Abstract
Objective. To analyze erythrocyte sedimentation rate (ESR), C-reactive protein (CRP), and rheumatoid factor (RF) tests in 2 databases of consecutive patients with rheumatoid arthritis (RA) over 25 years between 1980 and 2004, in Finland and the USA.
Methods. Databases of 1892 patients of 7 rheumatologists in Jyväskylä, Finland, and 478 of one author in Nashville, TN, USA, seen in usual care, were reviewed for the first recorded ESR and CRP, and all RF tests.
Results. Median ESR at presentation was 30 mm/h at both sites. Mean ESR was 36 mm/h in Jyväskylä and 35 mm/h in Nashville. ESR was < 28 mm/h in 45% and 47% of patients at the 2 sites, respectively. CRP was normal in 44% and 58%, and all RF tests were negative in 38% and 37%, respectively. Both ESR and CRP were normal in 33% and 42% of patients, and all 3 tests were normal in 15% and 14% of patients in whom they were assessed. All 3 tests were abnormal in only 28% in Jyväskylä and 23% in Nashville.
Conclusion. A majority of patients with RA seen between 1980 and 2004 had abnormal ESR, CRP, or RF. However, more than 37% of patients had ESR < 28 mm/h, normal CRP, or all negative RF tests. Similarities of laboratory test data at 2 sites on different continents with different duration of disease suggest generalizability of the findings. Normal ESR, CRP, and RF are seen in a substantial proportion of patients with RA at this time.
An elevated erythrocyte sedimentation rate (ESR), C-reactive protein (CRP), and/or positive rheumatoid factor (RF) test support a diagnosis of rheumatoid arthritis (RA). ESR ≥ 28 mm/h and/or abnormal CRP are frequent inclusion criteria for RA clinical trials1. American College of Rheumatology (ACR) remission criteria for RA include ESR < 20 mm/h for men and < 30 mm/h for women2.
One report published in 1994 indicated that about 40% of patients with RA had a normal ESR3. This report has not been confirmed to date at other sites. Databases of consecutive patients with RA seen from 1980 to 2004, 1892 in Jyväskylä, Finland, and 478 in Nashville, TN, USA, include ESR, as well as CRP at first visit, and all RF tests, as analyzed in this report.
MATERIALS AND METHODS
Patients
A database has been maintained of all patients with RA seen between 1980 and 2004 at Jyväskylä Central Hospital4, and patients seen by one rheumatologist (TP) at Vanderbilt University in Nashville5. All patients had a diagnosis of RA made by a rheumatologist; more than 90% met formal criteria for classification of RA6. Patients in Nashville signed consent for results to be included in a database at Vanderbilt University. The study was approved by appropriate ethics committees.
Statistical analyses
The first recorded ESR was analyzed according to mean and median levels with interquartile ranges; < or ≥ 28 mm/h, an inclusion criterion for most clinical trials1; < 30 mm/h in women or < 20 mm/h in men — i.e., the values for ACR remission criteria2; ≤ 20 mm/h in women and ≤ 10 mm/h in men — i.e., more stringent “normal” values; and mean and median levels in 5-year periods, 1980–1984, 1985–1989, 1990–1994, 1995–1999, and 2000–2004. The first recorded CRP was analyzed similarly, including those with levels < 10 mg/l, the upper limit of normal at both sites. RF was recorded as positive or negative at any time, titers over the first decade of observation, and then as international units, so RF concentrations were not analyzed.
RESULTS
Patients
The cohorts appeared typical for RA: mean age 55 and 54 years, 67% and 70% female, and 62% and 63% positive for RF (Table 3) in Jyväskylä and Nashville, respectively. Patients differed in duration of disease, 72% < 1 year in Jyväskylä versus 24% < 1 year in Nashville, reflecting different medical systems. No significant association of duration of disease was seen with level of ESR, CRP, or RF at either site, and no significant differences in age and duration of disease were seen between patients who had available data or missing data for any test at either site.
ESR results
The median ESR was 30 mm/h at both sites, 30 and 30 mm/h in women and 31 and 27 mm/h in men, respectively (Table 1). The first recorded ESR was < 28 mm/h in 45% and 47% of patients, respectively (Table 1). ESR was < 30 mm/h in women or < 20 mm/h in men (a remission criterion) in 43% and 45% of patients in the 2 cohorts, respectively (Table 1).
ESR was < 30 mm/h in 49% and 48% of women, and < 20 mm/h in 32% and 37% of men, respectively. ESR ≤ 20 mm/h in women and ≤ 10 mm/h in men, a more stringent definition of “normal,” was seen in 25% of Jyväskylä patients and 30% of Nashville patients. Median presenting ESR values at the 2 sites were 35 mm/h and 32 mm/h in 1980–1984, 31 and 31 in 1985–1989, 33 and 31 in 1990–1994, 29 and 26 in 1995–1999, and 28 and 25 in 2000–2004 (p = 0.004 in Jyväskylä, p = 0.01 in Nashville; Table 2).
CRP results
The median presenting CRP was 12 mg/l in 1749 patients in Jyväskylä and 6 mg/l in 175 patients in Nashville (Table 1). A normal CRP of < 10 mg/l was seen in 44% of patients in Jyväskylä and 58% in Nashville (Table 1). The lower CRP level and higher proportion of normal CRP values in Nashville may reflect that CRP was performed only since 1995, and Nashville patients seen more recently have better clinical status than in earlier years7. Among patients with available data, 33% and 42% had neither ESR ≥ 28 mm/h nor CRP ≥ 10 mg/l at the 2 sites (Table 3).
Rheumatoid factor results
A positive RF was seen in 62% and 63% of patients at the 2 sites (Table 1). Overall, 15% and 14% of patients at the 2 sites had normal ESR and CRP, as well as negative RF tests, while 28% and 23% had abnormal results in all 3 tests (data not shown).
DISCUSSION
These results confirm similar analyses reported in 1994 concerning ESR3, extended to CRP and RF with similar results. Laboratory test findings were similar in 2 cohorts with extensive differences in duration of disease and possible prior treatment in Nashville, and were also similar to data reported from Wichita, KS, USA3, suggesting generalizability. ESR and CRP were generally concordant, but were discordant in 11%–17% of patients, again with similar findings at the 2 sites.
Several limitations are seen in these studies. First, there were missing values in some patients, particularly in Nashville; however, no selection criteria were used to determine which patients would or would not be assessed for any test, and patients with available or missing test data were similar in age and duration of disease. Second, only cross-sectional data at presentation are analyzed for ESR and CRP, and higher levels may have been seen at other times, although the ESR does change substantially in a large fraction of patients8. Third, Finland and the USA are advanced rheumatology settings, in which ESR levels may be lower than in other countries9. Fourth, more sensitive tests for CRP might have led to increased proportions with abnormal values; however, these studies sought to simulate “real-world” conditions for treating rheumatologists.
The details of whether a normal ESR, CRP, or RF result may be seen even in 30%, 40%, or 50% of patients with RA appear less important than recognition that many individuals have normal test results. It is likely that the proportion of patients with normal laboratory tests may be an underestimate, resulting from “spectrum bias”10, as patients with normal laboratory tests may be less likely to be referred to rheumatology treatment centers for possible RA or inflammatory arthritis than those with abnormal tests. In the cohorts studied, fewer than 1 in 3 patients had abnormal values for all 3 tests, and at least 1 in 6 had normal values for all 3 tests.
In conclusion, ESR, CRP, and RF test results are abnormal in a majority of patients with RA, and these data may remain helpful in clinical management of certain patients. However, a substantial proportion of patients have normal test results.
Footnotes
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Supported in part by grants from the Arthritis Foundation, Abbott Immunology, Amgen, Aventis, Centocor, Pfizer, the Jack C. Massey Foundation, and by NIH Grant HL 67964. Dr. Sokka is a consultant to Sanofi-Aventis, Schering-Plough, UCB Pharma, and Wyeth. Dr. Pincus is a consultant to Bristol-Myers Squibb, Novartis, UCB Pharma and Wyeth.
- Accepted for publication January 23, 2009.