ABSTRACT
Objective:To compare peripheral blood tenascin-C (TN-C) level in patients with Kawasaki disease (KD) on admission, after treatment and at recovery, and to assess the potential of TN-C as a novel predictor for coronary artery lesion.Methods:Retrospective study.Blood samples of 44 KD patients [including 21 patients with coronary artery lesions (CAL + group) and 23 patients without coronary artery lesions(CAL - group)], 39 anaphylactoid purpura patients and 36 non-infected and non-vasculitis controls in the Affiliated Hospital of North Sichuan Medical College during January 1, 2018 and November 1, 2018 were collected.TN-C level was measured by enzyme-linked immunosorbent assay.Normally distributed data were compared by the t test; otherwise, they were compared by the Mann- Whitney U test. Pearson product-moment correlation coefficient or Spearman rank correlation coefficient was used to analyze the correlation between TN-C and other laboratory indexes. Results:For KD patients, TN-C levels on admission [(32.0±13.8) μg/L] and after treatment [(33.5±11.4) μg/L] were significantly higher than that at recovery [(23.3±10.8) μg/L](all P<0.01), which was positively correlated with C-reactive protein ( r=0.317, P=0.038), and negatively correlated with sodium level ( r=-0.472, P=0.004). No significant difference in TN-C level was found between CAL + group and CAL - group [on admission: (31.7±15.4) μg/L vs.(32.3±12.5) μg/L; after treatment: (32.2±11.6) μg/L vs.(34.8±11.3) μg/L; at recovery: (22.6±7.3) μg/L vs.(24.0±13.4) μg/L; all P>0.05]. In addition, TN-C level in patients with KD [(32.0±13.8) μg/L] and anaphylactoid purpura [(37.2±18.2) μg/L] was significantly higher than that of control children [(24.0±8.05) μg/L] (all P<0.01). Conclusions:The study findings are able to prove the potential of peripheral blood TN-C as a predictor for coronary artery lesion in KD patients, nor as a maker of vascular injury.Nevertheless, it may be used as an indicator of immune response in the acute phase of KD.
ABSTRACT
Every year, waters on earth receive large quantities of wastewater from industry, agriculture, fish and poultry raising, and municipal sewage treatment plants. Consequently, the aquatic environment on the earth is under a serious challenge from a very large quantity of pollutants such as antibiotics, insecticides, herbicides, hydrocarbons, etc., contained in the domestic wastewater, industrial and agricultural waste water and illegal effluents. In particular, with the development of intensive aquiculture and poultry, the effluent pollution has recently become more and more serious with more attentions. Furthermore more and more chemical pollutants discharged into aquatic environment have been detected with the advancement of analytical techniques. These chemicals can cause toxic effects on water habitats after discharged into aquatic environment. However, microorganisms have many key functions in pollution control. In this review, applications of microorganism in the degradation of chemicals in aquatic environments are reviewed. It was concluded that most applications of microorganisms degrading chemicals focused on aquaculture waters, whereas other aquatic systems (such as river, lake, sea, coastal waters) have been scarcely studied.