1,325 research outputs found

    Elevation: Retarding edema formation in the acute lateral ankle sprain

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    Purpose of the Study: Ankle sprains are among the most common musculoskeletal injuries among athletes and are associated with all five signs of acute inflammation: redness, warmth, pain, edema, and loss of function. In the acute management of ankle sprains the current standard of care is to apply a treatment often referred to as R.I.C.E.(rest, ice, compression, and elevation). The elevation portion of this treatment is used in an attempt to retard edema formation. However, the efficacy of elevation in retarding edema formation following acute injury is unknown. It is unclear whether elevation plays any therapeutic role in acute injury management. Therefore, the purpose of this study is to determine whether elevation retards the formation of edema following the acute lateral ankle sprain. Research Method: Subjects are male and female varsity athletes from The Ohio State University who are within one hour of sustaining a lateral ankle sprain that will result in a loss of participation time. Subjects are randomly assigned to either the experimental group (standard care but elevation not used) or the control group (standard care including elevation). A figure-of-eight girth measurement of the injured ankle is used to assess ankle size and serve as a representation of ankle edema. The initial post-injury measurement will serve as a baseline for measurements repeated at twenty-four, forty-eight, and seventy-two hours post injury. This clinical trial was approved by the OSU Biomedical Sciences IRB, and subjects provide written informed consent prior to participating. Findings: No subjects were admitted to this clinical trial. Discussion: The following factors contributed to the inability to obtain subjects and data: specific population, short time period, rigorous inclusion criteria of injury, and possible cultural hesitance of practitioners to enroll their patients. Conclusions: Clinical research trials, such as this study, are critical to the development of the athletic training profession and to serve the best interests of the patient. Despite the difficulty in conducting clinical research trials, it is important that athletic trainers continue to attempt these studies aimed at obtaining valuable clinical evidence on the day-to-day practice of patient care. Advisor: Mark A. Merric

    A vision to lead elementary school : a reflective research paper

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    Leadership is a characteristic in which I believe strongly. I would rather initiate an idea than just be a follower of one. I have shown this with my current role as a teacher, and feel that I can make a smooth transition into the position of administrator. I have identified personal characteristics that I believe will make me an effective leader. Through my experiences and my character I will be able to lead an elementary school effectively and efficiently. I will lead and instruct the teachers into a direction of great achievement. Together we will create a safe and fun learning environment. Relationships will be a key to our success. All of this will be done to enhance the education of the students

    Protective chromosome 1q32 haplotypes mitigate risk for age-related macular degeneration associated with the CFH-CFHR5 and ARMS2/HTRA1 loci

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    Background: Single-variant associations with age-related macular degeneration (AMD), one of the most prevalent causes of irreversible vision loss worldwide, have been studied extensively. However, because of a lack of refinement of these associations, there remains considerable ambiguity regarding what constitutes genetic risk and/or protection for this disease, and how genetic combinations affect this risk. In this study, we consider the two most common and strongly AMD-associated loci, the CFH-CFHR5 region on chromosome 1q32 (Chr1 locus) and ARMS2/HTRA1 gene on chromosome 10q26 (Chr10 locus). Results: By refining associations within the CFH-CFHR5 locus, we show that all genetic protection against the development of AMD in this region is described by the combination of the amino acid-altering variant CFH I62V (rs800292) and genetic deletion of CFHR3/1. Haplotypes based on CFH I62V, a CFHR3/1 deletion tagging SNP and the risk variant CFH Y402H are associated with either risk, protection or neutrality for AMD and capture more than 99% of control- and case-associated chromosomes. We find that genetic combinations of CFH-CFHR5 haplotypes (diplotypes) strongly influence AMD susceptibility and that individuals with risk/protective diplotypes are substantially protected against the development of disease. Finally, we demonstrate that AMD risk in the ARMS2/HTRA1 locus is also mitigated by combinations of CFH-CFHR5 haplotypes, with Chr10 risk variants essentially neutralized by protective CFH-CFHR5 haplotypes. Conclusions: Our study highlights the importance of considering protective CFH-CFHR5 haplotypes when assessing genetic susceptibility for AMD. It establishes a framework that describes the full spectrum of AMD susceptibility using an optimal set of single-nucleotide polymorphisms with known functional consequences. It also indicates that protective or preventive complement-directed therapies targeting AMD driven by CFH-CFHR5 risk haplotypes may also be effective when AMD is driven by ARMS2/HTRA1 risk variants

    Comparison of Accelerated Solvent Extraction (ASE) and Energized Dispersive Guided Extraction (EDGE) for the Analysis of Pesticides in Leaves

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    Various techniques have been evaluated for the extraction and cleanup of pesticides from environmental samples. In this work, a Selective Pressurized Liquid Extraction (SPLE) method for pesticides was developed using a Thermo Fisher Scientific Accelerated Solvent Extraction (ASE) system. This instrument was compared to the newly introduced (2017) extraction instrument, the Energized Dispersive Guided Extraction (EDGE) system, which combines Pressurized Liquid Extraction (PLE) and dispersive Solid Phase Extraction (dSPE). We first optimized the SPLE method using the ASE instrument for pesticide extraction from alfalfa leaves using layers of Florisil and graphitized carbon black (GCB) downstream of the leaf homogenate in the extraction cell (Layered ASE method). We then compared results obtained for alfalfa and citrus leaves with the Layered ASE method to those from a method in which the leaf homogenate and sorbents were mixed (Mixed ASE method) and to similar methods modified for use with EDGE (Layered EDGE and Mixed EDGE methods). The ASE and EDGE methods led to clear, colorless extracts with low residual lipid weight. No significant differences in residual lipid masses were observed between the methods. The UV-Vis spectra showed that Florisil removed a significant quantity of the light-absorbing chemicals, but that GCB was required to produce colorless extracts. Recoveries of spiked analytes into leaf homogenates were generally similar among methods, but in several cases, significantly higher recoveries were observed in ASE extracts. Nonetheless, no significant differences were observed among pesticide concentrations in field samples when calculated with the isotope dilution method in which labelled surrogates were added to samples before extraction. The extraction time with the ASE methods was ~45 minutes, which was ~4.5 times longer than with the EDGE methods. The EDGE methods used ~10 mL more solvent than the ASE methods. Based on these results, the EDGE is an acceptable extraction instrument and, for most compounds, the EDGE had a similar extraction efficiency to the ASE methods

    Role of transport performance on neuron cell morphology

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    The compartmental model is a basic tool for studying signal propagation in neurons, and, if the model parameters are adequately defined, it can also be of help in the study of electrical or fluid transport. Here we show that the input resistance, in different networks which simulate the passive properties of neurons, is the result of an interplay between the relevant conductances, morphology and size. These results suggest that neurons must grow in such a way that facilitates the current flow. We propose that power consumption is an important factor by which neurons attain their final morphological appearance.Comment: 9 pages with 3 figures, submitted to Neuroscience Letter

    Quenched QCD at finite density

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    Simulations of quenched QCDQCD at relatively small but {\it nonzero} chemical potential μ\mu on 32×16332 \times 16^3 lattices indicate that the nucleon screening mass decreases linearly as μ\mu increases predicting a critical chemical potential of one third the nucleon mass, mN/3m_N/3, by extrapolation. The meson spectrum does not change as μ\mu increases over the same range, from zero to mπ/2m_\pi/2. Past studies of quenched lattice QCD have suggested that there is phase transition at μ=mπ/2\mu = m_\pi/2. We provide alternative explanations for these results, and find a number of technical reasons why standard lattice simulation techniques suffer from greatly enhanced fluctuations and finite size effects for μ\mu ranging from mπ/2m_\pi/2 to mN/3m_N/3. We find evidence for such problems in our simulations, and suggest that they can be surmounted by improved measurement techniques.Comment: 23 pages, Revte

    Current-Use Pesticides in New Zealand Streams: Comparing Results From Grab Samples and Three Types of Passive Samplers

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    New Zealand uses more than a ton of pesticides each year; many of these are mobile, relatively persistent, and can make their way into waterways. While considerable effort goes into monitoring nutrients in agricultural streams and programs exist to monitor pesticides in groundwater, very little is known about pesticide detection frequencies, concentrations, or their potential impacts in New Zealand streams. We used the ‘Polar Organic Chemical Integrative Sampler’ (POCIS) approach and grab water sampling to survey pesticide concentrations in 36 agricultural streams in Waikato, Canterbury, Otago and Southland during a period of stable stream flows in Austral summer 2017/18. We employed a new approach for calculating site-specific POCIS sampling rates. We also tested two novel passive samplers designed to reduce the effects of hydrodynamic conditions on sampling rates: the ‘Organic-Diffusive Gradients in Thin Films’ (o-DGT) aquatic passive sampler and microporous polyethylene tubes (MPTs) filled with Strata-X sorbent. Multiple pesticides were found at most sites; two or more were detected at 78% of sites, three or more at 69% of sites, and four or more at 39% of sites. Chlorpyrifos concentrations were the highest, with a maximum concentration of 180 ng/L. Concentrations of the other pesticides were generally below 20 ng/L. Mean concentrations of individual pesticides were not correlated with in-stream nutrient concentrations. The majority of pesticides were detected most frequently in POCIS, presumably due to its higher sampling rate and the relatively low concentrations of these pesticides. In contrast, chlorpyrifos was most frequently detected in grab samples. Chlorpyrifos concentrations at two sites were above the 21-day chronic ‘No Observable Effect Concentration’ (NOEC) values for fish and another two sites had concentrations greater than 50% of the NOEC. Otherwise, concentrations were well-below NOEC values, but close to the New Zealand Environmental Exposure Limits in several cases
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