[Project to Decrease the Incidence of Neonatal Hypothermia in the Newborn Center].

BACKGROUND & PROBLEMS: An investigation found that 66.7% of the neonatal hypothermia (body temperature < 36.5°C) cases diagnosed within one hour of transfer from the delivery room in our hospital were affected by a significantly increased risk of physiological abnormalities, which subsequently increased their risk for mortality. Therefore, monitoring and maintaining the normal body temperature of newborn infants are vital in infant care. PURPOSE: This project aimed to improve the current situation of neonatal hypothermia. RESOLUTION: This project was implemented from Oct. 1, 2016 to Oct. 31, 2017 and used several approaches to improve neonatal hypothermia. A neonatal hypothermia caring protocol was developed and the infant admission materials were standardized; the infant hypothermia alert card and posters were displayed in easy-to-notice locations; an in-service training course on neonatal hypothermia was provided; and an infant hypothermia care checklist was tabulated for examination and recognition. RESULTS: After the implementation of this project, the average time required to raise the body temperature of infants to normal (36.5°C) was 1.5 hours, which was 2 hours faster than the pre-project time of 3.5 hours. Moreover, the time needed to raise the body temperature to normal was one hour for newborn infants with birthweights ≥ 2,500 grams, which was one hour faster than the pre-project time of two hours, and 1.5 hours for newborn infants with birthweights < 2,500 grams, which was three hours faster than the pre-project time of 4.5 hours. The goals of this project were effectively achieved in both groups. CONCLUSIONS: Neonatal hypothermia is an important issue affecting the health status of newborn infants. This project strengthened the awareness of nurses regarding neonatal hypothermia and is worthwhile to be implemented in clinical neonatal care.

Proliferative effects of melatonin on Schwann cells: implication for nerve regeneration following peripheral nerve injury.

Activation of proliferation of Schwann cells is crucial for axonal guidance and successful nerve regeneration following peripheral nerve injury (PNI). Considering melatonin plays an important role in proliferative regulation of central glial cells, the present study determined whether melatonin can effectively promote Schwann cell proliferation and improve nerve regeneration after PNI. The spontaneous immortalized rat Schwann cell line (RSC 96 cells) was first analyzed by quantitative polymerase chain reaction (QPCR) to detect the potential existence of melatonin receptors. The melatonin receptor-mediated signaling responsible for proliferation was examined by measuring the phosphorylation of extracellular signal-regulated kinases (ERK1/2) pathway. The in vivo model of PNI was performed by the end-to-side neurorrhaphy. The quantity of Schwann cells as well as the number of re-innervated motor end plates (MEP) on target muscles was examined to represent the functional recovery of injured nerves. QPCR results indicated that MT1 is the dominant receptor in Schwann cells. Immunoblotting and proliferation assay revealed an enhanced phosphorylation of ERK1/2 and increased number of RSC 96 cells following melatonin administration. Nonselective melatonin receptor antagonist (luzindole) treatment significantly suppressed all the above findings, suggesting that the proliferative effects of melatonin were mediated by a receptor-dependent pathway. In vivo results corresponded well with in vitro findings in which melatonin effectively increased the amount of proliferated Schwann cells and re-innervated MEP on target muscles following PNI. As melatonin successfully improves nerve regeneration by promoting Schwann cell proliferation, therapeutic use of melatonin may thus serve as a promising strategy to counteract the PNI-induced neuronal disability.

Comparative Studies of the Dielectric Properties of Polyester Imide Composite Membranes Containing Hydrophilic and Hydrophobic Mesoporous Silica Particles.

In this paper, comparative studies of hydrophilic and hydrophobic mesoporous silica particles (MSPs) on the dielectric properties of their derivative polyester imide (PEI) composite membranes were investigated. A series of hydrophilic and hydrophobic MSPs were synthesized with the base-catalyzed sol-gel process of TEOS, MTMS, and APTES at a distinctive feeding ratio with a non-surfactant template of D-(-)-Fructose as the pore-forming agent. Subsequently, the MSPs were blended with the diamine of APAB, followed by introducing the dianhydride of TAHQ with mechanical stirring for 24 h. The obtained viscous solution was subsequently coated onto a copper foil, 36 µm in thickness, followed by performing thermal imidization at specifically programmed heating. The dielectric constant of the prepared membranes was found to show an obvious trend: PEI containing hydrophilic MSPs > PEI > PEI containing hydrophobic MSPs. Moreover, the higher the loading of hydrophilic MSPs, the higher the value of the dielectric constant and loss tangent. On the contrary, the higher the loading of hydrophobic MSPs, the lower the value of the dielectric constant with an almost unchanged loss tangent.