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Mediterr J Rheumatol 2022;33(1):35-41
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Biomechanical Properties of Heel Pad, Metatarsal Head Soft-Tissue and Foot Ulcers in Patients with Systemic Sclerosis: A Case Control Study
Mandana Pourian1, Iman Mohseni1, Elham Andalib2, Hadi Poormoghim2
Πληροφορίες Συγγραφέων

1. Radiology Department, Firoozgar Hospital, Iran University of Medical Sciences, Tehran, Iran

2. Rheumatology Department, Firoozgar Hospital, Iran University of Medical Sciences, Tehran, Iran

 

Λέξεις Κλειδιά: systemic sclerosis, ultrasonography, compressibility index, scleroderma foot, heel pad
Πλήρες Κείμενο

INTRODUCTION

Systemic sclerosis (SSc) is a connective tissue disorder characterised bythree principal features: vasculopathy, immune, and fibroblast dysfunction with excessive matrix deposition leading to fibrosis of the skin andinternal organs.1,2

In systemic sclerosis, hand lesions are well recognised and represent a vasculopathy feature of the disease.3 A limited number of studies have addressed the podiatric complications of SSc. In patients with SSc, foot vasculopathy presents as Raynaud’s phenomenon, telangiectasia, digital scar and/or ulcer, gangrene, and amputation.4,5 Non-vascular foot lesions (mechanical/pressure-related lesions) present as callus and corn lesions.5 Foot ulcerations have been reported in 26%-35%, callus formations in 40-80%, and calcinosis in 18% of SSc patients.4,5

Many factors can cause foot pain and lesions. The known causes include changes in skin thickness on the plantar surface, fat pad atrophy, and subclinical neuropathic changes in the foot due to vasculopathy of small neuro-vasorum vessels.5 To our knowledge, to date, no study has addressed the biomechanical changes taking place in SSc patients’ feet.

The primary goal of the current study was to evaluate changes in soft-tissue thickness and stiffness (defined as Compressibility Index) of both heel pads and first metatarsal head (MTH) in SSc patients. In order to evaluate foot ulcers in the course of the disease, we used inexpensive and widely used imaging methods such as ultrasonography (USG) and radiography.

 

PATIENTS AND METHODS

Study design

Our study was a cross-sectional survey of the patients attending the Rheumatology Clinic of Firoozgar Hospital from October 2016 to March 2017.

Study population

Forty patients with systemic sclerosis, fulfilling the diagnostic criteria of the American College of Rheumatology (ACR),and 40 healthy age- and BMI-matched individuals were enrolled. Patients who had other underlying diseases that could affect the biomechanical properties of the foot, eg, history of diabetesmellitus, heart failure or coronary artery disease, foot deformity, smoking, peripheral vascular disease were excluded. In this study, non-digital ulcers in the sole are referred to as foot ulcers. Details of the foot ulcers have been reported in another article.5 Informed consent was taken from all participants prior to the study. Clinical data and past disease historywere drawn from the patients’ medical records.

Image acquisition

Lateral foot radiographs of both feet (with a film to focus distance of 40 inches using 45 KV and 5 MAS [125 mA, 0.04 sec]) were utilized for evaluating both the unloaded (lying) and loaded (standing) positions of heel pad soft-tissue thickness in both patients and healthy subjects. Loaded radiographs were obtained after 8 seconds of weight bearing on the target foot in standing position.6 The soft-tissuedensity under the surface of the calcaneus was measured to determine the heel pad thickness. The measurement was made from the lowest partof the plantar tuberosity of the calcaneus vertically to the skin edge.

The compressibility index (CI) was defined as the ratio of the difference of heel pad thickness in loaded to unloaded positions to unloaded thickness. As the index approaches one, the elasticity approaches zero. Allmeasurements were conducted by one radiologist (MP). The radiographic images of a sample patient are shown in Figure 1.


Figure 1. Lateral foot X-ray of both feet in lying (unloaded) and standing (loaded) position.
 


Ultrasonographic study of the first MTH was conducted to measure the soft-tissue thickness.7 Given the limitations of radiography and overlapping of soft tissue on MTHs in the lateral foot X-ray, we used ultrasound for this part of the study (each subject was placed in the sitting position with ankle in the neutral and knee in the extended position).

Allmeasurements were made using the Mindray DC-7 ultrasound machine with 7MHz transducer.Adequate amount of stand-off jelly was applied in order to prevent transducerpressure impairment of the evaluation. Soft-tissue thickness, which was the shortest distance between the firstMTH and the skin surface was measured. All measurements were taken by the same researcher. (Figure 2)


Figure 2. Measurement of first metatarsal head soft tissue thickness with ultrasound.
 



For comparing heel pad thickness (HPT) of both feet (dominant and non-dominant) and heel pad CI of both feet, the lateral foot radiograph was used on heel. The soft tissue thickness of the first MTH of both feet was measured by USG. These variables, as well as demographic data, were compared in the control and study groups. We conducted correlation analyses to assess the relationships between HPT and compressibility, and demographic and baseline variables.

 

Statistical Analysis

Statistical analysis was performed using SPSS 18. We used Chi-square to compare nominal and categorical variables. An independent sample T-test was used for quantitative measurements.



RESULTS

Mean age (standard deviation=SD) was similar in the study and control groups: 45 (12.3). The mean disease duration was 10 (9.6) years and body mass index (BMI) was 25.5 (3.8) in the study group. In the control group mean age (SD) was 42 (11.5) years and BMI was 26.1 (3.7).

Subjective Raynaud’s phenomenon was observed in 80% of patients and 20% had ulcers. The right foot was the dominant one in most patients. Demographic data and disease characteristics are summarised in Table 1.

Heel pad thickness and compressibility index measurement between normal subject and SSc patients

We demonstrated that HPT (17.8 vs 19.5mm) and first MTH soft tissue thickness (10.5 vs 12.5 mm) was significantlylower in patients’ dominant feet when compared to healthy subjects. The compressibility index was significantly higher in SSc patients than in healthy individuals (P value<0.05). (Table 2)

HPT in scleroderma patients was expected to be 6% less than in healthy subjects (17.8 vs 19.5mm). The overall difference in CI was 9% (0.65 in healthy subjects vs 0.70 in scleroderma patients).

Heel pad thickness and compressibility index measurement between SSc patients with and without (foot) digital ulcers

Among SSc patients with or without foot ulcers, a significant difference was observed in the HPT of both feet: 15.5 vs 18.4 in the right foot, and 15.0 vs 18.7 in the left foot. However, MTH thickness and compressibility index did not differ between the two groups. (Table 3)

 

Heel pad thickness and compressibility index measurement between SSc patients without foot ulcer and healthy subjects

 

When we compared patients without ulcers with healthy subjects the CI increased (0.70 vs 0.65, p=0.02), but the HPT decreased without any significant difference (18.4 vs 19.5, p = 0.28).

Among the demographic and baseline factors evaluated in this study, BMI demonstrated positive correlation and disease duration showed negative correlation with HPT. None of the demographic and baseline variables were significantly correlated with CI. Gender and age had no significant correlation or association with any of other variables (Supplementary Table).

 

DISCUSSION

Foot ulcers are one of the most uncomfortable complications of scleroderma, greatly affecting patients’ functional abilities. This study aimed to focus on the mechanical aspects of this problem.

Using ultrasound imaging, we observed significant changes in the compressibility and elasticity indices and heel pad thickness of scleroderma patients’ feet.

Besides our main findings, we observed two additional points. First, in line with the study of Sunderkötter et al., we found a correlation between Raynaud’s phenomenon and ulcer manifestation (P-value 0.006).8 However, Raynaud’s phenomenon was not significantly correlated with the quantitative parameters (thickness and compressibility index). This finding may be justified by the vasculopathy nature of both digital ulcers and Raynaud’s phenomenon.

Secondly, in a comparison between patients without ulcers and healthy subjects, we observed that CI had increased, but thickness had not significantly differed. This could mean that changes in stiffness occur prior to changes in thickness, or that, there is no linear correlation between skin thickness and stiffness.

These results could be used in patients’ clinical follow-up, and compressibility changes could be made more valuable to clinicians in their first visits. Nevertheless, as the disease progresses in severity over time, following patients with thickness measurements (mainly that of the heel pad) could prove more prognostic of heel and foot ulcers. Unfortunately, we could not find a cut-off point for thickness from which we can predict a significantly increased risk of digital ulcers. It may thus, be more valuable to compare measurements between visits.

Though we thoroughly searched the literature, we found no similar study that had been conducted on foot biomechanics in scleroderma patients. Foot biomechanics was the main purpose of studies related to other diseases with podiatric soft-tissue involvement, the most important of which is diabetes mellitus (DM). Most studies had used ultrasound as the method of measurement. Chao et al. found a 6% increase in soft-tissue thickness in pure diabetic patients, whereas, 9% and 15% decreases were observed in neuropathic and ulcerated patients, respectively.9 Additionally, they found increased stiffness in people with diabetes, particularly inpersons affected with neuropathy or ulceration. Although we know that DM and scleroderma share some pathophysiological processes, including vasculopathy and the vascular involvement of digital ulcers, they are not completely the same, as DM does not include fibrinogenic mechanisms.

Ultrasound (US) is a cost-effective, easy to use, a quantitative technique that can perform morphological analysis, and study certain physical and biochemical properties of the skin: not only is it able to measure skin thickness, but is also able to assess other characteristics of the skin, eg, the subcutaneous connective tissue processes, which may occur prior to changes in skin thickness.10,11

Using US imaging, we could detect diffuse cutaneous systemic sclerosis (dcSSc) in the very early stages of the disease, ie, less than 2 years. Compared to limited SSc and healthy controls, thicker skin and lower skin echogenicity can be seen in dcSSc, supposedly, reflecting the oedematous phase of the disease.11,12

As scleroderma progresses and becomes more severe over time, heel fat pad tissue becomes atrophic and more collagen accumulates in the dermis, making soft tissues stiffer and less compressible.

While this study investigated a number of biomechanical indices in patients with scleroderma as opposed to age- and BMI-matched healthy subjects, there are certain limitations that should be discussed. Firstly, heel pad properties and foot ulcers are theoretically affected by biomechanical and ischemic factors and skin thickness. We could not calculate the effects of each of these factors separately. Another weakness was that we did not match the patients with and without digital ulcers based on their medical treatments. Therefore, the probable side-effects of drugs on the feet’s biomechanical properties were not considered. Finally, because of the cross-sectional nature of our study, we could not see the course of change in thickness and compressibility indices over time, which can be a more valuable index than a static measurement in the prediction of digital ulcers and disease progression.

 

CONCLUSION

Foot ulcers are disturbing complications of scleroderma, causing great functional disability in patients and may also be associated with internal organ involvement. Given its high morbidity, our study aimed to look at the mechanical side of this catastrophic problem and to identify its predictive and risk factors before ulcers appear.

Ultrasonography and conventional radiography are two inexpensive imaging modalities for evaluating soft tissue thickness and compressibility index. Given that both the latter indices change in patients with systemic sclerosis, they could be used as predictors of fat pad atrophy and elasticity in the feet. Future studies can investigate the association between microvascular changes in feet and biomechanical alterations of soft tissue. Furthermore, the effects of therapeutic agents on these quantitative changes could be possible future areas of investigation.

 

ETHICAL APPROVAL

This study was in accordance with the standards of the Ethics Committee at Iran University of Medical Sciences, and in accordance with the 1964 Helsinki Declaration and its later amendments. Informed consent was obtained from all individual participants included in the study.

CONFLICT OF INTEREST

The authors declare no conflict of interest.

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