Rheumatology B Department, Cochin Hospital, AP-HP, 27 rue du faubourg Saint-Jacques, Paris 75014, France; UPRES-EA 4058, Medicine Faculty, Paris Descartes University, 12 rue de l'Ecole de Médecine, Paris 75006, France
Department of Rheumatology, Bicêtre Hospital, AP-HP, 78 rue du Général Leclerc, Le Kremlin-Bicêtre 94270, France; INSERM U802, Paris-Sud University, 63 rue Gabriel Péri, Le Kremlin-Bicêtre 94270, France
Infectious Diseases - Internal Medicine Department, Cochin Hospital, AP-HP, 27 rue de faubourg Saint-Jacques, Paris 75014, France
Department of Rheumatology, Provo Hospital, 25 rue de Barbieux, Roubaix 59100, France
Department of Rheumatology, Hotel Dieu Hospital, 1 place Alexis-Ricordeau, Nantes 44000, France
Department of Rheumatology, Minjoz Hospital, 3 boulevard Alexandre Fleming, Besançon 25000, France
Department of Infectious Diseases, University Hospital, 2 rue de l'Hôtel-Dieu, Rennes 35000, France
Department of Infectious Diseases, University Hospital, 4 avenue Reine Victoria, Nice 06000, France
Department of Clinical Epidemiology and Biostatistics, Bichat Hospital, AP-HP, 46 rue Henri Huchard, Paris 75018, France; INSERM U738, Medicine Faculty, Paris 7 Denis Diderot University, 16 rue Henri Huchard, Paris 75018, France
Abstract
Introduction
The objective of this study was to assess natural microbial agents, history and risk factors for total joint arthroplasty (TJA) infections in patients receiving tumor necrosis factor (TNF)α-blockers, through the French RATIO registry and a case-control study.
Methods
Cases were TJA infections during TNFα-blocker treatments. Each case was compared to two controls (with TJA and TNFα-blocker therapy, but without TJA infection) matched on age (±15 years), TJA localization, type of rheumatic disorder and disease duration (±15 years). Statistical analyses included univariate and multivariate analyses with conditional logistic regression.
Results
In the 20 cases (18 rheumatoid arthritis), TJA infection concerned principally the knee (
Conclusions
In patients receiving TNFα-blockers, TJA infection is rare but potentially severe. Important risk factors are primary TJA or TJA revision within the last year, particularly when TNFα-blockers are not interrupted before surgery, and the daily steroid intake.
Introduction
The efficacy of TNFα blocker is now well established in patients with rheumatoid arthritis (RA)
The increased risk of tuberculosis and other opportunistic infections in patients receiving TNFα blockers is now well known
One of the most severe complications of TJA is surgical site infection, leading to long and expensive hospitalizations, complicated additional surgical procedures, increased mortality rates and severe functional disability. Despite systematic preventive measures, the risk of TJA infection persists and has been estimated at 1% for total hip arthroplasty and 2% for total knee arthroplasty
Other identified risk factors of TJA infections are systemic malignancy
The objectives of the present study were to evaluate the microbial agents, natural history and risk factors of TJA infections in patients receiving TNFα blockers, through a case-control study.
Materials and methods
Study design
This was a case-control study including cases recruited from a national registry (Research Axed on Tolerance of bIOtherapies (RATIO) registry) and controls retrospectively recruited from a tertiary care centre. The RATIO registry was authorized by the ethical committee of AP-HP, GHU Nord (Institutional Review Board of Paris North Hospitals, Paris 7 University, AP-HP; authorization number 162-08)
Cases
Cases had a rheumatic disorder (RA, AS, or PsA) treated with TNFα blockers. They presented with TJA infection while exposed to TNFα blockers or less than one year after their withdrawal. Only TJA of large joints were considered (hip, knee, ankle, shoulder, or elbow) whatever their indication (the rheumatic disorder itself, osteoarthritis, or other cause). Each case was validated by an expert committee; a positive culture report was not mandatory to define TJA infection for the purposes of this study if clinical, biologic, morphologic, or histologic features highly supported the diagnosis. Cases were principally recruited through the national RATIO registry. In this registry opportunistic infections, severe bacterial infections and lymphomas complicating TNFα-blocker therapies were prospectively collected in France between 1 February, 2004 and 31 January, 2006
Controls
For each case, two controls were recruited, with TJA and TNFα-blocker treatment but without TJA infection. Prespecified matching criteria were age ±15 years, same underlying rheumatic disorder, rheumatic disorder duration ±15 years, and same TJA localization. All was performed during the selection of controls to find in our cohort of patients for each case the two controls best fulfilling the matching criteria. In case of peripheral PsA, RA controls were accepted. At the beginning of the study, no data published in the literature suggested a different risk of infection, and particularly of prosthetic infection, between females and males. That is the reason why we decided that controls would not be required to be of the same gender as the cases. All controls were retrospectively recruited in the Rheumatology B Department in Cochin Hospital, a tertiary care center, through a computerized search of the data files of outpatients and inpatients between 2002 and 2008. For each control, time of clinical data collection was chosen for best matching of age and disease duration. The impossibility of finding two matched controls was an exclusion criterion of cases.
Data collection
Data abstracted from the files were noted on a standardized chart review tool. In RA, rheumatic disease activity assessed by the Disease Activity Score 28
Statistical analysis
Statistical analyses were performed using SAS version 9.1 (SAS France, Domaine de Grégy, Grégy-sur-Yerres, 77257 Brie Comte Robert cedex, France). They included univariate and multivariate analyses with conditional logistic regression to take into account the matching (PHREG procedure). All variables with a
Results
Cases
Twenty-two cases of TJA infection in patients treated with TNFα blockers were collected: 13 from the RATIO registry and 9 through the websites of the French Societies of Infectious Diseases and of the Club Rheumatism and Inflammation. Two cases with elbow arthroplasty infection were excluded due to lack of matched controls. Consequently 20 cases were included in the present case-control study (Table
Comparison of cases † and controls* regarding matching criteria (univariate analysis with conditional logistic regression)
Cases † (
Controls* (
P
Age (years) **
57.3 ± 12.4
57.5 ± 10.9
0.89
RA/PsA/AS, n
18/1/1
38/0/2
0.99
Rheumatic disorder duration (years) **
20.4 ± 9.4
20.3 ± 8.5
0.97
TJA infection localization for cases, and matched TJA localization for controls, n (%)
- Hip
5 (25)
10 (25)
1
- Knee
12 (60)
24 (60)
1
- Ankle
1 (5)
2 (5)
1
- Shoulder
2 (10)
4 (10)
1
† at the time of diagnosis of TJA infection; * time chosen for a best matching; ** mean ± standard deviation.
AS, ankylosing spondylitis; PsA, psoriatic arthritis; RA, rheumatoid arthritis; TJA, total joint arthroplasty.
Microbial agents
Nineteen cases (95%) had at least one positive microbiological sample, i.e. hemocultures (
Natural history of TJA infection in patients exposed to TNFα-blockers
All patients were hospitalized, 4 of them (20%) in an ICU. Median delay from the last TNFα blocker administration was 20 ± 68 days (30 days for infliximab, 14 days for etanercept and 10 days for adalimumab). Symptoms appeared suddenly in 7 cases, progressively in 8; the onset mode was unknown in the 5 other cases. Reported symptoms were joint pain (
Eighteen patients underwent surgical treatment: joint lavage (
Over a median follow-up duration of 14 months (IQR: 5 to 19), infection outcome was death in 2 cases, both occurring during the first month (11th and 22nd day) and related to infection, recovery in 11 cases (55%), infection relapse in 1 case, and unknown in 6 patients. In the 18 alive patients, 67% presented a rheumatic flare (10 of 15 available data) and 7 moderate to severe functional disability of the infected joint (39%). Only one case did not experience any complication regarding the infection outcome, rheumatic disorder outcome and functional prognosis on the infected joint.
TNFα blockers were always withdrawn at the time of TJA infection. In 3 patients, the same TNFα blocker was reintroduced after the recovery from infection 3, 4.5 and 14 months, respectively, after TJA infection diagnosis. Infection relapse occurred in one case where the TNFα blocker was reintroduced at 3 months. TNFα blockers were not reintroduced in 14 cases, because the risk of infection was considered too high (
Risk factors of TJA infection in univariate analysis
Characteristics of the 20 cases (at the time of diagnosis of TJA infection) and 40 controls (time chosen for a best matching) are compared in Tables
Comparison of the 20 cases and 40 controls in univariate analysis with conditional logistic regression
Cases (
Controls (
P
Female, n
19
34
0.27
No-low/moderate-high rheumatic disorder activity, n
11/7
20/20
0.67
TJA surgery on affected or matched joint within the last year, n
8
5
0.03†
- of which primary TJA, n/TJA revision, n
5/3
3/2
- after TNFα-blockers introduction
6 of 8
5 of 5
- after TNFα-blocker withdrawal ≥5 half-lives
1 of 6
4 of 5
0.08
Previous TJA infection, n
3
0
0.08
- of which same TJA involved, n
2
-
-
Main comorbidities, n
- Diabetes mellitus
2
1
0.26
- Bronchiectasis
0
1
0.99
- Cirrhosis
0
0
1
- Cancer/hemopathy
0
2
0.99
- HIV
0
0
1
- Chronic renal failure
1
2
1
- Hypogammaglobulinemia
1
1
0.88
Current TNFα-blocker:
- Infliximab/etanercept/adalimumab, n
7/5/8
13/15/12
0.70
- Duration of exposition to the current TNFα-
26.0 ± 24.1
39.0 ± 24.6
0.06
blocker (months) *
Number of prior TNFα-blockers *
0.5 ± 0.7
0.6 ± 0.7
0.69
Total duration of exposition to any TNFα-blockers (months) *
32.0 ± 25.6
48.6 ± 25.2
0.07
Oral intake of steroids * (mg/d)
9.5 ± 7.3
5.3 ± 3.9
0.02†
Oral intake of steroids ≥10 mg/d, n
7
7
0.06
Intravenous infusion of steroids last year, n
2
1
0.75
Current DMARDs, n
- Methotrexate
14
26
0.71
- Leflunomide
1
5
0.99
- Azathioprine
0
2
0.40
* mean ± standard deviation; † Results achieving a
DMARDs, disease-modifying anti-rheumatic drugs; TJA, total joint arthroplasty; TNF, tumor necrosis factor.
Regarding anti-rheumatic treatments, only increased daily steroid intake was significantly associated to TJA infection (
Risk factors of TJA infection in multivariate analysis
As shown in Table
Risk factors of TJA infection using multivariate analysis with conditional logistic regression
Variable
Odds ratio
95% Confidence interval
P
- Daily steroid intake (per 5 mg/day increase)
5.0
1.1 to 21.6
0.03
- Primary TJA or TJA revision for the joint subsequently infected during the last year
88.3
1.1 to 7,071.0
0.04
TJA, total joint arthroplasty.
Discussion
In the present study, TJA infection appears as a rare but potentially severe complication of TNFα blockers. Main risk factors are primary TJA or TJA revision for the joint subsequently infected within the past year and steroid intake.
Microbial agents identified in the present study were similar to those usually observed in TJA infections in patients having or not a rheumatic disorder
This study suggests that the outcome of TJA infections is particularly severe in rheumatic patients exposed to TNFα blockers, leading to hospitalization in an ICU in 20% of the cases, to death in 10% and to moderate to severe functional disability in about 40%. A high rate of bacteremia (60%) was observed in this study compared with 44% in a retrospective study assessing the natural history of TJA infections in RA patients not exposed to TNFα blockers
If TJA infections of large joints are often severe, their incidence appears rare in rheumatic patients exposed to TNFα blockers. The French national RATIO registry identified only 13 cases over two years. However, this study was not designed to estimate the incidence of TJA infections in these patients. The main objective of RATIO was to collect in an exhaustive way all over the country two rare side effects of TNFα blockers, which are opportunistic infections (including tuberculosis) and lymphomas. Severe documented bacterial infections (except pneumonias) were also collected, knowing that it was impossible to be exhaustive. Thus, we focused on specific types of severe infections such as TJA infections. Taking into account the fact that septic arthritis is frequent in RA, we were convinced that all cases of TJA infection have not been declared in the RATIO registry. But whatever it is, this study reporting 20 cases of TJA infection in patients treated with TNFα blockers is to our knowledge the largest of the literature concerning this peculiar complication.
Actually, the herein reported case-control study was designed to assess risk factors of TJA infection in patients exposed to TNFα blockers. Steroids are a classic risk factor of infection in RA patients exposed
Primary TJA or TJA revision within the past year was identified as an important risk factor of subsequent infection of this TJA. This could be due to bacterial perioperative contamination through a hematogenous way or a closed infected site, which is probably more difficult to control in the case of immunomodulation by TNFα -blockers. An infliximab-induced blood neutrophil deactivation has previously been demonstrated indeed
The present study suggests that a previous TJA infection before the introduction of TNFα blockers could be a risk factor of reoccurence, although statistical significance was not reached. In case of previous TJA infection, high reoccurence rates of TJA (10% at 3 years and 26% at 10 years)
Diabetes mellitus has previously been associated with an increased risk of infection after orthopedic surgery in RA
The present study has several limitations and strengths. Some potential risk factors (recent skin infection, number of previous DMARDs, cumulative steroid intake, non-steroidal anti-inflammatory drugs) were not assessed because of missing data in several files. Even if it was prospective, the possible recruitment bias in the RATIO registry has already been detailed. There were only two
Conclusions
TJA infection is a rare but severe complication in patients receiving TNFα blockers. Microbial agents do not differ from those usually identified in TJA infections, with
Practical implications of this study are the following. It may be preferable to perform arthroplasty, if needed, before the introduction of TNFα blockers. In cases of prosthetic surgery after the introduction of TNFα blockers, their withdrawal during the perioperative period is highly recommended. Finally, steroid intake should be reduced as low as possible in patients with both TJA and TNFα blockers.
Abbreviations
AS: ankylosing spondylitis; CRP: C-reactive protein; DMARDs: disease-modifying anti-rheumatic drugs; IQR: interquartile range; MRSA: methicillin-resistant
Competing interests
RATIO has been supported by a research grant from the INSERM (Réseau de Recherche en Santé des Populations 2003 and 2006), and by an unrestricted grant from Abbott, Shering Plough and Wyeth, but these commercial sources played no further role in the herein reported work. The authors declare that they have no competing interests.
Authors' contributions
MG, LG and DS designed the study. MG, DG, MHG, JMB, DW, CM, and PD participated in data collection. LG and FT analyzed and interpreted the data. MG and LG drafted the manuscript. XM, MD and DS were involved in revising the manuscript critically for important intellectual content. All authors read and approved the final manuscript.
Acknowledgements
The authors thank all members of the RATIO group, in alphabetic order: V. Abitbol, H. Bagheri, B. Baldin, F. Berenbaum, M. Breban, A. Casto, R.M. Chichemanian, O. Chosidow, B. Dautzenberg, P. Dellamonica, D. Emilie, P. Gilet, J.P. Hugot, M. Lemann, C. Leport, R. Leverage, O. Lortholary, X. Mariette, C. Michelet, J.L. Montastruc, P. Morel, N. Petit Pain, A.M. Prieur, P. Ravaud, C. Roux, D. Salmon, F. Tubach, D. Vittecoq. The RATIO group is supported by a research grant from INSERM (Réseau de Recherche en santé des Populations 2003 and 2006) and by an unrestricted grant from Abbott, Schering Plough and Wyeth. The authors thank also the French Society of Rheumatology (SFR) subgroup: the CRI (Club Rheumatism and Inflammation) and the French Society of Infectious Diseases (SPLIF).