westergren erythrocyte sedimentation rate [ESR] of < 20 mm/hr in men and < 30 mm/hr in women.

Harms

Patients in the MTX monotherapy group were twice as likely to discontinue from the study due to adverse events compared to patients in the placebo group, at 12 to 52 weeks [16% versus 8%; RR 2.1, 95% CI 1.3 to 3.3; NNT 13, 95% CI 6 to 44]. Compared to placebo, nine more people out of 100 who took MTX withdrew from the studies because of side effects [ATB 9%, 95% CI 3% to 14%]. Total adverse event rates at 12 weeks were higher in the MTX monotherapy group compared to the placebo group [45% versus 15%; RR 3.0, 95% CI 1.4 to 6.4; NNT 4, 95% CI 2 to 17]. Thirty more people out of 100 who took MTX compared to those who took placebo experienced any type of side effect [common or rare] [ATB 30, 95% CI 13% to 47%]. No statistically significant differences were observed in the total number of serious adverse events between the MTX group and the placebo group at 27 to 52 weeks. Three people out of 100 who took MTX alone experienced rare but serious side effects compared to 2 people out of 100 who took a placebo [3% versus 2%, respectively].

Authors' conclusions

Based on mainly moderate to high quality evidence, methotrexate [weekly doses ranging between 5 mg and 25 mg] showed a substantial clinical and statistically significant benefit compared to placebo in the short term treatment [12 to 52 weeks] of people with RA, although its use was associated with a 16% discontinuation rate due to adverse events.

Plain language summary

Methotrexate for treating rheumatoid arthritis

We looked at studies until November 2013 on the effect of receiving methotrexate alone compared to placebo [no treatment] over 12 to 52 weeks in 732 people with rheumatoid arthritis.

Key findings

In the short term treatment of people with rheumatoid arthritis, methotrexate:

‐ improves pain, function and other symptoms;

‐ probably reduces joint damage as seen on the x‐ray.

Precise information about side effects and complications was not always available. Common side effects may include nausea, vomiting, diarrhoea, loss of appetite, stomach pain, and sores on lips, mouth or throat. Rare complications may include birth defects, kidney, lung and liver problems.

What is rheumatoid arthritis and what is methotrexate?

When you have rheumatoid arthritis, your immune system, which normally fights infection, attacks the lining of your joints making your joints swollen, stiff and painful.
Treatments aim to decrease symptoms and improve your ability to move.

Methotrexate is one of a group of medications called disease‐modifying antirheumatic drugs [DMARDs] and it is the most common treatment for rheumatoid arthritis. Methotrexate helps prevent further permanent damage that can happen if rheumatoid arthritis is not treated.

What happens to people with rheumatoid arthritis who take methotrexate alone?

ACR 50 [number of tender or swollen joints and other outcomes such as pain and disability]
‐ 15 more people out of 100 experienced major improvement in the symptoms of their rheumatoid arthritis after 12 months with methotrexate when compared to placebo [15% absolute improvement].
‐ 23 people out of 100 who took methotrexate alone experienced major improvement.
‐ 8 people out of 100 who took a placebo experienced major improvement.

Remission or absence of active disease

In people who took either placebo or methotrexate, none had absence of active disease.

Disability [lower scores mean lower disability]

‐ People who took methotrexate rated their disability to be 0.27 points lower on a scale of 0 to 3 after 3 to 12 months with methotrexate when compared to placebo [9% absolute improvement].
‐ People who took methotrexate rated their disability to be between 0.39 and 1.04.
‐ People who took placebo rated their disability to be between 0.53 and 1.34.

Quality of life ‐ physical component [ability to perform physical activities at least 20% better]

‐ 12 more people out of 100 perceived their ability to perform physical activities at least 20% better after 12 months with methotrexate alone compared to placebo [12% absolute improvement].
‐ 39 people out of 100 who took methotrexate alone perceived their ability to perform physical activities at least 20% better.
‐ 27 people out of 100 who took a placebo perceived their ability to perform physical activities at least 20% better.

Quality of life ‐ mental component

‐ 5 more people out of 100 perceived their mental well‐being better after 12 months with methotrexate alone compared to placebo [5% absolute improvement].
‐ 26 people out of 100 who took methotrexate alone perceived their mental well‐being better.
‐ 21 people out of 100 who took a placebo perceived their mental well‐being better.

X‐rays of the joints
‐ 8 more people out of 100 had less x‐ray damage to joints measured by increase in erosion scores of more than 3 units on a scale ranging from 0 to 448 in people who took methotrexate compared to placebo after 12 months [8% absolute reduction].
‐ 4 people out of 100 who took methotrexate alone had increased damage to joints measured by x‐ray.
‐12 people out of 100 who took a placebo had increase damage to joints measured by x‐ray.

Discontinuations due to adverse events [side effects and complications]
‐ 9 more people out of 100 discontinued methotrexate due to adverse events after 3 to 12 months compared to placebo [9% absolute withdrawals].
‐ 16 people out of 100 who took methotrexate alone discontinued methotrexate due to adverse events.
‐ 8 people out of 100 who took a placebo discontinued placebo due to adverse events.

Serious adverse events
‐ 1 more person out of 100 experienced serious side effects after 3 to 12 months with methotrexate alone compared to placebo [1% absolute harm].
‐ 3 people out of 100 who took methotrexate alone experienced serious side effects.
‐ 2 people out of 100 who took a placebo experienced serious side effects.

Summary of findings

Background

Description of the condition

Rheumatoid arthritis [RA] is a chronic, systemic inflammatory condition of unknown cause. Clinical presentation can include synovial proliferation, symmetric erosive arthritis, and systemic involvement.

Description of the intervention

Methotrexate is a folic acid antagonist widely used for the treatment of neoplastic disorders. Methotrexate inhibits the synthesis of deoxyribonucleic acid [DNA], ribonucleic acid [RNA] and proteins by binding to dihydrofolate reductase.

How the intervention might work

The potential benefits of methotrexate for the treatment of RA were originally suggested by Gubner 1951 in a case series study of six patients with RA. Subsequent open trials supported the efficacy of the drug [Groff 1983; Steinsson 1982; Willkens 1980]. The first controlled trials of methotrexate against placebo in people with RA were reported in the 1980s. Currently, methotrexate is among the most commonly used drugs for the treatment of RA.

Why it is important to do this review

This systematic review synthesizes and updates the evidence of a previous published Cochrane review reporting the benefits and harms of methotrexate monotherapy compared to placebo.

Objectives

To evaluate the short term benefits and harms of methotrexate for the treatment of RA compared to placebo.

Methods

Criteria for considering studies for this review

Types of studies

Randomized controlled trials [RCTs] and clinical controlled trials [CCTs] comparing methotrexate with placebo for a minimum duration of 12 weeks. Twelve weeks is thought to be the minimum treatment duration required to adequately assess the efficacy of methotrexate. We included studies reported as full‐text, published as abstract only, and unpublished data. There was no language restriction.

Types of participants

People with a diagnosis of RA that was severe and of long duration, who had a high prevalence of positive rheumatoid factor [RF], and had previously failed other second line disease‐modifying antirheumatic drug [DMARD] therapy.

Types of interventions

We included trials comparing methotrexate [oral or parenteral] at a dose level of at least 5 mg per week with placebo. Only trials with a treatment duration of at least 12 weeks in a double‐blind phase were considered for inclusion.

Types of outcome measures

Major outcomes

1. All the outcome measures in OMERACT 1993 were included for potential analysis. OMERACT measures for efficacy include:
a] number of tender joints per patient; b] number of swollen joints per patient; c] pain [Visual Analogue Scale or VAS]; d] physician global assessment; e] patient global assessment; f] Functional status [measured by a validated scale such as the Health Assessment Questionnaire [HAQ]]; g] acute phase reactants, including erythrocyte sedimentation rate [ESR] and C‐reactive protein [CRP].

2. American College of Rheumatology [ACR] core set: ACR 20, 50, or 70 responses [Felson 1995].

3. Remission measured by disease activity [van der Heijde 2005] using the disease activity score [DAS] < 1.6 or DAS28 < 2.6, or as specified by the authors.

4. Radiological damage [joint damage shown on x‐ray].

5. Discontinuations. These were analysed as discontinuations because of adverse events, lack of efficacy, and due to system‐specific adverse reactions [e.g. gastrointestinal, renal, etc].

6. Adverse events. Number of patients who experienced serious, total, or individual adverse events.

Minor outcomes

Health‐related quality of life measured by validated scales including the Medical Outcomes Study Short‐Form 36 [SF‐36] and activities of daily living [ADL].

Search methods for identification of studies

Electronic searches

The Cochrane Musculoskeletal Group register, Cochrane Controlled Trials Register [CCTR], MEDLINE [1966 to July 1997] and EMBASE [1988 to July 1997] were searched using the strategy developed by Dickersin 1994. A further search was performed from 1997 to November 2013 in MEDLINE [Appendix 1], CENTRAL in The Cochrane Library [Appendix 2], EMBASE [Appendix 3], Web of Science [Appendix 4], and ClinicalTrials.gov [Appendix 5]. The search was not limited by language, year of publication or type of publication. The MEDLINE search strategy that was used is located in Appendix 1. This strategy was modified for the other databases.

Searching other resources

Reference lists of all the trials selected through the electronic searches were manually searched to identify additional trials. Key experts in the area were contacted for further published and unpublished articles. The ClinicalTrials.gov [www.ClinicalTrials.gov] website and the World Health Organization [WHO] International Clinical Trials Registry Platform trials portal [www.who.int/ictrp/en/] were also searched to identify any ongoing trials, in November 2013.

For safety assessments, we searched the websites of the regulatory agencies [US Food and Drug Administration‐MedWatch [//www.fda.gov/Safety/MedWatch/default.htm], European Medicines Evaluation Agency [//www.ema.europa.eu], Australian Adverse Drug Reactions Bulletin [//www.tga.gov.au/safety/ews‐monitoring.htm], and UK Medicines and Healthcare products Regulatory Agency [MHRA] pharmacovigilance and drug safety updates [//www.mhra.gov.uk/Safetyinformation/index.htm] using the keyword ‘methotrexate’ on 19 March 2014.

Data collection and analysis

Selection of studies

Two review authors [MLO, HRS] independently screened the titles and abstracts of all the potential studies identified as a result of the search for inclusion and coded them as 'retrieve' [eligible or potentially eligible or unclear] or 'do not retrieve'. Next, two review authors [MLO, HRS] independently screened the full‐texts and identified studies for inclusion, and recorded reasons for exclusion of the ineligible studies. Disagreement were resolved through discussion or, when required, by a third review author [MSA]. We identified and excluded duplicates, and collated multiple reports of the same study.

Data extraction and management

We used a data collection form for study characteristics and outcome data, which was piloted using one study in the review. Two review authors [MLO, HRS] extracted the study characteristics and outcome measures of efficacy and toxicity from the included studies.

Assessment of risk of bias in included studies

Two review authors [MLO, HRS] independently assessed risk of bias for each study using the criteria outlined in the Cochrane Handbook for Systematic Reviews of Interventions [Higgins 2011]. Disagreements were resolved by consensus. We assessed the risk of bias according to several domains including: a] random sequence generation, b] allocation concealment, c] blinding of participants and personnel, d] blinding of outcome assessment, e] incomplete outcome data, f] selective outcome reporting, g] other bias [that is, baseline imbalance]. We graded each potential source of bias as high, low or unclear and provide a quote from the study report together with a justification for our judgement in the 'Risk of bias' table. We summarised the risk of bias judgements across different studies for each of the domains listed. Figures were generated to provide summary assessments of the risk of bias.

Measures of treatment effect

Dichotomous data were analysed as risk ratios [RR] and 95% confidence intervals [CI] were also estimated. Continuous data were pooled as mean differences [MD] with corresponding 95% CI or standardized mean differences [SMD] in the case of joint scores, pain, global and functional assessments. This was necessary because of the variation in the outcome measures included in each study [for example, different number of swollen joints counted]. Trial results were entered into RevMan using the same direction in order to enable the pooling of results, with the lower values indicating better responses. Negative values in SMD indicated a benefit of the active drug over placebo. The SMD was back‐translated to a typical scale [for example, 0 to 10 for pain] by multiplying the SMD by a typical among‐person standard deviation [for example, the standard deviation of the control group at baseline from the most representative trial] [Higgins 2011].

Unit of analysis issues

We planned to include cross‐over randomised trials, but only if data from the first period were reported. When multiple methotrexate doses were evaluated in a single trial, we included only the most relevant [close to clinical practice] dosage.

Dealing with missing data

Authors from two trials were contacted to obtain missing numerical outcome data, but no response was obtained. For continuous outcomes, we calculated the effect estimate based on the number of patients analysed at the final visit. If the number of patients analysed was not presented, the number reported at baseline was used. When only median and interquartile ranges were reported, the median was used as the mean and one half of the difference between the first and third quartile range was used as the standard deviation. When the end‐of‐trial standard deviation was not reported we used the baseline standard deviation for the pooled analysis. In our experience, the baseline standard deviation of RA outcome measures is often very close to the end‐of‐trial standard deviation, perhaps slightly larger. This resultant bias would therefore result in decreased weighting of the studies and is preferable to completely excluding them. If no standard deviation was provided at baseline, missing standard deviations were computed from other statistics such as standard errors or imputed from other studies in the meta‐analysis. When numerical data were only reported graphically, the value was extracted from the graph.

Assessment of heterogeneity

The heterogeneity of the trials for each pooled analysis was estimated using the Chi2 test and I2 statistic. For the Chi2 test, a P value ≤ 0.10 indicated evidence of statistical heterogeneity. An I2 value of 0% to 40% might 'not be important'; 30% to 60% may represent 'moderate' heterogeneity; 50% to 90% may represent 'substantial' heterogeneity; and 75% to 100% represents 'considerable' heterogeneity [Higgins 2011].

Assessment of reporting biases

A funnel plot was not planned a priori. In addition, this could not be created for the updated version of the review due to the limited number of studies that were included.

Data synthesis

Fixed‐effect models were used throughout. Random‐effects models were used for outcomes showing statistically significant heterogeneity.

Summary of findings table

A 'Summary of findings' table was created using the following outcomes: 1] ACR 50 response, 2] disease remission, 3] functional status, 4] health‐related quality of life, 5] radiographic progression, 6] discontinuations due to adverse events, 7] serious adverse events.

Two people [MLO, HRS] independently assessed the quality of the evidence. We used the five GRADE considerations [study limitations, consistency of effect, imprecision, indirectness and publication bias] to assess the quality of a body of evidence as it related to the studies which contributed data to the meta‐analyses for the prespecified outcomes. In the comments column of the summary of findings table we provided the absolute per cent difference, the relative per cent change from baseline, and the number needed‐to‐treat [NNT].

For dichotomous outcomes, the absolute risk difference was calculated using the risk difference statistic in RevMan and the result expressed as a percentage. For continuous outcomes, the absolute benefit was calculated as the improvement in the intervention group minus the improvement in the control group, in the original units.

The relative per cent change for dichotomous data was calculated as the risk ratio ‐ 1 and expressed as a percentage. For continuous outcomes, the relative difference in the change from baseline was calculated as the absolute benefit divided by the baseline mean of the control group.

The number needed to treat [NNT] was provided only when the outcome showed a statistically significant difference. For dichotomous outcomes, the NNT was calculated from the control group event rate and the relative risk using the Visual Rx NNT calculator [Cates 2008]. The NNT for the functional status was calculated using the Wells calculator [available at the CMSG Editorial office].

Subgroup analysis and investigation of heterogeneity

The results on efficacy were analysed for all the study endpoints [12, 18, 27, and 52 weeks]. We evaluated subgroup interactions and compared the magnitude of the effects between the subgroups by assessing the overlap of the confidence intervals of the summary measures estimated. Non‐overlap of the confidence intervals indicated statistical significance.

Sensitivity analysis

For the cross‐over trials where data from the first period was not provided for both arms, we explored the impact of including the studies in the overall assessment of results by a sensitivity analysis. For dichotomous outcomes [for example, number of withdrawals due to adverse events], we also compared the magnitude of the effects when using the intention to treat population versus completers as the denominator.

Results

Description of studies

The methods of the included studies are summarised in the Characteristics of included studies tables.

Results of the search

The search strategy for the original review was run from inception to 1997. From 11 potentially eligible articles, only 5 trials [8 publications] met the inclusion criteria [Andersen 1985; Furst 1989; Pinheiro 1993; Weinblatt 1985; Williams 1985]. For the update, a search strategy was run from 1997 to November 2013. Figure 1 shows a flow diagram of the disposition of the studies. For the update, there were 6859 unique citations retrieved from the electronic databases. After screening the titles and abstracts, we found 3099 relevant citations. Of these, 3090 were excluded [combined methotrexate or no placebo group]. We retrieved the full‐texts of 9 potentially eligible articles, but a further 3 were excluded [combined placebo group]. Only two new trials [six publications] met the inclusion criteria [Jiang 1998; Strand 1999 [ULTRA]].

Flow diagram of the included studies.

*Additional data were unavailable since at the time of the publication this information was not required to be reported.

Included studies

The summary of the characteristics of included studies and participants are shown in Table 7 and Table 8.

1

Characteristics of the included studies

2

Patient Characteristics

Efficacy

ACR response: only one study measured the ACR 20 response improvement at 52 weeks [Strand 1999 [ULTRA]]. Patients in the methotrexate group were 1.8 times more likely to improve at least 20% compared to the patients in the placebo group [RR 1.8, 95% CI 1.3 to 2.5] [Analysis 1.1]. For ACR 50, patients in the methotrexate group were more likely to have 50% improvement in their symptoms when compared to those in the placebo group [RR 3.0, 95% CI 1.5 to 6.0; absolute treatment benefit [ATB] 15%, 95% CI 8% to 23%] [Analysis 1.2; Table 1]. That is, in the methotrexate group 23 people out of 100 had an improvement in their symptoms of at least 50% over 52 weeks, compared to only 8 out of 100 in the placebo group. The NNT was 7 [95% CI 22 to 4]. No statistically significant differences were observed between groups for ACR 70 at 52 weeks [Analysis 1.3].

Analysis

Comparison 1 Efficacy, Outcome 1 ACR 20.

Analysis

Comparison 1 Efficacy, Outcome 2 ACR 50.

Analysis

Comparison 1 Efficacy, Outcome 3 ACR 70.

Remission: Williams 1985 categorized patients to be in therapeutic remission if they had at least 5 of [≥ 2 months]: morning stiffness of < 15 minutes, no fatigue, no joint pain by history, no joint tenderness, no joint swelling, and Westergren ESR of < 20 mm/hr in men and < 30 mm/hr in women. No patient in either group achieved therapeutic remission [Analysis 1.4].

Analysis

Comparison 1 Efficacy, Outcome 4 Disease Remission.

Tender and swollen joint counts: four studies assessed the number of tender and swollen joints at 12 to 52 weeks [Jiang 1998; Strand 1999 [ULTRA]; Weinblatt 1985; Williams 1985]. The pooled SMD was ‐0.65 [95% CI ‐0.91 to ‐0.38] [Analysis 1.5]. We used Strand 1999 [ULTRA] data to back‐translate the effect estimate, where the standard deviation of the placebo group at baseline was 6.3. Therefore, on a 28‐joint count people who took methotrexate alone had a further reduction of 4 less tender joints compared with people who took placebo [95% CI 5 to 2]. In addition, patients taking methotrexate were more likely to reduce at least by 50% the number of tender joints count when compared to patients taking placebo at 18 weeks [RR 4.2, 95% CI 1.1 to 16.7] [Analysis 1.6].

Analysis

Comparison 1 Efficacy, Outcome 5 Number of tender joints.

Analysis

Comparison 1 Efficacy, Outcome 6 >50% improvement in TJC.

The pooled SMD for the swollen joint counts was ‐0.58 [95% CI ‐0.75 to ‐0.41] [Analysis 1.7]. The standard deviation for the placebo group at baseline that was used to back‐translate the effect estimate was 6.2 [Strand 1999 [ULTRA]]. Therefore, on a 28‐joint count people who took methotrexate alone had a further reduction of 3 less swollen joints compared with people who took placebo [95% CI 4 to 2]. No statistically significant differences were observed in the rates of patients achieving at least 50% reduction in the number of swollen joints [Analysis 1.8].

Analysis

Comparison 1 Efficacy, Outcome 7 Number of swollen joints.

Analysis

Comparison 1 Efficacy, Outcome 8 >50% improvement in SJC.

Tender and swollen joint indexes: five studies measured joint tenderness and pain index over a time period of 12 to 18 weeks [Furst 1989; Jiang 1998; Pinheiro 1993; Weinblatt 1985; Williams 1985]. The pooled SMD was ‐0.73 [95% CI ‐1.1 to ‐0.34] [Analysis 1.9]. The standard deviation for the placebo group at baseline that was used to back‐translate the effect estimate was 31.0 [Williams 1985]. Therefore, on a 58‐joint count people who took methotrexate alone had a further reduction of 22 units in their tender joint score compared with people who took placebo [95% CI 34 to 10]. Also, patients receiving methotrexate were more likely to achieve at least 30% reduction in joint tenderness and pain index when compared to patients receiving placebo at 12 to 18 weeks [RR 4.3, 95% CI 1.6 to 11.9] [Analysis 1.10].

Analysis

Comparison 1 Efficacy, Outcome 9 Tender Joint Score/Index.

Analysis

Comparison 1 Efficacy, Outcome 10 at least 30% improvement in TJS.

Regarding the swollen joint index, one of the studies provided only one value [per group] for the Ritchie articular index [Pinheiro 1993]. The same values were entered for Analysis 1.9 and Analysis 1.11. The pooled SMD was ‐0.48 [95% CI ‐0.70 to ‐0.25] [Analysis 1.11]. The standard deviation for the placebo group at baseline that was used to back‐translate the effect estimate was 24.7 [Williams 1985]. Therefore, on a 58‐joint count people who took methotrexate alone had a further reduction of 11 units in their swollen joint score compared with people who took placebo [95% CI 17 to 6]. Also, patients receiving methotrexate were more likely to achieve at least 30% reduction in joint swelling score when compared to patients receiving placebo [RR 4.9, 95% CI 2.4 to 9.9] [Analysis 1.12].

Analysis

Comparison 1 Efficacy, Outcome 11 Swollen Joint Score/Index.

Analysis

Comparison 1 Efficacy, Outcome 12 at least 30% improvement in SJS.

Physician global assessment of disease activity: four studies measured this outcome at 12 to 52 weeks [Furst 1989; Strand 1999 [ULTRA]; Weinblatt 1985; Williams 1985]. The pooled SMD was ‐1.1 [95% CI ‐1.5 to ‐0.74] [Analysis 1.13]. The standard deviation for the placebo group at baseline that was used to back‐translate the effect estimate was 1.6 [Strand 1999 [ULTRA]]. Therefore, on a 0 to 10 scale physicians assessing the methotrexate‐treated group rated a further reduction of 1.8 units in the patients' disease activity compared with the placebo group [95% CI 2.4 to 1.2]. No statistically significant differences were observed between groups in the per cent of patients improving the physician global assessment of disease activity by at least by 50% [Analysis 1.14].

Analysis

Comparison 1 Efficacy, Outcome 13 Physician global assessment.

Analysis

Comparison 1 Efficacy, Outcome 14 Percent of patients improving in PhGA.

Walking time: four studies measured walking time in seconds at 12 to 18 weeks [Furst 1989; Pinheiro 1993; Weinblatt 1985; Williams 1985]. The pooled SMD was ‐0.43 [95% CI ‐0.85 to ‐0.01] [Analysis 1.15]. No statistically significant differences were observed in the proportion of patients improving at least by 50% in walking time [Analysis 1.16].

Analysis

Comparison 1 Efficacy, Outcome 15 Walking time.

Analysis

Comparison 1 Efficacy, Outcome 16 >50% improvement in walking time.

Grip strength: four studies measured this outcome. No statistically significant differences were found between groups [Analysis 1.17].

Analysis

Comparison 1 Efficacy, Outcome 17 Grip strength.

Acute phase reactants: four studies measured ESR at 12 to 52 weeks [Furst 1989; Pinheiro 1993; Strand 1999 [ULTRA]; Weinblatt 1985]. Patients who received methotrexate lowered their ESR levels by 8.7 units compared to patients who received placebo [95% CI ‐13.9 to ‐3.5] [Analysis 1.18]. No statistically significant differences were found for CRP [Analysis 1.19].

Analysis

Comparison 1 Efficacy, Outcome 18 ESR.

Analysis

Comparison 1 Efficacy, Outcome 19 CRP.

Patient‐reported outcomes

Functional status: two studies reported data on HAQ disability index at 12 to 52 weeks [Pinheiro 1993; Strand 1999 [ULTRA]]. People who took methotrexate rated the change in their disability to be 0.27 points lower on a scale of 0 to 3 compared with people who took placebo [95% CI ‐0.39 to ‐0.16] [Analysis 2.1; Table 1]. The ATB was ‐9% [95% CI ‐13% to ‐5.3%] and NNT 4 [95% CI 3 to 7]. Also, patients on methotrexate were more likely to report improvement of at least 20% or 50% in their HAQ disability index compared to patients on placebo [49% versus 27%; RR 1.8, 95% CI 1.3 to 2.6] and [30% versus 14%; RR 2.2, 95% CI 1.3 to 3.7], respectively [information from single trial: Strand 1999 [ULTRA]] [Analysis 2.2].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 1 HAQ Disability Index.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 2 Percent of improvement in HAQ‐Di.

The modified HAQ was used in Strand 1999 [ULTRA]. Patients receiving methotrexate rated the change in their disability to be 0.40 points lower on a scale of 0 to 3 after 52 weeks compared with patients receiving placebo [95% CI ‐0.52 to ‐0.28] [Analysis 2.3]. In addition, patients on methotrexate were more likely to report improvement of at least 20% or 50% in their modified HAQ when compared to patients taking placebo [RR 1.7, 95% CI 1.4 to 2.2] [Analysis 2.4].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 3 MHAQ.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 4 Percent of improvement in MHAQ.

The ADL score was used in Furst 1989. Patients receiving methotrexate rated the change in their disability to be 50 points lower on a scale of 0 to 180 after 18 weeks compared with patients receiving placebo [95% CI ‐67.8 to ‐32.2] [Analysis 2.5]. No statistically significant differences were observed between groups in the rate of patients achieving a 50% improvement in ADL scores [Analysis 2.6].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 5 Activities of Daily Living [ADL].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 6 Activities of Daily Living [ADL].

Health‐related quality of life: quality of life was measured using the SF‐36 by one single trial [Strand 1999 [ULTRA]] at 52 weeks. Patients who were taking methotrexate were more likely to report an improvement of at least 20% or 50% in the SF‐36 physical component when compared to patients taking placebo [39% versus 17%; RR 1.5, 95% CI 1.0 to 2.1] and [23% versus 5%; RR 2.2, 95% CI 1.3 to 3.7], respectively [Analysis 2.7; Table 1]. However, no statistically significant differences were observed between groups for the SF‐36 mental component [Analysis 2.8; Table 1].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 7 SF‐36 Physical component.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 8 SF‐36 Mental component.

Pain: four studies measured patient self‐reported pain at 12 to 52 weeks [Furst 1989; Pinheiro 1993; Strand 1999 [ULTRA]; Williams 1985]. People who took methotrexate rated their pain to be 2 points lower on a scale of 0 to 10 after 12 to 52 weeks with methotrexate compared with placebo [95% CI ‐2.4 to ‐1.6] [Analysis 2.9]. No statistically significant differences were found in the rates of patients decreasing their pain by at least 50% between groups [information from single trial: Furst 1989] [Analysis 2.10]. No studies reported data on improvement of at least 20% in pain.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 9 Pain.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 10 Pain.

Patient global assessment of disease activity: four studies reported data for this outcome at 12 to 18 weeks [Furst 1989; Strand 1999 [ULTRA]; Weinblatt 1985; Williams 1985]. The pooled SMD was ‐1.2 [95% CI ‐1.6 to ‐0.68] [Analysis 2.11]. The standard deviation for the placebo group at baseline that was used to back‐translate the effect estimate was 2.2 [Strand 1999 [ULTRA]]. Therefore, on a 0 to 10 scale people who took methotrexate alone had a further reduction of 2.6 units in their global assessment of disease activity compared with people who took placebo [95% CI 3.6 to 1.5]. No statistically significant differences were observed between groups in the per cent of patients improving in the patient global assessment of disease activity as defined by the authors [Analysis 2.12].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 11 Patient global assessment.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 12 Improvement in PtGA.

Morning stiffness: four studies measured duration of morning stiffness in their study participants over a time period of 12 to 18 weeks [Furst 1989; Pinheiro 1993; Weinblatt 1985; Williams 1985]. No statistically significant differences were observed between groups [Analysis 2.13; Analysis 2.14].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 13 Morning stiffness.

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 14 Morning stiffness.

Work productivity: one trial reported on work productivity [Strand 1999 [ULTRA]]. Patients taking methotrexate were more likely to report at least 20% or 50% improvement in their work productivity when compared to patients taking placebo [RR 1.9, 95% CI 1.2 to 3.1 and RR 2.4, 95% CI 1.2 to 4.7, respectively]. That is, only 20 people out 100 in the methotrexate group reported at least 20% improvement in their work productivity compared to 38 people out of 100 in the placebo group. Only 10 people out 100 in the methotrexate group reported at least 50% of improvement in their work productivity compared to 23 people out of 100 in the placebo group [Analysis 2.15].

Analysis

Comparison 2 Patient‐reported outcomes, Outcome 15 Work Productivity.

Structural damage

Radiographic progression: one trial reported Sharp radiographic scores [Strand 1999 [ULTRA]]. Patients receiving methotrexate were less likely to have an increase in Sharp erosion scores of more than three units when compared to patients taking placebo [RR 0.31, 95% CI 0.11 to 0.86] [Analysis 3.1]. Only 4 people out 100 in the methotrexate group had radiographic progression compared to 12 people out of 100 in the placebo group [ATB ‐8%, 95% CI ‐16% to ‐1%] [Table 1].

Analysis

Comparison 3 Radiographic outcomes, Outcome 1 Radiographic Progression.

Total Sharp score, erosion score and joint space narrowing: only one study reported data on these outcomes [Strand 1999 [ULTRA]]. No statistically significant differences were observed between groups at 52 weeks [Analysis 3.2; Analysis 3.3; Analysis 3.4].

Analysis

Comparison 3 Radiographic outcomes, Outcome 2 Total Sharp Score.

Analysis

Comparison 3 Radiographic outcomes, Outcome 3 Erosion Score.

Analysis

Comparison 3 Radiographic outcomes, Outcome 4 Joint Space Narrowing.

New joint erosions: the proportion of patients with new joint erosions at 52 weeks were similar between groups [Analysis 3.5].

Analysis

Comparison 3 Radiographic outcomes, Outcome 5 New Joint Erosions.

Discontinuations

Total number of discontinuations: patients in the methotrexate group were statistically significantly less likely to withdraw for any reason compared with the placebo group [RR 0.73, 95% CI 0.62 to 0.88] [Analysis 4.1].

Analysis

Comparison 4 Discontinuations, Outcome 1 Total.

Due to lack of efficacy and other reasons: similar rates of discontinuations due to lack of efficacy and other reasons including losses to follow‐up, non‐compliance, protocol violation, and voluntary or unclear reasons were observed between groups [Analysis 4.2; Analysis 4.4; Analysis 4.5; Analysis 4.6; Analysis 4.7].

Analysis

Comparison 4 Discontinuations, Outcome 2 Lack of efficacy.

Analysis

Comparison 4 Discontinuations, Outcome 4 Lost to follow‐up.

Analysis

Comparison 4 Discontinuations, Outcome 5 Non‐compliance.

Analysis

Comparison 4 Discontinuations, Outcome 6 Protocol violation.

Analysis

Comparison 4 Discontinuations, Outcome 7 Voluntary or unclear reasons.

Due to adverse events: patients treated with methotrexate were statistically significantly more likely to discontinue treatment and withdraw from the study due to adverse events compared to patients treated with placebo [RR 2.1, 95% CI 1.3 to 3.3] [Analysis 4.3]. In the methotrexate group 16 patients out of 100 withdrew due to adverse events over 52 weeks, compared to 8 people out of 100 in the placebo group [95% CI 10 to 25] [ATB 9%, 95% CI 3% to 14%] [Table 1]. Furthermore, patients in the methotrexate group were more likely to discontinue treatment because of liver enzyme abnormalities compared to patients in the placebo group at 12 to 52 weeks [8% versus 2%; RR 3.8, 95% CI 1.6 to 8.8] [Analysis 4.14]. Rates of withdrawals due to other adverse events including alopecia, gastrointestinal events, hematological events, hypertension, infection, interstitial pneumonitis, mucocutaneous events, myocardial infarction and rash were similar between groups [Analysis 4.8; Analysis 4.9; Analysis 4.10; Analysis 4.11; Analysis 4.12; Analysis 4.13; Analysis 4.15; Analysis 4.16; Analysis 4.17].

Analysis

Comparison 4 Discontinuations, Outcome 3 Adverse events.

Analysis

Comparison 4 Discontinuations, Outcome 8 Alopecia.

Analysis

Comparison 4 Discontinuations, Outcome 9 Gastrointestinal adverse events.

Analysis

Comparison 4 Discontinuations, Outcome 10 Hematological adverse events.

Analysis

Comparison 4 Discontinuations, Outcome 11 Hypertension.

Analysis

Comparison 4 Discontinuations, Outcome 12 Infection.

Analysis

Comparison 4 Discontinuations, Outcome 13 Interstitial pneumonitis/Pulmonary infiltrates.

Analysis

Comparison 4 Discontinuations, Outcome 14 Liver enzyme abnormalities.

Analysis

Comparison 4 Discontinuations, Outcome 15 Mucocutaneous adverse events.

Analysis

Comparison 4 Discontinuations, Outcome 16 Myocardial infarction.

Analysis

Comparison 4 Discontinuations, Outcome 17 Rash.

Toxicity

Total adverse events: patients in the methotrexate group were more likely to have any type of adverse event compared with the placebo group [RR 3.0, 95% CI 1.4 to 6.4]. In the placebo group 15 people out of 100 had adverse events over 12 to 18 weeks, compared to 45 [95% CI 21 to 95] out of 100 for the methotrexate group [Analysis 5.1].

Analysis

Comparison 5 Adverse events, Outcome 1 Total.

Serious adverse events: only 2% to 3% of the patients withdrew from the studies at 27 to 52 weeks due to serious adverse events [2% placebo, 3% methotrexate]. There was only one study with one death reported in the methotrexate group caused by sepsis, but it was not clear if this was attributed to the drug. No statistically significant differences between groups were observed in the proportion of patients with serious adverse events at 27 to 52 weeks [Analysis 5.2; Table 1].

Analysis

Comparison 5 Adverse events, Outcome 2 Serious Adverse Events.

Statistically significant adverse events: patients who received methotrexate were more likely to have an infection when compared to patients who received placebo, at 12 to 52 weeks [49% versus 35%; RR 1.3, 95% CI 1.0 to 1.6] [Analysis 5.18]. The most common infections were: upper respiratory infections, bronchitis and pneumonia. Rates of any type of liver enzyme abnormalities were higher in the methotrexate‐treated group compared to the placebo‐treated group at 12 to 52 weeks [15% versus 3%; RR 4.8, 95% CI 2.3 to 10.0] [Analysis 5.19]. Stomatitis and oral ulcers at 12 to 18 weeks were more likely to be reported in the methotrexate group compared to the placebo group [9% versus 4%; RR 2.0, 95% CI 1.0 to 4.0] [Analysis 5.28]. Also, alopecia and gastrointestinal distress rates were higher in the methotrexate group compared to the placebo group at 12 to 52 weeks [6% versus 1% [Analysis 5.4] and 9% versus 4% [Analysis 5.14], respectively].

Analysis

Comparison 5 Adverse events, Outcome 4 Alopecia.

Analysis

Comparison 5 Adverse events, Outcome 14 Gastroenteritis/gastrointestinal distress.

Analysis

Comparison 5 Adverse events, Outcome 18 Infections.

Analysis

Comparison 5 Adverse events, Outcome 19 Liver enzymes abnormalities.

Analysis

Comparison 5 Adverse events, Outcome 28 Stomatitis/oral ulcers.

Other reported adverse events: non‐statistically significant differences in the rates of the following adverse events were observed between groups.

• Analysis

  Comparison 5 Adverse events, Outcome 3 Abdominal pain.

• Analysis

  Comparison 5 Adverse events, Outcome 5 Anorexia.

• Analysis

  Comparison 5 Adverse events, Outcome 6 Allergic reactions.

• Analysis

  Comparison 5 Adverse events, Outcome 7 Backpain.

• Analysis

  Comparison 5 Adverse events, Outcome 8 Chest pain.

• Central nervous system [CNS] side effects [nightmares and depression] at 12 to 18 weeks [Analysis 5.9].

  Analysis

  Comparison 5 Adverse events, Outcome 9 CNS [Nightmares, Depression].

• Analysis

  Comparison 5 Adverse events, Outcome 10 Cough.

• Analysis

  Comparison 5 Adverse events, Outcome 11 Death.

• Analysis

  Comparison 5 Adverse events, Outcome 12 Diarrhea.

• Analysis

  Comparison 5 Adverse events, Outcome 13 Dyspepsia.

• Analysis

  Comparison 5 Adverse events, Outcome 15 Headache.

• Hematological adverse events at 18 weeks [Analysis 5.16].

  Analysis

  Comparison 5 Adverse events, Outcome 16 Hematological adverse events.

• Analysis

  Comparison 5 Adverse events, Outcome 17 Hypertension.

• Analysis

  Comparison 5 Adverse events, Outcome 20 Mucosal ulcers.

• Nausea or vomiting, or both, at 12 to 52 weeks [Analysis 5.21].

  Analysis

  Comparison 5 Adverse events, Outcome 21 Nausea and/or Vomiting.

• New onset of hypertension at 52 weeks [Analysis 5.22].

  Analysis

  Comparison 5 Adverse events, Outcome 22 New onset Hypertension.

• Analysis

  Comparison 5 Adverse events, Outcome 23 Proteinuria.

• Analysis

  Comparison 5 Adverse events, Outcome 24 Pruritus.

• Analysis

  Comparison 5 Adverse events, Outcome 25 Psoriasis.

• Pulmonary infiltrates [interstitial pneumonitis] at 18 weeks [Analysis 5.26].

  Analysis

  Comparison 5 Adverse events, Outcome 26 Pulmonary events.

• Analysis

  Comparison 5 Adverse events, Outcome 27 Rash.

• Analysis

  Comparison 5 Adverse events, Outcome 29 Stroke.

Discussion

Summary of main results

Methotrexate was initially used for the treatment of RA in 1951 [Gubner 1951]. Since then, several open studies, randomized controlled trials [RCTs] and controlled clinical trials [CCTs] have suggested beneficial effects. The purpose of this systematic review was to evaluate the efficacy and toxicity of methotrexate for the treatment of people with RA when compared to placebo. We only included in this review placebo controlled CCTs and RCTs reporting results after a minimum of 12 weeks of treatment. The dosage of methotrexate in these trials ranged from 7.5 to 25 mg per week.

Substantial differences between placebo and methotrexate were observed for measures of disease activity, in favour of methotrexate. These differences were clinically important and statistically significant for various efficacy and patient‐reported outcomes and structural damage measures. The standardized weighted differences between methotrexate and placebo for the various outcome measures varied between ‐0.43 and ‐1.2. These effects can be considered to be substantial. The minimum effect size considered to be clinically meaningful in RA has been estimated at 0.30 [Kazis 1989]. The absolute treatment benefit [ATB] to achieve an ACR20 response was 20% and for an ACR50 was 15% with a NNT of 6 and 7, respectively. No statistically significant differences were observed in the overall number of withdrawals and dropouts, but methotrexate participants were statistically significantly more likely to discontinue treatment because of adverse reactions, specifically liver enzyme abnormalities and placebo participants because of lack of response. The most frequent side effects with methotrexate were infections, raised liver enzymes and stomatitis.

Overall completeness and applicability of evidence

Two new studies were included for this update [Jiang 1998; Strand 1999 [ULTRA]. However, most studies were conducted between 1985 and 1993, before any definitions of improvement were published, thus only one study published in 1999 [Strand 1999 [ULTRA]] reported data on the per cent of people improving using the ACR core set. Evidence on radiographic outcomes was also derived from the same unique study [Strand 1999 [ULTRA]], which showed statistically significant delay in progression with methotrexate. This trial used state of the art study design and recommended outcome measures for trials in RA [Felson 1993; OMERACT 1993]. This updated review provides confirmatory evidence of the benefit of methotrexate at weekly doses of 5 to 25 mg for patients with RA. The trials included in this review used similar inclusion criteria and the participant populations had longstanding severe RA [more than 4 years], were often seropositive, and had failed previous DMARDs [for example, gold therapy, D‐penicillamine, anti‐malarials]. Despite the severity of the disease, the improvement was substantial. Both cross‐over trials reported a failure in the disease state after discontinuation of methotrexate, which suggests that the drug has to be continued to maintain the benefit. The long term effectiveness or safety profile of methotrexate cannot be established with this review.

Quality of the evidence

The Table 1 shows the overall quality of evidence. Evidence quality was mainly moderate to high with one outcome, remission, being graded as low quality. Statistically significant heterogeneity among trials was observed for various outcome measures. The heterogeneity remained significant with random‐effects models. As expected, random‐effects model pooling resulted in larger confidence intervals than those obtained from fixed‐effect models. Nevertheless, most efficacy outcome measures remained statistically significant. The reasons for heterogeneity are not apparent but are not likely to relate to the RA populations in the trials since participants were quite similar, having longstanding and severe RA. More likely, differences may have resulted from the various methods used to estimate these outcomes, which requires standardization. For instance, global assessments were measured in different trials with Likert scales or visual analogue scales [VAS].

Potential biases in the review process

A strength of this review is the electronic search strategy using the latest methodology. All important databases were searched, including trial registers. Two trials used a cross‐over design [Andersen 1985; Weinblatt 1985]. Because of how the data were reported, we used the final results for the first arm, which was provided only in Weinblatt 1985. In two trials [Pinheiro 1993; Weinblatt 1985] we used the baseline standard deviation to pool the results. This procedure may have created some bias. It was similarly applied to both groups [treatment and control] and the overall impact on the estimation of differences between groups is probably small. Moreover, this bias is expected to result in decreased weighting of these studies, which was preferable, in our view, to excluding the trials.

Agreements and disagreements with other studies or reviews

Clinical practice guidelines recommend methotrexate to be used as a first DMARD in the majority of patients with RA [Singh 2012; Smolen 2013]. Other published meta‐analyses have reported similar results [Felson 1992; Gotzsche 1992] but the studies included in these reviews did not include state of the art study design nor used the patient responder analyses as recommended by OMERACT [as reported in the Strand 1999 [ULTRA] study]. These systematic reviews also concluded that methotrexate has a better benefit‐harm ratio compared to other alternatives. Furthermore, methotrexate has been proven to be effective even if re‐employed after previous failure [Kapral 2006].

Long term extensions of clinical trials have reported similar findings [Weinblatt 1998; Weinstein 1985]. Weinblatt 1998 found that after 11 years of receiving methotrexate monotherapy only 11% of 26 patients discontinued due to toxicity. Weinstein 1985 evaluated 21 patients for five years and only two discontinued therapy due to gastrointestinal toxicity. In the TEMPO trial after three years of methotrexate exposure in 228 patients, non‐infectious serious adverse events were reported in 23% of the patients [van der Heijde 2007]. Furthermore, a systematic review of 2008 to 2012 literature that was conducted for the Italian clinical recommendations for the use of methotrexate in rheumatic diseases found evidence suggesting that discontinuation rates due to toxicity are similar to those in patients treated with hydroxychloroquine or leflunomide, and lower than those in patients receiving gold salts or sulphasalazine [Todoerti 2013]. The most frequent adverse events reported in the 70 included studies were gastrointestinal and liver toxicity, especially during the first five years. The discontinuation rate due to hepatotoxicity is about 5%. Nonetheless, a recently updated Cochrane review has found that when supplemented with folic acid, methotrexate side effects can be reduced [Shea 2003; Shea 2013].

Authors' conclusions

Implications for practice

Based on mainly moderate to high quality evidence, methotrexate has a substantial clinical and statistically significant benefit compared to placebo in the short term treatment of people with RA. However, its use was associated with a 16% discontinuation rate due to adverse events.

Implications for research

Although, the long term effectiveness or safety profile of methotrexate cannot be established with this review, time trend analyses indicate that methotrexate monotherapy has a two‐year drug survival [Aga 2013]. Methotrexate continues to be the most prescribed drug for the treatment of RA. This review provides the centrepiece evidence to further compare the effects of methotrexate as the standard of care to other disease‐modifying antirheumatic drugs [traditional or biologic], monotherapy or combinations in network meta‐analyses.

What's new

History

Review first published: Issue 1, 1998

Acknowledgements

We would like to thank Tamara Rader for running the search for this review update and Elaine Belseck for her contributions to the original publication of this review. In addition, we would like to thank Brenda Topliss and Vivian Welch for their assistance in editing the original publication.

Appendices

Appendix 1. MEDLINE search strategy via Ovid

Database: Ovid MEDLINE[R] In‐Process & Other Non‐Indexed Citations and Ovid MEDLINE[R]

Search Strategy:

‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐

1 Methotrexate/ [30273]

2 Methotrexate.tw. [28916]

3 amet?opterine.tw. [18]

4 mexate.tw. [1]

5 Abitrexate.tw. [0]

6 A Met?opterine$.tw. [1]

7 Antifolan.tw. [0]

8 Emt?exate.tw. [1]

9 Enthexate.tw. [0]

10 Farmitrexate.tw. [0]

11 Folex.tw. [3]

12 Ledertrexate.tw. [1]

13 Methoblastin.tw. [0]

14 Methohexate.tw. [0]

15 Methotrate.tw. [0]

16 Methylaminopterin.tw. [7]

17 Metotrexat$.tw. [39]

18 Mtx.tw. [8008]

19 Novatrex.tw. [0]

20 Rheumatrex.tw. [3]

21 or/1‐20 [41106]

22 randomized controlled trial.pt. [338380]

23 controlled clinical trial.pt. [85027]

24 randomized.ab. [255787]

25 placebo.ab. [139913]

26 drug therapy.fs. [1570375]

27 randomly.ab. [187308]

28 trial.ab. [263549]

29 groups.ab. [1213057]

30 or/22‐29 [3031443]

31 [animals not [humans and animals]].sh. [3659106]

32 30 not 31 [2591488]

33 exp arthritis, rheumatoid/ [94388]

34 [[rheumatoid or reumatoid or revmatoid or rheumatic or reumatic or revmatic or rheumat$ or reumat$ or revmarthrit$] adj3 [arthrit$ or artrit$ or diseas$ or condition$ or nodule$]].tw. [88910]

35 [felty$ adj2 syndrome].tw. [662]

36 [caplan$ adj2 syndrome].tw. [110]

37 [sjogren$ adj2 syndrome].tw. [10508]

38 [sicca adj2 syndrome].tw. [715]

39 still$ disease.tw. [1514]

40 bechterew$ disease.tw. [366]

41 or/33‐40 [128329]

42 21 and 32 and 41 [5105]

Appendix 2. Cochrane CENTRAL via Wiley

#1 [[rheumatoid or reumatoid or revmatoid or rheumatic or reumatic or revmatic or rheumat* or reumat* or revmarthrit*] near/3 [arthrit* or artrit* or diseas* or condition* or nodule*]]:ti,ab

#2 felty* near/2 syndrome:ti,ab

#3 caplan* near/2 syndrome:ti,ab

#4 sjogren* near/2 syndrome:ti,ab

#5 sicca near/2 syndrome:ti,ab

#6 still* next disease:ti,ab

#7 MeSH descriptor: [Arthritis, Rheumatoid] explode all trees

#8 #1 or #2 or #3 or #4 or #5 or #6 or #7

#9 MeSH descriptor: [Methotrexate] explode all trees

#10 Methotrexate:ti,ab

#11 ametopterine:ti,ab

#12 mexate:ti,ab

#13 Abitrexate:ti,ab

#14 "A Met?opterine":ti,ab

#15 Emtexate:ti,ab

#16 Farmitrexate:ti,ab

#17 Folex:ti,ab

#18 Ledertrexate:ti,ab

#19 Methoblastin:ti,ab

#20 Methohexate:ti,ab

#21 Methotrate:ti,ab

#22 Methylaminopterin:ti,ab

#23 Metotrexate:ti,ab

#24 mtx:ti,ab

#25 Novatrex:ti,ab

#26 Rheumatrex:ti,ab

#27 [#9 or #10 or #11 or #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]

#28 #8 and #27

Appendix 3. EMBASE via Ovid

Database: Embase

Search Strategy:

‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐

1 methotrexate/ [114026]

2 Methotrexate.tw. [37008]

3 mexate.tw. [65]

4 Abitrexate.tw. [16]

5 Amet?opterine.tw. [19]

6 mexate.tw. [65]

7 Abitrexate.tw. [16]

8 A Met?opterine.tw. [1]

9 Antifolan.tw. [5]

10 Emt?exate.tw. [38]

11 Enthexate.tw. [1]

12 Farmitrexate.tw. [3]

13 Folex.tw. [69]

14 Ledertrexate.tw. [181]

15 Methoblastin.tw. [46]

16 Methohexate.tw. [0]

17 Methotrate.tw. [3]

18 Methylaminopterin.tw. [6]

19 Metotrexat$.tw. [135]

20 Mtx.tw. [11042]

21 Novatrex.tw. [45]

22 Rheumatrex.tw. [174]

23 exp rheumatoid arthritis/ [130067]

24 [[rheumatoid or reumatoid or revmatoid or rheumatic or reumatic or revmatic or rheumat$ or reumat$ or revmarthrit$] adj3 [arthrit$ or artrit$ or diseas$ or condition$ or nodule$]].tw. [111636]

25 [felty$ adj2 syndrome].tw. [671]

26 [caplan$ adj2 syndrome].tw. [128]

27 [sjogren$ adj2 syndrome].tw. [13234]

28 [sicca adj2 syndrome].tw. [903]

29 still$ disease.tw. [1856]

30 bechterew$ disease.tw. [418]

31 or/23‐30 [170180]

32 random$.tw. [780033]

33 factorial$.tw. [20129]

34 crossover$.tw. [44931]

35 cross over.tw. [19865]

36 cross‐over.tw. [19865]

37 placebo$.tw. [184209]

38 [doubl$ adj blind$].tw. [133711]

39 [singl$ adj blind$].tw. [12983]

40 assign$.tw. [215590]

41 allocat$.tw. [72967]

42 volunteer$.tw. [163728]

43 crossover procedure/ [36069]

44 double blind procedure/ [112873]

45 randomized controlled trial/ [336292]

46 single blind procedure/ [16934]

47 or/32‐46 [1275004]

48 or/1‐22 [118612]

49 31 and 47 and 48 [2897]

Appendix 4. Web of Science Conference Proceedings via Web of Knowledge

Topic=[methotrexate] AND Topic=[rheumatoid arthritis]

Timespan=1997‐01‐01 ‐ 2013‐02‐21. Databases=CPCI‐S, CPCI‐SSH.

Appendix 5. Clinicaltrials.gov

Advanced search

Condition = Rheumatoid Arthritis
Intervention = Methotrexate

Notes

New search for studies and content updated [no change to conclusions]

Data and analyses

Comparison 1

Efficacy

Comparison 2

Patient‐reported outcomes

Comparison 3

Radiographic outcomes

Comparison 4

Discontinuations

Comparison 5

Adverse events