Objective To investigate the value of the E-selectin,IL-6 and TNF-α for the diagnosis of myocardial damage in children.Methods The E-selectin,IL-6 and TNF-α levels were detected in 62 patients with myocardial damage and 62 children without myocardial damage.The values of the E-selectin,IL-6 and TNF-α for the diagnosis of myocardial damage were analyzed by the receiver operating characteristic (ROC) curve.Results E-selectin levels were (45.16 ± 5.34) and (15.37 ± 4.65) μg/L,respectively in the patients with myocardial damage and the control group,and the difference between the two groups was significant(P ＜ 0.001).IL-6 levels were (21.31 ± 5.28) ng/L and (17.09 ± 4.62) ng/L,TNF-α levels were (27.22 ± 8.56) ng/L and(21.46 ± 8.08) ng/L,showing no significant difference (P ＞ 0.05).ROC curve analysis showed that AOC of E-selectin in the diagnosis of myocardial damage was 0.945 with 95％ CI 0.899 ～0.991 (sensitivity:0.801,specificity:0.999,Youden Index:0.800),and the cutoff value was 29.93 μg/L.Conclusion E-selectin can be used as one of the diagnostic indices for myocardial damage in children,which has great diagnostic value.IL-6 and TNF-α are of limited value in the diagnosis of myocardial damage.

Objective By analysis of the key performance indexes of the clinical laboratory automation system, to clarify the advantage and optimize the comprehensive performance of the laboratory automation system.Methods Key performance indexes were Collected from January 2017 to April 2017 in biochemistry and immunoassay group of Clinical Laboratory of Shanghai Tong Ren Hospital.(1)The data were collected and compared by the before-and-after method,the starting time of the automation system and initial sample test were analyzed.(2)Key performance indexes were analyzed for the time of specimen registration,inspection,and reporting.(3)The specimen turnaround time(TAT)was analyzed based on two months operation of the laboratory automation system.In view of disadvantage of infectious assays, setting up priority sample absorption, then TAT performance was re-evaluated.(4)By the assessment of total serum dosage required in the automation system, the number of blood vacuum tubes were reduced reasonably.The pros and cons of laboratory automation system were analyzed and the potential improvement were proposed.Results (1)According to the sample peak shift forward,the system start time could move forward 30 minutes earlier.(2)With the adopting of railway logistics,the specimens were sent to the lab and the registration time was at 7:25 am,and the time required for specimen delivery was greatly reduced which made specimen test,report and audit time all moved forward accordingly.(3)Data has shown that specimen TAT declined dramatically based on the performance of the first two month operation of the automation system,biochemical items were shortened 2 h,and the immunoassay shortened 4 h,respectively.Moreover the trend keeps better gradually.With setting up priority absorption infectious tests,the TAT was improved greatly,TAT reduced the average by 40 min.(4)500 μl(including the sample in dead space of vacuum tube)were needed for all the 65 biochemical items included in the system, and 1 495 μl serum were used for the 28 immunoassay.As a result, a total of 2 000 μl serum will be enough for sample analysis by the system, which provided the feasibility to reduce 3 vacuum tubes averagely.Considering the current automation system does not include all the analysis items in our lab directory, a few tests remain to be performed on offline instruments respectively.The methodology for some infectious agents are different from previous method, therefore some test results may need a period of time for comprehensive clinical appreciation.Furthermore,due to the parallel connection of multiple instruments included in the system, more rigorous and frequent quality control becomes a necessity,which may rely on more strict quality control procedure to guarantee the quality.Conclusions The application of the automation system significantly enhanced the efficiency of clinical laboratory all round.In addition, by the quantitative indicators, it is possible to monitor the system operation performance real time, which may feedback and facilitate the improvement constantly,and result in auto confirmation the majority results,eventually.

Objective To investigate the distribution of chronic disease and geriatric syndrome in hospitalized elderly patients with multimorbidity by chronic disease investigation and comprehensive geriatric assessment.Methods A total of 176 patients aged ≥60 years admitted into the geriatric department in our hospital were selected,and demographic factors were collected.Their chronic diseases and geriatric syndrome were recorded.The comprehensive geriatric assessment was consummated,and the biochemical indicators for chronic disease and geriatric syndrome were detected.Results All patients suffered from two or more kinds of chronic diseases.The top three most common diseases were hypertension (112 cases),diabetes (94 cases),and respiratory diseases (73cases).The sum of chronic diseases kinds were ≥3 in 137 patients,≥4 in 78 patients,≥5 in 40 patients.The amount of chronic diseases showed an increased tendency along with ageing.Totally 175 patients had more than one geriatric syndrome,the top three most common types were frailty and prefrailty(133 cases),visual impairment (117 cases),impaired daily activities (107 cases).There were significant differences in the number of geriatric syndrome among different age groups(x2 =16.989,P ＜ 0.001).Spearman analysis showed that the number of patients with geriatric syndrome were positively correlated with age(r =0.307,P＜0.001).Conclusions The prevalence of chronic disease and geriatric syndrome is high in hospitalized elderly patients with multimorbidity,which is increased with aging.We should pay attention to the screening of chronic disease and geriatric syndrome in multimorbid elderly patients