Fine Arts

Authors: Evelyn Fuentes, Thomas Keate, Christian Riordan. Mentors: Aaron Davis. Insitution: Utah Tech University. Studies predict that extreme weather events, due to climate change, are expected to increase in frequency and magnitude. Specifically, the flooding impacts from a hurricane may lead to the loss of necessary infrastructure, such as water treatment plants, leading to the loss of drinkable water. In response we, as a multidisciplinary team, have developed a purification device that is able to effectively filter water to allow communities and families, without available infrastructure, to receive drinkable water. We are testing different processes of filtration to find the most efficient and cheapest method. This process of filtration would be possible due to a foldable solar array that would power a pump to push water through a filtration system. The solar array would supplement other disaster relief options due to its ability to be used without constant supervision, and it would be capable of continuous, reliable use. This device would allow for the production of drinkable water in the event that water purification infrastructure was down, but grey water was available. The solar array and water purification device would be portable for fast deployment, with options of building a larger device, as part of a disaster relief preparedness package. If successful, this device has the potential to increase disaster preparedness and save lives through providing clean water.

Authors: Rob Patterson, Nate Graham. Mentors: Sally Rocks. Insitution: Utah Valley University. The pervasive use of pesticides in agricultural practices has raised environmental concerns due to their potential to contaminate water bodies and affect aquatic ecosystems. This study focuses on the identification and quantification of three common pesticides—atrazine, 2,4-dichlorophenoxyacetic acid (2,4-D), and dichlorodiphenyltrichloroethane (DDT) in Utah Lake.. Utilizing advanced chromatographic and spectroscopic techniques, including Gas Chromatography-Mass Spectrometry (GC-MS) and High-Performance Liquid Chromatography (HPLC), we aim to detect the presence and determine the concentration levels of these substances. Water samples were collected from multiple points around the lake to assess the spatial distribution of the pesticides. The method development involves optimization of sample preparation procedures, including solid-phase extraction (SPE) and cleanup, to increase the detection sensitivity and accuracy. This project enhances environmental monitoring and has implications for water quality management, regulatory compliance, and public health in the region. The anticipated results will contribute to a better understanding of pesticide pollution patterns and will aid in formulating strategies to mitigate the contamination of aquatic environments.

Authors: Cassandra DuBose Corry. Mentors: Elizabeth Vargis. Insitution: Utah State University. Age-related Macular Degeneration (AMD) is characterized by a blurring of the central vision and is one of the leading causes of vision loss in the United States. As a branch of the disease, exudative AMD is distinguished by retinal angiogenesis, when new blood vessels grow into the retina. Understanding retinal conditions that promote or discourage angiogenesis by using mathematical models can lead to improved understanding of disease progression and treatments. This discrete mathematical model presented here uses the theory of reinforced random walks to simulate the biological behavior of endothelial cells (ECs) as they leave a parent blood vessel and travel through the choroid and Bruch’s membrane towards the retinal pigment epithelial (RPE) layer. Cell behavior such as number of divisions and blood vessel coverage are analyzed for comparison to experimental observations. Pigment epithelium-derived factor (PEDF) is included and examined for its effect on the behavior of the ECs and its ability to prevent angiogenesis. This computational model provides novel insights into exudative AMD with parameters that can be adjusted to meet different needs.

Authors: Aubrey Russell, Ben Paepke, Nathan Goldfarb. Mentors: Nathan Goldfarb. Insitution: Utah Valley University. Tuberculosis (TB) remains an insidious scourge of civilization. The causative agent, Mycobacterium tuberculosis (Mtb), is a global health crisis, and TB ranks as the second leading cause of death from an infectious disease worldwide after COVID-19. In 2021, there were approximately 1.6 million deaths reported from TB (including 187,000 people with HIV) and an estimated 10.6 million new infections. Additionally, multidrug resistant TB remains a public health crisis. An initiative of “The Global Plan to End TB” is the development of rapid, point-of-care diagnostic assays for the early diagnosis of TB.2 Here we present our initial efforts towards the goal of the development of a rapid, lateral flow assay (LFA) for the detection of Mtb.

Authors: Joshua Hutchins, Kevin Wong. Mentors: Dario Mizrachi. Insitution: Brigham Young University. Tight junctions (TJ’s) are composed of mainly three types of cell-adhesion molecules (CAMs) that regulate paracellular permeability in epithelial and endothelial cells. These are claudins (CLDNs), occludin (OCLN), and junctional adhesion molecules (JAMs).There are, however, several (27) isoforms of the claudin molecule, all of which are suspected to have different strengths and other properties in cell adhesion. Currently, the comparative strength of the interactions between different CAMs are unknown and no easily replicable model of a TJ has been created. To address this question we resourced to bacterial expression of these mammalian proteins. MG1655 E. coli cells (with flagellum) were transformed to express claudins 1, 2, 3, 5, and 10 as well as occludin and plated on 0.2% agar plates, allowing them to swim overnight. This allowed for a qualitative spectrum of strengths of the CAMs based on how far the cells were able to spread throughout the plate. Cells that interacted strongly swam less. This technique was applied to the case of the Atlantic Salmon. It swims both in fresh and ocean water. As it transitions, the TJs in its skin changes its composition of claudins. We were able to determine that the set of claudins employed during ocean water swimming are capable of stronger strength. This is consistent with the changes in osmolarity dictated by the amount of solute in the ocean water.

Authors: Lukas Keller, Jixun Zhan, Zhen Zhang. Mentors: Jixun Zhan. Insitution: Utah State University. Curcumin is a common dietary supplement found naturally in the plant turmeric (Curcuma longa). Native to South Asia, the turmeric plant has been an important component in Indian and Chinese folk medicine. Curcumin has long been known to be an effective antioxidant and possesses anti-inflammatory properties. In today’s world, curcumin is a common nutraceutical and plays a part in the billion-dollar supplement industry. However, production and extraction of this compound is difficult and uses vast amounts of resources to cultivate. One solution to produce natural products like curcumin is the use of metabolic engineering to synthesize the product in another organism. The USU Metabolic Engineering Lab has developed a synthetic metabolic pathway to produce curcumin from an amino acid inside genetically transformed E. coli. The use of metabolic engineering techniques can produce larger quantities of the desired compound in greater quantities and purities while using a fraction of the land, water, and energy. To inform the use of these techniques, a predictive computational pathway was developed and is being validated with experimental results. An effective model can help researchers and businesses by allowing them to accurately predict curcumin yield and concentration during production.

Authors: Peyton Jackson. Mentors: John Chaston. Insitution: Brigham Young University. This study explores the relationship between seasonal variations and the development rates of Drosophila Melanogaster. Flies are closely monitored in a controlled laboratory setting after being transferred from outdoor cages across different seasons. In the outdoor cages, the introduction of the bacterial strain A. orientalis DmW_045, commonly referred to as '45,' enhances development rates and ensures consistent data collection. Axenic flies, created by thoroughly sterilizing fly eggs with bleach to eliminate external bacteria, are employed to isolate genetic influences on the relationship between season and development rates. The core methodology involves two groups: axenic flies treated with '45' and a control group unexposed to '45.' This approach guarantees data accuracy and assesses development rates based purely on genetics. Development rates are measured by marking eclosed (hatched) pupae on vials at specific intervals. The research seeks to unveil the correlation between seasonal variations and fly development rates, shedding light on the role of seasonal factors in shaping development. This study explores the interplay between seasonal variations and Drosophila fly development, emphasizing genetics and environmental factors. Its potential significance lies in providing insights beneficial for ecological and genetic studies, potentially offering a clear genetic link between seasons and development rates that can enhance our understanding of the natural world.

Authors: Abigail Cheever, Chloe Kang, Hunter Lindsay, Mackenzie Hansen, Kim O'Neill, K Scott Weber. Mentors: K Scott Weber, Kim O'Neill. Insitution: Brigham Young University. Chimeric Antigen Receptor (CAR) T cell therapy is a modern technology that has become a widely accepted treatment for blood cancers such as lymphoma and leukemia. Recent studies have proven the successful application of CAR T cell therapies in autoimmune diseases as well. Graves’ Disease (GD) is an autoimmune disease that affects approximately 1 in 100 Americans and is the most common cause of hyperthyroidism. GD is mediated by anti-thyroid stimulating hormone receptor (TSHR) antibodies produced by autoreactive B cells. Our hypothesis is that a curative treatment for GD can be created by designing a CAR T cell that specifically targets the autoreactive B cells in GD, by using TSHR as a binding domain to act as bait for the anti-TSHR B cells. We selected TSHR epitopes for the binding domain of the CAAR T cell, and our anti-TSHR antibodies bound significantly to our engineered CAAR T cells. A target B cell line with anti-TSHR B cell receptors was engineered using the Nalm6 B cell line. Using primary human CAAR T cells, activation and cytotoxicity assays against anti-TSHR B cells shows that CAAR T cell therapy is an effective and promising method to treat antibody mediated autoimmune diseases like GD.

Authors: Ellie Martin. Mentors: Cynthia Finlayson. Insitution: Brigham Young University. Pottery reconstruction allows archaeologists to better understand their artifacts and gain a more complete understanding of ancient ceramic techniques. Reconstruction techniques have evolved over time that strive for both better conservation practices and long-lasting results, as well as the use of bonding materials that are reversible rather than permanent. This poster examines the process of utilizing an acetone-based glue consisting of dissolved polymer beads of differing strength solutions. The entire process with be illustrated by step-by-step photos and directions as well as the quality of the final results. Two layers of different solution consistencies are applied to the pottery in different stages before the pieces are joined together. The first layer of glue is a thin coat made of 5% polymer and 95% acetone, and it is applied to any edges that will be refit. This layer fortifies the sherd and ensures that the glue applied is not stronger than the sherd itself. After the first layer has dried, the second coat of glue, made of 12% polymer and 88% acetone, is added to each piece. The sherds are then joined and placed in a secure location to dry, such as a bin of silica beads. Acetone-based polymer glue is strong and flexible, yet also dissolvable. Any mistakes can be unmade with the careful application of small amounts of acetone, and no restoration action is utilized on the pottery fragments that cannot be undone. This method of reconstruction is safe, secure, long-lasting, and meets modern conservation standards.

Authors: Dustin Edmonds, Devin Needs, Riley Fisher. Mentors: Brent Feland. Insitution: Brigham Young University. Research questionHow does localized vibration increase blood flow? We know that localized vibrations increase blood flow. We wanted to know if this is done through the release of hormones, specifically histamines. Relevant research contextResearch on blood flow has been done using whole-body vibration but research on the effects of localized vibration on arterial blood flow is scant. To date, there are only a couple of research articles on massage guns despite their prolific use in the sports industry. No research to date has attempted to assess the mechanism behind the increased blood flow that results from localized vibration.MethodsTwenty-one participants completed this study, 11 males and 10 females, mean age of 22.1 +/- 2.0 years. The mean male height 181.3 +/- 9.6 cm and weight 80.7 +/- 19.0 kg. The mean female height is 169.2 +/- 7.5 cm, and the mean weight is 64.5 +/- 9.3 kg. All subjects were “recreationally active” and exercised at least three times a week for thirty minutes a day. Excessive activity or high-level athletes were not allowed to participate. Each subject received localized vibration to the gastrocnemius (vibration of 47 Hz for 10 minutes) with and without an antihistamine drug by reporting to the lab on 2 separate days. The non-antihistamine trial was performed first, followed at least 24 hours later by ingesting an antihistamine (180 mg of fexofenadine) 1 hour before the trial. Blood flow in the popliteal artery was measured using an ultrasound. Measurements (mean and peak blood velocity, volume flow, popliteal diameter, and heart rate) were taken before localized vibration treatment and then taken at intervals for 19 minutes after the treatment.AnalysisWe used a cell-means mixed model to statistically compare the effect of vibration on blood flow with and without antihistamines. This was done by evaluating the blood flow response immediately post vibration and comparing that to baseline values for both control and antihistamine conditions. Results and ConclusionThere was a significant increase in blood flow without antihistamine while administration of antihistamine blunted the blood flow response and resulted in an insignificant increase in blood flow. In the tests with the antihistamine, we saw an insignificant change in blood flow immediately post vibration, resulting from the localized vibration. From this experiment, we hypothesize that increased blood flow from localized vibration is due to activation of mast cells which release histamines and that this cellular activation is force dependent.

Authors: Naavah Craze, crazen@byu.edu . Mentors: John Chaston. Insitution: Brigham Young University. Wolbachia are maternally inherited bacteria found in the reproductive organs of many arthropod species. These parasitic bacteria are influential in the reproductive fitness of the host and can affect a population’s male-to-female ratio. Wolbachia can only be cultured in living cells and current methods for inoculating hosts with this bacteria have low success rates. These factors make these bacteria difficult to study in lab environments. In this project, we test a pricking method for inoculating Drosophila melanogaster with Wolbachia. In this method, axenic, or bacteria-free, female flies will be pricked in the abdomen with a Wolbachia-coated needle. Eggs from these flies will be collected from 3 to 5 days after pricking and will be incubated. The offspring will be tested using gel electrophoresis to see if inoculation was successful. If successful, this method can be used as a simple and efficient way to introduce Wolbachia into Drosophila melanogaster. These inoculated flies can then be used in experiments to study the relationship between the bacteria and the host organism.

Authors: Lillian Davis, Paul B Frandsen. Mentors: Paul B. Frandsen. Insitution: Brigham Young University. Insects of the order Embioptera (webspinners) typically live in colonies that can cover the ground of entire fields with their silk-constructed galleries, providing them with camouflage from predators and cover from the rain. Uniquely amongst silk-producing insects, webspinners possess silk glands in their forelimbs and, like spiders, retain the ability to produce silk throughout their life history. They typically live together in semi-social colonies, feeding off of decaying plant matter. Previous studies have been limited to morphological descriptions of species, testing various qualities of their silk, and a few molecular studies based on short DNA sequences. Here we present the genome of Apostonia ceylonica, a webspinner species from India, providing the first embiopteran genome assembly, opening the door to a multitude of analyses. At a haploid size of approximately 3.1 gigabases, their genome is significantly larger than previous estimates, containing a significant number of repeating segments. This data provides valuable information for future studies into the genes that control silk production, information for identifying this species through meta-barcoding, and data that could improve phylogenetic trees. By evaluating the effect of repetitive elements on their oversized genomes, we gain insights into the evolutionary history of Apostonia ceylonica.

Authors: Lauren Heath, John Chaston. Mentors: John Chaston. Insitution: Brigham Young University. Mounting evidence shows that gut microbiota disruption is related to several physiological processes and disease development in mammals; however, the mechanisms by which these processes take place are not fully understood due to the complexity of the mammalian gut microbiome. Studying the fruit fly, Drosophila Melanogaster proves to be a valuable model for understanding the gut microbiome on a smaller scale. Previous research has identified microbiota disruption alters the fly’s ability to cope with thermal stress and causes slower chill coma recovery times. Chill coma recovery is an important survival trait and stress response in Drosophila flies. Microbiota may affect the ability of hosts to tolerate stressful situations. The purpose of this project is to determine the effect of different bacterial strains on the mechanisms of chill coma recovery through a metagenome analysis of different bacterial strains. I hypothesize that certain microbe genes will increase chill coma recovery times. To test this assumption, I will mono-associate by flooding different groups of eggs with a microbe wash and infusing their food with the same bacteria strain. After cultivation, a chill coma will be induced by placing mature adult flies in empty vials on ice for three hours, and then the time for each individual to stand up after their transfer to room temperature will be recorded. Subsequently, I will assess cold tolerance, and evaluate the rates of recovery. With this, we can further identify the mechanisms of the chill coma recovery process by pinpointing specific proteins necessary for this process through a metagenome-wide association approach (MGWA) and gene analysis. If I observe no effect of the bacterial strains on chill coma recovery times, I can test different mixes of microbes to determine if improved recovery rates are a side effect of global metabolic changes caused by decreased biodiversity in the gut of drosophila flies. Studying the metabolic processes of Drosophila allows us to unravel further the mechanisms by which gut microbes affect the fitness and health of their host. My findings may be extrapolated to further understand the human gut microbiome.

Authors: Jonathan Dickerson, Christian Ahrens, Zach Valentine, Sara Linderman, Hillary Wadsworth, Lauren Ford, Jordan Yorgason. Mentors: Jordan Yorgason. Insitution: Brigham Young University. The nucleus accumbens (NAc) is a major component of the reward pathway in the brain. The role of ATP as a neurotransmitter within the NAc has largely remained unstudied. Multiple experiments have hinted at larger roles ATP may have in other areas of the brain, but not yet in the NAc to our knowledge. Our goal was to characterize ATP release in the NAc, in an attempt to pave the way to finding novel methods for treating/preventing addiction. Fast-scan cyclic voltammetry (FSCV) was used to track ATP and dopamine release in the NAc of mouse brains, evoked with electrical stimulations before and after application of various drugs. Blocking nAChR’s and NaV channels reduced both ATP and dopamine release. Blocking DAT’s enhanced release, but blocked clearance of both ATP and dopamine, and activating the immune system with LPS increased release of both ATP and dopamine. Changes in dopamine and ATP release after drug application were definitely correlated, but not proportionally so. While in some instances, the same mechanisms previously thought to work just with one neurotransmitter or the other had effects on both, changes in ATP signaling cannot be fully explained by dopaminergic machinery in the NAc.

Authors: Kirsten Sanders. Mentors: Ruth Kerry. Insitution: Brigham Young University. The Great Salt Lake (GSL) found in the Salt Lake Valley is a remnant of Lake Bonneville. In the 1980s the GSL reached record high water levels. But by 2022, the lake has been drying up and reached record-low water levels. Previous research using seven years of Purple Air Network data has shown that particulate air pollution levels, PM 2.5 and PM 10, are worse within 10km of the Great Salt Lake. Other research investigating the distribution of toxic heavy metals (Copper, Arsenic, Lead, and Zinc) in topsoil samples from throughout the Salt Lake Valley showed that some of the highest levels of Copper and Arsenic pollution were found near Saltair among dried sediments on the shoreline of the Great Salt Lake. This study involved collecting numerous samples from the dried shoreline of the Great Salt Lake and analyzing them for their heavy metal contents using Xray Fluorescence. The heavy metals were then mapped and linked to sediment particle sizes and pH to indicate where the most toxic sediments are located, and where the sediments that are most easily picked up by the wind are located. The maps of heavy metals will be used with our analysis of the Purple Air Network and wind rose data from our previous study to show where toxic dust clouds are most likely to be an issue to the population. Links with 2016 Asthma ER visits and Hospitalizations will also be investigated.

Authors: Eva Driggs, Megan Cahoon, Seth Bybee. Mentors: Seth Bybee. Insitution: Brigham Young University. Odonates (dragonflies and damselflies) exhibit diverse coloration. These vibrant colors are important for species recognition, camouflage, and mate recognition. Adult odonates emerge in late spring, mate and reproduce, and die by fall. As color and seasonality are both important aspects of the adult stage in odonates, we pose the question: Does the odonate community color composition change over the season?We hypothesize that different colors within the odonate community will peak in abundance at different times in the season. We conducted population estimates weekly at a local park in Provo and analyzed data from Utah, the Great Basin, and the West Coast (GBIF). From this data, we found that generally, blue odonates have the highest abundance throughout the season, but red odonate populations persist later in the season while blue populations decline which may be due to seasonal changes in heat and light.

Authors: Cooper Johnson. Mentors: John Chaston. Insitution: Brigham Young University. The main goal of this project is to determine the relationships between microbes in the microbiota of Drosophila and the activity rate of Drosophila at low temperatures. Previous research has already determined that the microbiota leads to changes in fly activity levels at normal temperatures (Schretter, 2019). Studying the relationship at low temperatures with the method I will outline below will help us to have a more holistic view of how the bacteria affect fly locomotion and behavior. This holistic understanding can open doors for other projects that study if manipulation of the microbiota could have a specific desired effect on the fly’s behavior, and it can help us understand how the microbiota’s impacts are affected by drastic changes in temperature. In this experiment we seek to determine how each of 41 different strains of bacteria affects fly activity at temperatures of approximately 17 degrees celsius using several different metrics to measure both locomotion and social behaviors. These metrics would be collected simultaneously by placing flies in a chamber for Drosophila Video Tracking (DVT), which would use a camera and tracking software to record the above-mentioned metrics on fly activity. Using so many different metrics allows us to have a more holistic view of the flies’ activity and to be able to better determine exactly how the bacteria are affecting the flies. In order to connect the data with the microbiota, the flies would be separated into 41 different experimental groups and each group would be “mono-associated” with one of the 41 different above-mentioned bacterial strains. Mono-association means that each of the fly eggs would be bleached, and then divided in groups, with each group being grown in an environment containing a specific type of bacteria. This means that each fly experimental group would have one species of bacteria in their microbiota, and therefore we can associate changes in fly behavior to the differences in the Drosophila microbiota. Having determined which bacteria affect the fly activity at low temperatures, we would use Metagenome-wide association to determine which bacterial genes are causing this change. Metagenome-wide association involves comparing the genomes of bacteria shown to cause changes in Drosophila activity in order to identify the similar protein-coding sequences that may be the causes of these changes in activity. To confirm the findings at that stage, the genes are expressed in a bacteria that doesn’t express them normally, and flies are analyzed to see if the changes in activity persist. If they do, we can safely say that the changes are due to that specific gene sequence. We expect that the mono-associated flies will show differences in activity level, because it has already been established in a previous study that the microbiota in the flies has a statistically significant effect on the activity level of the flies, meaning that the presence of certain bacterial cultures in the flies lead to a difference in activity. Therefore, if there is no difference in activity level, it is most likely due to the low temperatures, and it may then be necessary to perform the experiment again at different temperatures to determine at what point the temperature negates the effect caused by the bacteria present in the fly microbiota. We aim to study the relationship between the microbes present in the fly microbiota and their activity level at low temperatures and identify the mechanisms by which the microbes affect the fly activity level.

Authors: Lauryn Dupaix. Mentors: Riley Nelson. Insitution: Brigham Young University. Golger’s rule is an ecogeographic rule stating that animals in warm and humid climates are heavily pigmented, whereas animals in colder and drier climates are lightly pigmented. By using previously collected specimens of Proctacanthus sp. from across the U.S., we explore how this rule applies to several species of robber flies over time and geographic space. The average color of thorax was analyzed using a spectrophotometer which were used in correlation tests with climate measurements from where the specimen was collected. We found that this ecogeographic rule was not consistent in all four of the species of robber flies that were analyzed. Therefore, other studies of the applicability of ecogeographic rules are being assessed in this genus. This research helps define morphological variation in a widespread species and open avenues for more morphological analysis of insects in a changing climate.

Authors: Levi Pouwer, Keaton Helquist. Mentors: Jared Nielsen. Insitution: Brigham Young University. OBJECTIVE: To identify brain regions and networks underlying acquired-brain-injury-induced insomnia. BACKGROUND: In patients of tertiary-level mental healthcare facilities, symptoms of chronic insomnia are prevalent in 78.2% of the population. Additionally, among those who suffer from acquired brain injury, few symptoms are as generally pervasive as that of chronic insomnia. Meta-analyses of insomnia patients with fMRI data have failed to identify consistently affected brain regions. Individual studies have suggested several brain regions are involved in insomnia, including the anterior cingulum, orbitofrontal cortex, the insula, caudate nucleus, and the anterior capsula interna. However, few regions have consistently been implicated in the pathophysiology of insomnia. Moreover, little is known regarding the collective brain networks involving insomnia. DESIGN/METHODS: A comprehensive systematic literature review was conducted to identify case studies of individuals afflicted with acquired brain injury-induced insomnia (N=53). The review process was facilitated by employing Cadima, specialized literature review software. To establish a reference baseline for comparison, a substantial cohort of resting-state functional MRI (fMRI) scans from healthy control subjects (N=1000) was meticulously acquired. Subsequently, lesion network mapping analysis, as outlined by Fox et al. in 2018, was applied to the lesions observed in the 53 patients. This method allowed us to assess the impact on functional connectivity and analyze its implications by comparing the patients' lesion networks with the baseline scans obtained from healthy controls. RESULTS: In the context of lesion network mapping analysis, our study revealed that 45 out of 53 patients diagnosed with acquired brain injury-induced insomnia exhibited brain lesions that were functionally connected to both the left amygdala and the left anterior insula. Moreover, in 39 out of 57 patients, the lesion networks also included bilateral anterior insula and the hypothalamus. Comparative analysis of these lesions with a normative database unveiled a substantial disparity in functional connectivity to the left amygdala and left anterior insula in patients suffering from acquired brain injury-induced insomnia. This finding underscores the relevance of tissue within these regions and tissues functionally connected to these areas in relation to the onset of lesion-induced insomnia. CONCLUSION: The observed functional network connectivity among the left amygdala and the left insular region in relation to insomnia introduces a potentially more intricate mechanism underlying the onset of insomnia, in addition to the previously proposed factors such as hyperarousal in cortical regions and subcortical neuropathologies. Our findings highlight the possibility of a deeper connection between the initiation of insomnia and limbic structures, specifically emphasizing their role in emotion and sleep regulation. This suggests that the neural mechanisms influencing anxiety may have interrelated effects on the mechanisms influencing insomnia. It is evident that further investigation, particularly among psychiatric patients afflicted with insomnia, is warranted to delve into the activities occurring in these regions and to elucidate the potential interplay between anxiety and insomnia. This research paves the way for a deeper understanding of the complex relationship between neural pathways and the development of insomnia, ultimately offering valuable insights for future clinical and therapeutic considerations.

Authors: Connor Hough. Mentors: Johnny Chaston. Insitution: Brigham Young University. Many variables can have an effect on the microbiota (microbial community associated with an organism) which can, in turn, affect the health and lifestyle of the microbiota's host organism. One such variable is geographic latitude (distance away from the earth's equator) which was the subject of a portion of a study performed by Walters et al. in 2020 and a similar study performed by Henry et al. in 2022. Walters et al. determined that latitude had a significant effect on the composition of the gut microbiota in Drosophila melanogaster (fruit flies) while Henry et al. determined that latitude did not have a significant effect. To better understand what variables may have caused a difference in the results of these two studies I plan to perform data analysis on the data provided from both Walters et al. and Henry et al. Particularly, Henry et al. provided data about the microbiota of other sample types associated with D. melanogaster across the latitudinal cline such as the fruit fly excrement, the leaves in their environment, and their diet which consisted of apples and grapes. While this data was mentioned in Henry et al.’s paper I feel that a more in depth analysis of these sample types could bring insight about how these microbiota affect one another and how latitude affects each of them separately. I will use QIIME (a bioinformatics data analysis software) data analysis methods, such as alpha and beta diversity metrics, and R to analyze the data provided and create graphs. Because each sample type in the data was recorded with unequal sample sizes I will also need to make a new taxonomic graph of the sample types when measured proportionally to each other. To do this I will use QIIME to group the original feature table metadata from Henry et al. by sample type and return a new table with an equal number of samples for each sample type. With this done I will then be able to make a new bar plot using QIIME. I will then use this new set of adjusted data to analyze the relationships between latitude and each sample type as well as the relationship between each sample type to one another. I will also perform these data analytics methods on the data provided on fruit fly gut microbiota by Walters et al. and compare the results with the fruit fly gut microbiota provided by Henry et al.. I hypothesize that further analyzing the data from these sample types will reveal new correlations between the microbiota of these sample types and with latitude. If no new information is learned through this analysis then it will solidify Henry et al.’s claim that latitude does not significantly affect the microbiota. Alternative outcomes may show that there is not a correlation between the microbiota of sample types which would indicate that the microbiota exhibits a neutral behavior and is not selective. However, if my hypothesis is correct then these correlations would show that the microbiota of separate sample types are related to the microbiota of other sample types and that latitude does have a significant effect on the microbiota of each sample type. The results of this analysis will open up more pathways for study about the reason behind these correlations or the lack thereof.

Authors: Hannah Smith. Mentors: Jeff Parker. Insitution: Brigham Young University. The Arabic language uses a rich system of patterns called verb forms to create verbs with related meanings from roots made of consonants. For example, the root k-t-b, in form I, kataba, means ‘to write.’ When it appears in form II as kattaba, it means ‘to make someone write.’ In form III, kaataba, it means ‘to exchange letters,’ ‘to correspond’ (Wehr, 2019). There are ten commonly used verb forms, although not every root is used in every form. As Arabic has been exposed to English and speakers borrow verbs from English into their Arabic, they make choices about how and whether to integrate these foreign words into the verb forms. For example, the verb ‘to block (on social media),’ with the derived root b-l-k, is used in form II, ballaka, ‘to block.’ Other borrowed verbs, however, don’t get integrated in this way. Instead, they are used as a noun with a native Arabic verb, usually ‘amila, ‘to do.’ For example, English ‘to delete’ becomes ‘amila daliit, literally ‘to do a delete.’ This study aims to understand what factors influence when and how completely borrowings from English like these are integrated into the verb forms in Jordanian Arabic (JA) by interviewing university students in Amman, Jordan. The interviews are primarily focused on four forms in which borrowings in JA frequently appear (Salem, 2015). Initial data from a group of eight participants shows a general acceptance for the borrowings in their base forms, with much more variation in speakers’ intuitions regarding their usage in other forms. For example, all eight participants perceive ‘to block,’ ballaka, as a completely acceptable word used by most people. However, only two participants felt the same way about its counterpart form, taballaka, ‘to be blocked,’ whereas two other participants perceived it as something no one would ever use. Furthermore, some participants perceive verbs that rely on ‘to do,’ such as ‘to delete,’ to be in the beginning stages of integration, with three of eight interviewees stating that some of these verbs actually are acceptable in verb form II. Thus far, the perceptions of all the borrowings seem to indicate that speakers believe that integration of borrowed verbs is a gradual process. Furthermore, in addition to other factors, the extent to which the verbs are integrated in JA seems to be affected in large part by cultural perceptions of how foreign the verbs are, a factor that has not been noted in previous studies on the subject.

Authors: Braxton Fjeldsted, Joseph Carter, Grant Ogilvie, Josh Hoffman. Mentors: Douglas Cook. Insitution: Brigham Young University. Finding ways to improve crop durability through 3D modeling has tremendous potential to help save plants, time, and resources. Currently, there are many important material properties of maize stalks that have not yet been measured, which presents challenges in creating accurate 3D models. Through sensitivity analysis, it was determined that one of the most critical unknown material properties of maize stalks for creating accurate models is the transverse shear modulus. In this research, we created a testing procedure to determine the shear modulus as accurately as possible. Each sample was put in a torsion test to determine the relationship between the torsion torque and the torsion angle. Both fresh and dry samples were tested in addition to samples with and without the pith. Our team implemented methods to minimize inaccuracies from slipping, cracking, and other imperfections in all elements of the stalks. The transverse shear modulus that we have determined will help to more accurately model maize stalks, thereby making future tests by modeling more efficient and working to provide a path towards improved global maize harvests.

Authors: Adam Call, Parker Myers. Mentors: Mark Hughes. Insitution: Brigham Young University. Petal projections are defined as a special class of knot projection with a single multi-crossing, which causes the formation of loops entering and exiting the crossing. The relative height of the strands as they pass through the multi-crossing is always an odd-length permutation. Recent research has described the complete set of moves which is sufficient to relate any two permutations that describe the same knot. In this talk, we will discuss potential novel knot invariants arising from isotopy of knots and their petal projections.

Authors: Allison Dahl. Mentors: Dallin Bailey. Insitution: Brigham Young University. Using members of The Church of Jesus Christ of Latter-day Saints as a case study, this research explores text reformatting that may address the unmet needs of religious people with aphasia. Aphasia is a language disability that sometimes occurs after a stroke or traumatic brain injury. It can affect both expressive and receptive language, including reading ability. Several studies have already explored what text adaptations are generally preferred by or aid comprehension in this group. However, the unique regard of sacred text may elicit different needs and preferences for those experiencing aphasia. For example, although text adaptation for people with aphasia often includes text simplification, some may find inherent spiritual value in the original wording of scriptural text. Therefore, in this study, other adaptation options are explored, such as font changes and verse spacing. Passages from texts considered holy in the Church of Jesus Christ, such as the King James Bible and the Book of Mormon, have been reformatted in potentially helpful ways. Latter-day Saints with aphasia are being recruited to give feedback on these samples. They will indicate their formatting preferences on a visual scale, and their comments and feedback will also be coded qualitatively. This research will provide guidelines on what text adaptations are most appropriate and helpful for religious texts. Although the samples are specifically geared towards members of the Church of Jesus Christ of Latter-day Saints, the design principles may prove useful for texts used in other faiths as well.

Authors: Josie Allred. Mentors: John Salmon. Insitution: Brigham Young University. From the weekly grocery run to the daily commute to work or school, transportation plays a central role in meeting the basic needs of nearly every American family. Unfortunately, not everyone has equal access to safe, convenient, and efficient transportation. When not carefully planned and implemented, the advancement of transportation infrastructure and technology often favors high income communities. For example, in many areas, shared electric scooters and bicycles have been made more widely available in higher income neighborhoods, leaving lower-income communities with limited access to these micro-mobility options. The result of these and other similar developments is increased economic disparity and barriers to opportunity. One such transportation advancement for which careful implementation is vital is Wireless Power Transfer (WPT) technology for electric vehicles (EVs). WPT technology offers the potential for EVs to charge while in motion on the roads, thereby accelerating the adoption of EVs, and building a cleaner tomorrow. Through this research, we seek to contribute to a future of equitable integration of WPT technology into roadways across America. Because the demographics of Indianapolis closely resemble the US overall, a simulation was run with drivers in the city, using sample data from the US and Indianapolis. The simulation was then used to determine potential locations in which WPT technology could be effectively implemented. Informed by this and other research, WPT technology can be integrated in an intentional manner ensuring equitable access for people of any socioeconomic status.

Authors: Joshua Cook Wright. Mentors: Jordan Jones. Insitution: Brigham Young University. Fifty years ago, Brazilian scholar José de Nascimento Morais Filho rediscovered Maria Firmina dos Reis (1825–1917), Brazil’s first female—and first black female—novelist. Morais published a biography about Reis, including in it as many of her works as he could find. During her lifetime, Reis published the novel, Úrusula, musical compositions, short stories, and poems, though it was only through Morais’ biography that some of these works were reintroduced to the general public. Reis used writing to challenge the flaws she saw in society. The most glaring of these was slavery, with which she had first-hand experience, her Afro-Brazilian mother and African grandmother having been enslaved. Because of this, she has gained notoriety as not only the first female novelist in Brazil, but as an ardent abolitionist. However, the people living in her hometown of Guimarães, Maranhão, knew her—and continue to remember her—quite differently. To them, she was a teacher, whose life’s work was to educate and elevate as many lives as she could. She founded a school that taught both boys and girls and refused to use corporal punishment. Using information gathered on a summer research trip to Maranhão, Brazil, including a visit to the archive where Reis’ works were rediscovered and a visit to Guimarães, I will compare the prevailing understanding of Maria Firmina dos Reis as an abolitionist writer with the powerful and living legacy that I experienced first hand in Guimarães. I conclude by discussing the impact of viewing Maria Firmina dos Reis as both an abolitionist and a teacher, how these views complement each other, and how seeing both sides of her story can help us better understand how activism can manifest in many different ways.

Authors: Dylan Skinner. Mentors: Mark Hughes. Insitution: Brigham Young University. Deep reinforcement learning (DRL) continues to demonstrate remarkable efficacy in pattern recognition and problem-solving, particularly in domains where human intuition falls short. In the realm of knot theory, an important challenge revolves around constructing minimal-genus slice surfaces for knots of varying complexity. In this presentation, I will outline a novel approach that leverages the power of DRL to tackle this difficult problem. Using braid representations of knots, we train reinforcement learning agents to construct minimal genus slice surfaces by finding sequences of braid transformations that are optimal with respect to a given objective function. This provides a template for attacking other computationally difficult problems in topology and pure mathematics using reinforcement learning.

Authors: Abraham Harris, Juliana Corbridge. Mentors: Mark Hughes. Insitution: Brigham Young University. Braid closures provide a way to study knots and links in 3-space via group-theoretic techniques. Several important open problems in low-dimensional topology can be reformulated as problems in combinatorial group theory via a particular braid invariant called the band rank. In this talk we will describe the band rank and techniques for computing this quantity which draw on tools from reinforcement learning.

Authors: Samantha Richardson, Sam Simmons. Mentors: Mark Hughes. Insitution: Brigham Young University. During cellular mitosis long DNA molecules are first split and then separated with one copy being transferred to each of the daughter cells. A class of enzymes known as topoisomerases assist in the separation of the two strands of DNA, though the precise mechanism by which they work is unknown. In this talk we will discuss attempts to model topoisomerase action using techniques from reinforcement learning.

Authors: Austin Martel, Bethany Parkinson, Spencer Magleby. Mentors: Spencer Magleby. Insitution: Brigham Young University. Compliant mechanisms are gaining popularity for use in engineering systems due to their low cost, manufacturability, and predictability. These monolithic structures can accomplish the same function as rigid multi-body mechanisms and can improve the motion and performance of the mechanism. Because they are monolithic, 3D printing has proven to be a simple and favorable method of bringing compliant mechanisms from design to reality. However, fabricating these mechanisms using conventional approaches of 3D printing can negatively affect their mechanical properties. To combat these adverse effects, we need to identify printing parameters that affect the mechanism’s material properties. Then, by adjusting the values of these parameters in the 3D printer’s slicer software we can minimize these adverse effects and create a better-suited set of guidelines to print compliant mechanisms.In this study, multiple compliant mechanisms were designed and tested with different printer settings. The testing started with creating mechanisms and their force-deflection curves. The standard designs of each mechanism were then updated and printed using different parameters from the slicer software. Parameters such as orientation, infill, wall thickness, nozzle path, and ironing were considered and quantified. After printing, the mechanisms were tested on an INSTRON machine to get the experimental force-deflection curves. We iterated upon each design until there was less than a 5% error between the experimental and theoretical data. With more knowledge of the effects of 3D-printing parameters, we can develop a set of guidelines for manufacturing more predictable compliant mechanisms. These guidelines can be applied to any compliant mechanism design for industrial or personal 3D printing.

Authors: Addison Smartt, Timothy Smartt. Mentors: Jeff Edwards. Insitution: Brigham Young University. Since the 1990's, the United States has experienced a crisis of opioid addiction and overdose. The effects of this are found close to home – with Utah being one of 22 states with an overdose rate higher than the national average. The effects of opioids on the ventral tegmental area (VTA), also known as the reward center of the brain, are a major contributor to opioid dependence. Drug dependence is created by molecular and cellular changes in this region of the brain. Therefore, we will examine changes in gene expression in the reward center in response to chronic morphine exposure. To do this, we will employ quantitative PCR on the VTA by first isolating mRNA, then reverse transcribing it into a cDNA library. Next, we created primer pairs for 26 different gene targets that were selected for their participation in the reward pathway. These targets include opioid receptors, glutamate receptors, cannabinoid receptors, and transcriptional regulators. Early results have identified mu and kappa opiate receptor expression downregulation after morphine exposure. Collectively, our data will provide understanding into how morphine exposure changes the expression of important gene targets in the VTA, providing insight into the causes, symptoms, and treatment options for opioid use disorder.

Authors: Spencer Paulsen. Mentors: Jeffery Tessem. Insitution: Brigham Young University. Today approximately 537 million adults are living with diabetes. This figure is expected to rise to about 640 million by the year 2030. Metabolic stress is known to drive the development of the disease. The pancreatic β-cell which is responsible for producing and secreting insulin in response to elevated blood glucose concentrations is particularly sensitive to metabolic stressors. Therefore, understanding the molecular character of β-cells is important to curing diabetes. Nkx6.1 is an important β-cell transcription factor critical for proper β-cell development and function. Our lab has shown a potential interaction between Nkx6.1 and PACS1 in β-cells. PACS1 is associated with the Trans-Golgi network and is involved in protein maturation by sending newly synthesized proteins to their intended target inside or outside the cell. We know that insulin is synthesized in the ER and sent to the Golgi for vesicle packaging. We hypothesized that PACS1 helps sort insulin in the Trans-Golgi network, and that interaction with the β-cell transcription factor Nkx6.1 is essential for this process. Therefore, the study of the interaction between Nkx6.1 and PACS1 may provide a greater understanding of diabetes and insulin secretion in β-cells. Here, we present the results of our investigation of the link between Nkx6.1, PACS1, and the Golgi apparatus. We present data validating the Nkx6.1-PACS1 interaction, the cellular location of the interaction, and the effect of changing glucose concentration on this interaction. These results will help deepen our understanding of how the Nkx6.1-PACS1 interaction works to ensure proper β-cell function.

Authors: Jaren Wilson. Mentors: Joshua Price. Insitution: Southern Utah University. Rural health has been an area of study for population for years as over 46 million Americans live in rural communities as of 2021. Access to healthcare has been suggested as a major disparity of this population. This study examines how the access of healthcare of varying degrees of urbanization impact mortality outcomes, using the number of physicians per 100,000 people as a proxy for the access to health care. Using a dataset over 3,000 counties in the United States over the span of four years we assess the disparities in healthcare access between different geographic locations.The study implores the use of a multivariable regression model controls for time, level of urbanization, physicians per 100,000 people, time, county fixed effects, and other factors regresses the number of mortalities. The goals of this study are to demonstrate the disparities in healthcare access in different geographic locations across the United States.

Authors: Milo E Light, Sohom Mookherjee, J. David Symons, Megan Tandar, Nathan Hill. Mentors: John David Symons. Insitution: University of Utah. Acute ischemic stroke (AIS) deprives cerebral artery endothelial cells (ECs) of nutrients which decreases mTORC1 activity to initiate autophagic flux. We hypothesized that depletion of EC autophagy worsens outcomes of AIS. Methods and results. First, adult male C57Bl6 mice consumed a standard diet (control) or chow supplemented with the mTORC1 inhibitor rapamycin. After 3-weeks, phosphorylated ribosomal S6 / total S6 was greater (p<0.05) in liver segments of rapamycin vs. control-fed mice, indicating mTORC1 repression. Transient middle cerebral artery occlusion (tMCAO, 60-min;) followed by reperfusion (R, 23 h) increased infarct volume, neurobehavioral deficits, and motor dysfunction, to a greater extent (p<0.05) in control vs. rapamycin-supplemented mice. Second, adult male C57Bl6 mice with intact EC autophagy-related protein 3 (Atg3WT) or inducible depletion of EC ATG3 (Atg3EC-/-) completed tMCAO+R. ATG3 colocalization with VE-Cdh5 increased (p<0.05) after tMCAO+R in ipsilesional vs. contralesional hemispheres of Atg3WT but not Atg3EC-/- mice. Neutrophil infiltration, cell death, microglia and astrocyte activation, and neurodegeneration, were greater (p<0.05) in ipsilesional hemispheres of Atg3EC-/- vs. Atg3WT mice. Further, infarct volume was greater (p<0.05), and motor and neurobehavioral performance were worse (p<0.05), in Atg3EC-/- vs. Atg3WT mice. Third, tMCAO+R evoked infarct volume was less severe after rapamycin feeding in Atg3WT but not Atg3EC-/- mice, underscoring the importance of EC autophagy. Conclusions. Intact EC autophagy is protective concerning AIS, potentially via enabling: (i) recycling of damaged proteins; (ii) nutrient generation from degraded substrates; and / or (iii) arterial vasodilation for nutrient delivery.

Authors: Becca fabis. Mentors: Alexandra Giannell. Insitution: Utah Valley University. On December 2nd my friend was killed by a hit and run driver while going on a run at night. It was right before finals. I was involved with the police and helped her family pack up all of my beloved friends belongings and watched as her daddy cried in her room. Words can’t express the agony I saw. Two months later I learned that another roomate (in a different apartment) her cousin had committed suicide. And we were the place everyone gathered. I held her cousin’s (who committed suicide) sister in my arms as she cried. Words cannot express the agony I felt for them.Then on the first day of school this semester (a month ago) my father suddenly passed away from a brain aneurysm. He was at the peak of health. My mom puked from sickness and shock, later got sick with other illnesses, (she’s doing a little better now) then my sister got sick and I was left to care for them on my own. There’s no words to express my exhaustion. The late nights of wandering my house making sure we were safe. Words have no ability to express my agony I’m in. After my roomate passed I created a painting. It’s called my grieving process because it’s of a house, the house represents me. In it through color you can see the process that grief can have on a person. I’m only 25, people say I’m too young to lose this many people. Perhaps they’re right. It’s an eerie painting and pretty odd when you look at it. I have had now three losses that have taught me that sometimes words aren’t enough. That it’s through art I can scream and it is documented. I would love to present on how creating art can be the breathe of fresh air one desperately needs in order to continue on in this fight we call life.

Authors: Ezra Bradley, Sam Wald, Steve Francis, Derek Hansen, Jason McDonald, Jon Balzotti. Insitution: Brigham Young University. This presentation discusses the frameworks used to create an extended reality (XR) technical training for use in a nuclear handling context. Many of these insights can be applied to technical equipment training in various applications. In addition to describing the process for the creation of the training, design considerations are also expounded. These include approaches for colocation within the training, content presentation and navigation, and instructional design.

Authors: Keenan Faulkner. Mentors: Jeff Goeders. Insitution: Brigham Young University. FPGAs are a type of reconfigurable computing chip that are often used in mission critical systems in various applications including aerospace, defense, and telecommunications. Hardware netlists are generally converted into a bitstream and loaded onto an FPGA board through vendor-provided tools. Due to the proprietary nature of these tools, it is up to the designer to trust the validity of the design's conversion to bitstream. However, motivated attackers may alter the CAD tools' integrity or manipulate the stored bitstream with the intent to disrupt the functionality of a design.We have put forward a novel approach to verify functional equivalence between a synthesized netlist and the produced FPGA bitstream using a structural comparison algorithm. This presentation aims to demonstrate the fault-injection testing algorithms designed to prove the veracity of our approach. The fault-injection testing algorithms involve making manipulations to wire connections and initialization values in LUTs (lookup tables) from a bitstream reversed netlist, then running our comparison algorithms on the corrupted netlist and the original synthesized netlist to show that the algorithms will catch the errors.

Authors: Payton Jones. Mentors: Jamie Spinney. Insitution: Southern Utah University. Virtual Reality: The Next Step in Technology-Based Education Virtual Reality (VR) technology offers numerous educational opportunities that can enhance high school curriculum. The use of technology in the classroom has been rapidly evolving since the development of the accessible internet. Laptops, tablets, online learning platforms, and interactive projections are several of the technological developments, and now VR appears to be one of the next steps in that evolution. As VR continues to become more affordable and more advanced, there is a commensurate increase in opportunities to enhance curriculum, instructional techniques, and student engagement. For example, VR enables students and teachers to go on virtual field trips to places that are relevant to class material without the challenges and costs of leaving the classroom. The purpose of this study was twofold; (a) to investigate the different applications of VR technology that can be used to enhance high school social science curriculum, and (b) to summarize some of the main benefits and challenges associated with implementing VR in the classroom. The results of this study indicate that VR technology has considerable potential to enhance both the learning experience and student engagement by providing immersive learning opportunities, but these opportunities are unlikely to be widely utilized in the near future.

Authors: Sierra M Mellor, Madilyn Brandt, Nathaniel Eberhart, Samuel Flor, Julianne H Grose. Mentors: Julianne Grose. Insitution: Brigham Young University. Continued use of antibiotics has driven the evolution of antibiotic-resistant bacteria, which cause infections that prove difficult to treat. Therefore, it is crucial that alternative treatments for bacterial infections are developed. One such promising method, known as phage therapy, utilizes viruses that infect bacteria. However, compared to the high abundance of bacteriophages, relatively few have been isolated and sequenced, with little known about their gene products. Here we have isolated two phages, SummitAcademy and AJGecko, against the host bacteria Gordonia rubripertincta. Gordonia belongs to the Actinobacteria class containing many pathogenic bacteria, including Mycobacterium tuberculosis, and so analysis of SummitAcademy and AJGecko can provide insight into the evolution of this family. Genomic comparison of conserved genes between SummitAcademy and other Gordonia phages identifies 14 hypothetical proteins as unique to SummitAcademy. Subsequent liquid chromatography mass spectrometry (LC-MS) of CsCl-purified SummitAcademy confirms expression of many predicted gene products, verifying the annotation. Several peptides generated through mass spectrometry also provide evidence for extending predicted start sites of gene products. Further characterization of virion proteins and gene products of SummitAcademy can add to the overall knowledge of this cluster of phages and potential phage therapies against Gordonia or related infections.

Authors: Lexi Todd, Jessica Jespersen, Isabel Medina Hull, Mary Crawford, Taylor Powell, Ashley Roberts, Melia Fonoimoana Garrett, Kris Urbina, Elizabeth A Cutrer. Mentors: Elizabeth A Cutrer. Insitution: Brigham Young University. Background: American Samoan children face significant mental health challenges, including high levels of depression and anxiety, often escalating to suicidal thoughts and behaviors during adolescence. Addressing this issue, our study collaborated with community leaders in American Samoa to develop and implement five tailored lesson plans aimed at teaching 35 elementary school children resilience strategies for emotional self-regulation. Method: Employing Multimodal Interpretative Phenomenological Analysis (MMIPA), we examined students' drawings depicting their emotions of sadness, anger, and fear before and after the intervention. The analysis focused on understanding the impact of the lesson plans on students' emotional regulation strategies. Results: Post-intervention, our findings indicated a notable improvement in students' ability to regulate their emotions, particularly fear. Through the lesson plans, students acquired practical skills and coping mechanisms, allowing them to better manage their emotions. This positive shift in emotional regulation suggests that the intervention played a significant role in enhancing students' resilience, specifically in dealing with fear-related emotions. Conclusion: Our study underscores the effectiveness of a community-based intervention approach in addressing the mental health challenges faced by American Samoan children. By providing targeted resilience-focused lessons, students demonstrated improved emotional self-regulation, particularly in managing fear. These findings highlight the importance of culturally sensitive interventions and community collaboration in promoting mental well-being among vulnerable populations.

Authors: Megan Sorensen, Lianna Olsen, Maleah Bowen. Mentors: Ryan Kellems, Cade Charlton. Insitution: Brigham Young University. This research explores how virtual reality can help children with autism. It explores the effects of an intervention using virtual reality to assess the usability of virtual reality for children with autism.There are more than 200 studies that show that video modeling is a viable way to teach students with autism various skills. Research has started to explore if virtual reality is also a successful way to teach students with autism similar skills. Different studies have been conducted regarding social skills and cognitive skills and how they can be taught using virtual reality. There is very little research about fine-motor skills and virtual reality for individuals with disabilities. Our research adds to that research, but specifically explores fine-motor skills and the feasibility of using virtual reality with children with autism. The study uses a single subject research design with 5-10 participants with autism. Before starting data collection, the participant completes a brief tutorial for how to use virtual reality. One tutorial is for how to use the controllers and the other is for how to use the hand-tracking feature that allows the participant to use their hands instead of the controllers. The study is an alternating-treatment design. The individual is given a specific task to complete using the playroom items found in the “First Steps” application on the Oculus Quest. For example, they are asked to stack blocks, throw paper airplanes, etc. They either complete the task using the controllers or with the handtracking feature based upon a random schedule and the latency of the trial is measured. The data compares hand-tracking and controllers and measures whether the participant is getting faster with every trial. It was hypothesized that the students will be able to learn how to use the virtual reality interface and that they will be able to generalize the skills learned to other settings and/or skills, and that the interventions will be viewed by the participant and parents as socially valid ways to learn. It was anticipated that the participant will get increasingly faster at completing the tasks for both hand-tracking and with the controllers. It was also anticipated that the rate of completing tasks with controllers will be faster than that of hand-tracking. Preliminary date has shown this relationship to be true. Future research will explore the specific practices of how virtual reality can be best used for children with autism.

Authors: Nathan Vaughan. Mentors: Jeffery Tessem. Insitution: Brigham Young University. Diabetes Mellitus is a chronic disease characterized by a loss of functional beta cell mass, and impaired glucose homeostasis. Elevated glucose levels in the body are known to be the cause of a plethora of debilitating illnesses. Hyperglycemia negatively effects beta cell function, resulting in impaired insulin secretion and cell death. Two key transcription factors involved in beta cell development, function, and proliferation are Nkx6.1 and Pdx1. We have shown a binding interaction between these Nkx6.1 and Pdx1 and have shown that they co-regulate various genes necessary for beta cell maturity and function. Preliminary data indicate that elevated glucose concentrations downregulate Nkx6.1 mRNA and protein, as well as Pdx1 mRNA. However, the effect of elevated glucose concentrations on Pdx1 and Nkx6.1 binding interaction and subsequent function remains largely unexplored. Here we demonstrate the effect of hyperglycemia on the Pdx1-Nkx6.1 interaction, and the effect on expression of Pdx1 and Nkx6.1 downstream target genes. Understanding the effect of hyperglycemia on this interaction will allow us to better understand the stress that a beta cell is under during diabetic conditions, and to develop interventions to ameliorate these effects.

Authors: Brooklyn Clark. Mentors: Larry Howell. Insitution: Brigham Young University. The application of origami principles in mechanical design has led to novel approaches for dealing with the unique challenges of space applications by improving packing efficiency and increasing customizability. An innovative origami pattern within this context is the "flasher pattern," characterized by its geometric panels and circular deployment. The objective of this research is to develop a robust methodology for optimizing the placement of circular optical wafers within the polygonal flasher panels. These panels have varying polygonal sizes and shapes, and the wafers must be placed precisely in each panel to maximize optical properties for a LIDAR space telescope application based on the flasher pattern. This optimization utilizes existing optimization functions in MATLAB and original code. To achieve this optimization, a process is employed in which a series of random points is generated within the overlapping area defined by the flasher panel's vertices and the optical wafer's radius. Each point is then iteratively tested to determine if it lies within the polygon, the circle, neither, or both. The centroid of the points that were within both shapes is subsequently calculated. This process is repeated with new sets of random points centered on the previously found centroid until an optimal wafer placement is determined. Optimal wafer placement will maximize the usable optical area and performance in a panel. This process can then be applied for each unique panel in a flasher pattern to determine the best placement of each wafer. This process can then be utilized in other origami-based optical applications, leading to a broader impact in the field.

Authors: Sara Peel, Addisyn Bushman, Adam Rice. Mentors: Xinru Page. Insitution: Brigham Young University. Social media has become a tool used in everyday life by individuals worldwide. While this tool can help individuals build new social connections and strengthen relationships, it can be a lose-lose situation for certain populations. Recent work has found that autistic users are one of these populations that experience greater harm and negative experiences using social media. These additional harms stem from differences in how autistic individuals perceive social media norms and interpret online interactions. We have developed 16-week’s worth of digital educational material based on this research to teach autistic young adults social media literacy for Facebook and Instagram, to mitigate some of these social media challenges. With input from a multi-disciplinary team of autism researchers and a panel of autistic students at our university, we created these educational materials to be taught in 1-hour weekly sessions to individuals with autism in a classroom environment. The materials consist of topic-based slides and associated practice exercises that employ a decision-based learning approach that breaks down complicated decisions into several simpler choices. To determine whether participants have learned safer online behaviors, we administer scenario-based assessments at the beginning and end of each session, conduct daily diary-based check-ins, and weekly one-on-one interviews, and analyze behavioral data collected from their personal social media accounts such as posted comments and responses to connection requests.We are currently deploying the 16-week educational course at a local day program to autistic young adults who have no intellectual disability and have had negative experiences using social media. Initial results indicate that the educational materials are helping mitigate the harms of social media. Participants have shared that the educational sessions taught them to disconnect from potentially unsafe users, learn social tags and interaction norms, and change safety settings within each app that they weren’t aware they had control over. In addition to the current longitudinal study, we have several other field deployments planned in the coming months which will allow us to refine the digital assets for this educational intervention in preparation for making them available to the public.

Authors: McKayla Pehrson, Emily Hyde. Mentors: Lyndsey Vader. Insitution: Utah Valley University. Emily Hyde and McKayla Pehrson acknowledge that social factors and life circumstances can provide barriers to success, defined as the ability to implement life skills such as self-discipline, creativity, and perseverance. They address how practitioners and educators can use dance and music to reduce barriers. Hyde and Pehrson engage in discourse analysis of recent scholarship, analyzing trends and outcomes in the cognitive, emotional, physical, and social benefits of arts-based interventions. Their research asks: What cognitive benefits are identifiable through dance and music training? What life skills are taught through the study of both music and dance? What are the benefits of dance and music in advancing different learning styles? What is the importance of administrative support and community-academic partnerships when it comes to arts-based learning? Importantly, their research examines specific national and international training programs that use music and dance as a Life Coaching methodology. The presentation of their discursive findings foreshadows field work and data collection that they will undertake in the summer of 2024. Hyde and Pehrson’s research focuses on the impact of teaching essential life skills through dance and music education. While dance education scholarship addresses positive learning outcomes of arts access, contemporary research does not adequately address how dance educators can receive training as life coaches to enhance their teaching practices. Their research will provide valuable discoveries advancing the conversation about how dance and music are beneficial to the development of life skills and crucial for the success of young learners. Simultaneously, they will offer insight around training programs that help prepare future dance educators to teach these life skills in the classroom.

Authors: Samantha Marx, Jessa Wright, Nathan Dobbin. Mentors: Christa St John. Insitution: Utah Valley University. Goddess of Spring and Death(2023) is a dance for film co-created by three Utah Valley University undergraduates focusing on retelling of the Ancient Greek myth of Persephone and Hades through a new perspective. Throughout time, stories are often retold; however, this myth has rarely been told from Persephone’s point of view. With a collaboration between the two disciplines of ballet and film, there was opportunity for a more intimate viewing of narrative-based choreography with creative camerawork and post-production editing. The purpose of this presentation is to disseminate research from the dance for camera: Goddess of Spring and Death(2023) in addition to how this collaboration affected both disciplines. The traditional myth tells of the story of Hades kidnapping Persephone to the Underworld and marrying her, typically focusing on the actions of Hades and Demeter. However, the researchers’ collective focus of this narrative was to include Persephone’s agency. The narrative still follows a similar plot to the original myth however, Persephone’s character was more developed as she was given the agency to go into the Underworld and eat the pomegranate of her own free will. An unlikely format for this narrative, the respective areas of ballet and film have become a popular collaboration, especially post-COVID. Stereotypically, narrative ballets are commonly performed on a proscenium stage while film works with verbal narratives. Both disciplines were challenged to explore and collaborate together in a field that is not yet standard. The experience for all on the project, including the dancers and crew, was that of gaining new learning that can be applied in the post-graduate fields.

Authors: Jacob Moore, Ian Reid, Brandon Sutherland. Mentors: Tim McLain. Insitution: Brigham Young University. Autonomous unmanned aerial vehicle (UAV) research depends on autopilots capable of integrating new, low-level estimation and control algorithms. Current autopilot software stacks (eg. PX4 and Ardupilot) are bulky and complex, making it difficult for researchers to easily integrate their own algorithms. The codebases for these autopilots are fully-featured, meaning complete understandability is impossible. Furthermore, these autopilots are targeted towards industry and plug-and-play use, not researchers. A research-centered autopilot, with a lean codebase, capable of easy algorithm integration is a needed tool for productive research. ROSflight is an autopilot designed from the ground up with researchers in mind. Currently it is based on a ROS1 framework, which is old and outdated and is reaching end of life. Our research is to update ROSflight to ROS2, the most current version of ROS. Our work includes revamping the existing fixed-wing autopilot, ROSplane, and multirotor autopilot, ROScopter, and extending ROSflight to support vertical takeoff and landing (VTOL) aircraft. Since we started the project, ROSplane and ROSflight now work under a ROS2 framework. We have verified autonomous flight on a fixed wing aircraft, capable of rejecting disturbances. Hardware demonstration of a GPS waypoint-following fixed wing aircraft is in progress. Future work includes hardware demonstration of a multirotor aircraft autopilot and support for a VTOL aircraft.

Authors: Mitch McEntire. Mentors: Marc Killpack, John Salmon. Insitution: Brigham Young University. Title: Rotational Robotic TriggerPresenter: Mitch McEntire, College of Engineering, Mechanical EngineeringAuthors: Mitch McEntireFaculty Advisor: Marc Killpack and John SalmonInstitution: Brigham Young UniversityRobotic manipulation is commonplace on the factory floor but there are often safeguards that prevent direct human-robot interaction. This study aimed to move human-robot interaction into the next phase from separate tasks, to cooperative ones. We started by trying to understand how multiple human teammates communicate during co-manipulation tasks in order to enable humans and robots to eventually work together effectively. This study analyzed the communication forces sent through an object that was being co-manipulated by a triad and dyad of humans. For this presentation, we focused entirely on the task of rotation along the sagittal axis shared between the individuals. In this case, we are able to notice a torque that was transmitted through the object indicating the desired change in orientation of that object. Each trial consisted of carrying a 55 lb table between two individuals and placing the table in different orientations and positions. Data was collected with force-torque sensors at each handle of the table and position data of the table was being tracked by HTC Vive trackers designed for use in virtual reality systems and that were strategically placed around the table. We analyzed 23 of these trials and we were able to identify specific force trends that indicate the table is about to rotate. Once data was collected and analyzed, potential force triggers were extracted from the data. This data is one small step to understanding how humans manipulation teams work together successfully and enabling a robot to be able to cooperate with humans in applications such as carrying a stretcher or moving furniture.

Authors: Ty Wilson. Mentors: Amita Kaundal. Insitution: Utah State University. Climate-induced environmental stresses and the increased use of fertilizers to meet the increasing demand for food significantly threaten food production and soil health. In natural environments, microbes are vital to the growth and development of plants. Their presence in the soil allows for enormous flexibility and nutritional availability for plants, particularly those living in harsh conditions. A plant’s microbiome, especially the underground, plays a significant role in its growth and development and mitigates environmental stresses. Idaho and Utah are particularly challenging environments due to extreme temperatures and arid soil. However, despite these difficult environmental factors, the native plants of Utah and Idaho can thrive. Here, we are exploring the rhizosphere microbiome of Shepherdia x utahensis ‘Torrey,’ a hybrid of two highly drought-tolerant buffaloberry species, S. argentea and S. rotundifolia native to the Intermountain West region of the US to isolate plant growth promoting bacteria. In this study, we isolated drought-resistant plant growth-promoting microbes from the rhizosphere of hybrid buffaloberry. Root samples of hybrid buffaloberry were collected from three locations in Utah: the USU campus, Greenville Farm USU, and the USU botanical garden, Kaysville. The rhizosphere was removed from these root samples and pooled together. The bacteria were isolated on five different bacterial growth media twice. The isolated microbes were then purified using the streak plate method. Forty-six unique isolates were selected based on morphological characteristics and tested for four plant growth-promoting traits. Fourteen bacteria could show the ability to fix nitrogen fix, 18 produced a siderophore, 17 could solubilize phosphate, and 11 produced catalases. IAA production, ACC deaminase, and protease activity assays are in progress. All isolates will be identified by 16S rRNA Sanger sequencing.

Authors: Kylie Hansen. Mentors: Janis Boettinger. Insitution: Utah State University. Cache Valley, Utah, has unique soils due to environmental events such as Pleistocene pluvial Lake Bonneville. This lake extended about 20,000 square miles in Northern Utah, and its depletion left numerous shorelines, the most relevant being the Bonneville and Provo shorelines. These various water levels influence the geological formations in Cache Valley and the different characteristics of soil formation. An important soil-forming factor used to characterize varying soils is the parent material. Parent material is the original sediments the soil formed on and can be various things such as sediments deposited by gravity, streams, lake sediments, or wind. These different materials depend on the location and alter the soil properties. A dominant soil parent material in the Lake Bonneville area is sediment deposited by this lake. This type of parent material is identifiable by coarser-sized sediments, such as cobbles, gravel, and sand. This pattern is evident on terraces in Cache Valley’s lower soil layers, but the near-surface layers have fewer rock fragments and more fine sand, silt, and clay. This distinct difference in particle size leads to the question of what is the parent material source in the surface horizons of soil formed in Lake Bonneville deposits in Cache Valley. There is not much literature on this question and little documentation compares the soil profiles for different Lake Bonneville terrace levels (Bonneville shoreline compared to Provo shoreline). We hypothesize that the different particle sizes of parent material in the surface of soils formed dominantly in Lake Bonneville deposits is eolian sediment transported and deposited by wind. To determine this, we will sample soils across Cache Valley and analyze the fine and very fine sand sediments in plane-polarized and cross-polarized light. This process will identify various minerals within each soil horizon, showing possible differences in the upper and lower horizons. The minerals present in each soil will indicate the parent materials, allowing us to understand what is causing the different textured horizons in these soils and where the sediment originated from.