H2FPEF score predicts atherosclerosis presence in patients with systemic connective tissue disease

Background: Cardiovascular diseases are common cause of morbidity and mortality in patients with systemic connective tissue diseases (SCTD) due to accelerated atherosclerosis which couldn't be explained by traditional risk factors (CVDRF). Hypothesis: We hypothesized that recently developed score predicting probability of heart failure with preserved ejection fraction (H2FPEF), as well as a measure of right ventricular-pulmonary vasculature coupling [tricuspid annular plane systolic excursion (TAPSE)/pulmonary artery systolic pressure (PASP) ratio], are predictive of atherosclerosis in SCTD. Methods: 203 patients (178 females) diagnosed with SCTD underwent standard and stress-echocardiography (SE) with TAPSE/PASP and left ventricular (LV) diastolic filling pressure (E/e') measurements, carotid ultrasound and computed tomographic coronary angiography. Patients who were SE positive for ischemia underwent coronary angiography (34/203). The H2FPEF score was calculated according to age, body mass index, presence of atrial fibrillation, ≥2 antihypertensives, E/e' and PASP. Results: Mean LV ejection fraction was 66.3 ± 7.1%. Atherosclerosis was present in 150/203 patients according to: 1) intima-media thickness>0.9 mm; and 2) Agatstone score > 300 or Syntax score ≥ 1. On binary logistic regression analysis, including CVDRF prevalence, echocardiographic parameters and H2FPEF score, only H2FPEF score remained significant for the prediction of atherosclerosis presence (χ2 = 19.3, HR 2.6, CI 1.5-4.3, p < 0.001), and resting TAPSE/PASP for the prediction of a SE positive for ischemia (χ2 = 10.4, HR 0.01, CI = 0.01-0.22, p = 0.004). On ROC analysis, the optimal threshold value for identifying patients with atherosclerosis was a H2FPEF score ≥2 (Sn 60.4%, Sp 69.4%, area 0.67, SE = 0.05, p < 0.001). Conclusions: H2FPEF score and resting TAPSE/PASP demonstrated clinical value for an atherosclerosis diagnosis in patients diagnosed with SCTD

Dermatological applications of EPR : skin-deep or in-depth?

The skin is often referred to as the biggest uniform human body organ, and also as the "brain outside", exposed not only, like the lung epithelium, to the atmospheric air but to other constituents of the open environment including changeable temperature and solar irradiation. The importance of what happens in the skin is therefore not to be overestimated for general condition of the whole organism. Techniques of electron paramagnetic resonance (EPR; called also electron spin resonance, ESR) spectroscopy and imaging belong to the important experimental and diagnostic approaches in dermatology, but the size and shape of skin often make technical problems. The present chapter will cover the basic and clinical applications of EPR to study the skin (including skin tumors) and hair. As the numerous available review papers usually describe the specificity of the EPR-related methods for dermatologists, we decided to cover also some basic aspects of dermatology, to make the chapter more useful also to the specialists in EPR theory and instrumentation. A particular emphasis will be put on the most recent discoveries and innovations, to show that the apparently purely dermatological aspects of such investigations reveal also deeper, systemic implications