Ramirezpreston3723

Caregiver-infant interactions in Western middle class often take place in dyadic play settings, engaged in infant-initiated object stimulation, and surrounded by a positive emotional tone, reflecting a distal parenting style. With this study we aim to investigate whether the same conception of caregiver-infant interaction is embodied in the proximal parenting style. For this purpose, we compare the context and pattern of caregiver-infant interactions in two cultural groups in Costa Rica Urban middle-class families in San José and rural indigenous Bribri families. Naturalistic observations and caregiver interviews revealed significant differences between the groups, with San José families resembling the Western middle-class interaction pattern. Among the Bribris, adult-child play is uncommon so that children interact with adults in primary care settings and with older siblings in play settings. Bribri interactions are further characterized by emotional neutrality. The groups did not differ in terms of body contact. Also, caregivers in both samples took the lead in interactions more often than infants. The results are discussed in the context of an autonomous-relational style as combining psychological autonomy and hierarchical relatedness. We argue that early childhood theories and intervention programs need to abandon the assumption that Western middle-class strategies are universal and recognize locally relevant patterns of caregiver-infant interaction.This study aimed to investigate prognostic significance and brain metabolic mechanism of hyponatremia in anti-leucine-rich glioma-inactivated protein 1 (LGI1) encephalitis. After adjusting for confounders, patients with moderate and severe hyponatremia had significantly increased risk of poor functional outcome and sequelae of seizures. In addition, serum sodium was negatively correlated with normalized ratio of the standardized uptake value of medial temporal lobe (MTL), basal ganglia (BG), and hypothalamus on positron emission tomography (PET) and which was further validated using voxel-wise analysis, suggesting an extra-hypothalamus (BG and MTL) localization for hyponatremia.This study was designed to investigate the utilization of seaweed dietary fiber (SDF) as a potential alternative to phosphates on the quality profiles of phosphate-free frankfurters. The results showed that the incorporation of SDF obviously promote the textural parameters of phosphate-free frankfurters, which was effectively verified by scanning electron microscopy. Meanwhile, SDF effectively retarded lipid oxidation of phosphate-free frankfurters during storage (P less then 0.05). Moreover, 1.00% SDF was proven to show the best optimal phosphates replacing effect, as well as overcome the quality defects of phosphate-free frankfurters to the maximum extent. In addition, hydrogen bonding and hydrophobic interactions were the primary molecular force in SDF-added phosphate-free frankfurters. Therefore, our results implied that SDF can be considered as a feasible alternative for the processing of phosphate-free frankfurters with improved quality profile and superior health benefits which consistent with the demand of healthier meat products.Goldenberry is rich in phenolic compounds; however, no study has been carried out to assess its potential in meat products. The objective of the research was to characterize goldenberry (Physalis peruviana) fruits and flour and investigate its effect on the quality of Bologna-type mortadella, before and after in vitro digestion. Five treatments were performed without antioxidant, with sodium erythorbate, and with three levels of goldenberry flour. The phenolic profile analysed by LC-MS/MS quantified 10 compounds in the fruit and 23 in the flour. Goldenberry flour did not affect the centesimal composition of the mortadella, but it had an effect on pH, hardness (texture profile) and color, as well as reduced lipid oxidation (peroxide value and TBARS) for 90 days. There was also an increase (P less then 0.05) in the antioxidant activity and in the content of phenolic compounds after in vitro digestion. Thus, goldenberry flour can be used as a natural antioxidant to replace sodium erythorbate in Bologna-type mortadella.Palladium single-atom catalysts (SACs) have caught great attention owing to their maximal atom utilization and outstanding activity for the Suzuki-Miyaura cross-coupling reaction. However, a facile manufacturing method for kilogram-scale synthesis of noble metal SACs with high productivity is still in demand. This study reports on the synthesis of SACs by direct ball milling of commercial metal oxides and nitrate precursors with a productivity of ∼100%. The as-prepared Pd1/FeOx SACs show high catalytic performance (the TOFs are 7844 h-1), high stability, and general applicability for the Suzuki-Miyaura cross-coupling reaction under mild conditions. More encouragingly, kilogram-scale Pd1/FeOx SACs can be synthesized in one batch by this approach, endowing great potential for industrial applications. SCR7 Furthermore, the preparation of Pt, Ru, and Rh SACs is also successfully carried out via the ball milling method, demonstrating favorable applicability. Our findings illustrate exciting chances presented by the highly efficient synthesis of SACs for the formation of C-C bonds.Directional manipulation of submerged bubbles is fundamental for both theoretical research and industrial production. However, most current strategies are limited to the upward motion direction, complex surface topography, and additional apparatuses. Here, we report a meniscus-induced self-transport platform, namely, a slippery oil-infused pillar array with height-gradient (SOPAH) by combining femtosecond laser drilling and replica mold technology. Owing to the unbalanced capillary force and Laplace pressure difference, bubbles on SOPAH tend to spontaneously transport along the meniscus gradient toward a higher elevation. The self-transport performances of bubbles near the pillars depend on the complex meniscus shape. Significantly, to understand the underlying transport mechanism, the 3D meniscus profile is simulated by solving the Young-Laplace equation. link2 It is found that the concave valleys formed between the adjacent pillars can change the gradient direction of the meniscus and lead to the varied transport performances. Finally, by taking advantage of a water electrolysis system, the assembled SOPAH serving as a bubble-collecting device is successfully deployed. This work should not only bring new insights into the meniscus-induced self-transport dynamics but also benefit potential applications in the field of intelligent bubble manipulation.Chrysotile asbestos is a carcinogenic mineral that has abundantly been used in industrial and consumer applications. The carcinogenicity of the fibers is partly governed by reactive Fe surface sites that catalyze the generation of highly toxic hydroxyl radicals (HO•) from extracellular hydrogen peroxide (H2O2). Chrysotile also contains Cr, typically in the low mass permille range. In this study, we examined the leaching of Cr from fibers at the physiological lung pH of 7.4 in the presence and absence of H2O2. Furthermore, we investigated the potential of cells from typical asbestos-burdened tissues and cancers to take up Cr leached from chrysotile in PCR expression, immunoblot, and cellular Cr uptake experiments. link3 Finally, the contribution of Cr to fiber-mediated H2O2 decomposition and HO• generation was studied. Chromium readily dissolved from chrysotile fibers in its genotoxic and carcinogenic hexavalent redox state upon oxidation by H2O2. Lung epithelial, mesothelial, lung carcinoma, and mesothelioma cells expressed membrane-bound Cr(VI) transporters and accumulated Cr up to 10-fold relative to the Cr(VI) concentration in the spiked medium. Conversely, anion transporter inhibitors decreased cellular Cr(VI) uptake up to 45-fold. Finally, chromium associated with chrysotile neither decomposed H2O2 nor contributed to fiber-mediated HO• generation. Altogether, our results support the hypothesis that Cr may leach from inhaled chrysotile in its hexavalent state and subsequently accumulate in cells of typically asbestos-burdened tissues, which could contribute to the carcinogenicity of chrysotile fibers. However, unlike Fe, Cr did not significantly contribute to the adverse radical production of chrysotile.

Acute chest pain is a commonly encountered symptom in hospital medical/surgical units; however, almost half of nurses in their second year of clinical experience in our facility have reported struggling to care for acute chest pain patients. We developed, implemented, and examined the effectiveness of a simulation-based, mastery learning clinical nursing educational program to improve self-efficacy and performance in caring for patients with acute chest pain.

The study adopted a single-site, single-cohort design using simulation-based performance assessment and self-efficacy surveys on a convenience sample of 37 second-year clinical nurse participants in multi-stage hybrid mastery learning educational intervention using asynchronous e-learning, and hands-on simulation training and assessment with feedback on caring for chest pain patients. Performance assessments and self-efficacy surveys were administered pre-, post-, and 5 months post-intervention.

Clinical performance on the post- and 5 months followined 5 months post-intervention. The results suggest the applicability of simulation-based mastery learning in a clinical setting for novice nurses to attain specific skills, and raise their self-perception of competence to care for patients in acute settings.Metal nanoclusters (NCs) with atomically precise structures have sparked interest in catalysis. Unfortunately, their high aggregation tendency and the spatial resistance of surface ligands pose significant challenges. Herein, Au25 NCs are encapsulated into isoreticular metal-organic frameworks (MOFs), namely UiO-66-X (X = H, NH2, OH, and NO2), followed by the removal of surface ligands on Au25 NCs. The resulting surface-clean Au25 NCs, protected by the MOF spatial confinement, exhibit much superior activity and stability with respect to pristine Au25 NCs in the oxidative esterification of furfural. Remarkably, experimental and theoretical results jointly demonstrate that diverse functional groups on UiO-66-X modulate the Au25 electronic state, giving rise to the discriminated substrate adsorption energy of Au25@UiO-66-X. As a result, the high electron density and suitable substrate adsorption ability dominate the activity trend Au25@UiO-66-NH2 > Au25@UiO-66-OH > Au25@UiO-66 > Au25@UiO-66-NO2. This work develops a new strategy for the stabilization of surface-clean metal NCs in pore wall-engineered MOFs for enhanced catalysis.Indoleamine 2,3-dioxygenase 1 (IDO1) is a potent immunosuppressive enzyme that inhibits the antitumor immune response through both tryptophan metabolism and non-enzymatic functions. To date, most IDO1-targeted approaches have focused on inhibiting tryptophan metabolism. However, this class of drugs has failed to improve the overall survival of patients with cancer. Here, we developed and characterized proteolysis targeting chimeras (PROTACs) that degrade the IDO1 protein. IDO1-PROTACs were tested for their effects on IDO1 enzyme and non-enzyme activities. After screening a library of IDO1-PROTAC derivatives, a compound was identified that potently degraded the IDO1 protein through cereblon-mediated proteasomal degradation. The IDO1-PROTAC (i) inhibited IDO1 enzyme activity and IDO1-mediated NF-κB phosphorylation in cultured human glioblastoma (GBM) cells, (ii) degraded the IDO1 protein within intracranial brain tumors in vivo, and (iii) mediated a survival benefit in mice with well-established brain tumors. This study identified and characterized a new IDO1 protein degrader with therapeutic potential for patients with glioblastoma.