Association of Musculoskeletal and Radiological Features with Clinical and Serological Findings in Systemic Sclerosis: A Single-Centre Registry Study Текст научной статьи по специальности «Клиническая медицина»

©Azarbani N, Javadzadeh A, Mohseni I, Jalali A, Andalib E, Poormoghim H.

This work is licensed under a Creative Commons Attribution 4.0 International L

ORIGINAL PAPER

Association of Musculoskeletal and Radiological Features with Clinical and Serological Findings in Systemic Sclerosis: A Single-Centre Registry Study

Nasrin Azarbani1, Ali Javadzadeh2, Iman Mohseni2, Arash Jalali3, Elham Andalib2, Hadi Poormoghim*2

1Arak University of Medical Sciences, Arak, Iran, 2Iran University of Medical Sciences, Tehran, Iran, 3Tehran University of Medical Sciences, Tehran, Iran

ABSTRACT

Aim: Systemic sclerosis (SSc) is a chronic connective tissue disease with the clinical hallmark of skin thickening and tethering. Correlation of musculoskeletal features with other parameters should be considered in SSc patients. Methods: We reviewed the records of all patients who had more than one visit and standard anteroposterior radiography of hand. We used univariate analysis, and factors with p<0.05 were included in logistic regression to find out dependent factors. Results: Overall, 180 SSc patients were enrolled in our study, 161 (89.4%) of whom were women. Median age (IQR) was 47.0 years (16), and 52% had diffuse subtype of the disease. In multivariate analysis, tendon friction rubs (TFRs) was associated with the presence of calcinosis, muscle tenderness, and flexion contracture (FC) on physical examination (p<0.05). Arthritis showed no differences in the two subtypes of the disease (p=0.98), and in multivariate analysis, there were no correlations between radiographic arthritis and serological and clinical features. The radiographic results indicated that disease duration correlated with joint erosion, acro-osteolysis, resorption of distal ulna, calcinosis and radiologic FC (p< 0.05). Acro-osteolysis was more frequent in the dcSSc subtype, TFRs, and anti-TOPO I antibody. Radiologic FC showed association with skin score, calcinosis and haematocrit <30% (p<0.05). Joint flexion on radiography was associated with disease duration, modified Rodnan skin score, calcinosis, and low haematocrit (P<0.01). Conclusion: Disease duration was a main dependent factor for developing joint erosion, acro-osteolysis, bone resorption, calcinosis, and flexion contracture on hand radiography. Acro-osteolysis presented in the severe form of the disease. Acro-osteolysis was the only dependent variable associated with bone demineralization.

Mediterr J Rheumatol 2020;31(3):341-9 https://doi.org/10.31138/mjr.31.3.341

Article Submitted: 29 Jan 2020; Revised Form: 29 July 2020; Article Accepted: 15 Aug 2020; Available Online: 30 Sep 2020

Keywords: systemic sclerosis, disease subsets, musculoskeletal symptoms, hand radiography, joint erosion

Corresponding Author:

Hadi Poormoghim.Iran University of medical Sciences. e.mail: [email protected]

Cite this article as: Azarbani N, Javadzadeh A, Mohseni I, Jalali A, Andalib E, Poormoghim H. Association of Musculoskeletal and Radiological 341 Features with Clinical and Serological Findings in Systemic Sclerosis: A Single-Centre Registry Study. Mediterr J Rheumatol 2020;31(3):341-9.

INTRODUCTION

Systemic sclerosis (SSc) is a devastating connective tissue disease characterized by fibrosis, autoimmunity, and vascular changes that affect skin and visceral organs. Musculoskeletal (MSK) manifestations of SSc vary from arthralgia that is reported in 23-81% of the cases1-4 to arthritis on physical examination reported in 5-68% of the cases.5-12 Muscles are affected in SSc, and patients could present with muscle pain, atrophy, and weakness. Other musculoskeletal manifestations of SSc include calcinosis and tendon friction rubs (TFRs) or rupture due to tendon sheath inflammation or fibrosis.13 Hand arthritis in conjunction with Raynaud's phenomenon could be an early symptom of SSc.14 Physicians should be aware of hand symptoms, such as synovitis, joint erosions on fingers, skin thickening with tethering leading to flexion contracture and limitation of hands' motion, as early symptoms of SSc. These symptoms may affect daily life activities and dexterity.15,16 Previous studies on SSc hand involvement have shown remarkable changes on radiography.5-7 Radiological patterns of joint abnormality are defined as erosion, narrowing, and arthritis, and bone and soft tissue patterns include demineralization, bone resorption, acro-osteolysis, calcinosis, and flexion contracture.16

Although SSc is a rare disease, MSK involvement is a common manifestation with a variable degree of prevalence. European Scleroderma Trials and Research group (EUSTAR) studies, which focus on clinical, radiological and serological features of MSK manifestation in SSc, also reported the association of these features with other measurement/ phenotypes of the disease.5,6,17-19 There is only one study with regards to the correlation of radiological and MSK manifestations of SSc with other organs.5

In the current study, our goal was to first determine the point prevalence of the MSK manifestation in SSc patients, and secondly, to evaluate MSK manifestation's correlation with other disease parameters.

METHODS

In a scleroderma cohort study, we reviewed the medical records of all registered SSc patients in Firoozgar Hospital's database, who had more than one visit and had standard anteroposterior radiography of their wrist and hand. All the basic and para-clinical data was extracted from scleroderma registry in our clinic. The patients were included if they met the American College of Rheumatology/European League Against Rheumatism (ACR/EULAR 2013) classification criteria for SSc.21 Disease subset distinction was conducted according to Le Roy criteria.22

Patients' data extracted from the database included: age, gender, skin score (based on modified Rodnan's Skin Scoring, mRSS), disease duration (the time of first non-Raynaud symptom to the time of the radiographic study), the presence of active or healed digital ulcer, tel-angiectasia, amputation, and calcinosis. Musculoskeletal involvement is defined in Table 1.

Radiographic study

As the first step, two specialists including one radiologist (I.M.) and one rheumatologist (A.J.) independently carried out a radiological assessment of the hands and wrists according to a predefined pattern. They were blinded to the patients' clinical data. Afterwards, if the assessments were not consistent between the two evaluators, then a second review was requested in order to reach a consensus with regards to the clinical decision for further evaluation.

Table 1. Definition of musculoskeletal involvement in systemic sclerosis in 180 patients with systemic sclerosis.

Joint and tendons involvement

Synovitis: swelling and tenderness on >1 joint

Tendons friction rub: palpable leathery sensation on active or passive motion of tendons

Joint contracture defined as uncorrected deformity of the joint usually in flexion position with decreased range of motion and prevented full extension of joint

*Flexion contracture on hand: the presence of prayers sign in physical examination and Finger to Palm Distance (FTP). It measured by the distance between the tip of the 3rd finger on dominant hand to distal palmar crease on full flexion by patients.23 The severity of flexion contracture is classified according to Medsger severity scale.24

Muscular Involvement

Muscular involvement was recorded as muscle atrophy, muscle tenderness, and muscle weakness, according to the Oxford scale (Muscle strength is graded 0 to 5)

*Preliminary SSc severity scale from reference (finger to palm distance, FTP on full flexion): FTP 0-0.09 cm (normal); FTP 1.0-1.9 cm (mild); FTP 2.0-3.9 cm (moderate); FTP 4.0-4.9 cm (severe); FTP 5.0+ cm(end stage)24

Serologic studies

Erythrocytes sedimentation rate (ESR) more than 30 mm/1 hr and CRP> 10 mg/ml were considered as abnormal results. Muscle enzymes abnormality defined as CPK > 2 times of the normal level and aldolase more than 10 unit/ml. Also, ANA titer > 1:100 was considered as positive, and ANA patterns in sera were detected by the indirect immunofluorescence technique via Mosaic HEp-20-10 Liver (monkey). Anti-centromere Abs (ACA) and anti-Topoisomerase I Abs (anti-TOPO I abs) were detected by line immunoassay (Euroline systemic sclerosis profile [IgG], Euroimmune, Lubeck, Germany).

Statistical analysis

Chi-square and Student's t-test were performed for comparison of categorical and continuous data in the two subsets of disease. In the absence of normality assumption, Kruskal-Wallis test and pairwise comparison were used for comparing statistically significant differences in more than two independent groups. To find out the association between the two nominal variables, we used Cramer's V coefficient. We used univariate analysis for the evaluation of the association between each MSK feature and demographic variables, other organ features, disease duration, and serologic data. Factors that showed significant association (p<0.05) in univariate analysis were used in linear logistic regression to assess dependent factors for each MSK feature.

Ethics approval

The study was approved by the Human Research Ethics Committee of the research institution at Iran University of Medical Sciences (IUMS) in accordance with the ethical standards set forth in the 1964 Declaration of Helsinki and its subsequent amendments. Written informed consent was obtained from all the participants.

RESULTS

Study population

A total of 180 SSc patients were enrolled in our study, 161 (89.4%) of whom were women. Median age (IQR) was 47.0 (16) years. Ninety-five (52%) patients had a diffuse subtype of the disease. Mean modified Rodnan's skin score of the patients was 10.54+8.80; mean disease duration was 6.00 +5.02 years (Table 2).

CLINICAL MANIFESTATIONS OF THE MUSCULOSKELETAL SYSTEM AND THEIR ASSOCIATION WITH OTHER FEATURES OF SSC

Articular involvement

Arthritis or arthralgia, as the first presenting symptom, was recorded in 6.7% of the patients. On physical examination, arthritis > 1 joint was found in 35 (19.4%) of the patients, without significant difference with regards to the frequency of the symptom between the diffuse cuta-

neous systemic sclerosis (dcSSc) and limited cutaneous (lcSSc) subgroups.

Joint contractures

Prayer sign on physical exam was present in 96 (55.2%) of the SSc patients and it was more frequent in patients with dcSSc subtype compared to lcSSc (67:96 [72%] vs. 20:85 [35.5], p<0.001). Mean FTP distance measurement was 2.131.58 cm in dcSSc and 1.141.24 cm in the lcSSc subtype (p<0.001).

Kruskal-Wallis test showed a significant difference in mRSS across categories of severity scales of FTP (H = 44.51, p <0.001). In pairwise comparisons, we found significant differences among patients with normal contracture compared to patients with mild (p=0.015), moderate (p<0.001), severe (0.001) and end-stage (<0.001) disease based on the FTP severity scale and skin score. Tendon friction rubs

Tendon friction rubs (TFR)s were found in 41 (22.7%) of the patients, (27[65.8%] with dcSSc, 14 [34.1%] with lcSSc subtype). The results showed a trend towards higher prevalence in dcSSc patients, but the difference was not significant (p=0.07).

Muscle involvement

Muscle tenderness on palpitation was recorded in 37 (20.6%) patients (25/37 [67.5 %] with dcSSc, 12/37 [32.4%] with lcSSc; p=0.04). Muscle atrophy was detected in 60 (33.3 %) patients and muscle weakness in 51 (28.3%). Muscle atrophy and muscle weakness showed no significant differences in the two groups of patients.

Muscle enzyme

CPK was checked in 169 (94%) patients and elevated CPK was detected in 21(12.4%) patients. Elevated CPK showed significant differences with muscle weakness status (66.7% with muscle weakness vs 33.3% without muscle weakness, [p=0.001]). Results of aldolase were available in 103 (57.2%) patients and its elevated level was detected in 8 (7.8%) patients. High aldolase was detected in 62.5% of the patients with muscle weakness versus 37.5% without muscle weakness (p=0.07). Coincident elevation of aldolase and CPK was detected in 63.2% of the patients with muscle weakness on physical examination. Elevated CPK and aldolase showed no significant difference in the two subtypes of the disease. As shown in Table 3, correlation of TFRs was shown in univariate and multivariate analysis. TFRs in SSc patients was dependent on the presence of calcinosis on physical examination (p=0.01), muscle tenderness (p=0.02), and flexion contracture on physical examination (0.003).

Serological and auto-antibodies findings Table 2 presents serological and auto-antibodies findings. In the current study, arthritis showed no association

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Table 2. Demographic, clinical, and serological findings in 180 SSc patients.

Characteristic* N (%)**

Gender: female 161(89.4)

Age >50 51(28.3)

Diffuse 95(52.8)

Rodnan skin score mean±SD 10.54+8.80

Duration from non-Raynaud's symptoms to time of taken radiography mean years±SD 6.00 5.02

Raynaud's phenomenon 164(91.1)

telangiectasia/ face, hand, lip 129(71.1)

Hand telangiectasia 100(55.6)

Digital ulcer /gangrene 56(31.1)

Calcinosis of wrist and hand on PE 34(18.9)

Flexion contracture on physical examination (^FTP > 0.9 cm) 101(55.2)

Arthritis on physical examination 35(19.4)

Tendon friction rub 41(22.8)

Muscle atrophy 60(33.3)

Muscle tenderness 37(20.6)

Muscle weakness 51(28.3)

ESR>30 (N=175) 49 (27.8)

CRP>10 (N=176) 31 (19.1)

RF + (N=165) 31 (18.8)

Anti-CCP + (No=141) 15(11.3)

ANA + (N=165) 153(92.7)

Anti-TOPO I (N=154) 100(64.9)

ACA + (N=154) 16(10.4)

*For Characters with missing value Number (No) of available data for analysis were recorded, other characters without missing value the number were not recorded. **Number (percentage) for nominal data. Mean standard deviation (SD) for

continuous data. ^FTP: finger to palm distance

with anti-CCP and ant-RF (p=0.85 and p=.0.60, respectively).

Radiographic pattern in two subtypes Joint erosion was detected in 31 (17.2%) patients and joint space narrowing in 38 (21.5%) patients. Arthritis in radiography defined as the presence of both joint erosion and narrowing was seen in 18 (10.0%) patients. Eighty-seven (48.3%) patients had acro-osteolysis on radiography and resorption of bone was observed in 11 (6.1%). Calcinosis and flexion contracture on radiography was detected in 38 (21.1%) and 34 (18.8%)

patients, respectively. Subgroup analysis of radiographic findings showed acro-osteolysis and flexion contractures were significantly more prevalent in patients with dcSSC (p=0.007 and p=0.05, respectively) (Table 4).

Association of radiographic findings with clinical and paraclinical features of SSc

Findings of hand radiography in univariate and multivariate analyses are summarised in Table 5. The results indicate that disease duration was correlated with joint erosion, bone pattern (acro-osteolysis and resorption distal ulna), and soft tissue pattern (calcinosis and ra-

Table 3. Association of Tendon Friction Rubs symptoms with clinical, radiological and laboratory parameters in 180 SSc patients.

Univariate analysis OR (95%CI)* Multivariate analysis B OR (95%CI) p

Tendon **Duration of disease from 1.058(.990-1.13) 0.01 calcinosis on 1.11 3.04(1.28-7.21) 0.01

Friction non-Raynaud 5.31(2.196-12.85) 0.001 PE 1.09 2.99(1.21-7.40) 0.02

Rubs flexion contracture of joint on 5.359(2.520- 11.40) 0.001 muscle 1.08 2.95(1.11-7.87) 0.03

# pE 4.435(2.022-9.728) 0.001 tenderness

calcinosis on # PE 3.516 (1.682-7.348) 0.001 flexion

muscle pain/ tenderness 2.185(1.064-4.486) 0.03 contracture

muscle weakness 2.582(1.157-5.765) 0.02 on PE

muscle atrophy 1.037(1.059-4.08) 0.05

arthritis on PE 2.192(1.037-4.63) 0.04

low hematocrit 5.167(2.286-11.6) 0.001

high ESR 3.778(0. 901-15.8) 0.05

acro-osteolysis on radiography 3.821(1.713-8.523) 0.001

bone resorption on 3.250(1.187-8.90) 0.02

radiography, 2.215(1.005-4.882) 0.05

FC on radiography 2.276(0.98-5.27) 0.05

arthritis on radiography,

narrowing on radiography,

erosion on radiography

* OR (95%CI): odds ratio, CI: confidence interval. ** Duration from non-Raynaud's symptoms to time of taken radiography #PE: physical examination **FC: flexion contracture, ^TFRs: tendon friction rubs. 'DLCO: diffusing capacity of the lung for carbon monoxide . 'TOPO I abs: Topoisomerase I antibodies

Table 4. Radiological findings in 180 SSc patients with different disease subsets.

All No(%) Diffuse No (%) Limited No (%) P value

Joint pattern

Erosion 31(17.2) 16(51.6) 15(48.4) 0.88

Wrist 14/31 (45.1) 5(35.7) 9(64.3) 0.18

HMCP 6/31(19.3) 3(50) 3(50) 0.89

*PIP 12/31(38.7) 8(66.7) 4(33.3) 0.32

'DIP 8/31(25.8) 3(37.5) 5(62.5) 0.37

Joint space narrowing 38(21.5) 20(52.6) 18(47.4) 0.98

Wrist 11/38(31.4) 6(54.5) 5(45.5) 0.90

MCP 10/38(26.3) 6(60) 4(40) 0.63

PIP 24/38(63.1) 13(54.2) 11(45.8) 0.88

DIP 18/38(47.4) 10(55.6) 8(44.4) 0.83

Arthritis 18 (10.0) 11(61.1) 7(38.9) 0.45

Bone pattern

Bone resorption 87(48.3) 55(63.2) 32(36.8) 0.007

Acro-osteolysis 87(48.3) 55(63.2) 32(36.8) 0.007

Resorption of distal ulna 11(6.1) 6(54.5) 5(45.5) 0.90

Soft tissue pattern

Calcinosis 38(21.1) 22(57.9) 16(42.1) 0.47

Flexion contracture 34(18.8) 23(67.6) 11(32.4) 0.05

^MCP: metacarpophalangeal joints. *PIP: proximal interphalangeal joints. DIP: < distal interphalangeal joints

Table 5. Association of radiographic findings with clinical and para-clinical features of SSc.

Univariate analysis OR (95%CI) Multivariate analysis B Odds (95%CI) p

Joint erosion on radiology Raynaud's' phenomenon Telangiectasia Calcinosis on PE Tendon friction rub Time interval from NonRaynaud 's to radiology 1.23(1.14-132) 3.11(1.03-9.39) 2.35(1.05-5.27) 2.27(0.98-5.27) [1.19(1t .00-1.25) 0.05 0.04 0.04 0.05 0.05 Disease duration 1.10 [ 1.10(1.03-1.18) 0.006

Joint space narrowing Digital Ulcer/gangrene Calcinosis Flexion contracture on PE Advanced lung fibrosis HCT<30% Time interval from non-Raynaud's to radiology 1.85(0.88-3.89) 4.52(2.11-9.66) [3.78(1.62- 8.87) 2.55(1.22-5.32) [2.66(1.44-4.90) [1.07(1.01-1.15) 0.01 0.001 0.001 0.01 0.006 0.04 Calcinosis advanced lung fibrosis HCT<30% 1.53 0.81 1.25 4.65(2.10-10.3), 2.23(0.99-5.03) 3.50(1.03-11.86) 0.001 0.05 0.05

Joint arthritis on radiography Calcinosis on exam Tendon friction rub Muscle pain Muscle atrophy HCT<30% Elevated aldolase 3.15(1.17-8.50) 3.25(1.18-889) 3.67 (1.33-10.1) 2.80(1.04-7.51) 3.36(1.28-8.86) 7.58(1.14-50.1) 0.02 0.02 0.008 0.04 0.02 0.02 no variable showed dependent association with arthritis on radiography

bone deminera-lization Subtype of disease Digital ulcer-gangrene Calcinosis in PE Flexion contracture on PE Radiological flexion contracture Radiological acro-osteolysis Radiological patter-bone resorption anti-topo 2.680(1.459-4.923), 2.151(1.101-4.202) 2.534(1.231-5.218) 2.446(1.319-4.536) 3.553(1.455-8.672) 4.51(6.830-30.820) [1.084(1.025-1.147) 2.199(1.121-4.314) 0.001 0.02 0.01 0.004 0.004 <0.0001 0.012 0.011 acro-osteolysis 2.388 10.90(4.75-24.98) 0.001

Acro-osteolysis Diffuse subtype of disease Telangiectasia Digital ulcer/gangrene Calcinosis in PE Tendon friction rub flexion contracture on PE Muscle atrophy Muscle pain Esophageal involvement Advanced lung fibrosis Anti-TOPO I Disease duration mRSS 2.27(1.25-4.14), 2.37(1.20-4.67) 2.30(1.20-4.41), 4.76(2.27-10.0), 5.16(2.28-11.6), 3.92(2.07-7.40), 2.25(1.19-4.24), 3.17(1.45-6.92) 2.03(1.02-4.05) 2.14(1.13-4.05), 3.92(2.07-7.40), 1.17(1.09-1.26) 1.05(1.01-1.09) 0000000000000 0000000000000 —^OOJINJ-^O—^ooo—^o -L CO —L —L —L -si diffuse subtype of disease tendon friction rub anti-TOPO I disease duration 0.91 1.42 1.06 2.10 2.48(1.06-5.85) 4.14(1.60-10.7 2.90(1.19-7.10) 1.23(1.12-1.36) 0.04 0.004 0.02 0.001

Resorption of distal ulna Oesophageal involvement Advanced lung fibrosis Disease duration from non-Raynaud's to time of study 1.09(1.03-1.15) 3.93(1.10-14.0) 1.12(1.02-1.23) 0.04 0.02 0.02 Disease duration 0.11 1.11(1.01-1.22) 0.03

Calcinosis Telangiectasia Calcinosis on PE Disease duration 2.45(0.99-6.34), 5.26(2.45-11.3), 1.63(1.08-1.25), 0.05 0.001 0.001 disease duration 0.13 1.143(1.06-1.23) 0.001

Univariate analysis OR (95%CI) Multivariate analysis B Odds (95%CI) p

Flexion Diffuse subtype of disease 2.14(0.97-4.72) 0.05 Disease 0.12 1.29(1.03- 0.01

contracture Telangiectasia 3.56(1.18-10.6) 0.02 duration 0.06 1.24) 0.01

Calcinosis on PE 7.12(3.17-15.9) 0.001 mRSS 1.40 1.06(1.01- 0.01

Flexion contracture on PE [6.31(2.31-17.2) 0.001 calcinosis on 2.71 1.12) 0.001

Tendon friction rub [3.82(1.71-8.52), 0.001 PE 4.08(1.45-

Advanced lung fibrosis [2.12(0.99-4.56) 0.05 HCT<30% 11.4)

PAP> 40 2.67(1.07-6.68) 0.03 15.1(3.70-

HCT<30% 4.42(2.58-7.56) 0.001 60.9

ESR>30 2.67(1.21-5.86) 0.01

TOPO I 3.09(1.01-8.65) 0.03

Muscle weakness 2.41(1.11-5.23) 0.02

Time interval of non- 1.10(1.03-1.19) 0.004

Raynaud 's phenomenon 1.06(1.02-1.11) 0.006

mRSS

* OR (95%CI): odds ratio, CI: confidence interval. #PE: physical examination **FC: flexion contracture, ^TFRs: tendon friction rubs. 'DLCO: diffusing capacity of the lung for carbon monoxide (CO). ''TOPO I abs: Topoisomerase I antibodies, mRss: modified Rodnan skin score

diological flexion contracture). Interestingly, arthritis was not associated with clinical or serological features of the disease. Acro-osteolysis was correlated with the diffuse subtype of the disease, the presence of TFRs, positive serology for anti-TOPO abs and disease duration. We also found DIP narrowing on radiography of 18 (10.0%) patients and DIP erosion in 8 (4.4%) patients. Narrowing coincided with erosion in 4 patients. Age group showed no significant relationship with DIP narrowing (p=0.62) or DIP erosion (p= 0.78), but there was a correlation between DIP narrowing and DIP erosion (Cramer's V=0.28, p=0.04).

DISCUSSION

As shown by results, the disease duration was a main dependent factor for developing joint erosion, acro-oste-olysis, bone resorption, calcinosis and flexion contracture on hand radiography. Acro-osteolysis associated with more severe form of the disease (dcSSc subtype, the presence of TFRs, and anti-TOPO I), and was the only dependent variable associated with bone demineralisation.

In EUSTAR database, symptoms of arthritis were reported in 16% of patients and they were more prevalent in dcSSc than lcSSc (20% vs 13%), and arthritis detected on radiography in 18% of patients.5,6 Furthermore, muscle weakness and CPK elevation were reported in about 28.3% and 7.1% of all patients, respectively.25 Similar to the EUSTAR study, we detected muscle weakness in 28.1% of the patients.6 In our study, most patients with elevated CPK and aldolase were among those with muscle weakness, and muscle enzyme test can be useful as a diagnostic tool. In contrast to the previous study, in

the current study, using both tests did not increase the diagnostic sensitivity of the test. 26 The prevalence of TFR in our study looks similar to Pittsburg's study results (28%) as opposed to the results from the EUSTAR database (11%). This may be due to the presence of more patients with the diffuse subtype in the current and Pittsburg's study compared to EUSTAR (52%, 49%, and 33%, respectively).6,27 In previous studies, the presence of tendon friction rubs was correlated with severe vascular, articular muscular and renal involvements,7,18 and TFRs were reported more often with FC on joints.28 Elevated ESR in patients with TFRs implicated the inflammatory nature of TFRs in scleroderma.28

In our study, we found RF in anti-CCP abs in 18.8% and 10.6% of the patients in the limited and diffuse subgroups. In a previous study, the prevalence of rheumatoid factor was reported in 27-30% of SSc patients and anti-cyclic citrullinated antibodies (anti-CCP abs) in 1.5 to 12%.6 29 30 Similar to other studies, RF and anti-CCP did not correlate with the clinical or radiological pattern of arthritis.6,7 Our results indicated a prevalence rate of (92.7%) anti-nuclear antibodies (ANA) and 10.4% ACA among patients. These numbers compared to the results from Liaskos et al., study with 97.5% ANA and 32.9% ACA positive patients were lower.31 In ANA negative patients, we should consider multiparametric autoantibodies testing, that could be helpful for early disease diagnosis. 31 Low level of ACA in our study was consistent with the results of two previous studies from Iran.32,33

We found anti-Topo isomerase I antibodies were more frequently associated antibodies with flexion contracture,

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bone demineralization, acro-osteolysis, in univariate analysis. In a large European multicentre study, the presence of anti-topo I antibodies show to be independently associated with tenosynovitis.34

In radiographic study, the prevalence of joint erosion has been reported between 5% and 40%.15,20 In our study, the prevalence of erosion, joint space narrowing, and arthritis were lower than those in the EUSTAR study report. In that study, 21% of SSc patients had articular erosion, 28.5% joint space narrowing, and 18% arthritis (erosion and joint space narrowing).6

In the current study, in a multivariate analysis, we found the time interval from non-Raynaud's symptom to be a dependent variable associated with resorption of ulna, calcinosis, and flexion contracture on radiography. That could suggest the role that disease duration could play in progression of vasculopathy or the cumulative effect of trauma by time. Higher skin scoring and calcinosis were dependent factors for joint contracture. This can be explained by increased skin tightness and mechanical effect on developing erosion by time. In multivariate analysis, there was no association between arthritis on radiography and the factors that had meaningful correlations in univariate analysis. In a previous study, arthritis on radiological examination was associated with the cutaneous subset, CRP >10 mg/l, and disease duration.6 In our series, there was a low proportion of postmeno-pausal women (28%), and we found no significant difference in DIP erosion and narrowing according to age category. Besides, there was a correlation between DIP narrowing and DIP erosion, which suggests DIP erosion is not related to coincided OA. In a previous study, Avoca et al. suggest the possibility of DIP arthropathy as a SSc-related feature on radiology. However, they could not rule out findings with OA in the series, because most patients in the study were postmenopausal women.6 We found more increase in the prevalence of bone pattern compared to EUSTAR study (6% vs 2%, respectively).6

LIMITATIONS

This study has some limitations. This was a point prevalence study of the clinical and radiographical findings; therefore, the results should be interpreted with caution, and causality cannot be interfered from the results. Muscle biopsy was not performed in patients with weakness and elevated muscle enzymes; thus, muscle weakness could not be interpreted as myositis. Likewise, elevated sPAP should not be considered as pulmonary hypertension.

CONCLUSION

The study evaluated musculoskeletal involvement in SSc. Our findings indicate one-fifth of the patients have arthritis, muscle tenderness, and weakness on physical examination. CPK elevation that was accompanied with

muscle weakness could be used as a diagnostic tool. Acro-osteolysis was seen with the severe form of the disease. We observed erosive arthritis on DIP, which may be considered as scleroderma-related arthropathy. Association of disease duration with radiologic findings could be an interdependent factor and suggestive of the cumulative effect of time on developing the lesion.

ETHICS APPROVAL AND CONSENT TO PARTICIPATE

The study was approved by the Human Research Ethics Committee of Iran University of Medical Sciences (IUMS) and it was in accordance with the ethical standards set forth in the 1964 Declaration of Helsinki and its subsequent amendments. Written informed consent was obtained from all the participants (approval No: IR. IUMS. REC 1395.9411288001).

CONFLICT OF INTEREST

The authors declare no conflict of interest.

CONSENT FOR PUBLICATION

All authors are aware of the full content of the manuscript and provided consent for the submission to the Mediterranean Journal of Rheumatology.

REFERENCES

1. Varju C, P6ntek M, Lorand V, Nagy G, Minier T, Czirjak L. Musculoskeletal involvement in systemic sclerosis: an unexplored aspect of the disease. JSRD 2017;1:19-32.

2. Johnson SR, Glaman DD, Schentag CT, Lee P. Quality of life and functional status in systemic sclerosis compared to other rheumatic diseases. J Rheumatol 2006;6:1117-22.

3. Bassel M, Hudson M, Taillefer SS, Schieir O, Baron M, Thombs BD. Frequency and impact of symptoms experienced by patients with systemic sclerosis: results from a Canadian National Survey. Rheumatology (Oxford) 2011;4:762-7.

4. Skare TL, Toebe BL, Boros C. Hand dysfunction in scleroderma patients. Sao Paulo Med J 2011;5:357-60.

5. Avouac J, Walker U, Tyndall A, Kahan A, Matucci-Cerinic M, Alla-nore Y. Characteristics of joint involvement and relationships with systemic inflammation in systemic sclerosis:results from the EU-LAR Scleroderma Trial and Research Group (EUSTAR) database. J Rheumatol 2010;7:1488-501.

6. Avouac J, Guerini H, Wipff J, Assous N, Chevrot A, Kahan A, et al. Radiographic hand involvement in systemic sclerosis. Ann Rheum Dis 2006;8:1088-92.

7. La Montagna G, Sodano A, Capurro V, Malesci D, Valentini G. The arthropathy of systemic sclerosis: a 12 month prospective clinical and imaging study. Skeletal Radiol 2005;1:35-41.

8. Ingegnoli F, Galbiati V, Zeni S, Meani L, Zahalkova L, Lubatti C, et al. Use of antibodies recognizing cyclic citrullinated peptide in the differential diagnosis of joint involvement in systemic sclerosis. Clin Rheumatol 2007;4:510-4.

9. Ostojic P, Damjanov N. Indices of the Scleroderma Assessment Questionnaire (SAQ) can be used to demonstrate change in patients with systemic sclerosis over time. Joint Bone Spine 2008;3:286-90.

10. Ostojic P, Damjanov N. Different clinical features in patients with limited and diffuse cutaneous systemic sclerosis. Clin Rheumatol 2006;4:453-7.

11. Foocharoen C, Mahakkanukrauh A, Suwannaroj S, Nanagara R.

Clinical characteristics and mortality in systemic sclerosis: a comparison between early- and late-referred diseases. J Med Assoc Thai 2014;1:28-35.

12. Chan PT, Mok CC, Chan KL, Ho LY. Functioning and health-related quality of life in Chinese patients with systemic sclerosis: a case-control study. Clin Rheumatol 2014;5:659-66.

13. Rosenbaum LH, Swartz WM, Rodnan GP, Medsger TA Jr. Wrist drop in progressive systemic sclerosis (scleroderma): complete rupture of the extensor tendon mechanism. Arthritis Rheum 1985;5:586-9.

14. Baron M, Lee P, Keystone EC. The articular manifestations of progressive systemic sclerosis (scleroderma). Ann Rheum Dis 1982;2:147-52.

15. Sandqvist G, Eklund M, Akesson A, Nordenskiold U. Daily activities and hand function in women with scleroderma. Scand J Rheuma-tol 2004;2:102-7.

16. Rannou F, Poiraudeau S, Berezné A, Baubet T, Le-Guern V, Cabane J, et al. Assessing disability and quality of life in systemic sclerosis: construct validities of the Cochin Hand Function Scale, Health Assessment Questionnaire (HAQ), Systemic Sclerosis HAQ, and Medical Outcomes Study 36-Item Short Form Health Survey. Arthritis Rheum 2007;1:94-102.

17. Clements PJ, Allanore Y, Khanna D, Singh M, Furst DE. Arthritis in systemic sclerosis: systematic review of the literature and suggestions for the performance of future clinical trials in systemic sclerosis arthritis. Semin Arthritis Rheum 2012;6:801-4.

18. Allanore Y, Seror R, Chevrot A, Kahan A, Drapé JL. Hand vascular involvement assessed by magnetic resonance angiography in systemic sclerosis. Arthritis Rheum 2007;8:2747-54.

19. 19.Avouac J, Clements PJ, Khanna D, Furst DE, Allanore Y. Articular involvement in systemic sclerosis. Rheumatology (Oxford) 2012;8:1347-56.

20. Hyphantis TN, Tsifetaki N, Siafaka V, Voulgari PV, Pappa C, Bai M, et al. The impact of psychological functioning upon systemic sclerosis patients quality of life. Semin Arthritis Rheum 2007;2:81-92.

21. 2013 Classification Criteria for Systemic Sclerosis: An American College of Rheumatology/European League Against Rheumatism Collaborative Initiative. Ann Rheum Dis 2013;11:1747-55.

22. LeRoy EC, Black C, Fleischmajer R, Jablonska S, Krieg T, Medsger TA Jr, et al. Scleroderma (systemic sclerosis) classification, subsets and pathogenesis. J Rheumatol 1988;15:202-20.

23. Torok KS, Baker NA, Lucas M, Domsic RT, Boudreau R, Medsger TA Jr. Reliability and validity of the delta finger-to-palm (FTP), a new measure of finger range of motion in systemic sclerosis. Clin Exp Rheumatol_2010;28:S28-36.

24. Medsger TA Jr, Bombardieri S, Czirjak L, Scorza R, Della Rossa A, Bencivelli W. Assessment of disease severity and prognosis. Clin Exp Rheumatol 2003; 21(Suppl. 29):S42-S46.

25. Walker UA, Tyndall A, Czirjak L, Denton C, Farge-Bancel D, Kow-al-Bielecka O, et al. Clinical risk assessment of organ manifestations in systemic sclerosis: a report from the EULAR Scleroderma Trials And Research group database. Ann Rheum Dis 2007;66:754-63.

26. Tolédano C, Gain M, Kettaneh A, Baudin B, Johanet C, Chérin P, et al. Aldolase predicts subsequent myopathy occurrence in systemic sclerosis. Arthritis Res Ther 2012;3:R152.

27. Steen VD, Medsger TA Jr. The palpable tendon friction rub: an important physical examination finding in patients with systemic sclerosis. Arthritis Rheum 1997;40:1146-51.

28. Doré A, Lucas M, Ivanco D, Medsger TA Jr, Domsic RT. Significance of palpable tendon friction rubs in early diffuse cutaneous systemic sclerosis. Arthritis Care Res 2013;8:1385-9.

29. Avouac J, Gossec L, Dougados M. Diagnostic and predictive value of anti-cyclic citrullinated protein antibodies in rheumatoid arthritis: a systematic literature review. Ann Rheum Dis 2006;7:845-51.

30. Ueda-Hayakawa I, Hasegawa M, Kumada S, Tanaka C, Komura K, Hamaguchi Y, et al. Usefulness of anti-cyclic citrullinated pep-tide antibody and rheumatoid factor to detect rheumatoid arthritis in patients with systemic sclerosis. Rheumatology (Oxford) 2010;11:2135-9.

31. Liaskos C, Marou E, Simopoulou T, Gkoutzourelas A, Barmakou-di M, Efthymiou G, et al. Multiparametric autoantibody profiling of patients with systemic sclerosis in Greece. Mediterr J Rheumatol 2018;29(3):120-6.

32. Poormoghim H, Moghadam AS, Moradi-Lakeh M, Jafarzadeh M, Asadifar B, Ghelman M, et al. Systemic sclerosis: demographic, clinical and serological features in 100 Iranian patients. Rheumatol Int 2013 ;33:1943-50.

33. Allanore Y, Gharibdoost F, Jamshidi AR, Javinani A, Avouac J, Rastkar E, et al. Comparison of the clinical phenotype of systemic sclerosis patients in Iran and France in two university centers. JSRD 2018;4(2):239719831880922.

34. Elhai M, Guerini H, Bazeli R, Avouac J, Freire V, Drapé J-L, et al. Ultrasonographic hand features in systemic sclerosis and correlates with clinical, biologic, and radiographic findings. Arthritis Care Res (Hoboken) 2012;64:1244-9.