1.Progress in mechanism of insulin resistance related to intrauterine growth retardation
International Journal of Pediatrics 2010;37(2):125-127
Fetal origins of adult disease,the thrifty phenotype hypothesis, nutritional programming,metabolic programming indicate that nutrition in early life is important.Epidemiological survey demonstrates that insulin resistance is relataed to intrauterine growth retardation,but the exact mechanism is indefinite.This article is about the influence of intrauterine growth retardation to the structure and function of pancreas,and the genes that related to insulin resistance.
2.Relationship between serum leptin and bone speed of sound in appropriate-for-gestational-age neonates
Kaiju LUO ; Pingyang CHEN ; Yafan ZHAO ; Mingfeng HE
Journal of Clinical Pediatrics 2014;(9):846-849
Objective To investigate the changes of serum leptin and bone speed of sound (SOS) with gestational age (GA) and relationship between leptin and bone SOS in appropriate-for-gestational-age (AGA) neonates. Methods A total of 65 AGA neonates were recruited and divided into three groups according to their gestational age:preterm infant (GA 31-34 w, 14 cases), late preterm infant (GA 34-37 w, 13 cases), and full-term infant (GA≥37 w, 38 cases). Anthropometric parameters, including birth weight, length, leg length, skin fold thickness were measured in all the subjects, and the neonatal nutritional status and body fat content were evaluated by Ponderal Index (PI) and Weststrate equation (F%) respectively. Serum leptin concentration and tibial SOS were measured within 7 days after birth. Results There were signiifcant differences in GA (F=140.199, P<0.001), birth weight (F=47.042, P<0.001), birth length (F=46.877, P<0.001), leg length (F=17.543, P<0.001), PI (F=11.898, P<0.001) and F%( F=21.955, P<0.001) among three groups. Serum leptin and tibial SOS were signiifcantly different among these groups ( F=49.724, 20.052 respectively, P<0.001), and both of them were positively correlated with gestational age and birth weight (P<0.01). In addition, leptin was positively correlated with tibial SOS, but the correlation disappeared after adjustment for GA and anthropometry. According to the multivariate forward stepwise regression analysis, tibial SOS was found to be signiifcantly positively associated with gestational age and birth weight in the three groups. Conclusions Both bone SOS and serum leptin are signiifcantly correlated with gestational age and birth weight in AGA neonates, and leptin is related with but not the independent direct predictor of bone SOS.
3.Application of bedside transthoracic echocardiography in volume response assessment of children with septic shock
Qin ZHOU ; Xingqiong REN ; Guoying ZHANG ; Xiaoli LUO ; Bin LU ; Yafan ZHAO ; Qin XIAO ; Meng WANG
Chinese Pediatric Emergency Medicine 2021;28(3):176-180
Objective:To investigate the value of bedside transthoracic echocardiography(TTE) in volume reactivity assessment of children with septic shock.Methods:A total of 41 children aged from 1 to 5 years with septic shock requiring mechanical ventilation admitted to PICU from January 2017 to June 2020 were prospectively included.Under the condition of complete mechanical ventilation, full sedation and analgesia, and no spontaneous breathing(tidal volume 8 to 10 mL/kg), volume expansion was given to children.Hemodynamic indexs such as cardiac index(CI), stroke volume index(SVI) and stroke volume variability(SVV) were measured before and after volume expansion by noninvasive cardiac output monitoring(NICOM) and TTE.Moreover, aortic flow velocity time integral variable degrees(ΔVTI), inferior vena cava variability(ΔIVC) and inferior vena cava dilation index(dIVC) were also measured by TTE.Patients were considered to be responsive to volume expansion if SVI NICOMincreased≥15%.Based on the responsiveness of volume expansion, all the patients were divided into response group and non-response group.The value of SVV TTE, ΔVTI, ΔIVC, dIVC, ΔCVP and SVV NICOMin predicting volume responsiveness were analysed. Results:(1) There were 23 cases in response group and 18 cases in non-response group.Before volume expansion, there were no statistically significant differences in general hemodynamic indexes HR, MAP, CVP, EF, CI NICOM, and CI TTEbetween two groups( P>0.05). (2) In response group, HR, MAP, CI, SVI and CVP were all improved after volume expansion( P<0.001). In non-response group, only CVP was significantly increased after volume expansion, while other indexes were not improved( P>0.05). (3)Before the volume expansion, SVV TTE, ΔVTI, ΔIVC, and dIVC in response group were higher than those in non-response group( P<0.001). After volume expansion, these indicators were significantly reduced in response group.In non-response group, only ΔIVC significantly reduced after volume expansion.(4) The receiver-operating characteristic curve analysis showed that the area under the curve of SVV TTEand ΔVTI was 0.971, with 12.04% as the threshold, the sensitivity was 0.957 and the specificity was 0.944. The area under the curve of ΔIVC was 0.981, with 25.98% as the threshold, the sensitivity was 0.870 and the specificity was 1.000.The area under the curve of dIVC was 0.980, with 29.86% as the threshold, the sensitivity was 0.870 and the specificity was 1.000. The area under the curve of ΔCVP was 0.778, with 2.5 cmH 2O(1 cmH 2O=0.098 kPa) as the threshold, the sensitivity was 0.913 and the specificity was 0.556. The area under the curve of SVV NICOMwas 0.874, with 12.50% as the threshold, the sensitivity was 0.869 and the specificity was 0.778. Conclusion:The dynamic indexes SVV, ΔVTI, ΔIVC and dIVC monitored by TTE have good accuracy in evaluating children′s volume responsiveness, among which the accuracy of ΔIVC and dIVC is relatively the highest; the value of ΔCVP in predicting volume responsiveness is limited.