The optimal drug treatment for preterm infants with hemodynamically significant patent ductus arteriosus (hsPDA) is still controversial.The prophylactic intravenous injection of indomethacin can be considered for extremely preterm infants or extremely low birth weight infants with a high risk of severe intraventricular hemorrhage.The expectant management without drug intervention can be chosen in the following situations: asymptomatic; preterm infants with gestational age ≥28 weeks or birth weight ≥1 000 g are born within 7-14 days; and there are few risk factors affecting spontaneous closure of hsPDA.The drug intervention can be given if the expectant management fails.Oral administration of high-dose Ibuprofen, Acetaminophen and standard-dose Ibuprofen are recommended.

Objective:To investigate the effect of integrated psychological and behavioral intervention on cognitive function and P300 in children with attention-deficit/hyperactivity disorder (ADHD).Methods:A randomized controlled study was conducted on 112 children with ADHD admitted to the Shaoxing 7 th People's Hospital from March 2022 to September 2023. These children were randomly divided into two groups: Group A ( n = 56) and Group B ( n = 56), using a random number table method. Group A received conventional drug treatment, whereas Group B received conventional drug treatment and an integrated psychological and behavioral intervention. The treatment lasted for 3 months. Before and after treatment, the levels of norepinephrine (NE) and dopamine (DA), scores on the Integrated Visual and Auditory Continuous Performance Test, electroencephalogram θ/β ratio, and P300 (latency and amplitude) were determined in each group. The clinical efficacy of the treatment was evaluated in both groups. Results:After treatment, the NE and DA levels in Group B were (340.83 ± 43.22) ng/L and (1.12 ± 0.25) ng/L, respectively. These levels were significantly lower than those in Group A [(416.15 ± 48.37) ng/L, (1.30 ± 0.31) ng/L, t = 8.69, 3.38, both P < 0.05]. The full scale attention quotient and full scale response control quotient in Group B were (82.52 ± 14.15) points and (96.34 ± 13.95) points, respectively. These values were significantly higher than those in Group A [(75.20 ± 13.83) points, (90.62 ± 15.16) points, t = -2.77, -2.08, both P < 0.05). The electroencephalogram θ/β ratio was significantly lower in Group B than in Group A ( t = 3.22, P < 0.05). The latencies of P300 in the Cz and Fz regions in Group B were (346.21 ± 40.52) ms and (344.65 ± 39.52) ms, respectively. The latencies were significantly shorter than those in Group A [(376.16 ± 43.04) ms, (369.35 ± 42.16) ms, t = 3.79, 3.20, both P < 0.05]. Similarly, the amplitudes of P300 in the Cz and Fz regions were significantly greater in Group B [(7.73 ± 1.80) μV, (7.22 ± 1.73) μV] than in Group A [(5.90 ± 1.15) μV and (5.76 ± 1.12) μV] ( t = -6.41, -5.30, both P < 0.05). The total response rate in Group B was significantly higher than that in Group A [94.6% (53/56) vs. 82.1% (46/56), χ2 = 4.26, P < 0.05]. Conclusion:The integrated psychological and behavioral intervention in children with ADHD is good. It can reduce NE and DA levels, improve cognitive function, decrease electroencephalogram θ/β , and improve P300.

Objective:To compare left and right ventricular Tei indexes and to determine the reference range in newborns of different gestational age (GA) and birth weight (BW).Methods:From February 2019 to June 2021, newborns admitted to the Neonatal Intensive Care Unit of our hospital were enrolled. Tei indexes were measured and calculated during 24 h~7 d after birth and reexamined 1~2 weeks later in some of the newborns. The newborns were assigned into <32 w group, 32~36 w group and ≥ 37 w group according to their GA, < 1 500 g group, 1 500~2 499 g group and ≥2 500 g group according to their BW, and early newborn group (1~7 d) and late newborn group (>7 d) according to their age of evaluation. The data were analyzed using t test, one-way analysis of variance (ANOVA) and correlation analysis with SPSS 20.0 statistical software. Results:A total of 128 cases were included. 42 cases in <32 w group, 43 in 32~36 w group and 43 in ≥37 w group. 42 cases in <1 500 g group, 42 in 1 500 ~ 2 499 g group and 44 in ≥2 500 g group. Tei indexes were reexamined after 7 d of age in 63 preterm infants and in 31 full-term infants. The left and right ventricular Tei indexes of the ≥37 w group were less than the 32~36 w group and the <32 w group in early newborns (left ventricular: 0.382±0.069 vs. 0.431±0.069 and 0.439±0.060, right ventricular: 0.373±0.038 vs. 0.431±0.035 and 0.452±0.064); the right ventricular Tei index of the 32~36 w group was significantly less than the <32 w group ( P<0.05). No significant differences existed in the left ventricular Tei index between the 32 ~ 36 w group and the < 32 w group ( P>0.05). The left and right ventricular Tei indexes of the ≥2 500 g group were significantly less than the 1 500~2 499 g group and the <1 500 g group (left ventricular: 0.385±0.069 vs. 0.434±0.067 and 0.434±0.064, right ventricular: 0.376±0.039 vs. 0.431±0.043 and 0.450±0.061) ( P<0.05).No significant differences existed between the 1 500~2 499 g group and the <1 500 g group ( P>0.05). No significant differences existed in the left and right ventricular Tei indexes between the late newborn group and early newborn group ( P>0.05). For early newborns (1~7 d of age), the reference range of Tei index gradually decreased along with the increase of GA and BW. Conclusions:The left and right ventricular Tei indexes of full-term infants and infants with BW ≥2 500 g are less than preterm and low birth weight infants. The reference range of Tei index in early newborns shows negative correlation with GA and BW.