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By characterizing physiological changes that occur in warfighters during simulated combat, we can start to unravel the key biomolecular components that are linked to physical and cognitive performance. Viable field-based sensors for the warfighter must be rapid and noninvasive. In an effort to facilitate this, we applied a multiomics pipeline to characterize the stress response in the saliva of warfighters to correlate biomolecular changes with overall performance and health. In this study, two different stress models were observed - one of chronic stress and one of acute stress. In both models, significant perturbations in the immune, metabolic, and protein manufacturing/processing systems were observed. However, when differentiating between stress models, specific metabolites associated with the "fight or flight" response and protein folding were seen to be discriminate of the acute stress model.Oligomerization of light olefins has become an essential step to convert gaseous olefins to liquid fuels and value-added chemicals. Here, we report the synthesis and application of nickel single sites isolated on Wells Dawson polyoxometalate defects as stable and regenerable catalysts for ethylene oligomerization.There is an urgent need to develop a rapid procedure that can rapidly identify and obtain antimicrobial susceptibility testing (AST) results directly from positive blood cultures. Here, we report a semi-automatic bacterial diagnosis procedure, which includes (1) a bacterial concentration process to isolate bacteria from a positive blood culture bottle (PBCB), (2) an identification process using matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS), and (3) a rapid AST process based on stimulated Raman scattering imaging of deuterium oxide (D2O) incorporation in bacteria. A total of 105 samples were tested for bacterial identification, and a bacterial identification accuracy of 92.3% was achieved. AST takes about 2.5 h after identification. This semi-automatic procedure only takes 3.5 h, which is demonstrated to be the fastest process to obtain identification and AST results starting from PBCBs.Light-up aptamers are aptamers that ignite the fluorescence emission of certain dyes upon binding. Widely harnessed in in vivo imaging, the binding capacity of the light-up aptamers can also be deployed in in vitro diagnostic assays, engendering a mix-and-read format. Intrigued by this, I intend to provide an overview of the various formats of diagnostic assays developed using light-up aptamers from the direct modulation of the light-up aptamers, split aptamer-based configuration, strand displacement, in vitro transcription-based one-pot diagnostic assay, CRISPR-Cas system to the measurement of the ion reliance. The incorporation of the light-up aptamers into each configuration is expounded and further supported by describing the exemplary assays developed thus far. It is anticipated that the present study can be enlightening to any researchers who aspire to embark on the development of one-pot in vitro diagnostic assays based on light-up aptamers.Healthcare-associated infections are common causes of morbidity and mortality. Advanced nanotechnology provides a means of overcoming this problem, but it remains challenging to develop universal coating strategies for decorating antimicrobial nanomaterials onto various clinical devices. In this paper, we propose a general silane-based method for immobilizing monolayer metal nanoparticle (NP) arrays onto any type of substrate surface-especially for a diverse range of clinical implantable devices. The surface silanization was achieved simply through the adsorption of N1-(3-trimethoxysilylpropyl)diethylenetriamine (TMS), regardless of the material (polymer, metal, oxide) or morphology (flat, curved, textured) of the substrate, with no need for pretreatment or expensive instrumentation. Monolayers of various nanostructures (Ag, Au, and hollow Au NPs) were then decorated rapidly onto the TMS-treated substrates, thereby further functionalizing their surfaces. In particular, immobilization of the Ag NPs resulted in excellent anti-biofilm efficacy against three clinically life-threatening pathogens Pseudomonas aeruginosa, Escherichia coli, and Staphylococcus aureus. Sustained release of Ag+ ions led to durable inhibition of bacterial attachment for up to 28 days. Studies with NIH3T3 fibroblasts revealed that the Ag NP arrays displayed no cytotoxicity toward mammalian cells. Overall, this universal coating process appears to be an innovative method for the surface-functionalization of diverse materials and devices employed in the fields of energy, sensing, and medicine-especially to prevent healthcare-associated infections arising from the use of clinical implantable devices in hospitals.We present core-satellite assemblies comprising a solid gold nanoparticle as the core and hollow decahedral gold nanoshells as satellites for tuning the optical properties of the plasmonic structure for sensing. The core-satellite assemblies were fabricated on a substrate via the layer-by-layer assembly of nanoparticles linked by DNA. We used finite-difference time-domain simulations to help guide the geometrical design, and characterized the optical properties and morphology of the solid-shell nanoparticle assemblies using darkfield microscopy, single-nanostructure spectroscopy, and scanning electron microscopy. Plasmon coupling yielded resonant peaks at longer wavelengths in the red to near-infrared range for solid-shell assemblies compared with solid-solid nanoparticle assemblies. We examined sensing with the solid-shell assemblies using adenosine triphosphate (ATP) as a model target and ATP-aptamer as the linker. Binding of ATP induced disassembly and led to a decrease in the scattering intensity and a color change from red to green. The new morphology of the core-satellite assembly enabled plasmonic color-coding of multiplexed sensors. We demonstrate this potential by fabricating two types of assemblies using DNA linkers that target different molecules - ATP and a model nucleic acid. Our work expands the capability of chip-based plasmonic nanoparticle assemblies for the analysis of multiple, different types of biomolecules in small sample sizes including the microenvironment and single cells.

The relationship between work stress, job resources, and health has not yet been investigated among health professionals in Switzerland.

Cross-sectional survey data, collected among hospital employees in German-speaking Switzerland, have been used for this study. Established measures were used to assess work stress as the main predictor and self-rated health and work-related burnout as the outcome variables. Validated measures for job autonomy, work climate, and social support at work were used as intervening variables.

The studied job resources were all found to be quite strongly and negatively associated with the two health outcomes but only partly explained and reduced the extraordinary strong positive association and clear dose-response relationship between work stress and poor self-rated health or burnout.

Job resources like these cannot completely prevent health professionals from negative health-related consequences of work stress.

Job resources like these cannot completely prevent health professionals from negative health-related consequences of work stress.

To evaluate different cardiovascular risk scales in construction workers.

A descriptive, cross-sectional study was carried out in 56,262 Spanish construction workers. Scales of obesity and fatty liver, metabolic syndrome, atherogenic indices, and cardiovascular risk scales, among others, were assessed.

In women, 19.6% were obese, 18.2% hypertensive, 12.6% had metabolic syndrome, 12% were at high risk of non-alcoholic fatty liver disease, and 4.3% were at moderate or high risk on the SCORE scale. In men, 20.1% were obese, 30.1% hypertensive, 17.5% had metabolic syndrome, and 27.6% had high or moderate risk on the SCORE scale.

Knowing the cardiovascular risk of a large number of construction workers by means of a large number of scales may be of great interest to occupational health professionals, as it may enable them to establish prevention strategies.

Knowing the cardiovascular risk of a large number of construction workers by means of a large number of scales may be of great interest to occupational health professionals, as it may enable them to establish prevention strategies.

Two studies were conducted to determine whether mindfulness meditation could be an effective tool for improving well-being among legal professionals-a population plagued by high rates of depression, anxiety, and stress.

Study 1. Legal professionals completed questionnaires before and after an 8-week mindfulness program. Study 2. Lawyers were randomly assigned to either an experimental or waitlist condition. Questionnaires were administered at the beginning of the study and after experimental participants had completed a 30-day intervention.

Study 1. Participants reported significant improvements in mood, resilience, trait mindfulness, stress, anxiety, and depression over time. Study 2. Post-intervention, experimental participants reported better mood, lower levels of stress, and higher levels of non-reactivity and observing than waitlist participants.

Mindfulness and meditation may effectively improve well-being among legal professionals.

Mindfulness and meditation may effectively improve well-being among legal professionals.

Physical demands of work performed by Latinx hired child farmworkers are poorly understood. This paper describes crops, tasks performed, and the most common dimensions of physical demands of work in this population.

Survey interviews were conducted in 2017 with 202 Latinx children aged 10 to 17 years employed on North Carolina farms. Analysis focused on job characteristics for the past week and included factor analysis of an 18-item questionnaire on physical work demands.

The most common crops and tasks reported were topping/suckering tobacco and picking sweet potatoes or berries. Three factors (awkward postures, repetitive motion, strenuous work) accounted for 53% of the variance in physical demands.

Follow-up of hired child farmworkers should be undertaken to understand the long-term effects of physical work demands on their health.

Follow-up of hired child farmworkers should be undertaken to understand the long-term effects of physical work demands on their health.

This project aims to enhance the occupational health insurance for coke oven workers.

A total of 136 coke oven emissions workers and 61 oxygen plant workers were recruited to receive physical examinations. The coke oven emissions concentration at the workplace was measured by weighing method. The CC16 concentration was detected by enzyme-linked immunosorbent assay.

Logistic regression analysis revealed that exposure to coke oven emissions was correlated with CC16. Correlation analysis revealed that CC16 was related to some physical examination indicators. Multivariate general linear models showed that CC16 was indeed positively correlated with albumin after adjusting for confounding factors.

Coke oven emissions affected multiple tissues and multiple systems. The blood system might be the earliest system affected and could be detected by the CC16 protein concentration.

Coke oven emissions affected multiple tissues and multiple systems. The blood system might be the earliest system affected and could be detected by the CC16 protein concentration.

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