A Needs Assessment: The Barriers Preventing Students at a Large Midwestern University from Accessing the Dental Clinic on Campus for Preventative Care

Preventive maintenance and dental care for college students is just as important now as it was when they were living with their parents, but even though colleges have been offering campus-based medical care to their students for many years, oral health care has not been included in this health prevention effort. Because of the impact that oral health has on the overall health and well-being of college students, and in following the Healthy People 2020 Oral health goal to “Prevent and control oral and craniofacial diseases, conditions, and injuries, and improve access to preventive services and dental care” (HP2020), this study was undertaken to determine the barriers that are preventing the student population at a large midwestern university from accessing the dental clinic on campus for their preventative care. 369 students were invited to participate in this survey research study to answer questions regarding their knowledge of the dental clinic on campus, the value they put on preventative dental care, the barriers preventing them from accessing the dental clinic, and if demographics in this student population influenced their dental health. It was discovered that the majority of the students were aware of the dental clinic, but had not had an appointment there, the students definitely value preventative care, and the barriers preventing them from scheduling an appointment were lack of insurance, cost of treatment, and time. As far as demographics influencing their dental health, the study found that junior students had poorer dental health when compared to freshman, sophomores, and seniors

Assessment of Mature Rural Adults Experiencing Depression

Depression is well recognized worldwide as a leading cause of disability which reduces quality of life, particularly among mature adults. The purpose of this paper is to disseminate the finding of a graduate project which explored depression in mature adults, with a focus on how to improve healthcare for this population in rural communities in North Dakota. A literature review was performed in order to compare rural versus urban practices in the assessment, diagnosis, and treatment of depression in mature adults. Medical professionals working in the fields of clinic, hospital, and emergency department healthcare were surveyed as to their current practices when assessing, diagnosing, and treating potentially depressed patients. As a result, the Five-by-Five assessment card was formulated to facilitate discussion between patient, nurse, and healthcare provider on the topic of depression, whereupon the tool was again taken to medical professionals in the aforementioned fields for their opinion of its worth and validity for assessing depression in mature adults. The potential benefit of this project is to improve healthcare professionals\u27 ability to recognize common signs and symptoms of depression in the mature adult population and improve the delivery of appropriate treatment for this demographic

Socio-economic impacts of rural road development in South Asia

Using a holistic approach, this paper examines societal changes in agriculture, migration, health, education, environment and culture, to assemble a comprehensive picture of change caused by road development projects in these affected rural societies. Preliminary findings show that as modern forms of transportation become more available and convenient, traditional forms of transportation inextricably linked to community culture and heritage, such as horses, are rapidly replaced

Science Communication in Agriculture: The Role of the Trusted Adviser

Agronomy is not simply the selling of agricultural products to farmers, nor is it the process of solving singular production problems. Agronomy is defined as the integrated, holistic perspective of agriculture (ASA, 2019) and “agronomists are specialists in crop and soil sciences, as well as ecology” (ASA, 2019). While scientific investigation and discovery are essential to understanding systems function, the tangible benefits from our knowledge stems from the application to solve problems. Clear communication is vital to successfully help stakeholders understand the importance of the science and help scientists understand the challenges stakeholders face. However, to successfully put science into action, solutions need to address the whole system and strategies need to be customized. To this end it is critical to be able to detect, accurately diagnose and prioritize the problems and challenges within agricultural systems. These steps cannot be carried out remotely or by those who lack the skills or knowledge. Rather, they must be performed by well-trained, experienced people who can translate information into actionable practices. Furthermore, stakeholders need to trust that the advice is accurate and applicable to their system, hence the important role of the trusted adviser. The trusted adviser is someone with the knowledge and skills to assess the entire system, access to scientists and full comprehension of the research. They also must understand the needs and challenges faced by the stakeholder farmers and gain their trust. These trusted advisers play a pivotal role in the capability of agriculture to respond to climate change, population increase and establishing sustainable systems. Our future depends not only on the discovery of scientific knowledge but more so on the application of it. What good are the solutions if no one ever uses them? The following document was written to address communication challenges discovered during an internship working with university extension specialists to deliver programming to farmers and directly advising university researchers on practical challenges that farmers face. These on-farm barriers often prevent farmers from adopting new practices. It is also the culmination of twenty years of field experience serving farmers by scouting, identifying, prioritizing, problem solving, communicating, compromising and building trust. This document is intended to urge all practitioners of agronomy and the related agricultural sciences to become trusted advisers, elevate their practice to a new level and approach the challenges of agriculture from a systems point of view. They also need to create actionable strategies not only to protect crop yields but also to protect the soil, the environment, the ecosystem and the well being of the farmer and of everyone who partakes of the bounty. Adviser: Gary L. Hei

Advancements towards the tailoring of Co- and Ni metal nanocrystal composite glasses with respect to size distribution and crystal structure

Die vorliegende kumulative Arbeit umfasst vier Einzelstudien zur Synthese und kinetischen Analyse von Nickel- und Kobat-Nanokristallen in Silikatgläsern. Dabei wurde die Bildung von Nanokristallen in übergangsmetalloxidhaltigen Basisgläsern durch eine Redox-Reaktion mittels einer Wasserstoff-Gasflussbehandlung induziert. Aufgrund ihrer vielversprechenden optischen und magnetischen Eigenschaften haben diese Kompositgläser in den letzten Jahren zunehmend an Aufmerksamkeit gewonnen. Für den Erhalt von spezifischen Materialeigenschaften ist jedoch die Einstellung von Kristallgröße, Größenhomogenität sowie der Kristallstruktur entscheidendt, welches in dieser Arbeit untersucht wurde. Die erste Studie wurde durchgeführt, um die Genauigkeit der Transmissionselektronenmikroskopie (TEM) zu qualifizieren. Dazu wurde ein Vergleich mit der 3-dimensionalen Röntgenmikroskopie (XRM) durchgeführt, die eine deutlich höhere statistische Genauigkeit gegenüber der TEM aufweist. Während die Nanokristallgrößenverteilungen mit dem Abstand zur Probenoberfläche zwischen beiden Methoden gut übereinstimmen, wurden die TEM Kristallanzahldichten nahe der Probenoberfläche stark überschätzt. In der zweiten Studie wurden drei NiO-haltige Borosilikatgläser mit unterschiedlichem B-zu-Si-Verhältnis auf ihre Größenverteilungen untersucht. Die TEM Analysen zeigen nur bei dem Glas mit dem höchsten B-zu-Si-Verhältnis eine gute Homogenität der Nanokristall Größenverteilung mit Abstand zur Probenoberfläche. Mithilfe eines supraleitendem Quanteninterferenzgerätes (SQID) und Röntgenabsorptionsspektroskopie (XAS) konnte die erhöhte Homogenität auf eine effizientere Redoxreaktion zurückgeführt werden. Die temperatur- und zeitabhängige Co-Allotropbildung wurde in der dritten Studie unter Verwendung eines Bor- und eines Aluminosilikatglases untersucht. Die daraus resultierenden Zeit-Temperatur-"Stabilitäts"-Felder der drei Co-Allotrope α-, β- und ε-Co zeigen, dass das metastabile ε-Co in Glasmatrices oberhalb von 500 °C stabilisiert werden kann. Zudem weist eine Rietveld Analyse auf die Transformationssequenz ε → α → β hin, was der Ostwald-Volmer-Stufenregel entspricht. In einer letzten Studie konnte mit den vorliegenden Kobalt-Nanokristall Kompositgläsern der zuvor unbekannte Wärmeausdehnungskoeffizienten (WAK) von ε-Co bestimmt werden (10,1 ppm*K-1).The present cumulative thesis comprises four individual studies concerning the synthesis and kinetic analyses of nickel and cobat nanocrystals in silicate glasses. Thereby, the formation of nanocrystals was induced in transition metal oxide containing base glasses by a redox reaction using a hydrogen gas-flow treatment. These composite glasses gained increasing attention in recent years due to their promising optical and magnetic properties. For the specific material properties, crysal size, size homogeneity, as well as crystal structure is crucial, which poses the demand for targeted material tailoring. Therefore, the present thesis aimed to provide a means to identify parameters for composite tailorabiltiy in terms of Ni nanocrystal size homogeneity and Co-allotrope formation. The first study was conducted to qualify the accuracy of transmission electron microscopy (TEM), which is one of the most convenient tools for direct crystal visualization. Therefore, A comparison of 3-dimensional X-ray microscopy (XRM), exhibiting a greatly improved statistical accuracy, with the volume lacking 2-dimensional TEM, was conducted. While nanocrystal size distributions with distance to the sample surface were found to well agree between both methods, crystal number densities were strongly overestimated for TEM close to the sample surface. A correction calculation based on XRM results has been invented. In the second study, three NiO containing borosilicate glasses of different B-to-Si ratio were researched for their depth homogeneity of nanocrystal size distributions. It was shown that a good homogeneity with depth and time could be reached in the glass of highest B-to-Si ratio. Results derived by superconducting quantum interference device and X-ray absorption spectroscopy indicated that the increased homogeneity is due to a more efficient redox reaction. The Co allotrope formation with time and temperature was targeted in the third study using a borosilicate- and an aluminosilicate glass. With the results time-temperature „stability“ fields of the three Co allotropes α-, β- and ε-Co could be provided, showing that the metastable ε-Co can persist ≥ 500 °C in glass matrices. Additionally, by determining the relative Co allotrope fractions with lg(t) using Rietveld analyses, the transformation sequence was suggested to follow ε → α → β, which agrees with the Ostwald-Volmer rule of stages. In a last study, the otherwise > 300 °C decomposing ε-Co could be analyzed regarding its yet unknown thermal expansion coefficient (CTE). By utilization of β-Co as internal and external reference, together with a strain correction below glass transition temperature, the CTE of ε-Co was determined as 10.1 ppm*K-1 , which is slightly higher compared to β-Co (9.4 ppm*K-1 )

Structure determination of human Lck unique and SH3 domains by nuclear magnetic resonance spectroscopy

BACKGROUND: Protein tyrosine kinases are involved in signal transduction pathways that regulate cell growth, differentiation, activation and transformation. Human lymphocyte specific kinase (Lck) is a 56 kDa protein involved in T-cell- and IL2-receptor signaling. Three-dimensional structures are known for SH3, SH2 and kinase domains of Lck as well as for other tyrosine kinases. No structure is known for the unique domain of any Src-type tyrosine kinase. RESULTS: Lck(1–120) comprising unique and SH3 domains was structurally investigated by nuclear magnetic resonance spectroscopy. We found the unique domain, in contrast to the SH3 part, to have basically no defined structural elements. The solution structure of the SH3 part could be determined with very high precision. It does not show significant differences to Lck SH3 in the absence of the unique domain. Minor differences were observed to the X-ray structure of Lck SH3. CONCLUSION: The unique domain of Lck does not contain any defined structure elements in the absence of ligands and membranes. Presence of the unique domain is not relevant to the three-dimensional structure of the Lck SH3 domain

Airborne imaging for heritage documentation using the Fotokite tethered flying camera

Since the beginning of aerial photography, researchers used all kinds of devices (from pigeons, kites, poles, and balloons to rockets) to take still cameras aloft and remotely gather aerial imagery. To date, many of these unmanned devices are still used for what has been referred to as Low-Altitude Aerial Photography or LAAP. In addition to these more traditional camera platforms, radio-controlled (multi-)copter platforms have recently added a new aspect to LAAP. Although model airplanes have been around for several decades, the decreasing cost, increasing functionality and stability of ready-to-fly multi-copter systems has proliferated their use among non-hobbyists. As such, they became a very popular tool for aerial imaging. The overwhelming amount of currently available brands and types (heli-, dual-, tri-, quad-, hexa-, octo-, dodeca-, deca-hexa and deca-octocopters), together with the wide variety of navigation options (e.g. altitude and position hold, waypoint flight) and camera mounts indicate that these platforms are here to stay for some time. Given the multitude of still camera types and the image quality they are currently capable of, endless combinations of low- and high-cost LAAP solutions are available. In addition, LAAP allows for the exploitation of new imaging techniques, as it is often only a matter of lifting the appropriate device (e.g. video cameras, thermal frame imagers, hyperspectral line sensors). Archaeologists were among the first to adopt this technology, as it provided them with a means to easily acquire essential data from a unique point of view, whether for simple illustration purposes of standing historic structures or to compute three-dimensional (3D) models and orthophotographs from excavation areas. However, even very cheap multi-copters models require certain skills to pilot them safely. Additionally, malfunction or overconfidence might lift these devices to altitudes where they can interfere with manned aircrafts. As such, the safe operation of these devices is still an issue, certainly when flying on locations which can be crowded (such as students on excavations or tourists walking around historic places). As the future of UAS regulation remains unclear, this talk presents an alternative approach to aerial imaging: the Fotokite. Developed at the ETH Zürich, the Fotokite is a tethered flying camera that is essentially a multi-copter connected to the ground with a taut tether to achieve controlled flight. Crucially, it relies solely on onboard IMU (Inertial Measurement Unit) measurements to fly, launches in seconds, and is classified as not a UAS (Unmanned Aerial System), e.g. in the latest FAA (Federal Aviation Administration) UAS proposal. As a result it may be used for imaging cultural heritage in a variety of environments and settings with minimal training by non-experienced pilots. Furthermore, it is subject to less extensive certification, regulation and import/export restrictions, making it a viable solution for use at a greater range of sites than traditional methods. Unlike a balloon or a kite it is not subject to particular weather conditions and, thanks to active stabilization, is capable of a variety of intelligent flight modes. Finally, it is compact and lightweight, making it easy to transport and deploy, and its lack of reliance on GNSS (Global Navigation Satellite System) makes it possible to use in urban, overbuilt areas. After outlining its operating principles, the talk will present some archaeological case studies in which the Fotokite was used, hereby assessing its capabilities compared to the conventional UAS’s on the market

Evolution of size-dependent flowering in Onopordum illyricum: A quantitative assessment of the role of stochastic selection pressures

We explore the evolution of delayed, size-dependent reproduction in the monocarpic perennial Onopordum illyricum, using a range of mathematical models, parameterized with long-term field data. Analysis of the long-term data indicated that mortality, flowering, and growth were age and size dependent. Using mixed models, we estimated the variance about each of these relationships and also individual-specific effects. For the held populations, recruitment was the main density-dependent process, although there were weak effects of local density on growth and mortality Using parameterized growth models, which assume plants grow along a deterministic trajectory, we predict plants should flower at sizes approximately 50% smaller than observed in the field. We then develop a simple criterion, termed the "1-yr look-ahead criterion," based on equating seed production now with that of next year, allowing for mortality and growth, to determine at what size a plant should flower. This model allows the incorporation of variance about the growth function and individual-specific effects. The model predicts flowering at sizes approximately double that observed, indicating that variance about the growth curve selects for larger sizes at flowering. The 1-yr look-ahead approach is approximate because it ignores growth opportunities more than 1 yr ahead. To assess the accuracy of this approach, we develop a more complicated dynamic state variable model. Both models give similar results indicating the utility of the 1-yr look-ahead criterion. To allow for temporal variation in the model parameters, we used an individual-based model with a generic algorithm. This gave very accurate prediction of the observed flowering strategies. Sensitivity analysis of the model suggested that temporal variation in the parameters of the growth equation made waiting to flower more risky, so selected for smaller sizes at flowering. The models clearly indicate the need to incorporate stochastic variation in life-history analyses