To the Editor:
The recently published paper by van Roon, et al addresses an interesting question about the presence of “scleroderma” pattern in different connective tissue diseases and its association with abnormal pulmonary function tests1. The authors have detected it in 88% of cases with systemic sclerosis (SSc; 35/40), in 17% of patients with systemic lupus erythematosus (SLE; 5/30) and in 13% of patients with rheumatoid arthritis (RA; 2/15). Of note, apart from its association with the presence of Raynaud phenomenon (RP) in connective tissue diseases, “scleroderma-like” capillaroscopic pattern could also be associated with the presence of cutaneous digital vasculitis2,3.
“Scleroderma/scleroderma-like” is characterized with giant capillaries (diameter > 50 μm), hemorrhages, derangement, avascular areas, and neoangiogenesis. The presence of giant capillaries represents a mandatory criterion in the initial stages of this capillaroscopic pattern that may present as an isolated finding. Scleroderma-type capillaroscopic pattern is observed in the vast majority of patients with SSc (> 90%)4. It appears early in the disease course, facilitates early diagnosis, and is accepted as a diagnostic criterion. Scleroderma-like pattern could be observed in a smaller proportion of patients with other rheumatic diseases (i.e., SLE, RA, and others)1–9.
The data from different studies regarding the prevalence of scleroderma-like capillaroscopic changes in different rheumatic diseases as well as the interpretation of the findings vary among different expert groups. In SLE, a number of investigators have reported prevalence of scleroderma-like capillaroscopic changes between 2% and 9%4,5,6. In 100 patients with SLE, 52 of whom exhibited symptoms of RP, Furtado, et al observed the higher frequency of 15% of scleroderma-like pattern7. An association between scleroderma-like capillaroscopic changes and presence of RP and anti-U1-RNP antibodies has been observed. This stimulated the hypothesis that it could be a manifestation of subclinical overlap between SLE and SSc7, which was accepted among rheumatologists for over a decade. In 2013, it was reported that scleroderma-like pattern could be observed without the presence of overlap with scleroderma and without an association with anti-RNP antibody8. It has been detected in 13.3% of patients with SLE (4/30). The prevalence of RP in the studied patient population was 73% (n = 22) and vasculitis of the peripheral vessels (manifested with periungual erythema and digital erythematous macules) was present in 10% (3/30). All the patients with scleroderma-like capillaroscopic findings exhibited symptoms of secondary RP (n = 4) and 2 of them had shown signs of digital vessel vasculitis. Anti-RNP antibody was positive in a single case with secondary RP without vasculitis of peripheral vessels. In all the patients with scleroderma-like capillaroscopic changes, high immunologic activity was found, but signs for overlap with other connective tissue disease were not present3. Similarly, van Roon, et al did not find features of overlap with SSc or association with anti-RNP antibody in SLE patients with scleroderma-like pattern1.
Diverse data are reported about the presence of capillaroscopic features of microangiopathy in RA. In some of the studies, it has been concluded that a scleroderma-like pattern could not be observed in patients with RA5,10. It has been found that scleroderma-like pattern could be associated with RA and was observed in 14.5% of cases in a patient population that included 62 patients with RA (9/62; i.e., 2 patients with peripheral digital vasculitis and 7 patients with secondary RP)8. Subsequently, the presence of scleroderma-like pattern in RA has been also reported by other authors. Rajaei, et al9 and van Roon, et al1 have detected such microvascular changes with similar frequency [20.9% (90/430) and 13% (2/15), respectively].
Peripheral cutaneous digital vasculitis has been reported as a common feature in SLE and in RA. Thus it should be specifically evaluated, because association with capillaroscopic microangiopathy could be expected. Of note, in SSc, it has been demonstrated that immunosuppressive and vaso-active treatment could improve capillaroscopic findings. It is an intriguing opportunity to predict visceral vascular involvement based on the capillaroscopic features of microangiopathy, but different factors should be taken into account such as disease duration, severity of peripheral vascular syndrome, and the effects of immunosuppressive and vasoactive treatment.
It should be emphasized that scleroderma-like capillaroscopic pattern is not specific for SSc. It could be observed in SLE without being a feature of an overlap syndrome with scleroderma and without association with anti-RNP antibody. Scleroderma-like pattern could be also found in patients with RA without signs of an overlap syndrome. Both in SLE and RA, it is associated not only with RP but also with the presence of digital vasculitis.