2014 Abstracts

Charlee Byers, Brigham Young University Life Sciences Agave utahensis (Utah agave) plays a critical role as a keystone species in its native habitat. A rise in frequent, intense fires across the range of these habitats threatens to eliminate Utah agave populations, and consequently limit its genetic diversity. Characterizing the genetic diversity of Utah agave and its subspecies will help in restoration efforts to protect the species. We constructed primers to amplify microsatellite markers of two subspecies of Utah agave, ssp. kaibabensis and ssp. utahensis. Using these markers, we determined the level of polymorphism within four populations of each of the two subspecies.

Sean Studstill, Weber State University Life Sciences Imidacloprid is a popular systemic insecticide that has been applied to our staple crops for two decades. According to the EPA, it is persistent in the environment and at risk of effecting non-targeted organisms. Imidacloprid is an insect neurotoxin; however it is also known to be toxic to various aquatic species in concentrations as low as 37 ppb. Ingestion of imidacloprid causes paralysis in organisms through the blockage of postsynaptic nicotinic cholinergic receptors. We sought to find out how toxic imidacloprid is to brine shrimp and what kinds of physiological reactions occur upon exposure.

Evan Campbell, Brigham Young University Life Sciences Asthma is a chronic allergic disorder manifest by airway restriction due to inflammation, bronchoconstriction, and increased respiratory mucous secretion. As many as 300 million people worldwide are affected by asthma and its prevalence is increasing primarily in countries experiencing urbanization and Westernization. Asthma is currently the most common chronic illness among children in the U.S., and the third leading cause of hospitalization for children aged 0 – 15 yrs. Reservoir dust collection and area air sampling are the two primary methods of measuring allergen levels in house dust. Allergen sensitization leading to asthma is thought to occur prior to age six while the immune system is still naïve. In the case of the dust mite allergen Der p1, the exposure window may be as early as age two. However, little evidence is available to establish a dose–response relationship between inhalation exposure and early immunological sensitization to allergens. Temperature and relative humidity play a major role in dust mite survival and proliferation and indoor humidity above 50-60% in arid environments has been shown to support dust mite populations. Evaporative “swamp” coolers cool air by adding humidity to it and can create favorable environments for dust mite survival. We are working to determine how much swamp coolers contribute to dust mite levels in Utah by quantitating dust mite allergen levels in homes with and without swamp coolers. In order to do this we are developing sensitive ELISA and quantitative PCR methods to allow us to determine levels of exposure even when low levels of dust are collected.

Mena Davidson, Westminster College Life Sciences Urban stream syndrome is the phenomenon of stream degradation as streams run from their sources through urban areas, which is exhibited by nutrient loading, decreased dissolved oxygen, changes in channel structure, and increased turbidity and rapid flow events. This can have a direct negative effect on our recreation, drinking water, and the ecosystems surrounding the streams. To discover if urban stream syndrome occurs in the Salt Lake Valley, we monitored pH, turbidity, dissolved oxygen, dissolved nitrates, and collected macroinvertebrates in three streams monthly. We analyzed total abundance, species diversity, and percent pollution sensitive species to assess the macroinvertebrate communities, as known indicators of water quality. Preliminary data shows a significant decrease in percent sensitive species in the urban areas as compared to the nonurban areas over 10 sampling periods. We found decreased biodiversity and fewer sensitive species in urban areas, although we found no difference in total abundance. These findings indicate that urbanization in the Salt Lake Valley leads to degradation in riparian ecosystems and suggest that further investigation is needed to identify the mechanisms leading to this degradation.

Goyeun Tun, University of Utah Life Sciences Chronic Fatigue Syndrome (CFS) and Fibromyalgia Syndrome (FMS) are disorders which their symptoms and treatments are not clearly known. CFS and FMS are not life threatening diseases; however, they can affect patients’ quality of life because they experience symptoms including exercise intolerance, need for bedrest, and debilitating chronic pain and fatigue with these disorders. The research from Dr. Light’s lab has shown that moderate exercise for 25 minutes causes changes in mRNA levels in CFS and FMS patients but not healthy controls. The objective of our study was to examine changes in white blood cell gene expression of CFS and FMS patients both on Lyrica and on placebo in a double-blinded, cross-over design (where each study subject was his or her own control) by using quantitative PCR gene expression analysis. The lab routinely analyzes blood samples for 48 different genes from study subjects and healthy controls collected before (baseline) and then 8, 24, 48 hours after exercise moderate exercise. My focus was on changes in expression of two ATP-responsive purinergic receptors, P2X7 and P2Y1, which have not been studied after exercise in CFS and FMS but have been associated with chronic inflammation and pain in animal models. White blood cell layers (buffy coat) were collected from samples, RNA was extracted and converted to cDNA. 384 well PCR plates were robotically loaded from 96 well source plates, then the PCR reaction was run in an ABI 7900 thermal cycler that tracks fluorescence in “real time” (real time qPCR). Analysis of results is in progress and will be reported on the poster.

Teresa St. Pierre Nufer, Brigham Young University Life Sciences Acute stress has been shown to decrease Long-Term Potentiation (LTP) in the CA1 region of the mouse hippocampus. Stressed animals also show signs of anxiety and suffer decreases in spatial memory tasks such as object recognition and maze navigation. Conversely, exercise has been shown to increase spatial memory task performance in mice, attenuate anxiety-like behaviors and enhance neurogenesis and LTP in the dentate-gyrus. While the effects of stress and exercise have been examined independently, there is currently a lack of experimental evidence that connects how stress and exercise, when experienced by the same animal, might modulate LTP in the CA1 region of the hippocampus. In our ongoing study, mice have been separated into a control group, a stress group (restraint and tail-shock), and an exercise with stress group where mice have voluntary access to a running wheel (for 30 days) before undergoing the stress protocol.

Robert Erickson, Utah Valley University Life Sciences Although the insect fauna of the Colorado Plateau region are somewhat well known, our specific understanding of the arthropod biodiversity in Capitol Reef National Park is sparse.

Caitlin Carter, Utah Valley University Life Sciences High-frequency (HF) ultrasound (20-80 MHz) has been previously used to detect differences in microstructures and cell materials of different breast tissues types. These differences were used to distinguish between benign and malignant pathologies in different breast tissues. This same technology is predicted to be able to improve methods of detecting changes in cellular activity before changes in pathology take place. The purpose of this study was to use HF ultrasound to detect changes in the actin cytoskeleton, extracellular matrix (ECM), and integrin signaling, therefore differentiating the molecular subtypes associated with these changes in cell biomechanical properties. It is predicted that these cellular changes will also be associated with changes in the ultrasonic properties of breast cancer cells. The ability to rapidly and inexpensively detect the genetic changes or molecular subtypes of breast cancer would greatly impact and personalize patient treatment as well as provide more precise surgical removal of malignant and premalignant tissue. In order to test this hypothesis, four different breast cancer molecular subtypes including luminal A, luminal B, Her2+, and basal (triple negative) were grown as monolayer cell cultures. These subtypes were chosen because of their range of aggressiveness (luminal A as least aggressive and basal as most). After growth at different seeding levels, cell cultures were tested with a HF ultrasound system using a 50 MHz, 6.35-mm diameter immersion transducer and pulse-echo transmission. The data was compared to simulations using multipole expansions which predicted ultrasonic scattering based on possible variations in the biomechanical properties of malignant cells. The analyzed data showed differences in the spectra of waveform signals between each tested breast cancer molecular subtype. It is anticipated that this technique would provide an efficient and cost-effective method for differentiating between different molecular subtypes of breast cancer.

Kurt Williams, Brigham Young University Life Sciences Macrophages play an important role in innate and adaptive immune responses, inflammation, and tissue repair and are characterized by two distinct phenotypes: classically-activated (M1) and alternatively-activated (M2) macrophages. M1 macrophages are characterized by a pro-inflammatory phenotype and are involved in production of pro-inflammatory cytokines and aggressive engulfment, whereas M2 macrophages are characterized by an anti-inflammatory phenotype and are involved in production of anti-inflammatory cytokines (e.g. IL-10) and tissue repair. Macrophage engulfment of apoptotic cells leads to polarization toward the M2 phenotype and is thus “immunologically silent”. Additionally, there is evidence that tumor-associated macrophages (TAMs) tend toward an M2 phenotype and as a result offer protection from an immune response in the tumor microenvironment. To further investigate the role of necrotic and apoptotic cells in regulating macrophage polarization, we cultured human macrophages with necrotic, apoptotic, or standard viable Raji cells and fluorescent beads and performed an engulfment assay. In a preliminary study we found that macrophages cultured with apoptotic cells showed a decrease in engulfment levels compared to macrophages cultured with necrotic cells. Macrophages cultured with standard viable Raji cells had the lowest levels of engulfment compared to macrophages cultured with apoptotic cells or necrotic cells. Thus, in our initial experiments macrophages cultured with necrotic cells appear to have a more “M1” phenotype, whereas macrophages cultured with apoptotic cells appear to have a more “M2” phenotype. Further experiments are necessary to validate this preliminary data and further characterize the capabilities of necrotic and apoptotic cells to differentially polarize macrophages. If these observations are replicated, it has potential applications in cancer biology and therapeutics, atherosclerosis, diabetes, autoimmunity, and other diseases with an inflammatory component.

Lauren Archibald, Brigham Young University Life Sciences Increased intake of selenium (Se) and soy have both been shown to reduce risk for prostate cancer, especially if these dietary treatments are combined. The purpose of this project is to determine how the timing of Se supplementation of either a low- or high-soy diet affects prostate cancer risk. [C57BL/6 X FVB] F1 TRAMP (TRansgenic Adenocarcinoma of Mouse Prostate) male mice were fed stock diets low or high in soy. Half of the mice received Se supplementation (4.0 mg Se/kg BW as Se-methylselenocysteine) by gavage 5 d/wk in a 2 X 2 factorial design. Se supplementation began at conception, 6 weeks, 12 weeks, or 18 weeks of age. The mice were then sacrificed at different stages of maturation (4, 12, 18, and 24 weeks). Our results showed that, at 12 weeks of age, urogenital tract weights, a measure of prostate proliferation and tumor volume, were significantly reduced by Se supplementation (p<0.001) and by soy (p=0.044), independent of time of dietary intervention. Histological scores of prostate cancer progression also showed a protective effect of Se supplementation (p=0.030). At this writing, statistical analysis of data from mice sacrificed at 18 weeks is in process. Data derived from 18-week mice, combined with our previous findings from 12-week animals, will allow us to chart the progress of prostate cancer in this model. In addition, results will show how dietary Se and soy may alter disease progression and how the timing of dietary intervention may determine its effects.

Claudia Gonzalez, Brigham Young University Life Sciences Cortisol has been shown to be a potential bio-marker as it discriminates between individuals with and without depression (Rush et al., 1996 and Ising et al., 2007). However, cortisol has not been used to predict variation in temperament extremes that lead to pathological behaviors in adulthood. In order to examine the relationship between cortisol and temperament extremes, data from the bio-behavioral assessment (BBA) was used. The BBA data base includes data collected from over 2,700 infant rhesus macaques located in California National Primate Research Center (CNPRC). During the BBA four blood samples per subject are obtained and later assayed for plasma cortisol levels. In this study, the plasma cortisol response levels were looked at in a holistic form encompassing all individual cortisol samples. The four points of plasma cortisol concentrations were used to extract patterns of response per subject which provided classifications for each of the monkeys. The pathological patterns of cortisol response were characterized by abnormal plasma cortisol levels in response to Dexamethasone suppression testing and adrenocorticotropin ACTH injections. The variability in plasma cortisol patterns was then compared to BBA temperament ratings of vigilance, gentle, nervousness and confidence. These results showed that 12 of the 26 possible patterns of response were significantly (p<.05) related to each of the temperament ratings of vigilance, gentleness and confidence. Thus cortisol response patterns can be used both as biomarkers for vigilance, gentleness and confidence, and as potential predictors for pathological behaviors in adulthood.

Benjamin Gann, Utah Valley University Life Sciences (E)-2,4-bis(p-hydroxyphenyl)-2-butenal (2-Butenal) was shown to inhibit various inflammatory responses by inhibiting NF-kB pathway. A pull-down assay proved 2-butenal to bind to IKKb and was proposed as an active site kinase inhibitor through molecular docking experiment. However, 2-butanal has a highly conjugated aldehyde group that makes it very unstable. Therefore, we have designed more stable 2-butenal analogues and prepared them using Heck reaction. Molecular docking experiment shows that many of them have a greater affinity to IKKb.

Jeffrey Leavitt, Utah Valley University Life Sciences Central Research Question: Heptageniidae is a large family within the order Ephemeroptera (mayflies). This family consists of over 500 described species. Recently a study was done across 200 of the species to break them up into subfamilies, and genera. The studied concluded that there are 29 genera and three subfamilies Ecdyonurinae, Heptageniinae, and Rhithrogeninae (Wang, 2004). Furthermore, Ogden et al. (2009) proposed that the families Arthropleidae and Pseudironidae were derived heptageniid lineages. The phylogenetic relationships of Heptageniidae, Arthropleidae, Pseudironidae, to other closely related families are inconclusive. We propose to study these three families and the three subfamilies of Heptageniidae in detail via molecular systematics.

Clair Bidez, Westminster College Life Sciences Changes to stream ecosystems due to urbanization are known to degrade riparian ecosystems through multiple stressors including increased erosion and sedimentation, expansion of impervious surface leading to altered flow regimes, degradation of riparian vegetation and habitat, and nutrient contamination. Ultimately, such degradation can inhibit ecosystem services such as contaminant filtration and nutrient cycling. This study examined the effects of urbanization on the function of riparian communities in three streams in the Salt Lake Valley watershed. We attempted to characterize these changes through monthly monitoring in urban and non-urban reaches of the same streams. Specifically, we measured periphyton biomass (as measured by chlorophyll-a) as a known indicator of nutrient pollution and a proxy of riparian health. In addition, we monitored water quality parameters including temperature, dissolved oxygen, and dissolved nitrate concentration. The urban reaches of the streams contained 3.6 to 9.3 times the dissolved nitrate concentration as their non-urban counterparts. Mean stream periphyton biomass was positively correlated with mean stream nitrate concentration for each reach. These findings point to urbanization as a potential source of ecosystem degradation in the Salt Lake Valley. They suggest that long-term monitoring is warranted, along with an in-depth investigation into the ultimate mechanisms responsible for the degradation.

Spencer Alexander, Dixie State University Life Sciences Antibiotic resistance has increased with each new developed medication, creating new problems as bacteria become more difficult to defeat. Some of these bacteria are resistant because they can excrete an extracellular polymeric substance known as a biofilm. The polysaccharide-based biofilm matrix allows the colony to communicate, absorb nutrients, and exchange genetic material giving it an advantage in possible resistance through plasmid exchange. At present, there are no effective antimicrobial agents that can safely treat and prevent resistant bacteria like ORSA. Biofilms have a negative impact ranging from human pathogenesis down to economic expenses. In order to break down established biofilms, we utilized newly developed organic salts known as ionic liquids. These novel liquids have been observed to prevent bacterial colonies and biofilm formation, possibly by introducing intermolecular interactions that disrupt the chemical bonding in biofilms. The morphology of the microbes was characterized and observed to determine the effect of the ionic liquids on biofilms. Inhibition studies were also performed to determine antimicrobial efficiency of the ionic liquids as a function of organic structures. These novel ionic liquids provide an unprecedented, effective and efficient method to combat resistant bacteria, which could have tremendous impacts in achieving sterile environments in medical and remote settings.

William Palomo, Westminster College Humanities While researchers have historically marginalized the literature of El Salvador, Alfonso Kijadurías (formerly Alfonso Quijada Urías) has earned an international reputation for his diverse and incisive poetic style. Contextualizing Kijadurías’ work within the Salvadoran literary tradition reveals the historical and political backdrop driving Kijadurías’ political stances and literary experimentation. Examination of the political, philosophical, and mystical obsessions in Kijadurías’ works demonstrates how his literary career has lived up to and outlasted La Generación Comprometida, a politically-charged literature and arts movement that revolutionized the Salvadoran arts scene during the 1950’s. His work challenges contemporary politicians and the philosophy of Deconstructionism in an attempt to guide the reader through a spiritual transformation that leads to the abandonment of the self and ultimately to freedom.

Christopher Wiltsie, Utah Valley University Humanities Low racial diversity in Utah leads to common assumptions about the lack of racial tensions. This has resulted in a general disregard for the history of civil rights struggles, specifically in education, for people of color in Utah. In the US as a whole, the 1970s featured both legal and social reform in issues of race and its role in education, but accounts from minorities in Utah tell a different story. This project will be a comparative history, analyzing oral histories regarding educational experiences of people of color that lived in Utah immediately after 1968 until 1980, within the context of the trends at the time throughout the United States. Extensive interviews will provide documentation regarding racial tensions and their effects on educational experiences and achievement. The synthesis of these accounts will help fill in the gaps that exist within Utah’s historical record. Obstacles in education for people of color during the 1970s will be discussed and compared to successes and failures throughout the United States.

Braden Hancock, Brigham Young University Engineering In Evolutionary Multi-objective Optimization (EMO), the mechanism of epsilon-dominance has received a lot of attention because of its ability to guarantee convergence near the Pareto frontier and maintain diversity among solutions at a reasonable computational cost. The main weakness of this mechanism is its inability to also identify and exploit knee regions of the Pareto frontier, which are frequently the regions of the frontier that are most interesting to the user. Many attempts have been made to resolve this issue, but each has resulted in either decreased computational efficiency or slower convergence. We therefore propose a new mechanism – Lamé-dominance – as a replacement for epsilon-dominance in EMO. The geometry of the Lamé curve naturally supports a greater concentration of solutions in directions of high tradeoff between objectives. This adaptable resolution of solutions in knee regions of the Pareto frontier will result in significant savings in time and money for complex optimization routines in large n-objective design scenarios.

Raymond Bilodeau, Brigham Young University Engineering Extreme piezoresistivity was discovered in a silicone/nickel nanostrand (silicone/NiNs) nanocomposite. A quantum mechanical tunneling percolation model has been developed which bridges the gap between quantum effects at the nanoscopic scale and bulk material response at the macroscopic scale. To further improve on this theory, a measurement technique was adapted for use in measuring the average distance (in nm) between the NiNs in the silicone matrix. The measurements produced strong correlation to newly developed theories on the nature of the nickel-silicone interaction. The predictions of the previously developed model were also compared to these new experimental measurements and the model is being adapted to more accurately represent the real data.

David Lindell, Brigham Young University Engineering Current ion detector technologies require low pressures and temperatures to achieve high sensitivity. These extra constraints result in bulky or expensive ion detection units and make a highly-portable mass spectrometer difficult or impractical to produce. A new ion detector technology that is unhampered by such constraints would allow the construction of miniaturized mass spectrometers. Such devices would have a myriad of potential applications, including use in space probes, on-site chemical weapon analyses, and in-field forensics. This research has produced solid-state ion detection devices with detection levels in the hundreds-of-ions range. The detectors are produced on a printed circuit board, are inexpensive, and are functional at room temperature and pressure. Solid-state detection capabilities were realized by adopting concepts from modern non-volatile (flash) memory and using custom-made low capacitance MOSFETs. Detection occurs as ions impact a Faraday cup and charge the gate of a MOSFET, yielding a voltage change in the circuit. In addition to refinements made by incorporating low-capacitance MOSFETs, commercial MEMS switches (which have only recently become available) are used to produce ion counts at rates up to 30 kHz. Amplification and filtering circuitry has also been added to further increase sensitivity levels. Results of this research show that ion detectors can be reduced in size and complexity, making a portable mass spectrometer more viable.

Anthony Bennett, Brigham Young University Engineering Foot Mouth Disease is considered to be the greatest hindrance to livestock trade in the world. The disease is extremely contagious and can transmit via aerosol, food scraps, and through blood, and tears among other transmission routes [1]. Currently, technological challenges hinder eradication efforts due to a wide variety of FMD strains, high vaccine production costs, as well as limited efficacy of vaccines across strains [2]. The countries most affected by the disease also face economic, social, and political challenges to disease eradication. Based upon historical evidence disease eradication has proven to be possible as shown in the US, the UK, and other countries [3]. In this presentation, we highlight these challenges and propose various routes to eradication in order to open up economic opportunities to developing countries as well as eliminating the threat of a disease outbreak in countries currently free of the disease. Morgan, E.R., et al., Assessing risks of disease transmission between wildlife and livestock: The Saiga antelope as a case study. Biological Conservation, 2006. 131(2): p. 244-254. Parida, S., Vaccination against foot-and-mouth disease virus: strategies and effectiveness. 2009. Perry, B. and K. Sones, Poverty reduction through animal health. Science, 2007. 315.

Benjamin Lindsay, Brigham Young University Engineering Current treatments for cancer and diseased tissue often cause severe side effects due to drug interactions with healthy cells. In order to minimize these effects, we are developing a nano-scale near-infrared (NIR) light-responsive drug delivery system based on liposome-encapsulated perfluoropentane (PFC5) emulsions with gold nanorods in the PFC5 phase. The nanorods efficiently convert NIR light to heat, vaporizing the liquid PFC5 emulsions, which have boiling points near body temperature. Emulsion vaporization increases the volume inside the liposome enough to burst the phospholipid bilayer and release encapsulated cargo. This system will allow continuous therapeutic drug release localized at the site of NIR laser irradiation with a low-power, portable NIR laser diode. To date, we have successfully loaded PFC5 emulsions with gold nanorods and have loaded liposomes with PFC5 emulsions. Previous work in our lab has shown that a release to the cytosol of cells can be induced by ultrasound using similar liposomes. Experiments designed to demonstrate NIR laser-induced cargo release are currently in progress. We will continue to improve upon this system over the coming months to increase release and decrease the required laser power.

Bradley Hackett, Utah Valley University Engineering The Arduino microcontroller is very robust and is capable of performing a wide variety of functions to fit the needs of almost countless different projects. Many robots that are being built use a microcontroller, and the Arduino microcontroller is a good fit for many robots. The microcontroller is also standardized so it can be learned easily, and maintained easily as well, especially in a team environment. The simplicity of the Arduino offers a much more accessible design and development environment. This environment allows for very complex projects such as robotics to be approached in a manageable way. The SERA Bot is a robot which is designed efficiently and yet still has complexity, using the Arduino microcontroller. The S.E.R.A Bot is an acronym which stands for Searching Exploring Roaming Autonomous robot. The first task this robot can do is to communicate over Bluetooth to an Android tablet or phone to remotely control the robot by driving the motors or sending command signals to the Arduino microcontroller. The next task it is capable of is to use Light Dependant Resistors or LDRs to follow a light source or find the most brightly illuminated area of a room. The third task is object avoidance which is implemented using a simple ultrasonic distance sensor to detect if there is an object close in front of the robot. The last function of this robot is the ability to locate a beacon which emits a loud detectable sound, and is implemented using three amplified condenser microphones. The purpose behind this project is mainly to incorporate many simple functions to one robot. Many robots do one simple task, but the focus is to create a versatile robot, with enough complexity to be useful, but simple enough to be efficient.

Zola Adjei, Brigham Young University Engineering The research project is aimed at developing a tool to monitor the progress of rehabilitation efforts in Lake Malheur in Harney count, Oregon. The application of remote sensing techniques, which will be used to detect chlorophyll-a distribution from water algae growth in the lake. Concentrations of chlorophyll-a act as an indicator for algal blooms, which compete for nutrients and oxygen and can have significant detrimental effects on a body of water. To better identify the trend in growth activities of algal colonies, remote sensing will be effective in developing a model to map the path and region of high activities of algal growth and subsequently monitoring fish habitation on the entire Malheur Lake. The method uses satellite images which measure the reflectance of pigment concentrations, which can then be quantified as concentrations of chlorophyll-a using appropriate software and algorithms. The algorithms are based on relationships between the chlorophyll-a concentration measured in-situ and the reflectance measured in the satellite images. The algorithm that would be tested relies on the ratio of suitable bands in the electromagnetic spectrum. The Oregon Fish and Wildlife services have set preliminary actions by taking chlorophyll measurements earlier this year that will be used to help draw the relationship between the measured and satellite derived chlorophyll-a concentrations. There exists a research group in the Civil and Environmental engineering department that have employed this process on the Deer Creek lake in Utah and other surrounding water bodies which has shown successful outcomes in monitoring these lake’s water quality parameters including chlorophyll-a to help support the survival of fishes, restore their habitats and preserve cultural history. There will be a comparison done to the performance of remote sensing models in a large, shallow lake in Oregon, compared to models developed in deep, narrow lakes.

Stephanie Mitts, Weber State University Engineering The recent development of rainwater harvesting (RWH) as a local government and individual property owner solution to stormwater management and water supply has led to a wide array of individual program implementations across the country. RWH involves collecting stormwater runoff, storing it and applying it for beneficial reuse or release at a controlled rate. Decreased need of freshwater withdrawals reduces hydrology based energy consumption and protects ecosystems, potentially making RWH a more sustainable and efficient practice than centralized water supply. The goal of this research project was to compile and analyze the national trends for local government urban rainwater harvesting program policy. A survey was created and administered to RWH managers across the country to collect U.S. policy information. This report contains information to be used as a guide for local governments and other institutions considering implementing a program to promote RWH.

Erika Handly, Brigham Young University Engineering The development of an effective treatment for cancer is one of the most important goals for research today. One method of treatment is a targeted delivery mechanism using encapsulating drug carriers paired with a release mechanism. The Pitt laboratory has developed a potent chemotherapeutic called eLipoDox that uses a liposomal delivery construct combined with ultrasound release. eLipodox is composed of a liposome that encases an emulsion and the drug Doxorubicin. The emulsion droplet is a perflourocarbon stabilized by a lipid bilayer that contains a high vapor pressure solvent that will expand and burst the liposome upon sonication. The liposome is an artificially made lipid bilayer membrane that effectively encases the drug and does not allow the drug to diffuse freely through the body. Doxorubicin works through intercalating DNA, or distorting the structure of DNA, which is effective in treating tumors. However, it can cause heart failure and thus can have deathly effects for human patients. Encapsulating Doxorubicin minimizes the effects of Doxorubicin to other parts of the body while increasing the efficiency of the drug. Currently, the efficiency of loading the chemotherapeutic drug into the liposome is only around 34 to 38 percent, which is not ideal due to how expensive the drug is and the labor required to make the carrier. Thus, the purpose of this research was to systematically examine loading parameters and test the optimized carrier on a human cancer cell line. Higher temperature, greater sonication rounds, and lower concentration of drug on the exterior all correlated to greater loading efficiency. Cell death was also demonstrated with the optimized construct.

Varvara Jones, Utah Valley University Engineering Mobile devices are promising tools today to people’s life thanks to lower-cost hardware, steep subsidies from wireless carriers and the popularity of mobile apps. Equipping with touchscreen is the point of fulfillment for all that a mobile device promises to deliver to normal users. However, few mobile devices today have been built that address accessibility and usability of the touchscreen for a wide range of physical capabilities and challenges. In this research, we investigate human capabilities, environmental factors and hardware ergonomics that can improve the usability when people with impairment disabilities use a touchscreen-equipped mobile device.

Shana Black, University of Utah Engineering Goals: The pudendal nerve (PN) was targeted in attempt to create controlled micturition via intrafascicular electrical stimulation (IES) following the onset of surgically induced incontinence. We investigated both the effectiveness of unilateral and bilateral transection of the PN in creating a model of urinary incontinence and the ability of IES of efferent fibers to excite the external urethral sphincter (EUS) in order to restore a controlled voiding pattern. High Density Utah Electrode Arrays (HD-USEAs) were used to provide IES in these studies.

Jake Seiter, University of Utah Engineering Mining has always been among the most hazardous of occupations, and with the increasing demand for coal and minerals, safety in mines assumes even greater importance. Worldwide, underground miners are being exposed to noise and respirable dust hazards associated with roof bolt drilling. These hazards are now being understood to cause irreparable damage to the health of miners.

Arthur Castleton, Brigham Young University Engineering More than one in three people die because of organ failures such as congestive heart failure. The major issues of heart transplants include a scarcity of donors, immunorejection and blood clot formation. Over the last decade bioartificial organs have emerged as a potential alternative to traditional transplantation because they eliminate the need for immunosuppressants, DNA testing, and the use of another human’s organs. In this study an economic, effective, and rapid decellularization process that produces minimal damage to a cardiac extracellular matrix (cECM) is described. In addition, a static blood thrombosis assay was used to verify the effect of exposed cECM on clotting. Also an aorta was recellularized and analyzed.

Michael Borgholthaus, Brigham State University Engineering This paper seeks to demonstrate the simulated gain characterization of MOS transistors in different regions of channel inversion on silicon. In the weak region of MOSFET inversion a constant value of gain is observed. When current is increased and the device determined to be strongly inverted the gain falls off with the square of k/L from this constant gain. Between the weak and strong inversion regions is the moderate inversion region. In the moderate inversion region the gain rises above the constant weak inversion value before falling off as the channel becomes strongly inverted. If biased to low or moderate inversion, amplifying circuits can achieve higher gain performance at low currents than could be achieved in the typical strong inversion region.

Rex King, Brigham Young University Engineering The purpose of this research is to use slab coupled optical sensors (SCOS) to take high voltage measurements at high frequencies. Voltage dividers are currently used to take high voltage measurements. However, these voltage measurements are limited to bandwidths up to the range of 1MHz. SCOS sensors are electric field detectors developed by the BYU optics lab which couple light from a D-shaped fiber into a lithium-niobate slab wave guide. This light couples at certain frequencies and the frequencies at which these resonances occur will shift in proportion to the applied electric field. The electric field measurement can be used to measure voltage.

Parker Rosquist, Brigham Young University Engineering This paper presents a newly discovered class of foam-based nano-composite materials with self-sensing properties. By embedding nano-particles in high-elongation foams, materials are created that display piezoelectric characteristics when any deformation is applied. When used in place of regular padding materials, they become impact sensors for a range of applications. The physics behind the phenomenon, and the optimization of the material response, are explored in this article.

Todd Davis, Brigham Young University Engineering Oil shale is a sedimentary rock containing about 10% oil hydrocarbons. The United States has about 4 trillion barrels of oil in large regions of Colorado, Utah, and Wyoming. The hydrocarbons can be extracted by heating the shale to about 1000 F. This requires excessive amounts of energy, making it difficult to extract more energy than is consumed. We are researching a method to reuse or recycle the thermal energy of the heated shale back into the whole process, increasing the efficiency. This method is analogous to co-current or counter-flow heat exchangers in fluid flow. We are currently researching counter-current flow. To accomplish this we designed our retort (high heat kiln) to move the oil shale through a series of baffles. As it flows, the shale is heated and the oil is extracted as it becomes a vapor. A vacuum pump extracts this energy rich vapor out of the retort where it is condensed into a liquid oil. Meanwhile, the heated inert rock of the shale is returned adjacent to the incoming cold shale (counter-current heat exchange). This proximity of heated shale to cold shale allows the thermal energy to be transferred. 80% of the sensible heat has been recovered in our research. As stated above, the whole mechanism for this process is a rotating retort (kiln). The retort is about a 1 meter in length and ½ a meter in diameter. The kiln, on its small scale, can process about 5 tons oil shale/day. This comes to be about 85 gal Oil/day or 1.5 barrels/day.

LeGrand Shumway, Brigham Young University Engineering Ion traps are widely used in the field of mass spectrometry. These devices use high electric fields to mass-selectively trap, eject, and count the particles of a material, producing a mass spectrum of the given substance. Because of the usefulness of these devices, technology pushes for smaller, more portable ion traps for field use.

Christopher Werner, Brigham Young University Engineering Preparation of DNA linear expression templates (LET) via Polymerase Chain Reaction (PCR) is significantly faster than procurement of DNA via cell growth and plasmid purification. Unfortunately, linear templates have not consistently achieved protein yields comparable to plasmids in cell-free protein synthesis (CFPS). Possible reasons for lower LET yields were investigated by producing a number of different extracts. Extracts were differentiated by varying harvest time after induction and modifying the extract preparation procedure. These extracts were tested with py71 sfGFP plasmid (producing a reporter protein) and LET’s created through PCR from the same plasmid. Protein yields obtained by fluorescence measurement were plotted against combined tRNA and rRNA amounts obtained through DNA electrophoreses and densitometry. A correlation was seen between tRNA and rRNA amounts and a normalized LET yield (LET yield divided by the plasmid yield under identical conditions). We considered two reasons for this correlation. First, the increased tRNA and rRNA indicated and increase in the concentration of cell translation machinery present, which increased the kinetics of the reaction, allowing LET’s to produce protein quicker before degradation by Deoxyribonucleases (DNAse). Second, the increased tRNA and rRNA amounts acted as a shield for mRNA from Ribonucleases, allowing more of the mRNA to be translated before LET’s were degraded by DNAse’s. Further work must be done to verify the accuracy of this correlation, as well as to determine the cause for increased LET yields in extracts with higher tRNA and rRNA amounts.

Mitchel Faulkner, Brigham Young University Engineering Introduction

Craig Daniels, Brigham Young University Engineering Martensite is a steel phase that has a body-centered tetragonal crystal lattice. It significantly affects the material properties of steel, particularly hardness and strength. Electron Backscatter Diffraction (EBSD) is a microscopy technique that is used to characterize the crystal and grain structure of metals by analyzing diffraction patterns. Martensite is traditionally difficult to identify using EBSD techniques because its diffraction patterns are too similar to the ferrite phase, which is body-centered cubic (BCC). The martensite crystal is modeled as BCC, but with an imposed tetragonal strain. “High resolution” EBSD can reveal the absolute strain of the crystal lattice, and is sensitive enough to measure the strain imposed in the model. This technique uses cross-correlation to compare experimental diffraction patterns to kinematically simulated patterns, and returns the absolute strain tensor. The tensor is rotated into the crystal frame, and the principle strains are used to create a tetragonality index. This tetragonality index can then be used to identify martensite. Further, the lattice parameters of martensite are related to the carbon content. A theoretical tetragonality index can be created using only lattice parameters. If the experimental index can be fitted to the theoretical index, this technique could be used to characterize the carbon content of steel at a sub-grain level.

Nathan Madsen, Brigham Young University Engineering A scatterometer is a type of radar used to measure the backscatter of the earth’s surface. In 2014, NASA will launch a new scatterometer, RapidSCAT, and mount it on the International Space Station (ISS). An integral part of the processing code for RapidSCAT is the X-table. X relates the power received by the scatterometer to the backscatter of the surface. It depends on the antenna, processor, and frequency of the sensor, as well as the sensor’s position, velocity, and attitude. The ISS’s comparatively unstable orbit renders previous methods of X-table generation inaccurate. By incorporating position, velocity, and attitude data from a revolution of the ISS, a table that is accurate for that revolution has been produced. This table can be made accurate for up to 8 revolutions of the ISS, by parametrizing variations in X with another variable. Different methods of estimating the relationship between these variables are attempted. Because the table will have to be recalculated repeatedly through the mission life of the sensor, tradeoffs between accuracy and processing time are explored.

Jason Ellers, Utah Valley University Engineering Field Programmable Gate Array (FPGA) technology is becoming more popular among Application Specific Integrated Circuit (ASIC) developers. The ease of development and the maintainability makes FPGAs a very attractive option in many performance and efficiency critical applications. The purpose behind this project was to implement an arcade style game on top of a VGA driver. The project was developed on a Xilinx Spartan-3E Starter board using Verilog, a hardware descriptive language.

Dayton Minore, Brigham Young University Engineering Microwave scatterometers, which use radar backscatter measurements from satellites to infer wind vectors near the ocean’s surface, have the ability to monitor global wind speeds at high resolutions. Such data is used for weather forecasting and climate research. However, scatterometer observations can be contaminated by land proximity. Consequently, current methods do not use measurements within 30 km of the coast (about 10.6 million square kilometers worldwide) in the data set. This unused data can be utilized by a recently developed algorithm that can measure winds as close as 5 km to the coast. The author proposes that areas near land can be systematically targeted for special processing, providing valuable near coastal wind data. To demonstrate the effectiveness of the targeting method on a global scale, a sample 4-day data set will be processed. The data is to be stored and published in compatible file formats to current wind data, so that it will be easily usable by wind-vector users.

Jeremy Hunt, Brigham Young University Engineering Unnatural amino acid incorporation is a power tool in the synthetic biology toolbox that allows for unique residue chemistry to be incorporated into proteins. This technology has many promising applications in areas such as protein-protein interaction, biotherapeutics, biosensing, and biocatalysis. One challenge of uAA-incorporation is the current inability to properly predict the impact of the novel uAA-residue chemistry on proper protein folding and function. Therefore, a screening technology would be desirable to rapidly assess the viability of uAA-incorporation sites. Cell-free protein synthesis (CFPS) provides a promising basis for rapid screening technologies. The open environment of CFPS has a variety of advantages over conventional in vivo systems, such as direct monitoring, selective protein expression, and facile deployment of synthetic pathways. Another primary benefit CFPS has over in vivo expression is the ability to directly express proteins from PCR-generated products, known as linear expression templates (LETs). The use of LETs decreases the labor and time to expression of recombinant proteins. Thus, LET-based CFPS is a propitious system for rapid screening of uAA-incorporation. Here we demonstrate uAA-incorporation using LET-based CFPS and identify how this technology can significantly reduce time and labor to rapidly express proteins containing uAAs.

Jessica Russell, Dixie State University Fine Arts Early sources tell us women have traditionally played a background role in any event. It is only in recent decades that an interest in their historical role has taken place, and the field of musicology is no exception. Performers and composers that were well-known in their time have been forgotten as time moved forward. One such artist includes the Austrian composer and performer, Maria Theresia von Paradis. A contemporary of Mozart, Paradis was a traveling concert pianist and composer who is mostly remembered for being blind (Neuls-Bates 1982). Unfortunately, one of her most significant contributions to the field of music, namely her school of music for girls, has been forgotten and is left out of historical accounts almost completely. This school, which taught piano, voice, and music theory to girls, was innovative for its time (Fürst 2005). In this presentation, I will discuss the literature related to women in music in an effort to determine the extent to which these sources address Maria Theresia von Paradis and her contributions as a musician, composer, and pedagogue.

Natalie Jarvis, Brigham Young University Fine Arts My fascination with the process of distortion and my desire to bond with the transformative nature of the ceramic medium drives my exploration of its abilities and limitations. Making myself a part of the natural movement of the clay and helping each piece to find its abstracted balance is important during the creation process.

Rebekah Jackson, Brigham Young University Fine Arts This project has been an involved approach to studying the history of costume design, both through conventional research and the more tactile construction process. While Edith Head is a renowned costume designer with many books and articles on her life work, less has been done to understand how her designs functioned and evolved from concept to completion. But this process is essential to understanding her career’s success, as it opens valuable insights to how Head thought as a designer. It reveals what she was and wasn’t willing to compromise on, how she balanced aesthetics with practical considerations and how she worked with an actor or actress to achieve the proper look for their character. In Blake Edward’s production The Great Race, Edith Head’s designs showed this transformation of idea to reality by compromises between the original designs and finished garment. A simple red suit, worn in this production, exemplifies such compromise and was the construction portion of my research. Recreating this costume, in conjunction with conventional research on Head and her work, revealed important decisions Head made from materials to fit, how and why she changed her original design and the general approach she used in her work. These insights combine to form the basic pattern used in her creative process, applicable to both costume design and related fields as it unveils the thought process of one of Hollywood’s most successful career women.

Hannah Braegger McKeachnie, Utah Valley University Fine Arts Purpose

Nathan Bliss, Utah Valley University Health High-frequency (HF) ultrasound in the 20-80 MHz range has recently been found to be sensitive to pathology in tissue margins from breast cancer surgery. In order to improve the resolution and sensitivity of this method, however, transducers need to be employed that have piezoelectric elements that are smaller than those currently in use. The purpose of this study was to determine if similar results can be obtained from small element transducers (Blatek pachyometer, 50 MHz, element diameter < 2 mm) as compared to large element immersion transducers (Olympus NDT, V358-SU, 50 MHz, 6.35-mm diameter active element). Ultrasonic tests were performed on 10 bovine heart specimens of varying surface structure (myocardium, endocardium, and epicardium). Pulse-echo and through transmission measurements using a HF square-wave pulser/receiver (UTEX, UT340) and a digital storage oscilloscope (Agilent, DSOX3104A, 1 GHz, 4 analog channels) were acquired from a total of 2 sites per bovine specimen, first testing all specimens with the large transducers then again with the small transducers. Specimens were marked with India ink for location and accuracy of testing. The density of peaks in the ultrasonic spectra of the large transducers paralleled those of small transducers. Results from HF ultrasonic measurements of bovine heart tissue obtained from large transducers compared to the small transducers indicate that they produce statistically comparable peak densities.

Amy A Fairbrother, Utah Valley University Health Research has shown that high-frequency (HF) ultrasound is capable of detecting structural and biomechanical property changes in tissues and cells at the microscopic level. This capability is currently being tested for the real-time identification of breast tissue pathology in surgical margins during lumpectomies. The objective of this study was to determine if structural and property changes arising in tissue from variations in temperature can be detected by using HF ultrasound. Once a tissue sample is excised from the body, the temperature of the sample decreases rapidly from body temperature to that of the surrounding room temperature. Because of the decrease in heat, the tissue can become more rigid and thus less fluid. These alterations in biomechanical properties can affect HF ultrasonic measurements such as wavespeed and attenuation. These biomechanical changes may also affect the ultrasonic signals sensitive to tissue structure such as the number of peaks in the ultrasonic spectra. The methodology of the research was as follows. Fresh samples of bovine tissue were ultrasonically tested at 3 different temperatures: 37º, 24.5º, and 15º C. Each sample was approximately 7.6 mm thick and 3.8 x 2.5 cm in size. To observe the overall effects of temperature on a sample, the tissue was slowly heated from room temperature to body temperature (37º C) and then tested with HF ultrasound. The sample was then cooled back down to room temperature (24.5º C) and tested again using HF ultrasound. Lastly, the sample was cooled further to 15º C and again tested using HF ultrasound. Ultrasonic waveforms were collected using 50-MHz pitch-catch and pulse-echo measurements. The data was then analyzed to determine changes in wavespeed, attenuation, and spectral peak density with temperature. Results from the study will be presented and discussed with respect to the improvement of HF ultrasound procedures for testing tissue samples.

Matthew Wood, Brigham Young University Health Anatomy Academy (AA) is a recently developed school based educational program for fifth graders that uses college age students as small group mentor educators. This program aims to combat child obesity by improving the children’s understanding of nutrition, anatomy, exercise, and healthy behaviors. Our study specifically aimed to evaluate the impact of this mentoring opportunity on student nurses. As the largest population of healthcare workers, nurses play an essential role in patient and family education, especially in well populations. As healthcare costs increase, it will be increasingly important for nurses to actively participate in prevention efforts that empower individuals to develop healthy lifestyles. Currently, there exists a paucity of opportunities for student nurses to practice providing this health teaching to well populations and a lack of research literature on the subject. Anatomy Academy is one of these opportunities and our hypothesis is that there will be positive changes in the self-perceived abilities of the student nurses. After identifying undergraduate nursing students engaged in AA, we collected pre and post (5 scale Likert) surveys asking the nurses to rate their self-perceived ability of their skills to 1) adapt the message to the level of audience understanding, 2) communicate basic physiological concepts, 3) teach and model the link between concepts and health behaviors, 4) empower children toward healthy decisions, and 5) collaborate with organizations, like elementary schools, toward a common goal of helping children maintain healthy BMI and habits. A demographic survey and weekly reflective journals were also collected. Our results found statistically significant results in every perceived skill and we conclude that mentoring opportunities for student nurses in programs like AA improve their confidence and ability to communicate in a nursing role. We recommend that similar opportunities be included in the curriculum of all undergraduate nursing programs.

Percy Segura, Utah Valley University Health High frequency (HF) ultrasound has been investigated for the detection of breast cancer in surgical samples, and has shown correlations to histology including precursors to cancer development. It is hypothesized that the sensitivity of HF ultrasound to breast cancer is due to changes in the microscopic structure of the tissue. With this approach, better diagnosis of breast cancer can be achieved for purposes such as the assessment of surgical margins in lumpectomy procedures. The microscopic structure of the tissue affects HF waves as they pass through the tissue. These structures can therefore be recorded and distinguished by the HF ultrasound. HF ultrasound will show differentiation between healthy tissue, benign pathologies such as hyperplasia, and advanced cancerous formation. With continuing development, variables are being studied which may skew or produce artifacts in the HF ultrasound results.