Preeclampsia (PE) is a hypertensive disorder of pregnancy and it is one of the main causes of maternal and fetal morbidity and mortality worldwide. It is known that oxidative stress plays a role in its pathophysiology, therefore we investigated the effects of trans-resveratrol, a potent antioxidant, on the Nrf2/ARE pathway, nitric oxide (NO) production, and reactive oxygen species (ROS) levels in an in vitro model of PE. Plasma from PE patients increased ARE activity in endothelial cells compared with plasma from healthy pregnant (HP), and the addition of resveratrol was able to potentiate this increase only in PE. Resveratrol also decreased ROS levels in the cells incubated with plasma from PE. Based on these results, we performed a pilot clinical study to compare the effects of serum from PE women before and 1 h after ingestion of polyphenol-rich whole red grapefruit juice incubated on endothelial cells, since grapefruit contains large amounts of resveratrol. Serum from PE patients, obtained one hour after juice intake, decreased antioxidants markers in cells compared with the serum before juice intake, besides, it increased NO production. In conclusion, resveratrol and polyphenol-rich red grape juice have potentially beneficial effects on endothelial cells incubated with PE plasma/serum, which could aid in the management of PE. Hypertensive pregnancy is associated with increased long-term cardiometabolic disease risk. Assessing dietary intake patterns after hypertensive (HP) versus normotensive pregnancy (NP) may provide insights into the mechanism of this risk. This study was a prospective sub-study of the P4 (Postpartum, Physiology, Psychology and Paediatrics) cohort. Women were studied six months after NP versus HP (preeclampsia or gestational hypertension). Dietary energy, macronutrient and micronutrient intake were measured using a three-day food diary (FoodWorks™) and assessed against Australian and New Zealand Nutrient Reference Values to determine nutritional adequacy. Comparisons between breastfeeding and non-breastfeeding women were assessed, and linear regression modelling (using hypertensive status, breastfeeding status, and demographic/pregnancy variables) performed to assess predictors of energy intake. Seventy-four women (60 NP, 14 HP) were included. HP women had higher mean body mass index (p=0.02) and lower brrdiometabolic disease risk. Irreversible colloid deposition in groundwater-saturated fractures is typically modeled using a lumped deposition coefficient (κ) that reflects the system physiochemical conditions. A mathematical relationship between this coefficient and the physicochemical conditions controlling deposition has not yet been defined in the literature; thus, κ is typically fitted using experimental observations. This research develops, for the first time, an analytical relationship between κ and the fraction of colloids retained in single fractures (F ). This relationship could be subsequently integrated with available models relating F to the system's physicochemical properties to develop an explicit mathematical relationship between κ and these properties. The F -κ analytical relationship was developed through conceptualizing irreversible deposition as first-order decay, as both lead to permanent mass loss, and coupling this with the advection-dispersion equation. The model estimates of colloid deposition were compared to observations from laboratory-scale colloid tracer experiments. A variance-based global sensitivity analysis was applied to identify the parameters controlling deposition. The analytical relationship efficiently replicated the experimental observations, and the global sensitivity analysis revealed that colloid deposition variability is controlled by fracture length, aperture size, and deposition coefficient; this supports the accepted understanding that colloid deposition is controlled by the system's physicochemical properties.The analytical relationship efficiently replicated the experimental observations, and the global sensitivity analysis revealed that colloid deposition variability is controlled by fracture length, aperture size, and deposition coefficient; this supports the accepted understanding that colloid deposition is controlled by the system's physicochemical properties.Klebsiella pneumoniae is an opportunistic pathogen that is responsible for community acquired infections and nosocomial infections. Antibiotic-resistant K. https://www.selleckchem.com/products/rk-33.html pneumoniae and/or hypervirulent K. pneumoniae are emerging as a serious threat to public health. For the sake of alleviating and conquering current dilemma, discovery of effective new drugs against K. pneumoniae is a tough challenge. However, traditional anti-K. pneumoniae drug discovery methods cost considerable amount of time, animals, labor and so on. So an efficient technique for in vitro and in vivo drug screening with the least time duration, animals and labor cost is highly needed for the discovery of new effective compounds. Hence, in this study we constructed a selectable marker-free autoluminescent K. pneumoniae (SfAlKp) harboring luxCDABE by combining Tn7 transposon and Xer-dif system. SfAlKp can be used for discovery of new drugs via detecting luminescence intensity as a surrogate marker. The energy-consuming autoluminescent reaction catalyzed by the LuxAB enzymes which use the substrates produced by LuxCDE using the metabolites of the bacteria. Tn7 can insert exogenous genes into the bacterial genome and the DNA fragment in between dif sequences can be recognized and removed by endogenous XerCD recombinases of K. pneumoniae. The drug susceptibility and growth rate of SfAlKp are identical to its parent strain, meanwhile the luminescence intensity and stability are also significant characteristics of SfAlKp. Compared to conventional techniques, the autoluminescence-based measurement is more applicable to high throughput screening for compounds both in vitro as well as in vivo in animal model.The purpose of this project was to identify gaps in the current evidence base and to identify research priorities in the local context during the Covid-19 pandemic. This paper reports on the application and adaptation of the CHNRI methodology which follows a series of criteria setting, filtering and scoring exercises. The views of maternity care professionals, midwifery managers and leaders, women and families were continually sought throughout the project stages. We found the CHNRI methodology to be a useful framework to highlight topics with greater or smaller consensus within a relatively short time frame and with minimal burden to participants. The criteria were defined to focus on research topics where no existing or on-going studies were identified and topics likely to lead to improvements in care with relevance beyond the Covid-19 pandemic.