High quality nursing of children with pneumonia complicated with heart failure.

Children with severe pneumonia often have heart failure. This study explored the clinical effect of high quality nursing intervention on children with pneumonia complicated with heart failure. In the study, 96 children with pneumonia complicated with heart failure were selected and randomly divided into a conventional nursing group (n=48) and a high quality nursing group (n=48). Based on the conventional nursing, the children in one group were given high quality nursing, and comprehensive nursing was carried out in aspects such as respiratory tract, medication, psychology and diet. Then, the heart rate, respiratory rate, heart failure correction time, hospitalization time, cost and nursing satisfaction were compared between the two groups. The results showed that the heart rate of the high quality nursing group was 145.37±8.72 times/min and the respiratory rate was 45.65±6.08 times/min, which were significantly lower than those of the conventional nursing group (P less than 0.05). The correction time of heart failure was about 32 h in the high quality nursing group, and the length and cost of hospitalization were significantly lower than those in the conventional nursing group (P less than 0.05). The nursing satisfaction of the patients' family members in the high quality nursing group was also higher (P less than 0.05). This study shows that high quality nursing can promote the recovery of children with pneumonia complicated with heart failure, and is worth popularizing widely in clinics.

UV-curable ladder-like diphenylsiloxane-bridged methacryl-phenyl-siloxane for high power LED encapsulation.

A UV curable ladder-like diphenylsiloxane-bridged methacryl-phenyl-siloxane (L-MPS) was synthesized from phenyltrichlorosilane, diphenylsilanediol and methacryloxypropyldimethylmethoxysilane via dehydrochlorination precoupling, supramolecular architecture-directed hydrolysis-condensation and end-capping reactions. The L-MPS has a condensation degree of ∼100%, and can be complete crosslinked by UV curing. XRD, TEM and molecular simulation suggest that the ladder-like molecules are close packed with a periodic distance of ca. 1.2 nm. The L-MPS shows transmittance of 98% and a refractive index of ca. 1.61 at 450 nm. The cured L-MPS with a T d5% value of 465.5 °C showed excellent anti-yellowing and anti-sulfidation properties. The cured L-MPS film and the encapsulated LED samples were compared with those of Dow Corning OE-6630 and OE-7662. It is believed that the dense nano-ladder unit also contributes to the thermal, gas barrier and even optical properties. L-MPS shows promising potential as a high power LED encapsulant and optical coating for use in harsh environments. This work provides an approach to integrate this novel ladder structure with advanced properties.