Research ArticleArticle

Real-World Anti-Tumor Necrosis Factor Treatment in Rheumatoid Arthritis, Psoriatic Arthritis, and Ankylosing Spondylitis: Cost-Effectiveness Based on Number Needed to Treat to Improve Health Assessment Questionnaire

LILLIAN BARRA, JANET E. POPE and MICHAEL PAYNE
The Journal of Rheumatology July 2009, 36 (7) 1421-1428; DOI: https://doi.org/10.3899/jrheum.081122

Abstract

Objective. To determine the effectiveness and cost-effectiveness of anti-tumor necrosis factor (anti-TNF) medications in a real-world environment for the treatment of rheumatoid arthritis (RA), psoriatic arthritis (PsA), and ankylosing spondylitis (AS) using the Health Assessment Questionnaire (HAQ).

Methods. We created a database of patients with RA, PsA, or AS treated with anti-TNF agents (etanercept, infliximab, or adalimumab) at a large outpatient rheumatology clinic. Patient characteristics, baseline HAQ prior to treatment, subsequent yearly HAQ, and reasons for termination were collected. The cost based on percentage of patients achieving ≥ 0.2 improvement in HAQ (minimal clinically important difference, MCID) was calculated using the 2008 direct cost (Cdn) of the medication.

Results. Data were available on 297 patients (206 with RA, 57 PsA, 34 AS). The mean age was 55 years, with 12 years of disease, and the mean baseline HAQ (standard error, SE) was 1.37 (0.04). The changes in HAQ (SE) at Years 1, 2, and 3 were −0.31 (0.04), −0.24 (0.06), and −0.27 (0.07) for annual cost to achieve MCID of $41,636, $42,077, and $42,147, respectively. The number needed to treat (NNT) was 1.94 (RA), 1.88 (PsA), and 2.30 (AS). There were no statistical differences between the diseases studied.

Conclusion. We obtained data on the effectiveness and cost-effectiveness of anti-TNF drugs using the HAQ score, which is known to be an excellent predictor of work disability, morbidity, and mortality. HAQ scores decreased with treatment and were sustained throughout the 3–5 years of followup. The NNT of approximately 2 seems favorable and was similar between diseases.

Inflammatory arthritides, including rheumatoid arthritis (RA), psoriatic arthritis (PsA), and ankylosing spondylitis (AS), are chronic, debilitating diseases that lead to significant decreases in quality of life secondary to severe functional impairment and pain1,2. These disorders are quite prevalent (worldwide prevalence of about 1%)35 and incurrising costs to society both from a healthcare perspective and from loss of work productivity. It is estimated that the cost of rheumatic disorders is almost 3% of the US gross domestic product6.

The development of tumor necrosis factor (TNF) antagonists (etanercept, infliximab, and adalimumab) has revolutionized the treatment of inflammatory arthritis. These drugs have been shown to be very effective at controlling the symptoms of these disorders and may halt the radiographic progression of joint destruction710. Currently, they are indicated for patients with a variety of inflammatory disorders (RA, PsA, AS, and juvenile chronic arthritis) who have significant disease activity despite aggressive treatment with the usual standard of care, including methotrexate (MTX) and other disease modifying antirheumatic drugs (DMARD).

The Health Assessment Questionnaire Disability Index (HAQ-DI) is a validated tool for measuring patient function and it has been found to be a good predictor of functional impairment in RA and PsA1113. In addition, studies in patients with RA have shown that higher HAQ scores translate into increased morbidity, mortality, and hospitalizations; conversely, improving HAQ has been shown to decrease mortality14,15.

Most randomized controlled trials (RCT) have shown a HAQ score reduction of approximately 0.5 at 6 months to 1 year1618. However, large observational studies in Europe and the USA have not shown the same degree of improvement19,20. It may be difficult to translate benefits determined from RCT to actual clinical practice, as RCT have a relatively short placebo-controlled duration of 6 to 12 months and are conducted in an idealized clinical environment where the patient population may be quite different compared to the real world. Thus, real-world effectiveness studies are needed and comparisons of response between diseases are helpful when resources are limited.

Anti-TNF drugs are very costly (~$20,000/yr) and they are used longterm because discontinuation may result in a flare of the disease. Additional cost may be incurred given the increased risk of serious infections in patients taking anti-TNF medication21,22. However, it is thought that these drugs reduce joint replacement and work loss2325; therefore, in the long term, there is potential for cost savings. Because of the high up-front costs of anti-TNF drugs and the significant number of partial responders and nonresponders, there has been a growing need for cost-effectiveness analyses. Unfortunately, the majority of these studies have extrapolated cost benefits using models based on RCT2629, which may be overestimating drug effectiveness in the real world.

The purpose of our study was to use results obtained from a large clinical practice of patients with RA, PsA, or AS to determine the number needed to treat (NNT) and cost per minimal clinically important difference (MCID) in the HAQ.

MATERIALS AND METHODS

The design of this study was a retrospective cohort and it was conducted at St. Joseph’s Health Care in London, Ontario, at an outpatient rheumatology practice. HAQ scores have been done routinely at every visit for most patients since 2002. Charts from patients with RA, PsA, and AS between 2000 and 2007 were identified via billing codes (4042 charts). Inclusion criteria were a diagnosis of RA, PsA, or AS per the rheumatologist; treatment at any time with etanercept, infliximab, and/or adalimumab; and at least 1 HAQ score post 1 year of anti-TNF treatment. Patients were excluded if they were taking anti-TNF medications for other diseases or if they had no followup HAQ scores. For the 1 to 3 year analyses, only patients with baseline HAQ scores were included. A database was produced to record patient baseline characteristics, yearly HAQ disability and pain scores, duration of treatment and if drug was stopped, and the reason for termination. After termination, HAQ scores were not included in our study. HAQ subscales were not documented as we were primarily interested in the HAQ disability and pain scores, which are routinely used in the literature.

All patients were followed at least yearly with HAQ-DI and visual analog scale (VAS) pain scores (converted to a 0–3 scale) completed at each visit. Prior to 2002, HAQ scores were inconsistently recorded, thus, analyses comprising only longterm users (> 5 yrs) do not include baseline HAQ scores (completed in < 30%). Change in HAQ scores in Years 1 to 3 were calculated from baseline HAQ (recorded from the last visit prior to drug initiation within 3 mo). Per the available literature, MCID was considered for HAQ-DI at least 0.2 and for HAQ-Pain Score (HAQ-PS) at least 0.330,31.

Anti-TNF medications were initiated in patients with DMARD-refractory disease [defined as failure of at least 2 DMARD; the majority of RA and PsA patients had failed high-dose MTX (≥ 20 mg/wk), at least 1 DMARD combination and use of leflunomide as a condition of government funding of medication costs]. For AS, there had to be at least 2 nonsteroidal antiinflammatory drugs (NSAID) failed, and for government funding the previous use of MTX or sulfasalazine. The majority of patients taking anti-TNF drugs in RA and PsA were also concurrently treated with MTX (usually 20 to 25 mg/wk). Doses of anti-TNF medications were as follows: etanercept 50 mg subcutaneously (sc) each week, infliximab 3 to 5 mg/kg every 6–8 weeks, and adalimumab 40 mg sc every 2 weeks. A small percentage of patients were able to decrease etanercept doses to 25 mg/week, but this was not accounted for, as rarely patients with PsA were taking 50 mg twice a week for their skin manifestations.

The NNT was determined by the percentage of patients achieving at least MCID for HAQ scores (1 over percentage achieving MCID). For the cost-effectiveness analysis, only direct drug costs of anti-TNF were considered and these were estimated from 2008 prescription costs ($390.70 Cdn per 50 mg for etanercept, $726.80 per 40 mg for adalimumab, and $1017.53 per 100 mg vial of infliximab). We assumed that there was no extra laboratory monitoring in these patients as they were usually taking DMARD or other medications. The costs related to infusion times for infliximab were not taken into account. Costs were calculated per year in Canadian dollars, using the costs per one patient achieving at least MCID for HAQ. Comparisons of patient characteristics and HAQ responses between diseases were done.

All statistical analyses were conducted using the JMP statistics program.

RESULTS

Patient characteristics

Over 4000 charts were reviewed to identify a total of 467 patients treated with anti-TNF medications; of these, 297 (206 with RA, 57 with PsA, and 34 with AS) met inclusion and exclusion criteria. Table 1 summarizes the baseline characteristics of the patients included in our study. The mean age and sex ratios are consistent with previous trials. All baseline mean HAQ-DI scores were greater than 1.0, signifying moderate to severe functional impairment. Patients with RA were older and their mean HAQ-DI score was significantly higher than those with PsA and AS. However, the disease duration prior to initiation of an anti-TNF medication was similar in all 3 groups. The HAQ-PS was also not significantly different. Duration of treatment with any anti-TNF drug was longer in the RA group, which is a result of these drugs being approved earlier for RA compared to PsA and AS.

View this table:
Table 1.

Characteristics of patients with rheumatoid arthritis (RA), psoriatic arthritis (PsA), and ankylosing spondylitis (AS) taking anti-TNF treatment.

Efficacy of anti-TNF drugs

All patients at the St. Joseph’s rheumatology clinic are asked to complete HAQ-DI and pain scores (HAQ-PS; 0–3) at least yearly; adherence in this review was 88% for HAQ-DI and 72% for HAQ-PS. Medication adherence was not specifically monitored, but termination secondary to nonadherence was 4% (42% of those for financial reasons).

The change in HAQ-DI (standard error, SE) at Year 1 compared to baseline (Table 2) was −0.27 (0.04) for all patients, −0.29 (0.05) in RA, −0.26 (0.08) in PsA, and −0.19 (0.08) in AS. Although AS had less of a response compared to the other disorders, there was no statistically significant difference between groups (p = 0.8). This change at Year 1 was maintained through Years 2 and 3 in patients with RA. Those with PsA had a greater response at Year 3; however, a larger sample size would be needed to confirm this. There were insufficient numbers of AS patients at Year 3 of treatment to be included in our analysis. The percentages (SE) achieving ≥ MCID at Years 1, 2, and 3 were 51.0% (3.5%), 51.5% (4.7%), and 51.3% (5.6%), respectively, which was similar between the different diseases, resulting in a NNT of 1.67 to 2.34.

View this table:
Table 2.

Effect of anti-TNF drugs on HAQ-DI and cost percentage achieving HAQ-DI MCID over 3 years in patients with RA, PsA, and AS.

Similarly, there was no statistically significant difference in change in HAQ-PS (SE) scores from baseline between groups (Table 3). At Year 1, the change was −0.57 (0.07) in RA, −0.44 (0.18) in PsA, and −0.66 (0.20) in AS (p = 0.7), which was maintained at least until Year 3 of treatment in RA and PsA. The percentages of patients achieving ≥ MCID of HAQ-PS were greater than those of MCID of HAQ-DI (SE): 62.3% (3.6%), 62.0% (4.7%), and 53.9% (5.8%) in Years 1, 2, and 3, respectively (NNT of 1.50–1.86).

View this table:
Table 3.

Effect of anti-TNF drugs on HAQ-PS and cost percentage achieving HAQ-PS MCID over 3 years in RA, PsA, and AS.

Longterm anti-TNF users

Patients were considered longterm users of anti-TNF drugs if duration of treatment was > 5 years. Most of these patients lacked baseline HAQ scores as these were not routinely collected prior to 2002. These patients were older (mean age 59 yrs) but had shorter disease duration (mean 11.4 yrs) than those with < 5 years of treatment. The yearly HAQ-DI and HAQ-PS scores were not significantly different than in shorter-duration users. The HAQ-DI scores were 1.27, 1.35, 1.21, 1.28, and 1.33 in Years 1 to 5, respectively (Figure 1A). The HAQ-PS scores (Figure 1B) were 1.40, 1.26, 1.28, 1.31, and 1.44 (Years 1 through 5). The slight improvement in HAQ-PS seen in Years 2 to 4 was not sustained at Year 5 and could be due to a variable length of followup.

Figure 1.
Figure 1.

Health Assessment Questionnaire-Disability Index (HAQ-DI) and HAQ-Pain Score (PS) in longterm anti-TNF users.

Drug discontinuation

The majority of anti-TNF drug discontinuation occurred in Year 1 (23.7%) and Year 2 (22.2%) of treatment (Figure 2). With increasing years of treatment, the discontinuation rate dropped dramatically (only 4.5% in Years 4 and 5). Patients discontinuing treatment of 2 different anti-TNF drugs were more likely to discontinue a third anti-TNF drug (42.9%; Table 4), but the rate of discontinuation of a second biologic was not different compared to the first.

Figure 2.
Figure 2.

Percentage drug discontinuation for each treatment year.

View this table:
Table 4.

Reasons for discontinuation of anti-TNF drugs in patients with rheumatoid arthritis (RA), psoriatic arthritis (PsA), and ankylosing spondylitis (AS).

The main reason for discontinuation was ineffectiveness, followed by nonadherence. Adverse events leading to discontinuation were similar to those seen in RCT. There were 8 deaths. Cancer deaths (breast and lung) were from preexisting or new cancers and were thought to be unrelated to the drug. The 2 infection deaths may be attributable to anti-TNF treatment. There was no discontinuation secondary to tuberculosis (TB); however, our center screens for TB prior to initiation with anti-TNF drugs with TB skin testing and chest radiography. Prior to the onset of our study, one patient using infliximab, who was from The Netherlands and had worked in healthcare, reactivated pulmonary TB. Other patients who were in open-label extensions from RCT were not included, but 2 of them developed cancer (one had 2 primaries, lung and bowel, and one had metastatic bowel cancer).

Cost-effectiveness

Cost per year for achieving at least MCID in HAQ scores was used to estimate the cost-effectiveness of anti-TNF drugs. Only the direct cost of the drug was considered in this analysis ($21,243 for Year 1, $21,689 for Year 2, and $21,614 for Year 3; differences in costs are secondary to dosage differences between patient population in each of the years). With NNT of 1.50 to 2.34, the costs ranged from $31,866 to $50,752 per year (Tables 2 and 3).

Subgroup analyses

The changes in HAQ-DI and HAQ-PS for several subgroups are shown in Table 5. We chose to report the changes at Years 1 and 3 as there was no statistically significant difference between years (data not shown); there was also no difference between the different diseases (data not shown). Changes in HAQ scores were not affected by sex, disease duration, and the type of anti-TNF drug. The higher the baseline HAQ-DI scores, the greater the decrease in HAQ-DI (p < 0.001, p < 0.03 for Years 1 and 3). Similarly, patients with higher baseline HAQ-PS scores had greater decreases in HAQ-PS (p < 0.001).

View this table:
Table 5.

Changes in HAQ-DI and HAQ-PS analyzed by subsets of sex, disease duration, type of anti-TNF, baseline HAQ-DI, and baseline HAQ-PS.

DISCUSSION

RCT are thought to overestimate treatment effects and with the rising costs of pharmacological interventions, it is becoming increasingly important to determine the true degree of treatment effectiveness, which is likely best obtained from direct patient data19. Our study is the largest observational study of the effectiveness and cost-effectiveness of anti-TNF drugs in multiple rheumatologic conditions. In addition, we report followup data up to 5 years, whereas most RCT followup is insufficient, given that these disorders are chronic and may require decades of treatment.

Patients included in our study are comparable to many RCT in that they had significant disease with long disease duration. However, baseline HAQ scores for RA were slightly lower than in RCT (1.47 vs average of 1.6)19; scores for PsA were comparable to RCT (1.18 vs 1.10)17. We showed a mean HAQ-DI change at Year 1 of −0.29 for RA and −0.26 for PsA, significantly less than that reported in RCT (~ −0.5), which may be a result of selection criteria for RCT. Our patients had lower baseline HAQ scores and often had less severe joint counts and lower inflammatory mediators. In addition, the comorbidity of real-world patients tends to be higher than in RCT as those patients are often excluded from trials; therefore, this may have accounted for less change in our data. However, RCT protocols generally do not allow for adjustment of other medications (such as DMARD, steroids, and NSAID) that could allow for more optimal disease control.

Previous community-based studies32,33 also revealed greater HAQ changes than our study, but the population was derived from previous trials and thus the data were not truly observational. Two large databases, the British Society for Rheumatology Biologics Register (BSRBR) and the National Data Bank for Rheumatic Disease (NDB), may help elucidate the true effectiveness of anti-TNF drugs in the real world. Published reports based on the BSRBR have shown good European League Against Rheumatism responses with anti-TNF drugs; however, they have not specifically reported on HAQ changes and have focused only on RA20. The NDB reports a HAQ change of 0.14 at 1 year from a baseline of 1.34. Similarly, when the NDB VAS pain score is converted to a 0–3 scale, the change in pain was less (−0.42) than that reported here (−0.57; NDB baseline pain score 1.59 vs 1.91). Our subgroup analyses suggest that the higher the baseline HAQ for DI or pain, the greater the change in HAQ19.

The limitations of this analysis are that the data are from a single site, although there are 6 different rheumatologists and the referral area is large. The numbers for AS are small (as anti-TNF approval in AS came after that for RA and PsA). However, it appears that the incremental HAQ improvements are similar. Although the Bath AS Disease Activity Index is a more recognized functional score for AS, we chose the HAQ in order to compare the 3 diseases. We also did not follow up on what happened to the HAQ once a person discontinued anti-TNF treatment; many RA and PsA patients treated with 2–3 anti-TNF drugs were switched to other biologic agents or entered RCT, so they did not return to standard of care. In AS, nonrespondents often returned to nonbiologic care after failing at least 2 anti-TNF drugs.

With respect to the cost-effectiveness analysis, we chose to estimate cost-effectiveness based on the NNT to achieve HAQ MCID. The NNT of approximately 2 reported in our study is very good; however, the cost remains high and this is because only direct costs were considered. Many other costs were not considered in our study, such as work disability, rehabilitation, hospitalization, and surgical costs, which we could not reliably obtain from chart review as they were inconsistently recorded. Future work will involve the inclusion of other direct and indirect costs via cost-effectiveness models.

Ours is the first study to compare real-world effectiveness and cost-effectiveness of anti-TNF drugs between different rheumatologic diseases using HAQ scores, and has a relatively long followup. HAQ scores were clinically significantly decreased at 1 year and were sustained up to 5 years. There was no difference in response between RA, PsA, and AS. Baseline HAQ scores may affect change in HAQ and even those patients with very high HAQ scores may have a reversible component of functional impairment responsive to anti-TNF agents.

We have shown that the effectiveness of anti-TNF drugs is similar for RA, PsA, and AS and the NNT is approximately 2 to achieve at least MCID of HAQ-DI or HAQ pain.

Acknowledgments

We acknowledge the contributions of Drs. Nicole leRiche, David Bell, Andy Thompson, Gina Rohekar, and Sherry Rohekar, who agreed to have all of their charts reviewed, and Dr. Jamie Gregor, for his advice on cost-effectiveness analyses.

Footnotes

  • Supported by the University of Western Ontario, St. Joseph’s Health Care, and the London Health Sciences Centre, London, Ontario, Canada.

    • Accepted for publication February 4, 2009.

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