Fatigue is a common and serious health problem, and various dietary interventions have previously been employed to ameliorate fatigue. The aim of the current study was to investigate the anti‑fatigue effects of Danish porcine placenta (DPP) and its major dipeptides, including leucine‑glycine (LG) and glycine‑leucine (GL). The anti‑fatigue effects of orally administered DPP, LG and GL were determined using a treadmill exercise test and a forced swimming test (FST) in mice. Additionally, the anti‑inflammatory effects of DPP, LG and GL were investigated in activated splenocytes. The results demonstrated that oral treatment of mice with DPP, LG and GL increased the time to exhaustion during treadmill exercise. Furthermore, DPP, LG and GL enhanced the levels of dopamine, brain‑derived neurotrophic factor and phosphorylated-extracellular signal‑regulated kinase in the brains of mice with treadmill exercise‑induced exhaustive fatigue, and decreased levels of certain proinflammatory cytokines in the serum and spleen, as determined by ELISA and western blot analysis. Following treadmill exercise, commercial kits were employed to demonstrate that DPP, LG and GL reduced the levels of lactate dehydrogenase, lactate, creatine kinase, blood urea nitrogen, alanine transaminase and aspartate transaminase in the muscle and/or serum of mice. In addition, DPP, LG and GL enhanced the muscle and liver glycogen levels, catalase activity in the liver and serum superoxide dismutase activity. DPP, LG and GL also increased the proliferation of splenocytes and inhibited proinflammatory cytokine production by reducing the activation of caspase‑1 and nuclear factor‑κB in activated splenocytes, as determined by MTT assays, ELISA and western blotting, respectively. Furthermore, DPP, LG and GL reduced immobility time in the FST in mice. In conclusion, DPP may limit intensive exercise‑induced fatigue by increasing dopaminergic systems and inhibiting inflammatory responses.
Aronia, a healthy fruit well known as black chokeberry, has health-promoting effects on hypertension, oxidative stress, and diabetes. Despite many reports of bioactivities of aronia, there is little scientific research on the potential for immune-enhancement.So, anthocyanin-fucoidan nanocomplex (AFNC, a nanocomplex of aronia extract and fucoidan) has been developed to improve immune-enhancement. This study aimed to identify immunomodulatory effects and underlying mechanisms of AFNC using RAW264.7 macrophages and cyclophosphamide-induced immunosuppressed mice.As a result, AFNC-treated RAW264.7 macrophages elevated the production of IL-2, IL-6, tumor necrosis factor (TNF)-α, and nitric oxide (NO). AFNC-enhanced inducible NO synthase expression via nuclear factor-κB signaling pathways. AFNC dosedependently increased levels of IL-2, IL-6, TNF-α, IL-10, IL-12, interferon-γ, or IL-4 in the serum and spleen of immunosuppressed mice. Taken together, AFNC encourages the immune-enhancing activity through immunostimulatory cytokine production by activation of macrophage. Therefore, these results suggest that AFNC is useful for immunodeficiency-related disorders. Practical applicationsIn these days of prevalence of infectious diseases, individual immunity is very important. AFNC has the immune-enhancing effects through immunostimulatory cytokine production by activation of macrophage. Therefore, AFNC could be widely applied to ameliorate a variety of diseases caused by immunosuppression such as infectious diseases.
A labor health dispute between a multinational corporation and patient-workers in Korea received enormous attention from 2007 to 2018, when it was finally and successfully resolved. Sick workers of Samsung Semiconductor claimed they were contaminated by toxic chemicals at their workplace that resulted in their sickness, a contested illness known as “Samsung leukemia.” In this dispute, the Korean government and Samsung used epistemological studies to deny the workers’ claims. The patient-workers politicized the industrial disease, forming a labor health movement that advocated for workers’ rights and welfare. In this long disputed process, they developed their own bottom-up science that collected evidence from their factories and connected this evidence with the claims of counter-experts. They made done “undone science,” which investigated the relationship between the unknown disease and the semiconductor industry. But the undone science has been constructed in the context of “undone protection” stemming not only from chemical exposure in factories that weigh profit over safety but also from institutional failures to protect and compensate the loss of workers’ lives and health. The successful resolution of the “Samsung leukemia” case depended on a health movement that worked toward getting undone science and undone protection done simultaneously.
Thus far, little attention has been paid to adherence to medications focusing on the workers and occupational characteristics. This study aimed to assess the status and risk of noncompliance among workers compared to nonworkers, and the association between nonadherence to medication of metabolic diseases and occupational characteristics. Self-reported adherence to medications for hypertension, diabetes, or dyslipidemia and occupational characteristics were evaluated using the Korea Health Panel Study (2008–2018). The status of adherence to medications was evaluated based on working status, with detailed reasons provided for noncompliance. The risk of noncompliance was estimated using the generalized estimating equation, and a subgroup analysis with age-standardized prevalence ratio according to occupational characteristics was also conducted. During the follow-up period, 19,660 (13.9%) person years were noncompliant with medication adherence for 141,807 person years. Workers had a higher prevalence (15.0%) of noncompliance than nonworkers (13.0%). Workers (OR:1.10, 95% CI:1.04–1.14) showed an increased risk of noncompliance compared to nonworkers. Workers who were manual, unpaid family workers, irregular, or dispatched workers showed an increased prevalence of noncompliance. This study found that workers were susceptible to nonadherence to metabolic disease medication. Future research on the role of working conditions in medication adherence would benefit metabolic disease prevention.
Aim/Purpose: The purpose of our study was to gain a better understanding of the socialization factors that contribute to the aspirations of doctoral students of Color to pursue teaching careers. Background: Internationally, there has been a renewed call to diversify the professoriate. While the literature often examines early pathway issues and hiring bias, one efficient solution is to continue encouraging the socialization of those doctoral students of Color already interested in pursuing a teaching career. Methodology: We used a sample of 2,717 doctoral candidates of Color from over 221 doctoral-granting institutions in the USA who completed a survey about their graduate experiences. The sample of participants indicated they aspired to a teaching career at the beginning of their doctoral study, yet not all were interested in the same career choice by the end. To analyze our data we used Logistic Regression Modeling (LOGIT) to test which socialization factors (i.e., anticipatory, formal, informal, and personal) contribute to teaching career aspirations. Contribution: We found that factors associated with anticipatory and personal socialization contributed greatest to the continued aspiration of being a teaching faculty member, along with teaching experience. These results are somewhat different than previous literature and practice that places a greater emphasis on formal and informal socialization experiences as contributing to a future teaching faculty career. Findings: Anticipatory (publishing before the start of a PhD program), formal (teaching experience), and personal socialization (sense of belonging) were most related to aspirations to pursue a teaching faculty career, while more factors more traditional in the literature (e.g., relationship with advisor, career and research support, etc.) were not significantly correlated with the desire to pursue a teaching faculty career. Recommendations for Practitioners: We recommend that faculty advisors, graduate education administrators, and academic leaders pay close attention to the personal and social development of doctoral students of Color in order to sustain their interest in teaching in higher education. In addition, it is important for academic leaders to recognize doctoral socialization begins before a student enters a PhD program, so more attention should be given to the opportunities for undergraduate students of Color to learn about the academy through research and publication. Recommendation for Researchers: Doctoral socialization as a topic of study has continued to be of interest to scholars, but there are more quantitative and mixed-method scholarship that could be used to influence academic leaders and policymakers. In addition, scholars should continue to complicate and refine graduate socialization theory in order to understand and represent racially diverse populations. Impact on Society: Multiple interventions will be needed in order to increase the amount of faculty of Color in the professoriate but improving pre-PhD experiences and sense of belonging for doctoral students of Color could be a targeted policy intervention for academic leaders. As researchers and practitioners in the field are looking for ways to better support doctoral students of Color, a nuanced understanding of developmental needs is essential not only for graduation but for intended career aspiration. Future Research: With these findings, we offer opportunities for future research to further our understanding of socialization for doctoral students of Color. Future studies should include more robust measures of socialization factors along with longitudinal research designs in order to understand the temporal developmental needs for students of Color along multiple pathways to the professoriate.
This study addresses the effects of the pore structures of carbon materials used as cathodes for non-aqueous lithium-air batteries on cycle life. Carbon Nanofibers (CNFs) were synthesized by electrospinning polyacrylonitrile (PAN) and carbonization. The synthesized CNF was then converted to activated carbon nanofibers (ACNFs) under flowing CO2. The specific surface areas CNFs were increased on activation. ACNFs were arranged randomly to form a web-like structure providing both oxygen pathways and a means of discharging products. To examine the electrochemical properties of ACNF, charge-discharge tests were conducted using a Swagelok-type cell at a constant current density of 0.2 mA/cm2; impedance tests were also conducted. ACNF sheet electrodes had cycle lives of up to 50 cycles, which was attributed to high surface area and porosity, although overpotentials for both charge and discharge were high. This cycling performance showed that the pore structure of sheet ACNF is more suitable for the transport of oxygen and for the storage of discharge products than carbon powders.
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