356 research outputs found

    The Parent/Teacher Relationship and the Effectiveness of the Teaching Important Parenting Skills (TIPS) Program for Enhancing Parents\u27 Knowledge about Child Development

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    Parent involvement in education has been highly encouraged because of its strong associations with positive developmental outcomes for children. Teaching Important Parenting Skills: TIPS for Great Kids! (TIPS) is a program in Arkansas that relays research-based information cards to parents through the support network of the teachers. This study examines how effective the TIPS program was in enhancing parent’s knowledge on child development and observes the influence of the parent-teacher relationship. Although no significant correlation was found between the parent/teacher relationship and parent knowledge, a significant correlation was discovered between the parent/teacher relationship and whether parents read the TIPS card provided to them. Results are discussed with the hope that future studies will continue to examine how to best relay helpful parenting information to families and how to further enhance the TIPS method of relaying such information through children’s teachers

    Digital Manipulation on Social Media: How Deep Fakes Have Transformed the Cyber World into a Complex Breeding Ground of Disinformation

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    Technology and social media are a driving force within the present-day global society. Facts and figures can be spread to billions of people within minutes. Anyone can find a variety of information—both true and false—online with one simple click. With this rapid rise of the dominance of digital media comes a severe cost—an influx of disinformation campaigns in different forms. Although one may think that disinformation only appears in written works or visual images, the reality is that intentionally-modified videos are one of the most prevalent methods of disinformation attacks today. These altered videos, more commonly known as deep fakes, are one of the most damaging and misleading forms of disinformation. My research will focus on analyzing deep fakes of famous politicians, including American Speaker of the House Nancy Pelosi. I aim to provide insight into the spread of distinct deep fakes and their respective impacts on their naive consumers around the world. My study will focus on how the general public is constantly exposed to deep fakes on various social media platforms which results in their harmful belief of false narratives. My analysis will showcase how a deep fake’s online presence has lasting consequences on naive observers as seen through their massive global audience and how one’s perception of reality can be entirely skewed through one simple viewing.https://orb.binghamton.edu/research_days_posters_2022/1110/thumbnail.jp

    Physical Geography [9th grade]

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    This unit is designed to give 9th grade World Geography students a foundational understanding of physical geography, then have the students apply that knowledge to explore the essential questions: “How does the physical world shape societies?” and “In what ways does the physical geography of a region limit or enhance a society?”. Students will investigate physical features, extreme weather, the four spheres, climate zones, and climate regions to understand the diversity of the earth’s geography. This unit will culminate in students creating their own society based on the assignment of random physical features, latitude, and extreme weather. For this summative assessment, students must apply their knowledge to evaluate their imagined society’s relationship to the landscape they inhabit

    When good bugs go bad: Epidemiology and antimicrobial resistance profiles of Corynebacterium striatum, an emerging multidrug-resistant, opportunistic pathogen

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    ABSTRACT Infections with Corynebacterium striatum have been described in the literature over the last 2 decades, with the majority being bacteremia, central line infections, and occasionally, endocarditis. In recent years, the frequency of C. striatum infections appears to be increasing; a factor likely contributing to this is the increased ease and accuracy of the identification of Corynebacterium spp., including C. striatum , from clinical cultures. The objective of this study was to retrospectively characterize C. striatum isolates recovered from specimens submitted as part of routine patient care at a 1,250-bed, tertiary-care academic medical center. Multiple strain types were recovered, as demonstrated by repetitive-sequence-based PCR. Most of the strains of C. striatum characterized were resistant to antimicrobials commonly used to treat Gram-positive organisms, such as penicillin, ceftriaxone, meropenem, clindamycin, and tetracycline. The MIC 50 for ceftaroline was &gt;32 ÎĽg/ml. Although there are no interpretive criteria for susceptibility with telavancin, it appeared to have potent in vitro efficacy against this species, with MIC 50 and MIC 90 values of 0.064 and 0.125 ÎĽg/ml, respectively. Finally, as previously reported in case studies, we demonstrated rapid in vitro development of daptomycin resistance in 100% of the isolates tested ( n = 50), indicating that caution should be exhibited when using daptomycin for the treatment of C. striatum infections. C. striatum is an emerging, multidrug-resistant pathogen that can be associated with a variety of infection types. </jats:p

    A Constraint-based model of Dynamic Island Biogeography: environmental history and species traits predict hysteresis in populations and communities

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    A Constraint-based model of Dynamic Island Biogeography: environmental history and species traits predict hysteresis in populations and communities We present a conceptual model that shows how hysteresis can emerge in dynamic island systems given simple constraints on trait-mediated processes. Over time, many islands cycle between phases of increasing and decreasing size and connectivity to a mainland species pool. As these phases alternate, the dominant process driving species composition switches between colonization and extinction. Both processes are mediated by interactions between organismal traits and environmental constraints: colonization probability is affected by a species’ ability to cross the intervening matrix between a population source and the island; population persistence (or extinction) is driven by the minimum spatial requirements for sustaining an isolated population. Because different suites of traits often mediate these two processes, similar environmental conditions can lead to differences in species compositions at two points of time. Thus, the Constraint-based model of Dynamic Island Biogeography (C-DIB) illustrates the possible role of hysteresis—the dependency of outcomes not only on the current system state but also the system’s history of environmental change—in affecting populations and communities in insular systems. The model provides a framework upon which additional considerations of lag times, biotic interactions, evolution, and other processes can be incorporated. Importantly, it provides a testable framework to study the physical and biological constraints on populations and communities across diverse taxa, scales, and systems

    Evaluation of the BioFire FilmArray pneumonia panel for detection of viral and bacterial pathogens in lower respiratory tract specimens in the setting of a tertiary care academic medical center

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    Our objective was to evaluate the diagnostic yield and accuracy of the BioFire FilmArray pneumonia panel (BFPP) for identification of pathogens in lower respiratory tract specimens

    Challenges of Measuring Abyssal Temperature and Salinity at the Kuroshio Extension Observatory

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    The deep ocean is severely undersampled. Whereas shipboard measurements provide irregular spatial and temporal records, moored records establish deep ocean high-resolution time series, but only at limited locations. Here, highlights and challenges of measuring abyssal temperature and salinity on the Kuroshio Extension Observatory (KEO) mooring (32.3°N, 144.6°E) from 2013 to 2019 are described. Using alternating SeaBird 37-SMP instruments on annual deployments, an apparent fresh drift of 0.03–0.06 psu was observed, with each newly deployed sensor returning to historical norms near 34.685 psu. Recurrent salinity discontinuities were pronounced between the termination of each deployment and the initiation of the next, yet consistent pre- and postdeployment calibrations suggested the freshening was “real.” Because abyssal salinities do not vary by 0.03–0.06 psu between deployment locations, the contradictory salinities during mooring overlap pointed toward a sensor issue that self-corrects prior to postcalibration. A persistent nepheloid layer, unique to KEO and characterized by murky, sediment-filled water, is likely responsible for sediment accretion in the conductivity cell. As sediment (or biofouling) increasingly clogs the instrument, salinity drifts toward a fresh bias. During ascent, the cell is flushed, clearing the clogged instrument. In contrast to salinity, deep ocean temperatures appear to increase from 2013 to 2017 by 0.0059°C, whereas a comparison with historical deep temperature measurements does not support a secular temperature increase in the region. It is suggested that decadal or interannual variability associated with the Kuroshio Extension may have an imprint on deep temperatures. Recommendations are discussed for future abyssal temperature and salinity measurements

    Genomic characterization of emerging bacterial uropathogen Neisseria meningitidis, which was misidentified as Neisseria gonorrhoeae by nucleic acid amplification testing

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    Neisseria meningitidis and Neisseria gonorrhoeae are pathogenic bacteria that can cause human infections. While N. meningitidis infections are associated with bacterial meningitis and bacteremia, a strain of N. meningitidis, isolated from the urogenital system, has recently been associated with urethritis. As this strain is becoming prominent as an emerging pathogen, it is essential to assess identification tools for N. meningitidis and N. gonorrhoeae urogenital isolates. Consecutive N. meningitidis isolates recovered from urogenital cultures of symptomatic patients with presumptive diagnoses of gonorrhea and a random selection of N. gonorrhoeae isolates recovered from the same population within the same time frame were characterized with routine identification systems, antimicrobial susceptibility testing, and whole-genome sequencing. Matrix-assisted laser desorption ionization–time of flight mass spectrometry (MALDI-TOF MS), multilocus sequence typing, 16S rRNA gene sequence, and average nucleotide identity methods accurately identified 95% (18/19) of N. meningitidis and N. gonorrhoeae isolates. With the Aptima Combo 2 CT/NG test, 30% (3/10) of N. meningitidis isolates were misidentified as N. gonorrhoeae, but no misidentifications were found with the Xpert CT/NG nucleic acid amplification test (NAAT). Phylogenetic core genome and single nucleotide polymorphism (SNP)-based grouping analyses showed that urogenital N. meningitidis isolates were highly related and phylogenetically distinct from N. gonorrhoeae and respiratory N. meningitidis isolates but similar to urogenital N. meningitidis isolates from patients with urethritis in the United States. Urogenital N. meningitidis isolates were predominantly azithromycin resistant, while N. gonorrhoeae isolates were azithromycin susceptible. These data indicate that urogenital isolates of N. meningitidis can cause false-positive detections with N. gonorrhoeae diagnostic assays. Misidentification of urogenital N. meningitidis isolates may confound public health-related activities for gonorrhea, and future studies are needed to understand the impact on clinical outcome of N. meningitidis urogenital infection
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