Talking Plants: Examining the Role of Podcasts in Communicating Plant Pathology Knowledge

Extension programs must constantly evaluate communication plans and platforms to determine if they are worth the investment of time, money, and resources. Podcasts are growing in popularity as a communication platform for education and entertainment. With the VARK model of learning styles and core plant pathology concepts as a guide, researchers evaluated the prevalence and type of plant pathology information in podcasts to better understand how podcasts could benefit Extension plant pathology programs. Using keywords related to plant pathology, researchers searched popular mobile podcast listening applications and evaluated relevant podcast episodes using content analysis methods. Results indicated few podcast shows discuss plant pathology topics. The podcast shows identified, however, covered eight fundamental units of plant pathology knowledge: basics of plant pathology, plant pathology techniques, biology of plant diseases, biology of plant pathogens, management of plant diseases, influence of the environment, other causes of plant disease symptoms, and importance of fungi. Results suggested that podcasts can effectively communicate different types of plant pathology information to audiences. Plant pathology Extension programs can utilize the findings of this study to create new plant pathology podcasts that meet the changing needs of plant pathology Extension clientele. It is worthwhile to further explore the use of podcasts in plant pathology Extension programs

Symposium

Symposium: Student Journal of Science and Math gives a voice to an interdisciplinary field of undergraduate students performing exemplary work in scientific and mathematical projects. In every issue of Symposium, students will be able to share their engagement in science, scholarship, and research that demonstrates Cal Poly’s Learn by Doing custom and creates campus-wide scientific discussion. Symposium aspires to unite science and math based disciplines across campus, advance student research, and produce annual publications of student scholarship. Student contributors will submit a culmination of their research to a board of reviewers and Symposium’s editorial staff to prepare it for the publication process. At the end of the year, Symposium will assemble these works into a professional-grade journal available in print and online. We hope our project will enhance scientific literacy, composition, and communication among students of all disciplines.\u2

Computational Study of Hydrogel Ring Device for Ocular Drug Delivery

Researchers have developed many different kinds of ocular drug delivery devices. However, most address anterior eye disorders—very few are designed specifically for the treatment of posterior eye diseases. A recently-developed hydrogel ring device is capable of delivering therapeutic quantities of the drug Ofloxacin to treat ocular infections at the back of the eye—a region typically difficult to access via systemic (e.g. ingestion of pills) and topical (e.g. eye drops) methods. Despite promising preliminary in vivo test results, much remains unknown about the precise drug transport pathway from the hydrogel ring to the posterior segment of the eye, as well as how design parameters may be altered to increase drug delivery efficiency. The aim of this work is to fully characterize the drug release and transport characteristics from the hydrogel, to ocular tissues (anterior and posterior), as well as provide a quantitative method for the optimization of various hydrogel ring design parameters. To achieve the abovementioned goals, we built a computational model using COMSOL Multiphysics to simulate the release of Ofloxacin from the hydrogel ring and to obtain the resulting drug distribution in ocular tissues at various time points. Using the model, we monitored the transient Ofloxacin concentration profile over the entire eye, for a treatment period of ten hours. Our results showed that while Ofloxacin diffuses to the anterior region much more quickly than to posterior tissues, Ofloxacin concentrations do successfully accumulate to therapeutic levels in the posterior tissues during the simulated ten-hour treatment period. This finding supports the therapeutic potential of the hydrogel ring for the treatment of posterior eye diseases. We also performed optimization analyses to determine the ideal set of hydrogel ring design parameters for the treatment of infections caused by three bacterial species commonly associated with ocular disorders: Escherichia coli, Staphylococcus aureus, and Streptococcus pneumoniae. Preliminary findings suggest that the combination of an initial mass of 3 mg/m3 of Ofloxacin in the hydrogel and an Ofloxacin diffusivity of 3.11X10−9 m2/s in the hydrogel provide the best possible therapeutic outcome (from the range of values tested) for the treatment of E. coli and S. aureus infections. To our best knowledge, there is no existing computational model that simulates drug transport through the entire human eye from an ocular drug delivery device. We believe that our computational model will be highly useful for quantitative device characterization of the hydrogel ring, as well as in the optimization of the hydrogel ring design for the treatment of posterior eye disorders. This work may also serve as a model and reference for future computational work on ocular pharmacokinetics and/or ocular drug delivery devices

A Glio-Protective Role of mir-263a by Tuning Sensitivity to Glutamate

Glutamate is a ubiquitous neurotransmitter, mediating information flow between neurons. Defects in the regulation of glutamatergic transmission can result in glutamate toxicity, which is associated with neurodegeneration. Interestingly, glutamate receptors are expressed in glia, but little is known about their function, and the effects of their misregulation, in these non-neuronal cells. Here, we report a glio-protective role for Drosophila mir-263a mediated by its regulation of glutamate receptor levels in glia. mir-263a mutants exhibit a pronounced movement defect due to aberrant overexpression of CG5621/Grik, Nmdar1, and Nmdar2. mir-263a mutants exhibit excitotoxic death of a subset of astrocyte-like and ensheathing glia in the CNS. Glial-specific normalization of glutamate receptor levels restores cell numbers and suppresses the movement defect. Therefore, microRNA-mediated regulation of glutamate receptor levels protects glia from excitotoxicity, ensuring CNS health. Chronic low-level glutamate receptor overexpression due to mutations affecting microRNA (miRNA) regulation might contribute to glial dysfunction and CNS impairment

Preliminary Characterization of Voltage-Activated Whole-Cell Currents in Developing Human Vestibular Hair Cells and Calyx Afferent Terminals

We present preliminary functional data from human vestibular hair cells and primary afferent calyx terminals during fetal development. Whole-cell recordings were obtained from hair cells or calyx terminals in semi-intact cristae prepared from human fetuses aged between 11 and 18 weeks gestation (WG). During early fetal development (11–14 WG), hair cells expressed whole-cell conductances that were qualitatively similar but quantitatively smaller than those observed previously in mature rodent type II hair cells. As development progressed (15–18 WG), peak outward conductances increased in putative type II hair cells but did not reach amplitudes observed in adult human hair cells. Type I hair cells express a specific low-voltage activating conductance, G(K,L). A similar current was first observed at 15 WG but remained relatively small, even at 18 WG. The presence of a “collapsing” tail current indicates a maturing type I hair cell phenotype and suggests the presence of a surrounding calyx afferent terminal. We were also able to record from calyx afferent terminals in 15–18 WG cristae. In voltage clamp, these terminals exhibited fast inactivating inward as well as slower outward conductances, and in current clamp, discharged a single action potential during depolarizing steps. Together, these data suggest the major functional characteristics of type I and type II hair cells and calyx terminals are present by 18 WG. Our study also describes a new preparation for the functional investigation of key events that occur during maturation of human vestibular organs

A Randomized Clinical Trial of Vapocoolant for Pediatric Immunization Pain Relief

OBJECTIVES: The purpose of the current study was to evaluate the effectiveness of vapocoolant for preschoolers’ immunization injection pain relief. STUDY DESIGN: 57 4- to 6-year-old children were randomized to vapocoolant alone or typical care conditions. Pain was measured at baseline and at injection via self-report, caregiver-report, nurse-report, and an observational scale. RESULTS: Self-report suggested that children in the vapocoolant alone condition demonstrated stronger increases in pain from baseline to injection than typical care. All other measures showed significant increases in pain from baseline to injection, but none indicted treatment effects. CONCLUSIONS: Consistent with prior studies, vapocoolant might not be an effective pain-management intervention for children’s intramuscular injections

School life expectancy and risk for tuberculosis in Europe.

OBJECTIVE: This study aims to investigate the effect of country-level school life expectancy on Tuberculosis (TB) incidence to gain further understanding of substantial variation in TB incidence across Europe. METHODS: An ecological study examined the prospective association between baseline country-level education in 2000 measured by school life expectancy and TB incidence in 2000-2010 in 40 countries of the WHO European region using quantile regression. Subsequently, to validate the ecological associations between education and TB incidence, an individual-level analysis was performed using case-based data in 29 EU/EEA countries from the European Surveillance System (TESSy) and simulating a theoretical control group. RESULTS: The ecological analysis showed that baseline school life expectancy had a negative prospective association with TB incidence. We observed consistent negative effects of school life expectancy on individuals' TB infections prospectively. CONCLUSIONS: These findings suggests that country-level education is an important determinant of individual-level TB infection in the region, and in the absence of a social determinants indicator that is routinely collected for reportable infectious diseases, the adoption of country-level education for reportable infectious diseases would significantly advance the field