Depressive Symptoms and Academic Achievement in Fourth Grade Students

The relationships among depressive symptoms, peer acceptance, and academic competence were examined in 43 fourth-grade students using a self-report measure of depression (Children\u27s Depression Inventory); a teacher-rated measure of depression (Behavior Assessment System for Children — Teacher Rating Scale); peer acceptance and peer rejection; and grade point average. Results indicated higher levels of self-reported depression than previously found in children of this age. Correlations between self-reports of depression and peer rejection and self-reports of depression and grade point average were significant. The current study also found a significant positive correlation between the two depression scales (Children\u27s Depression Inventory and Behavior Assessment System for Children — Teacher Rating Scale — Depression Scale). Implications for future research and limitations of the current study are discussed

Depressive Symptoms and Academic Achievement in Fourth Grade Students

The relationships among depressive symptoms, peer acceptance, and academic competence were examined in 43 fourth-grade students using a self-report measure of depression (Children\u27s Depression Inventory); a teacher-rated measure of depression (Behavior Assessment System for Children — Teacher Rating Scale); peer acceptance and peer rejection; and grade point average. Results indicated higher levels of self-reported depression than previously found in children of this age. Correlations between self-reports of depression and peer rejection and self-reports of depression and grade point average were significant. The current study also found a significant positive correlation between the two depression scales (Children\u27s Depression Inventory and Behavior Assessment System for Children — Teacher Rating Scale — Depression Scale). Implications for future research and limitations of the current study are discussed

Acute Natural Cocoa Consumption Improves Cerebral Vasodilatory Capacity in Obese Individuals

Obesity increases the risk for cardio and cerebral vascular diseases including hypertension, coronary artery disease, and stroke. Our preliminary data indicate that obese individuals (Obese) have attenuated cerebral vasodilatory capacity compared to age / sex matched lean individuals (Lean). This study tested the hypothesis that natural cocoa (NC) consumption (13g NC, The Hershey Company) would restore cerebral vasodilatory capacity in Obese. 15 lean (BMI \u3c 25) and 15 obese (BMI \u3e 30) subjects underwent a rebreathing protocol while cerebral blood velocity (CBFV) was measured before and 2 hr post consumption of a NC-containing drink or a NC-free placebo (randomized order, single-blinded). Cerebral vascular conductance (CVCI) was calculated as CBFV / MAP. The response to rebreathing was expressed as % of baseline CVCI (% CVCI). Prior to beverage consumption, the range of % CVCI and the maximal increase in CVCI in response to rebreathing-induced hypercapnia was attenuated in Obese (P0.05 pre vs. post), such that the baseline differences between groups were eliminated (P\u3e0.05). The placebo beverage had no effect on any indices of cerebral vascular function in either cohort (P\u3e0.05 for all variables). These data support the hypothesis that NC consumption can acutely augment cerebral vasodilatory capacity in Obese

Detection of P2X3 in DRG Using an Automated Approach to Immunoblotting, Jess

Exaggerated cardiovascular (CV) responses to exercise can lead to adverse CV events. Previous studies have reported that P2X3 receptors, found on the peripheral endings of afferents, contribute to an exaggerated exercise pressor reflex in individuals with CV-related diseases. One way to investigate the role played by these receptors in CV pathophysiology is through immunoblotting. The Jess (Protein Simple) provides an automated option for the protein separation and immunoblotting of the traditional Western Blot and allows for total protein staining, an improvement over the use of loading controls to normalize for sample loading variability. PURPOSE: The purpose of this study was to develop a protocol, using the Jess, for quantifying P2X3 receptor protein expression in the L4 and L5 dorsal root ganglia (DRG) of healthy and type 1 diabetic rats. METHODS: Streptozotocin (STZ), 50 mg/kg, or a vehicle (CTL) was injected i.p into fasted Sprague Dawley rats (n=7 each group). After a minimum of 3 weeks, L4 and L5 DRG were excised, immediately placed in HBSS, and then stored at -80°C until subsequent analyses. For quantification, samples were lysed and protein was isolated (Macherey-Nagel) and then quantified (Qubit protein assay kit). For an initial Optimization Run a single test sample lysate was used; different protein concentrations (0.1 - 1.4 mg/ml) were tested against multiple Anti-P2X3 (Novus Biologicals) dilutions (1:25 – 1:250). Sample lysates (3 μl) and required reagents were loaded into a microplate as per manufacturer’s instructions and then the microplate and capillaries were loaded into the Jess. Over 3 hours; protein separation, antibody incubations, washes, and detection were all performed automatically within the Jess. The data from that run provided the optimal protein concentration and antibody dilution that were then used for the Sample Run, which involved running the CTL and STZ sample lysates. For the Sample Run, protein normalization reagent was added to the microplate in order to normalize for sample loading variability using total protein staining. RESULTS: Optimization Run - A protein concentration of 1.4 mg/ml and a dilution of 1:250 for the P2X3 antibody were found to be optimal. This determination was based on the combination of a low background signal from the antibody and a detectable target protein signal. Sample Run - We found that P2X3 receptor protein expression decreased in STZ rats compared to CTL rats (0.82 ± 0.09 vs 1.00 ± 0.19; n=7 both groups, p=0.03). CONCLUSION: Using the Jess, an automated protocol was developed that detected differences in P2X3 receptor protein expression in rats with and without diabetes. Advantages over the traditional Western Blot include: a run time of 3 hours, reduced user-associated variability thru automation, and the capability of using total protein staining to normalize for sample loading variability. Technological advances such as the Jess are a step towards addressing current rigor and reproducibility concerns

Quantification Method of P2X3 Receptors in Rat DRG Neurons: Western Blotting

Skeletal muscle contractions are known to evoke pressor and cardioaccelerator responses in part by stimulating P2X3 receptors found on the peripheral endings of afferents. In diabetic patients, this pressor response is exaggerated. What is currently not known is whether P2X3 receptors play a role in evoking this exaggerated response. PURPOSE: The purpose of this project was to quantify P2X3 receptors in the L4 and L5 dorsal root ganglia (DRG) neurons in both healthy and type 1 diabetic rats using western blot analysis. METHODS: We injected 50 mg/kg streptozotocin (STZ) or the vehicle (CTL) i.p in fasted female and male Sprague Dawley rats and then waited at least 7 days for the rats to become diabetic. We then performed a laminectomy in the anesthetized rats to expose the spinal cord and roots. Using a dissecting microscope, we removed the L4 and L5 DRG from the spinal column. The DRG are the cell bodies of the peripheral afferents found in the hindlimb musculature. The DRG were placed in HBSS (is this buffer?) and stored at -80°C until analysis. For quantification, samples were lysed and proteins were isolated using the NucleoSpin RNA/Protein Kit (Macherey-Nagel, Bethlehem, PA, USA). A Qubit 3.0 Fluorometer was used to quantify the protein concentration of each sample so that equal protein concentrations could then be loaded onto a Bolt Bis-Tris (4-12%) gel. Following electrophoresis, the proteins were transferred to a membrane before being probed with a rabbit polyclonal P2X3 antibody (Alomone Labs), followed by an anti-rabbit secondary antibody conjugated to alkaline phosphatase (Life Technologies). The membrane was then exposed using a ChemiDoc XRS and the results analyzed using BioRad’s Quantity One imaging software. RESULTS: We were able to detect P2X3 receptor proteins. When compared with a molecular weight ladder, P2X3 receptor proteins were 54kDa, which is similar to the molecular weight of P2X3 receptors quantified in other studies. CONCLUSION: This method of quantifying P2X3 receptors in DRG neurons allows for a comparison between non-diabetic and diabetic rats. Further analyses are required to determine whether the quantity of P2X3 receptors in L4 and L5 DRG neurons is different in diabetic rats compared to non-diabetic rats

Hyporheic Interactions Increase Zinc Exposure and Effects on Hyalella azteca in Sediments under Flow‐Through Conditions

Groundwater–surface water interactions in the hyporheic transition zone can influence contaminant exposure to benthic macroinvertebrates. In streams, hyporheic flows are subject to varying redox conditions, which influence biogeochemical cycling and metal speciation. Despite these relationships, little is known about how these interactions influence the ecological risk of contaminants. The present study investigated the effects of hyporheic flows and zinc (Zn)‐contaminated sediments on the amphipod Hyalella azteca. Hyporheic flows were manipulated in laboratory streams during 10‐d experiments. Zinc toxicity was evaluated in freshly spiked and aged sediments. Hyporheic flows altered sediment and porewater geochemistry, oxidizing the sediments and causing changes to redox‐sensitive endpoints. Amphipod survival was lowest in the Zn sediment exposures with hyporheic flows. In freshly spiked sediments, porewater Zn drove mortality, whereas in aged sediments simultaneously extracted metals (SEM) in excess of acid volatile sulfides (AVS) normalized by the fraction of organic carbon (fOC) [(SEM‐AVS)/fOC] influenced amphipod responses. The results highlight the important role of hyporheic flows in determining Zn bioavailability to benthic organisms, information that can be important in ecological risk assessments. Environ Toxicol Chem 2019;38:2447–2458. © 2019 SETACPeer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/152028/1/etc4554.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/152028/2/etc4554_am.pd

The Relationship between Classroom Distractions and Off-Task Students

This study focuses on the prevalence of classroom distractions in elementary education candidates’ field experiences. Classroom disturbances challenge students’ ability to focus on, and process the information that is being taught (Frisby, et al. 2018). Disturbances can occur for a variety of reasons. Intentional distractions, or anti-citizenship behaviors are classroom disturbances that are created by students with the goal of distracting others (Myers, et al. 2015). Classroom disturbances can also be unintentional, yet still equally distracting. Throughout the duration of this research, the candidates have conducted observations and research in a variety of grade levels. In this paper, the candidates will compare and contrast their findings from each segment of time spent in the field, including COVID-19 data. From this comparison, the candidates will make note of similarities and their relevant significance from the research. The insights gleaned from this study have implications for all elementary teachers. By limiting the possible sources of distraction, teachers can more readily improve students’ focus, attention, and their overall engagement

Acute Flavanol Supplementation Improves the Attenuated Cerebral Vasodilatory Capacity in Young African Americans

African Americans (AA) have increased risk for cerebral vascular disease including stroke, Alzheimer’s disease, or dementia relative to Caucasian Americans (CA). Our recent study found that AA have attenuated cerebral vasodilatory response to rebreathing-induced hypercapnia when compared with CA. Thus, we hypothesized that acute flavanol intake restores blunted cerebral responses in AA. Fourteen healthy college-aged AA and 14 age- and sex-matched CA participants were studied. A four-parameter logistic regression was used for curve fitting the responses of cerebral vascular conductance (%CVCi) relative to changes in end-tidal carbon dioxide concentration. In AA, there were significant improvements in total range of changes in %CVCi (a) and the maximum increase in %CVCi (y0) with flavanol beverage (a; pre: 46.4 ± 16 vs. post: 64.4 ± 19 %CVCi; P = 0.007, y0; pre: 151.1 ± 18 vs. post: 166.0 ± 22 %CVCi; P = 0.002); however, there were no differences in a and y0 with placebo (a; pre: 52.5 ± 19 vs. post: 51.7 ± 17 %CVCi; P = 0.35, y0; pre: 156.2 ± 20 vs. post: 151.3 ± 17 %CVCi; P = 0.26). In CA, no differences in a and y0 with flavanol (a; pre: 73.7 ± 18 vs. post: 71.7 ± 22 %CVCi; P = 0.70, y0; pre: 175.7 ± 20 %CVCi vs. post: 175.6 ± 22 %CVCi; P = 0.99) or placebo (a; pre: 75.7 ± 15 vs. post: 80.1 ± 20 %CVCi; P = 0.24, y0; pre: 177.4 ± 21 %CVCi vs. post: 180.6 ± 25 %CVCi; P = 0.45) were observed. In conclusion, acute flavanol supplementation increases the total range of changes in cerebral vascular conductance as well as maximum vascular conductance in AA, effectively abolishing the ethnic-related difference in cerebral vasodilatory capacity in response to rebreathing-induced hypercapnia