Microsporidia has emerged in recent years as an opportunistic infectious agent with a ubiquitous distribution.1–4 The clinical manifestations of this infection vary widely, from none (asymptomatic) to non-bloody watery diarrhea, abdominal cramps, weight loss, and disseminated disease, especially in immunosuppressed subjects.2–4

This parasitological disease primarily affects immunosuppressed patients,1–4 particularly those with human immunodeficiency virus (HIV), malignancies and diabetes mellitus, as well as patients post heart-lung, liver, and renal transplantations.1,2 In addition, this infection also occurs in patients undergoing immunosuppressive drug treatment.2,4

In fact, patients with rheumatic diseases who are taking disease-modifying anti-rheumatic drugs (DMARD) and anti-tumor necrosis factor (TNF) therapy have a high risk for general infections,5–7 including intestinal pathogenic parasite infestations such as Strongyloides stercoralis.8,9 However, to our knowledge, there are no data regarding the risk of microsporidiosis in these patients.10–13

Therefore, the objective of this study was to evaluate the frequency and clinical significance of microsporidiosis in patients with rheumatic diseases who are undergoing anti-TNF/DMARD treatment compared to an age- and socio-economic condition-matched healthy population.

We evaluated 89 consecutive patients at our hospital who were diagnosed with rheumatoid arthritis (RA) (American College of Rheumatology criteria),14 ankylosing spondylitis (AS) (New York criteria),15 or psoriatic arthritis (PsA) (European spondyloarthropathy Study Group – ESSG criteria and Moll and Wright classification).16 All patients were undergoing anti-TNF therapy (adalimumab, etanercept, or infliximab) combined with DMARDs. The control group included 92 healthy employees of our hospital who were matched by age and socio-economic status. Prior to this study, no specific routine existed in our Infusion Center with regard to stool examination for parasites and fecal leukocytes before anti-TNF therapy. The prophylactic use of anti-helminthic drugs was recommended for patients under concomitant glucocorticoid therapy.

This study was approved by the local ethics committee, and informed consent was obtained from each participant or his or her legal guardian.

Demographic data, the number of school years attended, and the socio-economic status (according to Associação Brasileira dos Institutos de Pesquisa de Mercados)17 were recorded. Background information and parasitosis symptoms in patients and control participants were acquired via interview and included the following: general (loss of appetite, weight loss, and adynamia), gastrointestinal (abdominal pain, abdominal distension, flatulence, diarrhea, dysentery, tenesmus, obstipation, nausea, vomiting, hematochezia, and worm elimination), cutaneous (exanthema), and pulmonary manifestations (wheezing, thoracic pain, and hemoptysis).

A total of 89 patients with rheumatic diseases (47 RA, 31 AS and 11 PsA) and 92 healthy control subjects were included in this study. The two groups were comparable with regard to the mean current age (47.2±10.9 vs. 43.8±14.3 years, respectively; p = 0.094), percentage who were Caucasian (80 vs. 73%, respectively; p = 0.3) and socio-economic distribution, with a similar predominance of the middle and lowest Brazilian socio-economic classes (C, D or E)17 based on scholarity and ownership of household items (84 vs. 82%, respectively; p = 0.7). There were a greater proportion of females in the control group than in the patient group (93 vs. 62%, respectively; p<0.0001). The mean disease duration for all patients was 15.5±8.6 years.

This study is the first to identify a high frequency of microsporidia infections associated with intestinal mucosa disruption in rheumatic disease patients undergoing anti-TNF and DMARD therapies.

The study design has several advantages, including the inclusion of patients with well-established rheumatic disease criteria.14–16 In addition, the Gram-Chromotrope stain methodology applied in this study is considered to be one of the most specific detection techniques with the best sensitivity for detecting microsporidia in fluids, including feces.2 Moreover, external factors such as socio-economic conditions may influence parasitosis prevalence. For example, the frequency of microsporidia in HIV-infected patients was higher in Venezuela (13.6%), an underdeveloped country, than in Italy (1.8%).27–28 This potential bias was greatly reduced by the matching of our patients with a control group with the same socio-financial distribution. One limitation of our study was the absence of a control group of rheumatic disease patients treated only with DMARDs, due to the impossibility of achieving an adequate matching for disease duration and severity in these patients. In fact, anti-TNF therapy is now being indicated very early for patients with these diseases. There are, however, no data on the frequency of microsporidia infection in rheumatic disease patients without anti-TNF therapy.

Microsporidia has emerged as an important cause of infectious complications in severely immunocompromised patients with HIV, recipients of solid organ transplant and patients with hematological malignancies.1–3 Cell-mediated immunity appears to be critical for protection against microsporidia through the T helper cell 1 (Th1) cytokine response.3 The importance of a Th1 response in the resistance to microsporidial infection has been demonstrated by in vitro studies showing that knockout animals for Th1 cytokines such as interferon and interleukin-12 could not clear microsporidia infections.29 In fact, more severe microsporidia infections were observed in HIV-infected patients with declining CD4+ and CD8+ T-cell numbers.29 Accordingly, the inhibition of TNF-alpha, a cytokine well known to be related to the Th1 response,30 could possibly facilitate the microsporidia infestation observed in the present study. Moreover, experimental studies have reported a decrease in the specific protective IgG against microsporidia in animals treated with immunosuppressive drugs.31 We have confirmed that microsporidia infestation is more prevalent in immunosuppressed patients1–4 and have now extended this observation to rheumatic disease patients undergoing anti-TNF/DMARD treatment.

Microsporidiosis and intestinal parasitosis may present with diverse clinical manifestations, depending on the host immune status and the microsporidium species.1–4 Diarrhea and wasting syndromes are the most common complaints;1–4 however, these parasite infections can be asymptomatic. In fact, the parasitosis in our study was frequently associated with gastrointestinal manifestations and concomitant stool leukocytes, indicating a possible intestinal mucosa disruption,32 which is a known risk for intestinal dissemination.33

Infection is a major co-morbidity in rheumatic conditions, and therapies such as conventional DMARDs and anti-TNF are known to enhance the risk of infection.34,35 In this regard, previous reports have suggested that susceptibility to infection may be distinct in different underlying rheumatic diseases. The main explanation for this finding seems to be a disease-associated genetic background and immunosuppressive therapy.36,37 However, in the present study, no difference was observed in microsporidiosis frequency between the specific rheumatic diseases, suggesting that anti-TNF/DMARD treatment is a more relevant risk factor for this infestation than is the specific rheumatic disease itself.

We have identified microsporidiosis to be a frequent infection that is associated with mucosal lesions in patients undergoing concomitant anti-TNF/DMARD treatment. This finding supports the notion that the recommendation for the prophylactic use of anti-helminthic drugs in patients on glucocorticoid therapy could be extended to those initiating anti-TNF therapy.