Frenchterry3669
Scales assessing stressor exposure often fail to demonstrate adequate psychometric qualities, demonstrating low interitem reliability or complex factor structures, as would be expected, given that the majority of stressors are independent events. However, in large-scale mass crisis events, the stressors may be highly interrelated, indicating shared experience. Furthermore, few stressor exposure scales also measure appraised stressfulness of those stressors. Development of a psychometrically sound measure of both stressor exposure and appraisal advances the study of highly stressful events such as community-wide crises, especially in providing a useful measure of its cumulative stressfulness. The coronavirus disease 2019 (COVID-19) pandemic is an enduring, worldwide stressor with an indefinite timeline. The COVID-19 Stressor Scale is a 23-item measure of stressor exposure and appraisal related to the pandemic developed within the first weeks of widespread shelter-in-place practices in the Unites States. We present initial psychometric results of the COVID-19 Stressor Scale. Results of a principal components analysis indicate that the measure is unidimensional and has strong internal consistency. Evidence of convergent and discriminant validity were demonstrated. The COVID-19 Stressor Scale is a useful measure for studying the ongoing stressors associated with the pandemic and presents a model for measuring other massive, ongoing crises.Cardiovascular diseases are among the leading causes of death in the world. The coronary blockage is one of most common types of these diseases that in the majority of cases has been treated by bypass surgery. In the bypass surgery, a graft is implemented to alter the blocked coronary and allow the blood supply process. The hemodynamic characteristics of the bypass strongly depend on the geometry and mechanical properties of the graft. In the present study, the fluid-structure interaction (FSI) analysis is conducted to investigate the bypass performance for a thoracic artery as well as a saphenous vein graft. Blood flow introduces a pressure on the walls of the graft which behaves as a hyperelastic material. A complete coronary bypass with stenosis degrees of 70% and 100% is modeled. To consider the nonlinear stress-strain behavior of the grafts, a five parameter Mooney-Rivlin hyperplastic model is implemented for the structural analysis and blood is assumed to behave as a Newtonian fluid. The simulations are performed for a structured grid to solve the governing equations using finite element method (FEM). The results show that wall shear stress (WSS) for saphenous vein is larger than that of thoracic artery while the total deformation of the thoracic artery is larger compared to the saphenous vein. Also, for the venous grafts or lower stenosis degree, the oscillatory shear index (OSI) is higher at both left and right anastomoses meaning that venous grafts as well as lower degree of stenosis are more critical in terms of restenosis.The bioinsecticides, like essential oils, are a promising alternative in pest control. However, these oils have some limitations, such as instability and low solubility. These limitations can be circumvented through nanotechnology, with the nanoemulsification of these compounds. Therefore, the objective of this study was to prepare, characterize and explore the insecticidal activity against adult flies of nanoemulsions containing essential oil of lemongrass or eucalyptus. The nanoemulsions were prepared by the high-energy method and presented droplet size smaller than 125 nm, with polydispersity index of 0.2, pH acid and spherical morphology. The insecticidal activity was evaluated by the Topical Application Method and Exposure Impregnated Paper Exposure, where it was possible to demonstrate a potential insecticidal effect of lemongrass oil in the concentrations of 10, 30 and 50 µL/mL against Musca domestica and Lucilia cuprina and the potentiation of this effect when nanoemulsified this oil against L. cuprina.Extracellular matrix (ECM) scaffolds are extensively used in tissue engineering studies and numerous clinical applications for tissue and organ reconstructions. Due to the global severe shortage of human tissues and organs, xenogeneic biomaterials are a common source for human tissue engineering and regenerative medicine applications. INS018055 Traditional methods for decellularization often disrupt the 3D architecture and damage the structural integrity of the ECM scaffold. To efficiently obtain natural ECM scaffolds from animal tissues and organs with intact architecture, we have developed a platform decellularization process using supercritical CO2 and tested its potential application in tissue engineering. A combination of human mesenchymal stem cells with a decellularized dermal matrix scaffold allowed complete regeneration of skin structure in a porcine full-thickness wound model.
More than 460,000 female and male student-athletes compete in college sports each year, with 5.5 concussions reported per 1,000 athlete exposures. The majority of these concussions occurred during competition and are somewhat more likely to be reported by female athletes.
To evaluate moderating effects of gender differences in response to a Peer Concussion Education Program (PCEP).
A total of 1,100 male and 511 female student-athletes from 60 teams (30 experimental, 30 control) representing all National Collegiate Athletic Association divisions from high-concussive sports participated before, postintervention, and 1-month following the intervention. Participants completed assessments of symptom and return-to-play knowledge, reporting behavior, and reporting attitudes.
The PCEP was more effective than control on all measures, females in the PCEP showed significantly greater changes than males in return to play knowledge, intention to report self and teammate, and indirect attitudes for self and teammate. PCEP females were more likely to discuss concussions with athletic trainers, peers, and teammates. In addition, females had a higher likelihood of reporting their own suspected concussion.
Females had greater rates of change in understanding of some key components of the PCEP.
These findings suggest that females may learn differently in a peer environment and have different attitudes toward reporting and safety when consideration is given to the well-being of others.
These findings suggest that females may learn differently in a peer environment and have different attitudes toward reporting and safety when consideration is given to the well-being of others.
