Fine Arts

Authors: Anna Norman, Chloe Houghton, Macall Walker, Audrey Saunders. Mentors: Tyson Harmon. Insitution: Brigham Young University. Face it! How reliable is emotional facial expression coding within and across raters? Background Emotion, described as “physiological forces, located within individuals, that bolster our sense of uniqueness....” (Katriel, 2015, p. 57) is a critical aspect of day-to-day communication. For people with acquired language disorders post-stroke (i.e., aphasia), this interaction is particularly important due to relatively spared emotional processing, which has the potential to either facilitate or interfere with language processing (see e.g., Harmon et al., 2022; Ramsberger, 1996). The present study is part of a larger project, which seeks to determine whether people with aphasia exhibit more emotional facial expressions during personal narrative discourse than adults who do not have aphasia and whether these expressions are more emotionally arousing. The present study specifically seeks to investigate the reliability of facial coding by comparing average frequency and intensity of emotional facial expressions both within and across undergraduate student coders. Methods In order to quantify emotional facial expression frequency and intensity, undergraduate research assistants are trained to code facial expressions using a modified FACES protocol (Kring and Sloan, 2007). The modified protocol will be used to code emotional facial expressions of video footage that was obtained from participants while they told personal narratives (e.g., talking about an illness they experienced or an important life event). First, research assistants identify the baseline facial expression for each participant. Next, research assistants code transitions from a neutral expression to an emotional facial expression for valence (positive/negative) and intensity. Intensity ratings are scaled from 1 to 4 depending on how many units of the face are involved within the corresponding facial expression. Using this protocol, research assistants will begin facial coding after they are trained and demonstrate mastery by attaining 80% agreement with a master code. Upon completing initial data coding, research assistants will be assigned to recode 10% of previously completed video samples as well as 10% of samples that were previously coded by other coders. This secondary coding will be used to measure intra- and inter-rater reliability across dependent variables: frequency of emotional facial expressions, intensity of positive facial expressions, and intensity of negative facial expressions. Average frequency of emotional facial expressions will be calculated as the number of facial expressions produced per minute within a given sample. Intensity of positive and negative facial expressions will be calculated as the mean intensity within each valence respectively. The average frequency and intensity of initial and reliability codes will then be compared using Pearson’s correlation coefficient. Anticipated Results We anticipate that intra- and inter-rater reliability will be above 0.8. Through a strict training process, research assistants will calibrate their coding to achieve 80% agreement with the master code. We anticipate this training process to produce effective intra- and inter-rater reliability. Findings will be important for determining the reliability of facial coding procedures and trustworthiness of data for answering questions related to the longer-term project. References Harmon, T.G., Jacks, A., Haley, K. L., & Bailliard, A. (2020). How responsiveness from a communication partner affects story retell in aphasia: Quantitative and qualitative findings. American Journal of Speech-Language Pathology, 29(1), 142-156. https://doi.org/10.1044/2019_AJSLP-19-0091 Harmon, T.G., Nielsen, C., Loveridge, C., Williams, C. (2022). Effects of positive and negative emotion on picture naming for people with mild to moderate aphasia: A prelimariny investigation. Journal of Speech, Language, and Hearing Research, 64(3), 1025-1043. https://doi.org/10.1044/2021_JSLHR-21-00190 Katriel, T. (2015). Exploring emotion discourse. In H. Flam & J. Kleres (eds.), Methods of exploring emotions (1st ed., pp.57-66). Taylor & Francis Group. Kring, A.M., & Sloan, D.M. (2007). The facial expression coding system (FACES): Development, validation, and utility. Psychological Assessment, 19(2), 210-224. https://doi.org/10/1037/1040-3590/19.2.120

Authors: Parker Graves, Landon Deru, Bruce Bailey. Mentors: Bruce Bailey. Insitution: Brigham Young University. Chronic illness such as strokes, heart disease and diabetes all rank among the leading causes of death in the United States. Recently, fasting has gained popularity as a means of preventing and treating chronic illness. PURPOSE: Fasting produces multiple beneficial physiological responses that have been shown to aid in chronic disease prevention, one of which is observed in relation to incretin hormones such as glucose-dependent insulin tropic polypeptide (GIP) and glucagon-like peptide-1 (GLP-1). These incretin hormones are released by the gut to augment the secretion of insulin to regulate postprandial glucose levels. During a fast, the decrease in incretin hormones, and resultant insulin levels can aid the body to regain insulin sensitivity. This can lead to more effective blood glucose management and chronic illness prevention. The purpose of the study was to determine the impact of an acute 24-hour fast started with either a high fat (HF) or high carbohydrate (HC) meal on plasma GIP and GLP-1. METHODS: Subjects were over the age of 55, had a BMI equal to or greater than 27, and had no diagnosed metabolic disorders or some other disqualifying medical issues. Using a randomized crossover design, each participant performed two 24-hour fasts. One fast beginning with a high carbohydrate meal and the other a high fat meal, both of equal calories. Venous blood draws were taken at 0, 1, 24, and 48 hours. RESULTS: GIP and GLP-1 (P < 0.001) were both elevated 1 hour after consuming the pre-fast meal in both conditions. In addition, both GIP (P = 0.0122) and GLP-1 (P = 0.0068) were higher in the high fat condition compared to the high carbohydrate condition at 1 hour. There were no significant differences between conditions for either GIP or GLP-1 at any other time point. CONCLUSION: As expected, both incretin hormones spiked postprandially. We did find that GIP and GLP-1 levels were significantly higher at 1-hour postprandial for the HF meal compared to the HC meal. This could give evidence to show how macronutrient levels can affect incretin secretion and alter sensitivity to insulin. However, the impact of the pre-fast meal on GLP-1 and GIP did not persist throughout the fast.

Authors: Leila Moore, Marin Farnsworth. Mentors: Tyson Harmon. Insitution: Brigham Young University. Background:Facial expressions are crucial for understanding human emotions in communication. Coding and quantifying these expressions, however, have often been subjective, leading to issues with reliability and consistency (Kring and Sloan, 2007). To address this, we have modified the Facial Expression Coding System (FACES) protocol (Kring and Sloan, 2007), which traditionally relies on subjective interpretation. Our modified protocol employs a more objective approach by quantifying facial expressions based on the counting of facial units (e.g., eyes, corners of the mouth, eyebrows, and teeth). Each intensity rating corresponds to a certain number of facial units. For example, an expression involving one facial unit would receive an intensity rating of one whereas an expression involving two units would receive an intensity rating of two. Multiple studies have found that women are more emotionally expressive than men overall when considering gestures, body language, facial expressions, and tone of voice (Ashmore, 1990; Brody & Hall, 1993; Hall, 1984). Rather than focusing on overall emotional expressiveness, though, the present study aims to understand how gender impacts the production of emotional facial expressions specifically. Method:The proposed study aims to compare the frequency and intensity of facial expressions produced by men versus women when recounting personal narratives. Participants. Video footage from participants with and without aphasia producing personal narrative discourse will be obtained for equal numbers of male and female participants. Samples will include two personal narratives in response to prompts from the interviewer. The first prompt is to speak of an experience the participant has had with illness/injury/stroke, and the second prompt is to talk about an important event that has happened in their life. Procedure. A modified FACES protocol will be used to code facial expressions in videos obtained from AphasiaBank. The coding process is conducted with the audio muted to help eliminate distractions. The modified FACES protocol includes specific, operationalized criteria for what qualifies as a facial expression. This protocol does not include coding non-facial gestures or eye movements. However, we do take into account the narrowing and widening of eyes in addition to instances when the eyes are opened or closed with intention. A critical question we ask during coding is whether the facial expression conveys emotional content. We have established standards for intensity ratings and will outline how we arrived at these standards, as well as the distinctions between intensity ratings one, two, three, and four. The analysis process includes establishing a baseline expression for each participant and coding for 20 minutes before taking a break to maintain energy and productivity and to ensure accuracy in data collection. Additionally, secondary coding and a final pass for gestalt ratings are performed to ensure comprehensive analysis.Data Analysis. To address our research questions, we will conduct a comprehensive analysis, focusing on our participants' facial expressiveness during personal narrative storytelling. The analysis will involve quantifying the frequency of facial expressions exhibited by the participants. Additionally, we will consider the valence of these expressions, distinguishing between positive and negative emotional content. We will also assess the intensity of facial expressions by counting the number of facial units engaged during each expression. This examination of facial data will allow us to discern not only the prevalence of expressions but also emotional content and intensity, ultimately providing a more in-depth understanding of the gender differences in non-verbal communication during personal narratives.Anticipated Results:Our study aims to explore if there is a statistically significant difference in the quantity, valence, and intensity of facial expressions between men and women. By using a standardized approach for measuring emotional facial expression production, we hope to shed light on the nuances of non-verbal communication during personal narratives and contribute to a better understanding of gender differences in emotional expression. Consistent with previous research, we anticipate that females will produce more frequent and intense emotional facial expressions than males (Ashmore, 1990; Brody & Hall, 1993; Hall, 1984).References:Ashmore, R. D. (1990). Sex, gender, and the individual. In L. A. Pervin (Ed.), Handbook of personality: Theory and research (pp. 486-526). New York: Guilford Press.Brody, L. R., & Hall, J. A. (1993). Gender and emotion. In M. Lewis & J. M. Haviland (Eds.), Handbook of emotions (pp. 447-460). New York: Guilford Press.Hall, J. A. (1984). Nonverbal sex differences: Communication accuracy and expressive style. Baltimore: Johns Hopkins University Press.Kring, A. M., & Sloan, D. M. (2007). The facial expression coding system (FACES): Development, validation, and utility. Psychological Assessment, 19(2), 210–224. https://doi.org/10.1037/1040-3590.19.2.210.

Authors: Ken Dixon, Jack Davis, DeLayney Anderson, Mackenzie Burr, Peyton Worley, Isaac Packer, Bridger Kearns, Jeffrey Okojie. Mentors: Jared Barrott. Insitution: Brigham Young University. IntroductionPersonalized cancer care requires molecular characterization of neoplasms. While the research community accepts frozen tissues as the gold standard analyte for molecular assays, the source of tissue for all testing of tumor tissue in clinical cancer care comes almost universally from formalin-fixed, paraffin-embedded tissue (FFPE). Specific to genomics assays, numerous studies have shown significant discordance in genetic information obtained from FFPE samples and cryopreserved samples. To explain the discordance between FFPE samples and cryopreserved samples, a head-to-head comparison between FFPE and cryopreserved tissues was performed to analyze the DNA yield, DNA purity, and DNA quality in terms of DNA length.MethodsHuman (n = 48) and murine tissues (n = 10) were processed by traditional formalin fixation and paraffin embedding or placed in cryovials containing HypoThermosol solution. 19 human-matched samples were included. These cryovials were cooled to -80°C slowly and stored in liquid nitrogen until the time of the study. DNA was extracted using the same protocol for both tissue types except that tissues embedded in paraffin were first dewaxed using a xylene substitute followed by a multistep rehydration protocol using ethanol and water. Samples were weighed and calibrated to have the same starting mass. After the column purification, samples were eluted in 20 µL and concentration and purity were measured on a Nanodrop. Purity was determined by calculating the 260/280 ratio. DNA fragment length was measured on an Agilent Fragment Microelectrophoresis Analyzer.ResultsGraded amounts of tumor tissue (5- >50 mg) were used to determine the lowest starting material needed to extract 40 ng/mg of DNA. The average for both sample types reached the minimal threshold of 40 ng/mg. However, 74% of FFPE specimens failed to meet the minimum 40 ng/mg, whereas only 21% were below the threshold in the cryopreserved samples (Figure 1). In the cryopreserved group, the average DNA yield was 222.1 ng/mg, whereas 52.8 ng/mg was obtained from FFPE tissue. For DNA purity in cryopreserved tissues, the 260/280 ratio range was 1.09-2.13 with a mean of 1.79. The 260/280 ratio range in FFPE tissues was 0.85-2.76 with a mean of 1.65 (Figure 2). The DNA Quality Number(DQN) is a measurement of DNA fragment length and the percentage that exceeds the threshold of 300 bp. For FFPE, the DQN was 4.4 compared to a DQN of 9.8 for the cryopreserved samples (Figure 3). Setting a higher threshold of DNA length to 40,000 bp and measuring the area under the curve (AUC), it was observed that cryopreserved samples were 9-fold higher in fragments greater than 40,000 bp (Figure 4).ConclusionsCryopreserved cancer tissue provides superior quality assurance measurements of DNA over FFFPE. Treatment decisions based on molecular results demand accuracy and validity. The pathology community should support efforts to cryopreserve cancer biospecimens in the clinical setting to provide valid molecular testing results. The automatic pickling of tumor specimens in formalin is no longer an acceptable default.

Authors: Logan McMaster, Joshua Sponbeck, Malorie Wilwand, A. Wayne Johnson. Mentors: A Wayne Johnson. Insitution: Brigham Young University. In the dynamic game of professional football, where split-second decisions and explosive movements often determine the outcome, players train all year round for optimal athletic performance. Paramount to this performance are the hamstring muscles including the semimembranosus (SM), semitendinosus (ST), and both the long and short head of the biceps femoris (BFLH and BFSH). They play pivotal roles in sprints, agility, jumping, and overall lower-body strength. Because of the critical nature of the hamstrings during functional activity, this study sought to determine which of these three muscles contributes the most to eccentric hamstring strength. Recognizing the correlation between muscle volume and muscle strength, this study compared maximal eccentric hamstring strength with the proportion of each isolated hamstring muscle's volume relative to the total hamstring muscle group volume. Doing so would identify which specific muscle contributes the most to eccentric hamstring strength. This study incorporated 74 male, collegiate football players representing all positions on the team. Maximal strength was assessed through Nordic hamstring curls and overall muscle volume was quantified using magnetic resonance imaging (MRI). Our results show no correlation (R^2<0.2) between maximal force output and proportional muscle volume for the ST, and the BFSH. Additionally, the correlations for these muscles were not statistically significant (P>0.05). The SM muscles had a weak negative correlation (R^2= -0.25) with eccentric hamstring strength that was statistically significant (P = 0.03). The BFLH proportional volume was positively weakly correlated (R^2= 0.22) with eccentric hamstring strength. This correlation was statistically non-significant (P = 0.06). This information shows that no hamstring muscle contributes more to eccentric hamstring strength than any other. Knowledge of this can be invaluable for clinicians and researchers to design comprehensive strength training programs that enhance the collective strength of the entire hamstring muscle group, ultimately optimizing the performance of football players.

Authors: Rachel Prince, Joseph Monsen. Mentors: Jason Adams. Insitution: Brigham Young University. Humectants are an important class of compounds that attract and retain water within a cell. These substances are commonly used in skincare products to prevent the outer layers of the skin from drying out. Humectants also serve a similar purpose in tissue preservation and prevention of decomposition of cadaveric specimens. As there have been few comparative studies analyzing the effects of different chemicals on the preservation of cadaveric tissue, we designed an assay consisting of wet-dry analysis to compare the effects of four common humectants (2-phenoxy ethanol, glycerol, propylene glycol, and ethylene glycol) on water retention in various cadaveric tissues. These tissues include human skin, skeletal muscle, brain, liver, cardiac muscle, and lung tissue. In each experiment, the tissue was submerged in the humectant and then weighed before and after being placed in an incubator. From these values, we calculated the percent difference in tissue mass to determine the most effective humectant concentration for retaining moisture in the tissue. We first tested a concentration gradient for each humectant to determine the most effective concentrations for each humectant. Then we performed a second set of experiments to compare the ideal concentrations of the humectants under the same conditions in each tissue. In our preliminary experiments, we found that glycerol is the most effective in retaining moisture in several of these cadaveric tissues. As we finish our experimentation we plan to create a tissue library to provide an evidence-based standard for wetting solutions used in anatomy labs.

Authors: Katelynn Hales, Katya Hulse, Spencer Hawes. Mentors: Bruce Bailey Jr.. Insitution: Brigham Young University. There is relatively little research examining the effect of intermittent fasting on hunger and appetite. The existing literature suggests a complex interaction between hormonal signals, subjective hunger, and actual eating behavior. Development of effective and sustainable protocols rests on understanding these relationships. Dietary protocols that involve continuous energy restriction have been shown to increase appetite. As intermittent energy restriction results from fasting protocols, there is reason to suspect that fasting may similarly impact hunger and eating behavior. However, some research suggests that ketogenic or very low energy diets may decrease hunger, making it unclear what the effects of fasting may be. Levels of ghrelin, the primary hunger hormone, typically increase over the course of a fast, whereas satiety hormones, like leptin, decrease. However, these hormonal changes do not always align with ratings of subjective hunger. There is some evidence that the post-fast meal may play a role in hunger and appetite. Different macronutrients have been shown to impact hormones, hunger, and satiety differently. Our study aims to determine how ending a fast with a high or low carb shake will influence hunger and satiety hormones and subjective hunger.

Authors: Spencer Jezek, Malorie Wilwand, Joshua Sponbeck, Hunter Jack, Kaden Kennard, A Wayne Johnson. Mentors: A Wayne Johnson. Insitution: Brigham Young University. Hamstring injuries are one of the most common injuries sustained in professional football with 800+ hamstring injuries per year. These hamstring injuries often occur between late swing (eccentric contraction) and early ground contact.PURPOSE: To investigate the correlation of eccentric hamstring strength to muscle volume across positional groups.METHODS:Athletes were divided into three homogeneous groups based on position (big (e.g., linemen), skill (e.g., receivers), combo (e.g., linebackers)). Seventy-three NCAA Division I football players participated (24 big, 37 skill, and 12 combo). Hamstring strength was collected for each leg while performing 3 Nordic curls on a Nordbord device. The peak force of each leg was summed for our data analysis. Collective hamstring volume for each athlete was found through MRI. RESULTS:A Pearson’s product correlation demonstrated an overall moderate correlation (r = 0.52, p < 0.0001) between hamstring muscle volume and strength, with skill players demonstrating a strong correlation (r = 0.66, p < 0.0001), combo players demonstrating a moderate correlation (r = 0.49, p < 0.0001), and big players demonstrating a weak correlation (r = 0.39, p < 0.0001). An ANOVA showed no statistically significant difference of hamstring strength between positional groups (p = 0.1074) relative to hamstring volume (p < 0.0001). CONCLUSION:The observed overall moderate correlation between hamstring strength and muscle volume across positional groups indicates that factors outside of muscle volume contribute to muscle strength. Our data also suggests that, regardless of position, hamstring muscle strength was similar when accounting for volume. Muscle volume was the best predictor of strength for the skill group. However, other factors should be considered, such as motor control factors. In the combo and big groups, these additional factors play a larger role.

Authors: Brenda Payan Medina. Mentors: Andy Eisen. Insitution: University of Utah. Between the years of 1988 and 2016, there has been a staggering figure of individuals, in the hundreds of thousands, that have been incarcerated in what has been recognized as a mass incarceration phenomenon intended to make our nation safer using a “tough-on-crime” approach. As of 2020, the number of people incarcerated is slated to be around two million, and the prison population continues to grow. Along with this stunning growth in our carceral systems has also come the realization that without investment into incarcerated individuals, prison systems will continue to grow without serving any meaningful purpose to both incarcerated people and their communities once incarcerated individuals have served their terms. As a result, educational programming has been implemented in multiple prisons across the country, and following suit is the implementation of visual, theater, and writing-based arts programs. While the original intention of many arts education programs in carceral environments is to serve as a form of rehabilitation, therapy, and assimilation back into society for those that are incarcerated, many incarcerated or formerly-incarcerated artists perceive the arts opportunities offered to be much more valuable and fulfilling than a means of emotional regulation and personal growth; some see it as a way of connection or re-connection with their families, friends, and communities, others see it as a potential career path and redirection of the trajectory of their lives, and some see it as a reclamation of their identities and voices beyond their criminal history.

Authors: Calista Greenwood, Ciera Sanders, Pacen Williams, Kaleb Gardner, Caylor Hafen, Hillary Wadsworth. Mentors: Jordan Yorgason. Insitution: Brigham Young University. Dopamine circuit function in the nucleus accumbens (NAc) and ventral tegmental area (VTA) is implicated in the reinforcing effects of drugs of abuse including opioids. Opioid receptor desensitization occurs during acute and prolonged exposure to opioids such as morphine, which may have long lasting effects on dopamine circuit function. Fast scan cyclic voltammetry (FSCV) was performed in mice that have undergone morphine behavioral conditioning. In NAc brain slices, morphine has no apparent direct effects on dopamine release. In contrast, morphine bath application increases VTA dopamine release, which is reversed by naloxone. Interestingly, morphine induced increases in VTA dopamine release were greater in morphine vs saline conditioned mice, supporting a model of circuit sensitization. Surprisingly, blocking voltage gated potassium channels resulted in a switch in morphine effects, where morphine reduced VTA dopamine release. Morphine treated mice had reduced sensitivity to morphine effects on dopamine release in the presence of potassium channel blockers, suggesting that potassium channels are underlying the increases in sensitivity observed in morphine conditioned mice. Experimental protocols were approved by the Brigham Young University Institutional Animal Care and Use Committee according to the National Institutes of Health Guide for the care and use of laboratory animals. Research was funded by Brigham Young University. There are no conflicts of interests to disclose.

Authors: Joseph Holmes. Mentors: Jared Nielsen. Insitution: Brigham Young University. BACKGROUND Anosognosia is characterized by a stroke victim’s inability to acknowledge their acquired physical deficits. Such patients could believe they can operate their limbs normally even when they cannot. Patients will often attribute other reasons to explain their deficit (unwillingness to move, a sprain, arthritis, etc).Previous research has reported damage from various brain areas, including several fronto-temporal-parietal areas, insula, and subcortical regions. Many studies suggest that the deficit is caused from impaired sensory feedback coupled with spared motor intentions, which involves premotor, sensory-motor regions, basal ganglia, temporal-parietal junction, insular cortex, and prefrontal cortex. The objective of this study is to confirm the involvement of these brain areas. It is also to identify other possible networks that could contribute to the development of AHP. METHODSWe performed a literature review for case studies of patients presenting with anosognosia for hemiplegia (n=17). The majority of cases were attributed to ischemic stroke (n=15) while the others resulted from hemorrhagic stroke. Lesion network mapping analysis was performed on the 17 lesions with a large cohort of healthy control resting-state scans (n=1000). RESULTSThe main regions to which the lesions were functionally connected included the right transverse temporal gyrus (n=17) and the anterior left insula (n=17). It is also important to note that the lesion networks were found to be negatively correlated with a few areas in the prefrontal cortex. CONCLUSIONFurther research should be done to investigate the involvement of specific areas of the prefrontal cortex in AHP. Some regions in the prefrontal cortex may be negatively correlated; however, past research suggests a positive correlation of other prefrontal regions. It is important that clinicians understand the lesion networks of AHP, as it will guide them to treat patients more effectively. Interventions such as transcranial brain stimulation could become more beneficial to patients, as clinicians will know specific areas of the brain to stimulate to mitigate symptoms of AHP.

Authors: Alex Jarvis, Brooklyn Flowers, June Oaks, Sadie North. Mentors: Tyson Harmon. Insitution: Brigham Young University. Background: Dual tasks have been found to negatively affect language production for people with and without aphasia (Harmon et al., 2023). For people with aphasia (PWA) specifically, previous research suggests that limited working memory or attentional capacity contributes to their difficulty with language tasks (Harmon et al., 2019; Pompon et al., 2015; King & Karen 1996; Obermeyer et al., 2020). One common situation in which communication occurs within a dual task environment is talking while driving. Investigating how talking while driving impacts spoken language could help us better understand how to facilitate both safer driving behaviors and improved communication among friends and family while driving. Longer-term, this understanding can springboard further research addressing assessment and intervention practices in aphasia, which better reflect communication in daily life. Original findings related to speech acoustics revealed that talking while driving led to increased speech intensity and decreased speech time ratios (Glenn, 2017; Simmons, 2016). The potential impact of these driving tasks on spoken language, however, has not been investigated. For the present study, we will conduct a secondary analysis of language samples produced across the aforementioned conditions to understand how they impact spoken language production. Method: Data for the present study was collected for a larger project with initial aims of investigating the impact of driving on speech acoustics (e.g., frequency, intensity). This project also investigated bidirectional interference between speech acoustics and driving as well as the effects of different conversational modalities (e.g., talking on the phone, in person, or through Bluetooth). Forty healthy adults who reported no speech, language, or hearing impairment participated in the study. Participants completed seven tasks, which were presented in a random order: driving without speaking, speaking on a hand-held cell phone, speaking on a hands-free phone, talking to a person next to them speaking on a hand-held cell phone while driving, speaking on a hands-free phone while driving, and talking to a person next to them while driving. Within each of these conditions, participants discussed a topic they selected from a list while completing these tasks. To analyze spoken language, we will first transcribe samples orthographically. These transcriptions will then be coded for lexical-phonological, morphosyntactic, and macro-linguistic errors. Parametric statistical analysis will be used to compare across different age groups. Anticipated Results: We hypothesize that participants will demonstrate increased errors in conditions that involve talking while driving (i.e., dual task conditions) than in conditions that involve talking alone (i.e., single task conditions). Previous research suggests dual-tasking has a negative effect on language including lexical and phonological errors even in non-aphasic participants (Harmon et al., 2023). In this study, we would expect more lexical-phonological (e.g., fillers, revisions, repetitions) and macro-linguistic (e.g., aposiopesis) errors during dual task conditions. For future studies involving PWA’s, we would expect more impaired language in dual-task activities than those without aphasia.

Authors: Changxi Xing, Kirsten Chapman. Mentors: Xinru Page. Insitution: Brigham Young University. Prior work from our lab has demonstrated that social media usage can be highly beneficial for autistic young adults. Simultaneously though, it can lead to physical or social harms. In order to better support the autistic community on social media, it is important to provide educational content on social media safety. As such, the BYU Social Technology and Privacy Lab has developed, and is currently validating, educational slides, quizzes, and practices modules.My work focuses on creating a gamified education app that will host these materials. This app will utilize effective gameplay strategies in order to motivate autistic users to meaningfully consume the materials. This app will be designed to cater to the needs of individuals in this community.The project started with a thorough literature search in September. I reviewed prior work on gameplay design and educational psychology of both neurodiverse and non-neurodiverse populations (n=12). We will be engaging in participatory design sessions that allow participants to contribute their own ideas and designs. These designs will be pieced together to form a preliminary prototype of the app. Based on these findings, a mobile application will be built and deployed in the autistic community. Statistics on user performance and the amounts of time they spend on the materials will be collected. These statistics will be analyzed and compared with the non-gamified version of the app. We will also collect qualitative data on participant attitudes towards the app.

Authors: Amanda Carlson. Mentors: Bradford Berges. Insitution: Brigham Young University. Human Immunodeficiency Virus (HIV) causes AIDS and is one of the most studied viruses in history. HIV is a retrovirus that has two copies of a single stranded RNA genome. While there is in-depth understanding of the virus and its pathogenesis, no completely effective treatment or vaccine exists. One potential target for therapeutic treatment of HIV is Viral Protein R (Vpr). Vpr is a multi-functional accessory protein encoded by the HIV genome. While HIV is a quickly mutating virus, the vpr gene remains relatively conserved. Mutations in this protein dramatically impact the rate of AIDS progression compared to the wild type (WT) version of Vpr. The Vpr polymorphism R77Q is associated with the Long Term Non Progressor (LTNP) phenotype. Regular AIDS onset is 5-7 years for WT virus and 10 or more years for R77Q. These differences in AIDS progression have been observed in vivo by following people with HIV over time. We have successfully shown that R77Q activates G2 cell cycle arrest more efficiently than WT followed by apoptosis, a death mechanism with less inflammation compared to necrosis. While the molecular mechanism of Vpr-induced apoptosis is known, it is not yet determined why point mutations in Vpr are changing levels of apoptosis. With further experimentation, we have shown that R77Q has decreased expression of pro-inflammatory cytokines compared to WT virus, which may explain why it is associated with the LTNP phenotype. The functions of Vpr come from binding and modifying cellular proteins and enzymes. The focus of our research is to determine what molecular interactions change between Vpr mutants to better understand the shifts in apoptotic levels. Vpr can be found intracellularly in the nucleus, cytoplasm, and mitochondria and extracellularly in secreted proteins and within virions. We will determine Vpr concentration in these various locations for both WT Vpr and the R77Q mutant, starting by measuring extracellular Vpr. To quantify virion-associated Vpr, we have designed a research plan. We will use WT-Vpr plasmids tagged by GFP to create GFP-tagged plasmids with either WT, R77Q or null mutations using site-directed mutagenesis. We will use Sanger sequencing for confirmation of the proper Vpr mutations tagged by GFP. We will then digest the plasmid DNA, leaving only the Vpr-GFP component and use PCR to amplify the sequences. We will transfect null virus plasmid (NL4-3) and Vpr-GFP plasmids into HEK cells to package the null virus and Vpr-GFP plasmids together to create active HIV particles. Using these virus particles, we will infect Hut-78 cells for a short time to allow the virion to enter the cells. We will then measure GFP fluorescence via flow cytometry, allowing us to quantify virion Vpr. This will be run alongside a mock infection as a control. We hypothesize that differences in virion Vpr concentrations exist among Vpr mutants. Through these experiments, we aim to discover more about the role Vpr plays in cell death by apoptosis and contribute to the existing literature exploring the importance of Vpr in HIV-1.

Authors: Jaiden Sherratt, Madison Ward, Alexandra Clements, Makenzie Vance, Christopher Furlow. Mentors: Julie Johnson Pynn. Insitution: Southern Utah University. Global identity is a concept once recognized by Maslow in 1954 as he said people “feel a kinship and connection, as if all people were members of a single family… Because of this, self-actualizing people have a genuine desire to help the human race.” Historically, it has been seen that this sense of global identity and citizenship can lead to great acts of kindness and empathy, as was the case with Chiune Sugihara who saved over 6000 Jews from Nazi oppression out of a sense of love for humanity (McFarland et al., 2013). It was also found that people with a strong global identity are more likely to be concerned about human rights and hold egalitarian views (McFarland et al., 2012). The research sought to answer the question, “Can images of global success or suffering affect subjects’ feeling of connection with humanity as a whole?” Through this research, we can better understand how positive or negative events impact people’s feelings of global citizenship. Participants will be recruited through the SONA system, as well as the researchers’ social media accounts, and a SUU portal announcement. Our main survey measure is the Identification With All Humanity scale. The scale is intended to measure an individual’s characteristics of concern for global issues and human rights, prosocial attitudes, intergroup forgiveness, and solving global problems (Hamer 2021). Participants were randomly assigned to one of two exposure conditions consisting of either 10 images of human success or 10 images of human suffering. Participants took the adapted IWAH survey, then were exposed to one of the two image sets for five second minimum per image, then took the adapted IWAH survey again to see if the images influenced their perception of global identity. After exposure, participants were asked “Did these images affect your feeling of connection with humanity? Why or why not? The images presented focused on issues of environmentalism. This research is currently in the phase of conducting the survey, and will close the survey gathering on November 1, 2023. Then the researchers will analyze the collected data to see if images of success or suffering influence global identity.

Authors: Claudia Wiese, Josh Steffen, Heather Briggs, Rodolfo Probst. Mentors: Josh Steffen. Insitution: University of Utah. Evaluating effect of formic acid treatment on foraging behaviors of Apis mellifera through pollen DNA metabarcoding using the MinION deviceBees play a vital role in maintaining the health and productivity of terrestrial ecosystems by providing pollination to many of the world’s plants. In recent decades, many bee species, including Apis mellifera (European honeybee), have experienced worldwide population declines.Varroa destructor, an external parasite, is one of the leading causes of honeybee population declines, as they are the primary cause of colony collapse disorder.Various methods exist to control the impact of V. destructor, including Formic Acid (FA) treatment, a well-documented solution to reducing V. destructor numbers. Yet, despite clearly established evidence that A. mellifera behaviors are very sensitive to changes in their hive environment, very few studies have looked at the effect of FA on honeybee foraging behavior. DNA metabarcoding is a powerful tool allowing ecologists to quantitatively assess differences in diet within species without the need for extensive knowledge of pollen taxonomy or complicated fieldwork experiments.In this study, A. mellifera hives (n=7) were split into control (n=3) and treatment groups (n=4). Pollen samples were collected from all hives before, during, and after FA treatment to compare if FA application impacted the foraging patterns of the bees in the treated colonies as compared to the control group. To compare foraging patterns between the treatments, we performed metabarcoding using the trnL (UAA) chloroplast intronic region, commonly used to barcode plant species. Amplicons were subsequently sequenced with a portable sequencer (ONT MinION Mk1C). Basecalling, quality check, demultiplexing, and filtering of the data were conducted with Guppy and Medaka. Obtained sequences (n=120 reads) were compared to a reference database with BLAST to determine the sequence identity of visited plants. With this information, we plan to compare absolute foraging numbers, species, and related ratios between control and experimental hives. Most sequences were assigned with a high percentage identity to a sample database (>89%), Although certain species (e.g., Malus sylvestris [European crab apple] and Prunus avium [wild cherry]) were probably visited by all hives, our preliminary findings show that pollen loads differ between control and experimental conditions, indicating a variation in floral visitation.These results suggest that FA treatment, while effective at controlling V. destructor, may impact honeybee foraging patterns. Further research is needed to understand if this behavioral change is detrimental to the health of the colony, and the consequences of variation in floral visitation to pollination networks.

Authors: Kevin Young. Mentors: Gretchen Ellefson. Insitution: Southern Utah University. The concept of competition is not new to humans, nor is it simple. Countless philosophers throughout the years have approached competition in many ways. One of the core subjects that philosophers have used to discuss competition is that of decision theory. Decision theory, in short, discusses the best things to do. Game theory, a subset of decision theory, discusses the same within the context of games, or in other words, strategy. Both of these subjects have been used to evaluate how best to win games of chance, games of choice, and games in between. I work to explore the concept of making moves to gain information, seeking to learn another person’s moves before you make your own. This subset of moves deserves recognition, especially within the modern eras of competition.

Authors: Alyson Camacho, Camille Bryner, Bowen Houser. Mentors: William Pitt. Insitution: Brigham Young University. Current methods for the diagnosis of bacterial infections require time consuming cultures. To prevent deaths caused by sepsis, faster methods for bacterial identification and antibiotic susceptibility methods are urgently needed. Necessary to these faster methods is the ability to separate and concentrate bacteria. While techniques such as filtering and centrifugation have been explored for this purpose, we propose an innovative approach. Polydopamine (pDA) is a remarkably adhesive polymer that has been used to create antibacterial and anti-biofouling coatings on medical devices. In this study, however, we show how magnetic nanoparticles (MNPs) coated with pDA can selectively bind and remove specific bacteria from suspensions. For these experiments, pDA- MNPs were added to suspensions of bacteria mixtures and allowed to bind for 10 minutes. The MNP/bacteria mixture was then placed on a holder with a magnet which collected the MNPs on the side of the test tube. Finally, the bacterial supernatant was carefully removed and plated. Capture efficiency of the beads was calculated and it was shown that the pDA-coated MNPs preferentially isolated S. epidermidis from a suspension of both S. epidermidis and E. coli. This approach holds great potential for separating bacteria from clinical samples like urine or blood, enabling faster and more efficient diagnosis of bacterial infections.

Authors: Holly Biesinger. Mentors: Ran Qi. Insitution: Southern Utah University. This study analyzes important intersections in the relationship that photography had with polygamy from the year 1878, when the gelatin dry-plate method of photography became commercialized, to 1953, when the Short Creek Raids occurred. The study focuses on the polygamist faction within the Mormon Church (The Church of Jesus Christ of Latter-Day Saints), specifically the group that later evolved into the Fundamentalist Latter-Day Saints (FLDS). It is important to note that not all members of the original Mormon church were polygamists, and as such this study does not represent the church as a whole. Additionally, it is important to note that the entire history of polygamy or photography will not be addressed, but key points of intersection will be acknowledged. This study describes how photography that contained polygamist subjects shifted over time and established a narrative for the outside general public to understand.

Authors: Eve Christensen, Chase Redd, Bailey Uzzardo. Mentors: Elijah Neilson. Insitution: Southern Utah University. The advent of the Covid-19 pandemic in early 2020 brought with it a host of changes to the workplace. One change in particular was the wide-spread transition to remote work as opposed to in-person work as concerns with spreading the Covid-19 virus necessitated a shift in how the labor force performed their work. The Covid-19 pandemic created more opportunities for employees to work from home rather than working on site. This paper seeks to evaluate the correlation between working from home and earnings using an econometric model. By comparing an individual’s earnings before and after the Covid-19 pandemic, along with whether they work from home or on site, we hope to better understand the effect that remote work has on a person's decision to enter the job market and which fields the incoming labor force are pursuing. Our findings will also be relevant to employers as they evaluate what a competitive wage would be depending on the availability of work from home options for a certain job.

Authors: Camille Bryner, Alyson Camacho, Bowen J Houser. Mentors: William G Pitt. Insitution: Brigham Young University. In an attempt to combat a growing number of nosocomial infections related to medical devices, many studies have investigated the effect of polydopamine (pDA) coated surfaces on biofilm formation and found them to have antibacterial and anti-adhesive properties. However, we discovered that pDA coated magnetic nanoparticles (MNPs) display strong attractive interactions with many, but not all, species of bacteria. Fe3O4 MNPs were prepared using sodium acetate, ethylene glycol, and iron (III) chloride hexahydrate solutions and characterized by a variety of methods. XRD data confirmed a magnetite pattern characteristic of Fe3O4, then TEM characterization of MNP samples showed successful pDA coating onto iron oxide particles. Bacterial capture efficiencies (CE) by pDA-MNPs for 8 strains of bacteria were measured by optical turbidity and plate counts. We have found that CE is a function of exposure time to and concentration of MNPS; thus some experiments were done with constant exposure time and variable MNP concentration and others were done at variable exposure times and constant MNP concentrations. Additionally, these pDA-MNPs exhibit extremely efficient adhesion to some bacteria such as Staphylococcus epidermidis (S. epidermidis) while being ineffective at capturing some strains of Esherichia coli (E. coli). We propose that such capture ability of pDA-coated MNPs can be employed for detection and identification of bacteria in hospitals and for food science quality control.

Authors: Audrey Wells. Mentors: Fredric Govedich. Insitution: Southern Utah University. This project is an interdisciplinary meta-analysis of literature across neuroscience, psychology, biochemistry, and biological anthropology. I am interested in comparing the neural physiology of love relationships to that of recreational drug use. I have cross referenced studies on the areas of activation and neurotransmitter level changes for each of these experiences. Both of these activities, specifically when comparing drugs to the infatuation stage of a relationship, show a dramatic increase in the reward complex within the center of the human brain, as well as an increase in risky behavior and obsession with the object of attraction/addiction. I then continued in an analysis of the termination from either positive stimuli, namely, rejection from a lover, and recreational drug withdrawal. I have found that within the motivational sectors of the brain, activation when viewing your rejector, as well as the heightened dopamine produced, show comparable similarities to those who are experiencing an active physiology drug withdrawal.

Authors: Spenser A Clark. Mentors: Acacia Overono. Insitution: Utah Valley University. It is not uncommon for a college student to see a list of learning objectives when skimming through a syllabus for a program or course. The goal of learning objectives is to set reasonable expectations for student learning and guide their study, as well as providing a framework for the development of teaching practices and assessment. Part of the inception of learning objectives as a means of organizing teaching and assessment in the classroom may be attributable to the Taxonomy of Educational Objectives, more commonly referred to as Bloom's Taxonomy. Another taxonomy similar to Bloom's, but much less well known, is the Structure of Observed Learning Outcome (SOLO) taxonomy. Bloom’s taxonomy organizes learning objectives into six categories: Remember, Understand, Apply, Analyze, Evaluate, and Create. The categories are structured as a cumulative hierarchy in which mastery of each level is assumed necessary for progressing to the next. The structure of Bloom’s is not derived from any specific learning theory, but a categorization of pre-existing learning objectives. Bloom’s therefore suffers from a lack of a strong theoretical foundation and may not accurately reflect how learning actually occurs. Additionally, although Bloom’s has been widely employed in the context of educational assessment, research has shown that it suffers from low interrater reliability and is inconsistent between educational contexts such as courses and topics. Unlike Bloom’s, SOLO is based upon Piaget’s Stage Development theory and categorizes learning into five distinct stages: Prestructural, Unistructural, Multistructrual, Relational, and Extended Abstract. SOLO does not suggest that learning is unidirectional or hierarchical. It also acknowledges internal cognitive processes rather than focusing solely on observable behaviors. Although very little research has investigated its reliability, it could be an attractive alternative to Bloom’s because it may more accurately reflect how learning occurs. The present work reviews the development and implementation of these two models and compares them.

Authors: Jonas P Knochelmann. Mentors: Rogelio E. Cardona-Rivera. Insitution: University of Utah. Despite the highly technical nature of Procedural Content Generation (PCG), the holistic study of the discipline is minimal and qualitative. We argue that this gap exists because there is no formal framework to talk about PCG artifacts and algorithms and propose the mathematical field of group theory to serve as such a framework. Group theory is a well-established discipline that has been embraced in chemistry, physics, and art, with tools for analyzing, combining, and generating objects based on their structure. We outline a specific method for applying group theory to PCG and explore a number of case studies in the hopes of developing a more unified formal framework for future study.

Authors: Joseph Nielson, Ben Schooley. Mentors: Ben Schooley. Insitution: Brigham Young University. Chronic obstructive pulmonary disorder (COPD) affects an estimated 30 million Americans and is the third leading cause of death worldwide. A recent effort to curb deaths and hospitalizations involves remote patient monitoring (RPM). Of all possible monitoring parameters, spirometry presents itself as potentially accurate and helpful, but the exact effect and its size remain to be described. A systematic literature review is being performed to describe the current state and future opportunities in RPM systems that use remote spirometry for COPD patients. Only studies that specifically mention the use remote spirometry for monitoring COPD patients were included. The databases PubMed, Web of Science, Scopus, and EBSCO were searched in July and August 2023. Studies are being synthesized by tabulating the study sizes and designs, technological parameters, and interesting findings. Twenty-nine studies have been included spanning feasibility and pilot studies as well as one randomized clinical trial. Remote spirometry for COPD patients has generally been shown to be feasible. Many studies present systems in early stages of development that have yet to be tested thoroughly in large trials. It may be necessary to involve remote spirometry in more large-scale trials soon. Future studies could confirm the degree to which spirometry adds helpful information for monitoring COPD patients.

Authors: A. Kalani Brubaker. Mentors: Nathan Crane. Insitution: Brigham Young University. Binder Jetting is an exciting form of Additive Manufacturing in which a binding agent is selectively deposited on layers of powder to bind the powder together and create a 3D printed part. It is notable for its wide range of materials, energy efficiency, and built-in supports. Much research has been done on how to achieve desirable properties of binder-jetted parts and post-processing, but the fundamental principles of binder-powder interaction and the effects of changing printing parameters are still not fully understood. This research aims to increase that understanding. Each binder-jetted part begins by depositing individual binder droplets in a straight line, and the binder-powder droplets coalesce to form a single line. Adjacent lines are then printed to form a cross-section of the part, the next layer of powder is applied, and the process continues until a 3D part is printed. If the spacing between the droplets is too large or the inter-arrival time too short, the droplets form spheres on the surface of the powder (a phenomenon called balling), and a continuous line is not formed. This research determines how continuous line formation is affected by droplet spacing, inter-arrival time, and controlled misting of the powder bed prior to printing. To examine the effects of these parameters, lines were printed in dry and prewetted powder beds while varying the spacing and inter-arrival time between droplets. The beds were then examined using an optical microscope to determine whether continuous lines were formed. The results were recorded on a graph of inter-arrival time versus droplet spacing, and the “boundary line” for successful line formation was found for each bed. The results showed that the boundary on the prewetted data exhibited a different relationship than dry powder beds, suggesting that a different binder-powder principle may dominate after prewetting. The prewetting also shifted the boundary upwards, making it possible to form continuous lines at higher droplet spacings and shorter inter-arrival times. This increased ability to form continuous lines has the potential to significantly increase the throughput of binder-jetted parts.

Authors: Megan DuVal, John Longino, Rodolfo da Silva Probst. Mentors: John Longino. Insitution: University of Utah. Army ants (Formicidae: Dorylinae) are top predators throughout most tropical and subtropical regions of the world. Their nomadic colonies and cooperative social hunting make them behaviorally and ecologically unique keystone species that are of conservation concern. Their status as nomadic top predators makes army ants vulnerable in areas affected by habitat fragmentation. An obstacle to conservation efforts is the outdated army ant species-level taxonomy, which hasn’t been updated since the 1950s for many genera. For Labidus, a widespread and ecologically important army ant genus in the Americas, there are currently seven valid species recognized solely based on morphology of workers and/or males. Three species are only based on males, which need to be associated with their respective workers, and within the four primarily worker-based species, there are likely cryptic species. To address these issues, we applied cutting-edge phylogenetics and phylogenomics to update the species-level taxonomy. To construct our phylogenetic tree, we used ultraconserved elements (UCEs, which use thousands of regions across the genome and can accurately infer evolutionary relationships across broad timescales) from 17 specimens, 66 COI barcodes from the Barcode of Life Database (BOLD), and 35 new COI barcodes obtained through in-house Nanopore sequencing. Through our analyses, we found that the genus Labidus contains at least 11 species and that all of the previously recognized wide-ranging species are made up of multiple cryptic species with more restricted ranges. We were able to associate all three previously identified male-based species with their respective workers. We have also found patterns of parallel and overlapping biogeography across multiple Labidus clades. Our UCE+Nanopore approach allows for an updated taxonomy of Labidus, leading to a better understanding of its evolutionary history and a better ability to promote its conservation.

Authors: James Wade, Chris Paul. Mentors: Nathan Usevitch. Insitution: Brigham Young University. Soft Robotics offer significant advantages when completing certain tasks compared to other robots and methods. Compliance, adaptability, and energy efficiency are a few of the major advantages. On the moon, where safety, volume and versatility are of high importance, soft robotics may find an innovative niche. NASA’s BIG Idea Challenge for 2024 incentivizes creating new innovative soft robot designs. Our research group is building our facility mentor, Nathan Usevitch’s, work at Stanford University. Doctor Usevitch and his cohort developed an octahedral, inflated robot composed of multiple tubes folded into triangular shapes in a truss-like structure. Each triangle consisted of a long inflatable tube and 3 motorized modules at the nodes of the triangle. The motorized nodes (consisting of a DC motor and rollers) roll along the length of the tube, lengthening one edge of the triangle while shortening the other. By attaching multiple triangles to each other in geometric shapes, flexible structures are created that can adapt their shape to the desired need. Because this system has a constant inflated volume, no external air compressor is necessary, allowing for untethered movement. The bulk of the mechanical work is performed by electric motors, providing a higher energy efficiency than a system of repeated inflation. Furthermore, this design is compactly stored when deflated, optimal for transport into space.To build on this design and optimize it for use on the moon, our research group will make the following changes and improvements:- Developing the physical prototype. This will enable robust and dynamic movement and the support of large loads- Develop a simulation tool that allows us to explore different configurations of the robot for different tasks- Develop a joint system that allows an astronaut to quickly reconfigure the triangles into different structures based on the required task - Develop a control approach that accounts for the underdamped dynamics of large inflatable structuresThrough our research, we hope to expand the possibilities of soft robotics. We are synthesizing the advantages of traditional robotics (robustness, untethered motion) with the unique strengths of soft robotics (flexibility, adaptability, cost efficiency).

Authors: Brynlyn Hastings, Dante Cervantes, Jaime Analuisa. Mentors: Lindsay Chaney. Insitution: Snow College. Ants are a diverse and ecologically significant group of insects, yet their species identification in the field can be challenging due to their small size and morphological variation. In this study conducted at Snow College, we employed DNA barcoding techniques to unravel the ant species diversity within the local ecosystem of Snow College's Campus. Our research aimed to shed light on the ant species biodiversity concerning areas that had more human interference compared to those with little human interference contributing to a better understanding of local biodiversity.

Authors: Joshua Thlaman, Brynlei Luke, Emily Pattee. Mentors: Lindsay Chaney. Insitution: Snow College. We tested if grasshopper species varied based on locations with constant human interaction vs. locations with little to no human interaction within Sanpete county. Due to how close, (a 6 mile radius), the collection locations are, it was logically reasoned that there will be no differences in grasshopper species between Ephraim and Manti Utah.​This study was performed with grasshoppers collected in Sanpete County: specifically, the town of Ephraim, Ephraim canyon, the town of Manti, and Manti canyon. To do this, we collected grasshoppers from each of the mentioned locations, extracted the DNA samples by humanely freezing the grasshoppers and collected small amounts of the grasshoppers, amplified the DNA samples using PCR, and sequenced the PCR products to help identify the grasshopper species collected using BLAST. ​Our experiment results showed that there was a large variation of species collected, as well as many similar species were present in all collection locations. Ephraim housing and Ephraim canyon only had one type of species present (Melanoplus sanguinipes), while Manti housing showed three other species (Melanoplus differentialis, Dissosteira carolina, Trimerotropis pallidipennis), and Manti canyon showed another species type (Trimerotropis cincta). This suggests that there is more variation within Manti housing and Manti canyon, no variation within Ephraim housing and Ephraim canyon, and only some variation between Manti and Ephraim.

Authors: Michal Hansen, Nathan Werner. Mentors: Nathan Werner. Insitution: Southern Utah University. The preparation of pharmaceuticals and fine chemicals requires chemical reactions that make carbon-carbon bonds. Carbon atoms of three different hybridazations are known: sp3, sp2 and sp. Most reactions are specific to the hybridization of the carbon atom. We will study a reaction to bond an sp2-hybridized carbon to an sp3-hybridized carbon. This reaction could then be used to make interesting molecules that contain similar bonds. Specifically, the synthesis of 1,3-diphenylpropene will begin with a hydroboration reaction of phenylacetylene with pinacolborane. These two starting materials are combined with a 9-BBN-catalyst and heated to reflux in tetrahydrofuran at 65 degrees Celsius for 1 hour. The hydroboration product is then purified by aqueous extraction and silica gel flash chromatography. The product from the hydroboration reaction contains an sp2-hydridized carbon-boron bond and is then combined with benzyl bromide that contains a sp3-carbon-bromine bond. This is the reaction that we are studying. They are heated in DMF solvent with a palladium catalyst, ligand and base at 90 degrees Celsius for 1.5 hours. Once the reaction is complete, the cross-coupling product is purified by aqueous extraction and silica gel flash chromatography.

Authors: Cate Bateman, Jose Aurelio De La Rocha Tapia, Ethan Fulwood, Arianna Harrington. Mentors: Arianna Harrington. Insitution: Southern Utah University. The Eocene-Oligocene boundary in North America was marked by climatic cooling and drying. This transition is a key time in mammalian evolution, and studying fossils spanning this boundary could yield important information about how fauna responded to the climatic change. McCarty’s Mountain, a fossil rich geological feature located in Madison County, Montana, has long intrigued scientists due to the many insights it holds into the terrestrial fauna of the region. The sites from McCarty’s Mountain date from the Chadronian North American Land Mammal Age, which corresponds to the late Eocene epoch. The geological strata to produce these fossils were thought to have been deposited in a floodplain, yielding remarkably preserved fossils which have been collected and studied since the early 1900’s. However, the microfossils from this locality have been understudied despite the insights it could provide to the terrestrial Eocene-Oligocene transition in North America. In this study, we aim to close this gap by analyzing microfossils picked from matrix collected from McCarty’s Mountain localities in summer 2023. Preliminarily, we have processed about ⅛ of the collected sediments, and have found several identifiable elements including mammalian teeth, vertebrae, and long bones. We will continue this work by washing and soaking the remaining matrix and quantifying the microfossils retrieved. The fossils recovered may provide future insight to changes in microfauna across the Eocene-Oligocene boundary.

Authors: Ashley Hartwig, Dr. Weeg. Mentors: Matthew Weeg. Insitution: Southern Utah University. The physiological benefits of petting pet cats, dogs, and horses have been thoroughly investigated for decades. Studies suggest that the act of handling and being around pets can offer direct cardiovascular benefits, such as lower blood pressure and heart rate as well as indirect benefits such as lowering triglyceride and cholesterol levels. However, the ability of pet reptiles to offer similar benefits has not been explored. In this work, we investigated the effects of reptile handling on the handler, expressed by cardiovascular variables. An automated blood pressure device was used to obtain the blood pressure and heart rate of participants every five minutes over a 20-minute time period. Three different conditions were tested for each participant: one where they handled a snake (Python regius), one where they handled a lizard (Pogona vitticeps), and one where they handled a stuffed animal , which served as the control. Overall, we saw a significant decrease in the systolic blood pressure in subjects during both reptile conditions compared to the control , though there was no change in diastolic blood pressure, mean arterial pressure (MAP), or heart rate. A decrease in systolic blood pressure has also been documented in studies involving mammalian companion animals. Therefore, our results provide evidence that handling snakes and lizards might provide some of the same cardiovascular benefits as handling cats, dogs, or horses. If so, this lends support to the argument that lizards and snakes can also be considered companion animals. These conclusions can be used to advocate for proper reptile husbandry and conservation efforts to protect native species in the fight against stigmas surrounding reptiles.

Authors: Clista Galecki. Mentors: William Anderegg. Insitution: University of Utah. This project will determine whether exposure to wildfire impacts a plant's ability to acclimate to summer drought. This is important because with rising temperatures and droughts there is an increase of wildfires (Diffenbaugh et al., 2015). This question will be address by comparing drought physiological traits of a native tree species, Utah juniper, in burned versus unburned sites in central Utah. The goal of the project is to determine whether plants that survive wildfires are more or less drought resilient. This research may provide insight into whether various tree species are better adapted to survive droughts and wildfires which will help in future ecology predictions of the future landscapes.There are multiple factors in why forests respond differently to drought. The factors include elevation, prior exposure to fire, prior exposure to drought, clade, and species (Anderegg et al., 2020). Severe drought or heat from a fire can result in hydraulic failure (McDowell et al., 2008). This means that the plant has loses its ability to sufficiently move water from the roots to the leaves. Which could indicate that trees burned in wildfires will not be better adapted to summer drought. Whereas there is a possibility that if the tree has had sufficient amount of time to recover from a stressing event that it could be better adapted for future droughts (Anderegg et al, 2020). My project will focus specifically on the effects of prior exposure to fire on Utah juniper (Juniperus osteosperma) drought acclimation ability.

Authors: Logan Whitney, Jaren Wilson, Elley Colledge, Jamie Thygerson. Mentors: Jessica Pullan. Insitution: Southern Utah University. Exosomes are nanosized (40-150 nm) extracellular vesicles (EVs) secreted from cells that play a vital role in the human body's intracellular communication.1 The use of bovine-derived exosomes as a drug delivery vehicle provides an innovative approach to targeted drug delivery4 due to their stability, nontoxicity, non-immunogenic properties, and cost efficiency.5,6,7,8,9 The purpose of our research is to establish and refine a raw bovine milk exosome isolation protocol to determine the quality of exosomes. Current standards for small EV identification are currently being established and regulated by the International Society of Extracellular Vesicles (ISEV) but center around three main categories: proteins, nucleic acids, and lipids.2 To refer to EVs as exosomes, they must be of endosome origin, otherwise they are referred to as ectosomes, and must be appropriately referred to by their size.13 Upon isolation, we verified the morphology of the small EV’s using Scanning Electron Microscopy, allowing visualization of the size and shape of the small EVs. Our research methods for the quantification of surface proteins include Rose Bengal Assay12 and Bradford Assay. Examination using exosome-specific cell surface markers, such as CD63, demonstrates protein functionality of the small EVs. Quantification of lipids allows for comparison of lipid concentration to surface protein concentration for further evidence of exosome identification. Lastly, RNA quantification ensured the small EVs met the concentration threshold to be defined as exosomes. The combination of these methods will further the work in bovine milk extracellular vesicles by yielding a low-cost, high-yield protocol for the isolation and characterization of EVs that can be further used as biomarkers, drug carriers, and a variety of platforms of delivery to physiological targets. [1] Rayamajhi, S., Nguyen T., Marasini R., Aryal S. Macrophage-derived exosome-mimetic hybrid [2] Théry, C., Witwer, K.W., Aikawa, E., Alcaraz, M.J., Anderson, J.D., Andriantsitohaina, R., et al. Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines.  Journal of Extracellular Vesicles 2018; 7:1. [3] Pullan, J. E., Confeld, M. I., Osborn, J. K., Kim, J., Sarkar, K., and Mallik, S. Exosomes as drug carriers for cancer therapy. Molecular Pharmaceutics 2019; 16:1789–1798. vesicles for tumor targeted drug delivery. Acta Biomaterialia 2019; 94:482-494.  [4] He J, Ren W, Wang W, et al. Exosomal targeting and its potential clinical application. Drug Deliv Transl Res 2022;12(10):2385-2402. [5] Munagala R, Aqil F, Jeyabalan J, Gupta RC. Bovine milk-derived exosomes for drug delivery. Cancer Lett. 2016; 371(1):48-61. [6] Rashidi M, Bijari S, Khazaei AH, Shojaei-Ghahrizjani F, Rezakhani L. The role of milk-derived exosomes in the treatment of diseases. Front Genet 2022;13:1009338.  [7]García-Martínez J, Pérez-Castillo ÍM, Salto R, López-Pedrosa JM, Rueda R, Girón MD. Beneficial Effects of Bovine Milk Exosomes in Metabolic Interorgan Cross-Talk. Nutrients 2022;14(7):1442.  [8] Mashouri, L., Yousefi, H., Aref, A.R. et al. Exosomes: composition, biogenesis, and mechanisms in cancer metastasis and drug resistance. Mol Cancer 2019; 18:75.  [9] Radha Munagala, Hina Kausar, Charu Munjal, Ramesh C. Gupta, Withaferin A induces p53-dependent apoptosis by repression of HPV oncogenes and upregulation of tumor suppressor proteins in human cervical cancer cells, Carcinogenesis 2011; 11:1697–1705. [10] Wijenayake S., Eisha S., Tawhidi Z., Pitino M.A., Steele M.A., Fleming A.S., et al. Comparison of methods for pre-processing, exosome isolation, and RNA extraction in unpasteurized bovine and human milk. PLoS ONE 2021;16:e0257633. [11] Osteikoetxea X., Balogh A., Szabó-Taylor K., Németh A., Szabó T.G., Pálóczi K., et al. Improved Characterization of EV Preparations Based on Protein to Lipid Ratio and Lipid Properties. PLOS ONE 2015;10:e0121184. [12] Kishore, S.; Maruthamuthu, M. Binding of Rose Bengal onto Bovine Serum Albumin. Proceedings / Indian Academy of Sciences 1993, 105 (4–5), 279–285. DOI:10.1007/bf02866917. [13] Théry, C., Witwer, K. W., Aikawa, E. et al. (2018). Minimal information for studies of extracellular vesicles 2018 (MISEV2018): A position statement of the International Society for extracellular vesicles and update of the MISEV2014 guidelines. Journal of Extracellular Vesicles, 7(1). https://doi.org/10.1080/20013078.2018.1535750z

Authors: Mackay B Steffensen, AustinRyan A Kirkby, Kieran L Richards. Mentors: Mackay B Steffensen. Insitution: Southern Utah University. Cyanuric chloride, a 1,3,5-trichlorotriazine, serves as a valuable platform for constructing innovative molecules. This project explores the unique reactivity of triazines to synthesize triazine crown ethers—a class of cyclic polyethers with a central cavity capable of selectively binding metal ions and polar molecules. Temperature-controlled nucleophilic aromatic substitution is employed to selectively substitute the triazine ring, providing precise control over the reaction. The first substitution with a primary amine nucleophile occurs rapidly at 0 °C, while subsequent substitutions at room temperature or 70 °C necessitate longer reaction times. This controlled approach enables the incorporation of three different amines.The project aims to synthesize triazine crown ethers through temperature-dependent substitution using two different methods. The first approach employs a diamine with an ether linkage in the presence of a base, facilitating consecutive substitutions to produce the target molecule. Intramolecular reactions are favored, but intermolecular reactions may lead to unexpected yet valuable products. The second method utilizes templated synthesis, taking advantage of the affinity of crown ethers for metal cations to promote cyclization reactions. A traditional route involving post-synthetic cyclization with ethylene glycol is also considered.The successful synthesis of these molecules opens up opportunities for further research, including characterizing their affinity for metals and exploring other unique properties. The acquired knowledge can be applied to construct more complex molecular structures, making this work valuable in materials science, analytical chemistry, and pharmaceuticals.

Authors: Lonnie Ernst. Mentors: Lane Law. Insitution: Salt Lake Community College. Cyanobacteria are photosynthetic bacteria commonly found in water. Microcystis aeruginosa is one such cyanobacteria that is found within the waters of Utah Lake. M. aeruginosa produces the microcystin toxin which is harmful to the aquatic life and contributes to the ongoing problem of eutrophication and, if ingested, is also harmful to humans. Alongside this toxin producing cyanobacteria, Utah Lake is contaminated with polychlorinated biphenyls (PCBs) which are highly carcinogenic chemical compounds. This study aims to offer a method of bioremediation by engineering M. aeruginosa to carry a BPH gene pathway that breaks down PCBs. Using CRISPR, this gene would remove the microcystin producing gene and replace it with the BPH gene resulting in the engineered M. aeruginosa to breakdown the PCB contaminants and halt further production of the microcystin toxin.

Authors: Sydney Pruett. Mentors: Roger Gold. Insitution: Southern Utah University. Microbiologically Induced Calcite Precipitation (MICP) presents an innovative avenue for sustainable construction and environmental remediation. This biogenic process leverages the enzymatic hydrolysis of urea by microorganisms to generate calcium carbonate crystals, offering a green alternative with carbon sequestration potential, enhanced structural durability, and self-healing capabilities. Sporosarcina pasteurii is currently the predominant microorganism employed in biobrick production due to its notable urease activity. This study endeavors to assess the MICP potential of less explored bacterial strains with comparable urease activity levels. The strains under investigation include Sporosarcina ureae, Bacillus sphaericus, Bacillus thuringiensis, Bacillus cereus and Bacillus stearothermophilus. Additionally, we aim to shed light on the viability of these alternative microorganisms for MICP applications, contributing to a broader understanding of this promising technology's adaptability and potential implications for sustainable construction practices.

Authors: Alix Elliston. Mentors: Lane Law. Insitution: Salt Lake Community College. Cyanobacteria (colloquially known as blue-green algae) are photosynthetic prokaryotes commonly found in water. Several genera of freshwater cyanobacteria, including Microcystis, Planktothrix (Oscillatoria), and Anabaena, produce potent hepatotoxins known as microcystins. Eutrophication and increasing temperatures facilitate an overgrowth of toxin-producing cyanobacteria, referred to as cyanobacterial harmful algal blooms (cyanoHABs). There are several known cyanophages which infect these genera and there has been some research into the role phages play in regulating cyanoHABs. This study aims to isolate microcystin-producing cyanobacteria from Utah Lake, as well as known or novel freshwater cyanophages which can infect the isolates. Any isolated phage will be propagated, have its DNA extracted and sequenced, and studied for use as a CRISPR delivery vehicle to target toxin-producing cyanobacteria, with the aim of knocking out microcystin biosynthesis.

Authors: Isaac Wilson, Bree Wilson. Mentors: Arianna Harrington. Insitution: Southern Utah University. Understanding the body size of an organism is crucial for discussing its ecological role, potential trophic impact on its environment, and life history. The sauropod dinosaurs represent the largest land animals known, reaching masses many times that of modern elephants and rivaling the most massive cetaceans in some cases. This study attempts to quantify the body size variation between average and maximum sauropod dinosaurs by using Camarasaurus as a focal genus and comparing appendicular elements from the same quarries. Intraquarry rather than intraspecific variation is chosen due to the difficulty of diagnosing limb elements to the species level, and limb elements are known to scale isometrically in Camarasaurus. In addition to Camarasaurus-centric measurements, extant and extinct ecological analogues with recorded body size ranges are also used to estimate body size variation. While their life histories are not well-known, histological analysis indicates that sauropods were likely tachymetabolic endotherms, and their growth curves were most similar to birds and large herbivorous mammals in terms of extant taxa. This is in contrast to basal sauropodomorphs like Plateosaurus, which is demonstrated to exhibit high developmental plasticity. Minimum intraspecific size variation, collected from the literature and based on birds, nonavian dinosaurs, and large herbivorous mammals suggest that the largest representatives of any given sauropod species could have been between 139% and well over 200% larger than the average. Applying preliminary ratios from the data collected so far to the largest well-preserved sauropod, Argentinosaurus huinculensis, results in a plausible maximal mass of 137-177 tonnes for the genus.

Authors: Seunghwan Shin, Sydney Coates. Mentors: Guizella Rocabado. Insitution: Southern Utah University. Organic chemistry is one of the most feared and failed courses in the undergraduate curriculum. Consequently, studying what makes this course “too difficult” as perceived by students is worthwhile because these perceptions result in many students not considering STEM majors because they require chemistry courses. Our research group has investigated perceived costs in general chemistry, and this study expands our understanding of these constructs in organic chemistry. Students’ perceived costs of a chemistry class can be many, such as task effort, loss of valued alternatives, emotional, and others. These costs might be overcome by students’ interests and goals, yet the level of perceived costs might have a lasting impact on the students’ overall perception of chemistry and their desire to pursue chemistry and other STEM careers in the future. In this study we investigated the mentioned subclasses of perceived costs, other salient perceived costs, and mastery or performance goal orientations and the impact these constructs may have on students’ experiences in organic chemistry classrooms. Expanding on a previous study in general chemistry, we present the results of interviews we conducted with students in this class. Our results reveal that students struggle with the content, pace, and overall difficulty of the material. These results are not surprising; however, we also uncovered the students’ deep desire to learn and understand the material, the motivating effect of having a good relationship with their professor, and many other themes that emerged from our conversations.

Authors: Gabriella Proctor, Luke Alder. Mentors: Marcos Corchando Sonera. Insitution: Southern Utah University. The chytrid fungus Batrachochytrium dendrobatidis (Bd) is known to cause the disease chytridiomycosis and is notorious for its role in decimating anuran populations worldwide. A highly prevalent invasive species, the American bullfrog (Lithobates catesbeianus), is understood to play an important role in the transmission of this disease in invaded regions. Notably, American bullfrogs are often largely immune to the effects of Bd, making them important reservoirs of the pathogen. Within southern Utah, this species has successfully invaded the Virgin River watershed, yet this population has not been the subject of prior study regarding its potential as a reservoir for Bd. We hypothesize that the Utah population has also been infected with Bd, potentially endangering native amphibian species. We sampled 46 bullfrog specimens from eight distinct aquatic habitats within the Virgin River basin in southwest Utah. Skin swabs will undergo purification and quantification, followed by PCR and gel electrophoresis to visualize and confirm results. We hope that our findings will be valuable in comprehending the impact of invasive American bullfrogs on amphibians within the Colorado River basin, particularly in relation to the spread and effects of chytridiomycosis.

Authors: Braden Nelson. Mentors: Nathan S Werner. Insitution: Southern Utah University. The stereocontrolled palladium-catalyzed Suzuki-Miyaura cross-coupling reaction of (E)-2-phenylethenylboronic acid pinacol ester with aryl chlorides to produce (E)-stilbene derivatives was studied. (E)-2-Phenylethenylboronic acid pinacol ester was synthesized by 9-borobicyclo[3.3.1]nonane (9-BBN) catalyzed hydroboration reaction of phenylacetylene with pinacolborane. The reaction conditions of the palladium-catalyzed cross-coupling reaction of this reagent with aryl chlorides were then evaluated to maximize the yield of the cross-coupled product. The maximum yield of (E)-stilbene, 74%, was obtained when the amount of (E)-2-phenylethenylboronic acid pinacol ester was increased from 1.2 to 1.5 equivalents, RuPhos was used as the ligand, K2CO3 was used as the base, and DMF was used as the reaction solvent at 90 °C. Four other aryl chlorides bearing electron-withdrawing and electron-donating substituents in the ortho- and para-positions were found to undergo facile coupling in 91-100% isolated yield.

Authors: Derek Baker, Lauren Jensen, Dagney Goodfellow, Seunghwan Shin. Mentors: Guizella Rocabado. Insitution: Southern Utah University. Differences in sexes have long been speculated, yet their application in chemistry learning environments has not been well researched. Literature shows that males have larger cerebral volumes for visual capacities more often associated with hands-on projects and courses than female brains. And female brains have larger cerebral volumes for areas associated with memorization and socialization which more highly correlate with lecture-based learning. Given the high attrition of women in chemistry courses, we investigated this phenomenon in organic chemistry topics that are highly visual (e.g. chirality, Newman projections, chair conformations, bond rotations, etc.) and topics that require more memorization (e.g., functional groups, energy values associated with sterics, nomenclature, definitions, etc.). We conducted an anonymous survey with students who are currently enrolled in organic chemistry or have taken organic chemistry in the past. The questions varied in difficulty as well as levels of visualization or memorization required. The results show correlation with the literature that males score better in the visual-based questions, and females score better in the memorization-based questions. In addition, we conducted interviews with male and female students in organic chemistry, and found that the female students self-generated various techniques to visualize 3D rotations (e.g., use their hands, draw arrows, etc). While most male students didn’t adopt these techniques because they were able to do the 3D rotations in their head. With these results, we plan to design course interventions to bridge the gaps between the extremes of visualization vs. memorization-based concepts for the students.

Authors: Jacob Armstrong, Tyler Standifird. Mentors: Tyler Standifird. Insitution: Utah Valley University. Lower Limb Asymmetries in Unilateral Jump Mechanics as Possible Risk Factor for Injury in Collegiate WrestlersJacob Armstrong and Tyler Standifird 1Utah Valley University, Orem, Ut. Injuries impose a multi-faceted burden on athletes, coaches, and sporting organizations, encompassing physical, financial, and psychological ramifications. Determining risk factors and identifying them in athletes has been a widespread goal amongst researchers and practitioners in attempts to reduce injuries. Investigating Limb asymmetries, or limb imbalances, has been a common approach in identifying such factors but has shown inconsistent correlations with injuries (Melony, 2018). Moreover, much of the current research investigates asymmetries of outward limb performance (i.e., Strength, flexibility, jump performance etc.) and not asymmetries of internal joint mechanics. Identifying relationships between internal joint asymmetries and lower limb injuries can further aid coaches, practitioners and sporting organizations in effectively identifying injury risks. Purpose: The purpose of this study was to investigate internal joint asymmetries of the lower limbs during unilateral jump testing and their association with injuries in collegiate wrestlers. Methods: 23 healthy Division 1 NCAA collegiate wrestlers performed single leg depth jumps from a 12-inch platform unto force plates (Bertec Inc 1000 hz). Additionally, markerless motion capture technology was used to collect video data using Qualisys Mocap cameras (Qualisys North America, Inc. Buffalo Grove, Ill). Imagery was then processed in Theia (Theia Markerless, Inc. Kingston, Ontario) to produce 3d joint locations for all the joints of the lower extremity. Each wrestler performed 3 jumps with the left leg and then 3 with the right leg for a total of 6 jump attempts. 7 total variables were calculated and recorded in Visual 3D software (Dolomite Enterprises, LLC. Tallahassee, FL) for each wrestler and leg: drop max vertical force, vertical loading rate on drop, peak knee adduction angle, peak knee abduction moment, peak knee adduction moment, peak knee flexion angle, peak knee extension moment. Averages, standard deviations and percent differences were also calculated and compared between limbs. Injury history data was also collected from each participant from the year 2021 - present day.Results: Averaging found asymmetries in peak knee adduction angle with the left knee being greater than the right by 4.9 degrees (p=0.001), peak knee abduction moment with the right knee being greater than the left by .95 newton meters (p=0.001), and peak knee adduction moment with the left knee being greater than the right by .44 newton meters (p=0.001). All significant asymmetries were found in the frontal plane. No significant asymmetries were found in the sagittal plane. Injury history report found a total of 24 seperate lower limb injuries within the described timeframe. 16 associated with the right limb and 8 associated with the left. A total of 5 ACL injuries, 8 MCL injuries, 5 LCL Injuries, 3 meniscus injuries, and 3 ankle injuries. Conclusion: Asymmetry trends in collegiate wrestlers potentially indicate that internal joint asymmetry is specific to sport or activity. Also, internal joint asymmetry could be a potential indicator for training protocols for overall better movement and health within the studied population. Asymmetrical values of the peak knee adduction angle, peak knee abduction moment, and peak knee adduction moment combined with the frequency of knee injuries of the participants indicate possible positive correlations between the magnitude of asymmetry discovered and injury risk.

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: Hazel Ticas, Daniel Scott. Mentors: Daniel Scott. Insitution: Utah Valley University. The COVID-19 pandemic’s results, though highly publicized throughout its early years, fell out of the media’s attention over time. Despite the lower volume of media coverage, the effects of the pandemic remain ongoing. In an effort to maintain accurate information about the most current impacts of COVID-19, this study will review relative COVID-19 case amounts compared to population density for four populations during the omicron peak between the years of 2021 and 2022.. The four populations are: counties in New York, United States; counties in California, United States; a collection of the largest counties from the other 48 United States, and the states in Sweden. The population density for each of the four populations was corrected using Google Maps in order to eliminate areas that didn’t have any residents, but were part of the county or state boundaries. Boundaries have been defined as anything thats stops the spread of COVID-19, said boundary can be geographical or self-isolation. We aim to analyze the data trends of how Omicron spreads in relation to population density and boundary effects by comparing the ratio of virus spreadability to boundaries on each population. The goal is to create a model that can be applied to COVID-19.

Authors: Tiba Hasan, Elise Larsen, McKell Gillins. Mentors: Jodie Lopez. Insitution: Utah Valley University. AbstractThis paper discusses studies that have researched the most effective forms of teeth whitening and the mechanism behind it. Studies discuss the oxidation of double bonds which in turn lighten the chromogens impacting the overall coloration of dentition. The three main forms of treatment that were considered in these studies include in-office treatment, at home treatment and OTC products. At home overnight bleaching proved to have the best results for both immediate and post 10 week results. At-home treatment under dentist’s care involves lower concentration of hydrogen peroxide or carbamide peroxide ranging from three to ten percent thus it takes longer time than in-office treatment (Leh, B. 2018). Factors such as food intake, beverages, smoking, and oral hygiene care can all impact the efficiency of bleaching methods. While some toothpaste brands, like charcoal toothpaste, claim to whiten teeth, research suggests that these abrasive toothpastes may lead to enamel wear. Furthermore, studies have compared the effects of chemical and herbal toothpaste and found that both can produce similar whitening effects. However, chemical products tend to be more harmful compared to herbal alternatives As dental esthetics have become increasingly important to western populations, more whitening products are readily available for consumer use. Studies warn about the adverse risks and effects of dental bleaching to be aware of for both the consumer and those applying or prescribing bleaching methods, therefore it is important for hygienists and others in the dental field to become educated and aware of the increasing bleaching product selection.

Authors: Britt Wyatt, Alyssa Habel, Jess Cusick, Heath Ogden, Josh Premo. Mentors: Dr.Britt Wyatt. Insitution: Utah Valley University. Vaccines are crucial to maintaining healthy communities as they provide immunological protection against a variety of infections (Geoghegan, S. et al. 2020). By providing immunity, vaccines prevent serious illnesses, reduce disease severity, and protect communities. However, in 2019 the World Health Organization (WHO) declared vaccine hesitancy (resistance to getting vaccinated) as one of the top 10 dangers to global health (Dubé, Ève, et al. 2021). Previous studies have shown that certain communities are more vaccine hesitant than others. For example, individuals who are religious, conservative, Black, and women have been found to be more vaccine hesitant than other individuals (Savoia, E. et al., 2021) (Gowda C. & Dempsey, A., 2013). Therefore, we wanted to investigate vaccine hesitancy at an open enrollment institution that serves a unique student population where ~70% of students are members of The Church of Jesus Christ of Latter-day Saints and ~30% are non-traditional (over the age of 24) (UVU IR, 2023). Compared to the overall 1.6% of individuals in the United States who are members of The Church of Jesus Christ of Latter-day Saints (Pew Research Center, 2023), the identities of the students attending the open enrollment institution are vastly underrepresented in education research that has been conducted at other institutions. To investigate vaccine hesitancy, a survey was given to 1,444 students in the beginning of the Fall 2023 semester asking questions around vaccine safety and support. Preliminary results indicate that 70% of non-religious students will choose to be vaccinated against known and new diseases compared to 37% of religious students. 53% of non-religious students think that vaccine mandates are appropriate compared to 25% of religious students. These results indicate more vaccine hesitancy with religious students compared to non-religious students. As religious students make up most of the student population, results can help inform instructors and/or other stakeholders on scientific literacy topics to support in the academic setting. Lastly, further investigation on the intersectionality of identities will be explored such as gender and religion as women make roughly 80% of health-related decisions in their family unit. If religious women are more likely to be vaccine hesitant, development of strategies to support those students in making evidence-based decisions could be a future aim.

Authors: Coleman Judd, Alexander Beagley. Mentors: Michelle Culumber. Insitution: Weber State University. Due to the overuse of antibiotics in industrial, agricultural, and medical settings, antibiotic-resistant bacteria are becoming more prevalent in various unique settings. We set out with the goal of identifying antibiotic-resistant bacteria from the Great Salt Lake waterfront. After isolating colonies on agar containing the antibiotic Tetracycline, we performed 16S rRNA gene sequencing and identified three separate Enterobacteriaceae species all exhibiting varying levels of antibiotic resistance. We performed an array of biochemical and physiological tests to further distinguish the Enterobacteriaceae species. Full spectrum biochemical tests indicate two near identical species followed by a third, novel species as both a phenotypic and biochemical outlier. Antibiotic resistant bacteria within the Great Salt Lake region present an ever-growing dilemma of clinical and environmental danger that accompanies antibiotic resistant microbes.