Objective: The aim of this pilot study was to determine clinical and laboratory factors that predict amputation surgery and to evaluate the predictive value of soluble CD14 (sCD14), interleukin-6 (IL-6), and procalcitonin (PCT) in patients with diabetic foot ulcers (DFUs).
Methods: Twenty-seven (20 males, 7 females) Diabetic Foot Ulcers (DFU) patients admitted to our department were consecutively enrolled. The patients’ demographics and wound characteristics were noted. IL-6, PCT, and sCD14 were measured at admission.
Results: Six of the 27 patients (22%) eventually underwent lower extremity amputation. Compared to the non-amputation group, a previous history of amputation (p=0.017), the presence of gangrene (p=0.044), the Wagner grade (p=0.011), the IL-6 concentration (p=0.018), the white blood cell count (WBC) (p=0.036), and the erythrocyte sedimentation rate (ESR) (p=0.042) were significantly high in the amputation group. However, the sCD14 and PCT concentration were not significantly different.
Conclusion: We have shown for the first time that IL-6 may have predictive value for lower extremity amputation in patients with DFU. Further studies are needed to confirm its predictive value in this patient group.
Doxorubicin (DOX) cardiotoxicity is a significant side effect in cancer survivors. DOX and its metabolites alter cardiac gene expression and affect metabolic energy-related peptides. Adropin, copeptin, irisin and TRPM2 are produced locally in the heart and play a role in energy homeostasis. We investigated the fates of adropin, copeptin, irisin and TRPM2 in serum and cardiac tissues of DOX treated rats. Animals were divided into three groups of six: 1) untreated controls, 2) DOX treated and 3) saline treated. The rats were fed a standard diet ad libitum for 14 days then were sacrificed and heart and serum samples were taken. Adropin, copeptin, irisin levels in tissue homogenates and serum were measured using ELISA. Immunoreactivity of heart tissue adropin, copeptin, irisin and TRPM2 also were investigated. The peptides increased in both serum and cardiac tissue homogenates in animals treated with DOX compared to the other groups. DOX increased adropin in endocardial and myocardial cells, but it decreased expression of copeptin. DOX did not affect endocardial irisin and TRPM2 expressions, but myocardial irisin and TRPM2 expressions were increased. Serum adropin, irisin and copeptin were increased in DOX treated rats. Cardiac adropin, copeptin, irisin and TRPM2 are affected by DOX and may play a role in DOX cardiotoxicity.
SummaryAimEnzyme-positive acute coronary syndrome (EPACS) can cause injury to or death of the heart muscle owing to prolonged ischaemia. Recent research has indicated that in addition to liver and brain cells, cardiomyocytes also produce adropin. We hypothesised that adropin is released into the bloodstream during myocardial injury caused by acute coronary syndrome (ACS), so serum and saliva levels rise as the myocytes die. Therefore, it could be useful to investigate how ACS affects the timing and significance of adropin release in human subjectsMethodsSamples were taken over three days after admission, from 22 EPACS patients and 24 age- and gendermatched controls. The three major salivary glands (submandibular, sublingual and parotid) were immunohistochemically screened for adropin production, and serum and saliva adropin levels were measured by an enzyme-linked immunosorbent assay (ELISA). Salivary gland cells produce and secrete adropin locally.ResultsSerum adropin, troponin I, CK and CK-MB concentrations in the EPACS group became gradually higher than those in the control group up to six hours (p < 0.05), and troponin I continued to rise up to 12 hours after EPACS. The same relative increase in adropin level was observed in the saliva. Troponin I, CK and CK-MB levels started to decrease after 12 hours, while saliva and serum adropin levels started to decrease at six hours after EPACS. In samples taken four hours after EPACS, when the serum adropin value averaged 4.43 ng/ml, the receiver operating characteristic curve showed that the serum adropin concentration indicated EPACS with 91.7% sensitivity and 50% specificity, while when the cut-off adropin value in saliva was 4.12 ng/ml, the saliva adropin concentration indicated EPACS with 91.7% sensitivity and 57% specificity.ConclusionIn addition to cardiac troponin and CK-MB assays, measurement of adropin level in saliva and serum samples is a potential marker for diagnosing EPACS.
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