Fine Arts

Authors: Maddy Howard, Brooke Dension, Shanna Groesbeck. Mentors: Sandy Wilson. Insitution: Utah Valley University. AbstractThere are many systemic diseases that are linked to oral health. This literature review specifically examines different studies and academic journals that have studied the relationship between oral health, obesity, heart disease, and diabetes. Obesity is linked to the patient's oral health in many ways. When patients are consuming large quantities of food more often than normal, this results in a more acidic environment along with energy for bacteria to grow. One study found a correlation between obesity and risk factors such as “frequency of brushing teeth, smoking, tooth loss, gingivitis, and dental caries (Yilmax & Somay, 2021). This article discusses the strong correlation between oral health and heart disease. Several studies emphasize the importance of dental hygienists educating their patients about the link between their oral and cardiovascular health. The articles conclude that treating periodontal disease more effectively and aggressively could lead to a marked reduction in coronary heart disease rates and vice versa.Diabetes and periodontal disease is also examined at length in this literature review. Diabetes and periodontitis is described as a ‘two-way relationship’. Evidence shows that individuals with diabetes, type 1 or type 2, are 34% more likely to develop periodontal disease. On the other hand, individuals experiencing periodontal disease are 53% more likely to develop diabetes (Wu, et al., 2020). This literature review will explore the importance of oral health in keeping your entire body healthy.ReferencesArora, A., Rana, K., Manohar, N., Li, L., Bhole, S., & Chimoriya, R. (2022). Perceptions and practices of oral health care professionals in preventing and managing childhood obesity. Nutrients, 14(9), 1809. 10.3390/nu14091809.Batty, G. D., Jung, K. J., Mok, Y., Lee, S. J., Back, J. H., Lee, S., & Jee, S. H. (2018). Oral health and later coronary heart disease: Cohort study of one million people. European Journal of Preventive Cardiology, 25(6), 598-605. 10.1177/2047487318759112Centers for Disease Control and Prevention. (2022). Defining adult overweight & obesity. Centers for Disease Control and Prevention. Deraz, O., Rangé, H., Boutouyrie, P., Chatzopoulou, E., Asselin, A., Guibout, C., Van Sloten, T., Bougouin, W., Andrieu, M., Vedie, B., Thomas, F., Danchin, N., Jouven, X., Bouchard, P., & Empana, J. P. (2022). Oral condition and incident coronary heart disease: A clustering analysis. Journal of Dental Research, 101(5), 526-533. 10.1177/00220345211052507Sanchez, P., Everett, B., Salamonson, Y., Ajwani, S., Bhole, S., Bishop, J., Lintern, K., Nolan, S., Rajaratnam, R., Redfern, J., Sheehan, M., Skarligos, F., Spencer, L., Srinivas, R., & George, A. (2017). Perceptions of cardiac care providers towards oral health promotion in Australia. Collegian, 25(5), 471-478. https://doi.org/10.1016/j.colegn.2017.11.006Preshaw, P. M., Alba, A. L., Herrera, D., Jepsen, S., Konstantinidis, A., Makrilakis, K., & Taylor, R. (2012). Periodontitis and diabetes: A two-way relationship. Diabetologia, 55(1), 21-31. 10.1007/s00125-011-2342-yWu, C.-Z., Yuan, Y.-H., Liu, H.-H., Li, S.-S., Zhang, B.-W., Chen, W., An, Z.-J., Chen, S.-Y., Wu, Y.-Z., Han, B., Li, C.-J., & Li, L.-J. (2020). Epidemiologic relationship between periodontitis and type 2 diabetes mellitus. BMC oral health, 20, 204. 10.1186/s12903-020-01180-wYilmax, Busra. & Somay, Efsun. (2021). Is obesity a problem that threatens oral health in adults? Cukurova Medical Journal, 46(3), 1215-1221. DOI: 10.17826/cumj.950243

Authors: Danielle Terry, Seth Helton, Michael Creer. Mentors: Austin M Green. Insitution: University of Utah. With anthropogenic influence increasing worldwide, it is important to understand how wildlife behavior changes in response to urbanized landscapes. Urban ecosystems represent relatively novel landscapes with unique threats and opportunities that can completely restructure species’ population composition and dynamics. Mule deer (Odocoileus hemionus) have been shown to alter their temporal activity in response to urbanization across their range of the Intermountain West of the United States. In this study, we will investigate the effects of anthropogenic influence on mule deer temporal activity behavior across two distinct life stages: fawning and non-fawning. Data for this study will come from the citizen science camera trapping project, Wasatch Wildlife Watch. The full project area is separated into two study sites: “Rural” and “Urban”. This study will be based around the wild-to-urban interface of the Central Wasatch Mountain Range and the Bear River Mountain Range, which composes some of the most highly recreated portions of the Uinta-Wasatch-Cache National Forest, receiving approximately 9,000,000 visitors annually (U.S Forest Service). We will investigate the proposed differential effects of anthropogenic influence and urbanization on mule deer diel activity patterns in the fawning vs. non-fawning life stages. Also, we will inquire whether intraspecific responses in mule deer diel activity alter interspecific interactions, especially with fawning predators, and how these responses might interact with environmental factors. We predict that anthropogenic influence and urbanization alter the diel activity patterns of fawning mule deer more than non-fawning deer and that the presence and activity of fawn predators (e.g., coyote [Canis latrans]) would have a stronger effect on fawning deer activity than non-fawning deer activity.

Authors: Barry Gyman. Mentors: Cody Reeves. Insitution: Brigham Young University. The purpose of this paper is to qualify and analyze the leading driving forces in determining the success of healthcare innovations in a variety of subspaces in the healthcare industry. Health is one of the largest markets in America and is almost universally relied upon. As the systems and technologies of healthcare are innovated and improved upon, the quality and efficiency of this care stands to increase, potentially benefiting both those who provide care, those who receive care, or both. The healthcare industry offers a plethora of niches needing innovating and the potential of high economic return for the producers, and yet only a small portion of innovations are adopted and successfully integrated with some areas having a failure rate approaching or exceeding 90% (Sun et al., 2022)(Jacobs et. al, 2015). What propels these few successful innovations towards adoption that so many other innovations fail to achieve? Through the analysis of dozens of papers researching success robustness in various healthcare fields, such as pharmacology and technological innovation, we will summarize the data in search of shared commonalities among successful innovations. Sun, D., Gao, W., Hu, H., & Zhou, S. (2022). Why 90% of clinical drug development fails and how to improve it?. Acta pharmaceutica Sinica. B, 12(7), 3049–3062. https://doi.org/10.1016/j.apsb.2022.02.002Jacobs, S.R., Weiner, B.J., Reeve, B.B. et al. Determining the predictors of innovation implementation in healthcare: a quantitative analysis of implementation effectiveness. BMC Health Serv Res 15, 6 (2015). https://doi.org/10.1186/s12913-014-0657-3

Authors: Marie Gibb. Mentors: Francine Jensen. Insitution: Utah Valley University. Maternal mortality, also known as maternal death, is defined as the death of a woman during pregnancy and up to one year postpartum. (MacDorman et al., 2021; Spelke & Werner, 2018). The United States is the only developed nation where the rates of maternal mortality are rising, and they have been rising for twenty years (Simpson, 2019; Spelke & Werner, 2018). This incidence represents a maternal health crisis in the United States. On average, 700 women in the United States die each year from pregnancy-related complications. This equates to 17.2 maternal deaths for every 100,000 live births (Simpson, 2019). Currently, the maternal mortality rate for Utah is higher than the national average at 21.5 maternal deaths per 100,000 live births (Utah Department of Health and Human Services, 2023). According to More than 60% of these deaths are preventable (MacDorman et al., 2021; Simpson, 2019).The leading causes of maternal death in the United States are hemorrhage, preeclampsia, eclampsia, hypertension, embolisms, and cardiomyopathy, which often lead to cardiovascular disorders (MacDorman et al., 2021; Simpson, 2019). The Utah Health and Human Services (2023) reported that increases in heart disease, hypertension, diabetes, mental health disorders, and other chronic conditions complicate pregnancies and are contributing to maternal mortality in Utah. The American Heart Association has cautioned that pregnancy complications like preeclampsia, gestational diabetes, and preterm delivery are linked to maternal heart disease later in life (Parikh et al., 2021). Research suggests that each episode has a cumulative effect (Marill, 2021), meaning, the more pregnancies women have, and the more complications women have during pregnancy, the more elevated their risks are in general for cardiovascular disorders as they age. A qualitative survey was sent out using snowball sampling to women over the age of 18 in Utah asking about their understanding of cardiovascular risk factors and current health conditions. Findings showed that women were unaware of their potential cardiovascular risks associated with pregnancy. Raising awareness regarding these cardiovascular risks may be the number one preventative strategy, as women are the ones who bear the personal and physical risks. If pregnant women are aware of their cardiovascular risk factors, they can be empowered to raise concerns when necessary. Future interventions may include educating all women of childbearing years about cardiovascular risks prior to pregnancy, as well as more frequent screening of women during and after delivery (Marill, 2021). ReferencesMacDorman, M. F., Thoma, M., Declcerq, E., & Howell, E. A. (2021). Racial and ethnic disparities in maternal mortality in the United States using enhanced vital records, 2016‒2017. American Journal of Public Health, 111(9), 1673–1681. https://doi.org/10.2105/ajph.2021.306375Marill, M. C. (2021). Getting to the heart of America's maternal mortality crisis. Health Affairs, 40(12), 1824-1829. https://doi.org/10.1377/hlthaff.2021.01702Parikh, N. I., Gonzalez, J. M., Anderson, C. A. M., Judd, S. E., Rexrode, K. M., Hlatky, M. A., Gunderson, E. P., Stuart, J. J., & Vaidya, D. (2021, May 4). Adverse pregnancy outcomes and cardiovascular disease risk: Unique opportunities for cardiovascular disease prevention in women: A scientific statement from the American Heart Association. Circulation, 143(18), e902-e916. https://www.ahajournals.org/doi/10.1161/CIR.0000000000000961Simpson, K. (2019). Maternal mortality in the United States. MCN, The American Journal of Maternal/Child Nursing, 44 (5), 249-249. doi: 10.1097/NMC.0000000000000560.Spelke, B., & Werner, E. (2018). The fourth trimester of pregnancy: Committing to maternal health and well-being postpartum. Rhode Island Medical Journal (2013), 101(8), 30–33.Utah Department of Health and Human Services. (2023, March 16). Complete health indicator report of maternal mortality. Retrieved Sat, 09 September 2023 from the Utah Department of Health and Human Services, Indicator-Based Information System for Public Health website: http://ibis.health.utah.gov. https://ibis.health.utah.gov/ibisph-view/indicator/complete_profile/MatMort.html

Authors: Isaac Gillins, Zoe Thompson. Mentors: . Insitution: Utah Valley University. The pro-opiomelanocortin (POMC) gene is expressed in the hypothalamus and pituitary and is cleaved into several peptide hormones. One of these is melanocyte-stimulating hormone (MSH), which is involved in food intake and energy expenditure. A mutation in the POMC gene can result in a rare condition in which the subject displays early-onset obesity characterized by severe hyperphagia (i.e. excess hunger). Affected subjects may also show a lack of pubertal development. In this experiment, we will study mice with a mutation in the POMC gene. They show some of the same symptoms as humans with a POMC mutation, including hyperphagia, obesity & infertility. Specifically, we will investigate the estrous cycle in female mice to determine if they are cycling normally. The estrous cycle, similar to the menstrual cycle in humans, is characterized by changes in reproductive hormones, and can be divided into four stages: proestrus, estrus, metestrus, and diestrus. Cells lining the surface of the vagina have been previously collected using a pipette smear technique. Each stage can be characterized by the proportion of three cell types: epithelial cells, cornified cells, and leukocytes. These cells correspond to the fluctuating hormone levels during the estrous cycle. Images of these samples will be assessed for the composition of cells to determine the stage of the estrus cycle, and whether or not the cycle displays normal patterning. Because POMC-deficient mice are infertile, we hypothesize their estrous cycles may be atypical. For example, the estrous cycle of the POMC-deficient mice may appear in irregular order or with one stage being predominant over the rest. If the estrous cycle is atypical, then we will measure the hormones directly to confirm that the infertility is caused by changes in hormonal regulation. This will help us to understand more about how the POMC gene affects reproductive function.

Authors: Ishmael Elliott Molina-Zepeda, Brandt Jones, Myke Madsen, Douglas Sborov, Brian Avery, Nicola J. Camp . Mentors: Nicola J. Camp. Insitution: University of Utah. Multiple Myeloma (MM) is a malignancy of plasma cells and one of the more common hematological malignancies (6.3/100,000 new cases/year). Although treatments have improved, most patients fail their first line of treatment and ultimately do not survive beyond 5 years. Identifying patients at high risk of failing treatment early is a critical need. SPECTRA is a statistical technique developed by the Camp Lab to characterize global gene expression (the transcriptome) by representing it as multiple quantitative tumor variables. Spectra variables allow gene expression to be incorporated into predictive modeling to identify high-risk groups.Transcriptome data for myeloma cells was available from 768 patients in the international CoMMpass study where 39 spectra variables were derived. Each patient has a value for each of the 39 variables (their spectra “barcode”); patients can be compared for each bar in the barcode. Predictive modeling using spectra variables was successful in identifying risk groups for time to treatment failure, such that a patient’s tumor transcriptome can be used to predict whether they are at high risk of having their treatment fail earlier.To replicate the CoMMpass data findings, we collect and process local biological samples from MM patients at the Huntsman Cancer Institute (HCI). We collect bone marrow samples, which are then cell-sorted to identify tumor (CD138+) cells. RNA is extracted from these cells and sequenced to generate transcriptome data. Then the spectra barcode is calculated.Utilizing the SPECTRA technique provides a more complete understanding of MM by better characterizing the tumor. Each spectra is a tumor characteristic. Our future research includes an investigation of whether inherited variations (in normal DNA from saliva or whole blood) are associated with the transcriptome risk score. We are also pursuing the SPECTRA technique in several other cancers.

Authors: Sofia Denise Flowers. Mentors: Lauri Linder. Insitution: University of Utah. Background and Purpose: In the year 2023, roughly 9,000 children will be diagnosed with cancer each year in the United States. Dealing with a potentially fatal diagnosis is already difficult for many grown adults, let alone a young child. The aim of this project is to describe caregiving experiences of parents and children with cancer as related through feedback comments within written and oral feedback to proposed items to measure self-efficacy for managing their child’s symptoms and behaviors used to manage their child’s symptoms.Methods: This project involved a secondary analysis of qualitative data from 21 parents (19 mothers; mean age 38 years) of school-age children with cancer who participated in a study to establish the content validity of instruments to measure aspects of symptom management. Data consisted of interview transcripts and free responses to the content review surveys. The data were then uploaded to Dedoose. My mentor and I worked independently to identify statements pertaining to parents’ experiences in managing their child’s symptoms and responding to the child’s cancer diagnosis. We then met together to reconcile content and then organize parents’ statements into categories and subcategories. Results: 101 excerpts were extracted from the transcripts and included for the secondary analysis. Excerpts were grouped into four main categories: informational resources, social support, emotional support, and medication management Within these four main categories, subthemes of professional staff support, managing child attitude and mood changes, and balancing between being a parent and their child’s medical advocate were present. Conclusion: The insights gained from this project can guide the information healthcare providers need to provide better care to the child and additional support to parents. This can allow professional staff to get a stronger understanding of not just the family’s medical needs but their informational, social, and emotional needs as well.

Authors: Thomas Caldwell. Mentors: Dustin Shipp. Insitution: Utah Valley University. In this research project, we have transformed an existing Raman spectroscopy simulation, enhancing its performance and capabilities through the integration of parallel computing with GPU acceleration. This significant improvement in computation time allows us to break through previous computational limitations, enabling more sophisticated and complex applications of the simulation. The principal applications we will be assessing are the viability and potential of spatially offset Raman spectroscopy (SORS) for deeper tissue analysis, exploring the possibilities of topographical imaging using Raman techniques, and the advanced application of chemical imaging of microscopic tumors. This expanded scope demonstrates the simulation's potential in early cancer detection.

Authors: Emmalie Parker. Mentors: Heather Thiesset. Insitution: Utah Valley University. Changes in health insurance due to the Affordable Care act created a bridge for college students to remain on their parent or guardian’s health insurance for a longer period of time. However, little is done to close the gap of education deficiency in the area of health insurance literacy during this time. While most students in a universal health system have relatively few options to choose from, students in the US are faced with many different plans through employment or the open marketplace. Therefore, in order to ensure adequate access to care, it is imperative that students understand the fundamentals of this system in the US. This quantitative cross-sectional survey sampled 500 currently registered UVU students to assess their knowledge, attitudes, beliefs and healthcare utilization. This data was stratified by age and sex. Descriptive statistics and chi2 analyses were performed. This study showed that disparities in healthcare literacy affect healthcare utilization and can be a catalyst for long-term healthcare access issues for students and their families.

Authors: Quinn Gerber, Lucas Carpenter, Jacob Clemons, Cindy Kin. Mentors: Cindy Kin. Insitution: Brigham Young University. Introduction: It is vital that patients are adequately prepared for surgical intervention. To meet this need, many medical centers have adopted prehabilitation protocols. The aim of this study was to establish an in-depth comprehension of the attitudes towards surgery and barriersand preferences to prehabilitation for patients identifying as Latino, in order to develop a preliminary framework for adapting prehab programs to best meet the needs of this specific patient population.Methods: We conducted qualitative semi-structured in-person one-on-one interviews with Latino patients who had recently undergone major abdominal surgery. The interviews, conducted at an academic medical center, were audio-recorded, transcribed verbatim, translated into English (as needed), iteratively coded, and discussed by four researchers to reach consensus. We used thematic analysis to identify shared attitudes held by patients and common barriers to the adoption of prehabilitation programs. Analysis of these attitudes and barriers, along with stated patient preferences, led to the development of several ideas that physicians can implement to increase prehab adoption among Latino patients.Results: We interviewed 16 patients, at which point we reached thematic saturation. The patients were on average 52 years old (range 20 to 79) and 50% were women. Our pooled kappa score was .92, indicating a very high degree of concordance among the coding researchers. We identified five common attitudes held by Latino patients regarding surgery: anxiety associated with hospitalizations and surgical procedures, deep trust in physicians, reliance on positivity, tight-knit families/communities, and prominent religious and cultural beliefs. A lack of understanding, physical limitations, a reactive/delayed approach to healthcare, dietary barriers, and mental barriers emerged as obstacles to prehabilitation adoption. These attitudes and barriers, along with direct patient feedback, led us to identify several programmatic priorities that may increase adherence to prehab. These components consist of face-to-face interaction, increased communication, patient and physician collaboration in program development, and family/support group engagement in surgical preparation.Conclusion: Our study provides physicians preliminary insight into customizing prehabilitation programs to best meet the needs and customs of the Latino community, including anxiety associated with hospitalizations, strong social support, and a dominant role of religious faith in coping with illness. We identified several critical components that may make prehab more culturally competent and thus more likely to be adopted by patients. These include in-person coaching, increased information about the upcoming operation and recovery, and engagement of family members. We recommend that healthcare teams committed to prehabilitation consider these needs to make their programs more attractive and accessible to their Latino patients.

Authors: Brock Sheehan, Bryson Edwards, Ivanna Soto, Justice Vance, Tyler Haywood, Jefferey Goddard, Logan Seegmiller, Mohammed A. El Saidi, Wissam R Zaidan , Asmahan El-Ezzi , Dr. Ruhul Kuddus. Mentors: Dr. Ruhul Kuddus. Insitution: Utah Valley University. Association of Cyclooxygenase 1 (COX-1) rs4648298 and Cyclooxygenase 2 (COX-2) rs20417 Polymorphisms and Prostatic diseases Among Lebanese MalesBrock J Sheehan1*, Bryson Edwards1, Ivanna Soto Medrano1, Justin Vance1, Tyler Haywood1, Jeffrey Goddard1, Logan Seegmiller1, Mohammed A. El Saidi2, Wissam R. Zaidan3, Asmahan A. El-Ezzi3, 4, Ruhul Kuddus11Department of Biology, 2Department of Strategic Management and Operations, Utah Valley University, Orem UT; 3Radioimmunoassay Laboratory, Lebanese Atomic Energy Commission, Beirut Lebanon; 4Department of Chemistry and Biochemistry, Lebanese University, Hadath, Lebanon. *- presenting author.Background: COX-1 and COX-2 genes encode prostaglandin-endoperoxide synthases (PTGS) isoenzymes, involved in inflammation and possibly neoplasms. The genes are expressed in the prostate gland. Both genes have several polymorphisms. Here we examine the association of rs4648298 (A-G transition) and rs20417 (G-C transversion) polymorphisms and prostatic diseases. This research was approved by the Utah Valley University IRB.Materials and Methods: DNA was extracted from a blood sample of 56 healthy volunteers, 51 volunteers with benign prostate hyperplasia (BPH), and 61 volunteers with clinical prostate cancer (PCa). Genotyping was conducted through PCR-RFLP analyses. The restriction enzymes used were BaeGI (for rs4648298) and AciI (rs20417), respectively. Alleles with the restriction site were considered recessive. The association was inferred through statistical analyses of the distribution of the genotypes (BB, Bb, and bb or AA, Aa and aa), and allele frequencies among the controls and the affected groups. A p-value of ≤0.05 was considered significant.Results: The distribution of the genotypes is in Hardy-Weinberg equilibrium for all three groups. The b allele of the COX-1 gene is extremely rare (less than 3%), and no significant association between the B or b allele or BB, Bb, and bb genotypes and prostatic disease was observed. The a allele of the COX-2 gene is more common in the BPH group (p=0.011), but not the PCa group (p= 0.472) or the combined affected group (p=0.068) compared to the control group.Conclusions: There is no association between the rs4648298 polymorphisms of the COX-1 gene and prostatic diseases. The a allele of the rs20417 polymorphisms of the COX-2 gene is associated with higher risks of BPH and possibly PCa. The small sample size, sampling from one ethnic group, and the low distribution of the b allele in the Lebanese population are limitations of this study.

Authors: Tayler Fearn, Caroline Torgensen, Vern Hart. Mentors: Vern Hart. Insitution: Utah Valley University. Coherent diffraction imaging (CDI) is a newly developed modality used to measure phase shifts introduced by fine-scale structures in cells. These phase shifts can be used to distinguish healthy and malignant cells, providing a diagnostic marker for early cancer detection. However, this process, in which diffracted light interferes with incident light, requires collecting scattered photons at large angles, representing high spatial frequencies and short wavelengths. The highest frequencies, needed to reconstruct small details in cells for improved image quality, occur at distances of several centimeters from the central bright fringe. As such, these signals are faint and difficult to collect experimentally. We propose the use of deep learning to synthetically extrapolate diffraction patterns at large distances, where measurements are difficult. In prototyping this method, we will present results produced by a generative adversarial network (GAN), trained using existing data of watercolor paintings to preform style transfer and image extrapolation. This will be an essential step in working towards the larger goal of developing GAN’s that can accurately extrapolate diffraction images.

Authors: Austin Green, Gaby Karakcheyeva. Insitution: University of Utah. As the world’s human population continues to concentrate within urban areas and these landscapes continue to expand worldwide, wildlife is under pressure to adapt to novel environmental disturbances. Along urban-wildlife gradients, and especially within less developed areas, human recreation can affect wildlife behavior. These effects may be most apparent during peaks in human recreational activity. In addition, climatic conditions such as aridity and precipitation can also alter wildlife behavior. Understanding the interactions between these two pressures, human activity and climate, can help us understand how wildlife behavior will be affected as human populations grow and climate warms. In this study, we will use data from a large-scale citizen science camera trapping project to assess whether periodic increases in human recreational activity paired with arid climates will elicit behavioral responses across multiple mammal species in northern Utah, U.S.A. Specifically, we will assess whether increases in human recreational activity during the weekend affected mammalian temporal activity patterns at the community-wide and species-specific level, taking into consideration if these trends are amplified in areas that are arid and low in precipitation. I hypothesize that increased human recreational activity will alter wildlife behavior, in general, however this change in behavior will be amplified in drier, hotter areas. I predict that during the weekends human activity will increase, leading to general decreases in activity, mobility, and breeding behavior across species, and this will be amplified in hotter and less vegetated areas. However, I predict that naturally diurnal species will be more affected than nocturnal species as they attempt to avoid overlap with humans, leading to changes in species-species interactions.

Authors: Aljexi Olsen, Hali Lukacs. Mentors: Eddy Cadet. Insitution: Utah Valley University. Utah Lake is the third-largest freshwater body west of the Mississippi River and serves as a vital resource for just over 600,000 Utah Valley residents through agriculture, residential and recreational purposes. In addition to its utility, Utah Lake provides a haven for biodiversity for numerous species within its wetlands. Despite its utility and importance, the lake faces two significant challenges in the form of Trace Metal (TM) pollution and the encroachment of invasive plant species known as Phragmites australis (P. australis). Despite considerable investments of time, money, and resources by various state agencies to address these concerns, their success has been limited due to the agency’s isolated efforts for these large multifaceted issues. TM, though naturally occurring in the environment, has been found to be toxic to both people and the ecosystem when at elevated levels. P. australis, is a robust and fast-growing macrophyte, possessing remarkable adaptability to and tolerance for poor soils, enabling it to rapidly outcompete native species. Due to P. australis resilience and aggressive nature, many colonies have grown around the lake regardless of soil conditions. Studies have shown that P. australis has been utilized for remediation purposes around water bodies by extracting TMs from sediment. While P. australis must be addressed, can it be used as part of the solution by identifying TM polluted areas? This study aims to discern the variety in TM absorption by P. australis in both unpolluted and polluted sites in the wetlands surrounding the hyper-eutrophic Utah Lake. We selected nine sites around Utah Lake, considering their land use and proximity to pollution sources. At each site, three replicate samples encompassing P. australis, soil, and water were collected. These samples underwent a meticulous process, including washing, weighing, grounding, sieving, acid digesting using a CEM MARS 6, and analysis for TM content within an ICP-MS. Our preliminary findings reveal that in both unpolluted and polluted sites, soil concentrations of As and Cd exceeded background levels (11.73, 1.53 in unpolluted sites, and 27.47, 6.63 in polluted sites, respectively). Notably, in select polluted sites, such as UVU, P. australis displayed a remarkable capacity to hyper-accumulate As, with a transfer factor of 167.14% compared to the lowest unpolluted sites, like Lindon, which showed a rate of about 10%. Across all sites, the accumulation of Cr was relatively consistent (ranging from 17.13 to 19.7 ppm), irrespective of biomass. The examination of TM concentrations, transfer factor rates, and TM accumulation based on biomass suggests that P. australis may serve as a valuable biomarker for identifying TM-polluted sites. This research holds significant relevance, as it could offer state agencies a swift and effective means to pinpoint TM-polluted areas. Moreover, the areas where P. australis is thriving may be leveraged for phytoremediation efforts in TM-contaminated sites, providing an environmentally friendly solution to address this pressing concern.

Authors: Drew Allred, Vern Hart. Mentors: Vern Hart. Insitution: Utah Valley University. Surgery remains one of the most common and effective treatments for a variety of cancers, especially those that form solid, localized tumors such as breast and colorectal cancers. During these treatments, the palpable lesion is surgically resected with the assumption that cancerous cells have metastasized to nearby tissues. As such, surgeons will excise a tissue margin surrounding the tumor in hopes of removing any additional cancer, thus preventing further spread of the disease. However, this process is time-consuming and requires specialized expertise from a trained pathologist to verify that all cancer has been removed. Furthermore, if the pathology report indicates that not all cancerous cells have been extracted, additional follow-up visits and surgeries are typically required. In recent years a number of non-invasive technologies have been developed which seek to map cancerous cells in whole tissues. Training and validating these methods still requires a reliable ground truth, typically provided by an annotated pathology report. We propose a simpler model in which two cell species were co-cultured to provide a heterogeneous training sample. One of these species (PANC-1) was transfected with a vector coding for a fluorescent marker to represent healthy tissue, while the other species (COS-7) remained untreated, representing cancerous cells. An experiment was then conducted using a coherent diffraction imaging (CDI) system, in which laser light incident on the cells was used to quantify phase shifts produced by each cell type. Fluorescent microscopy was then used to create a map of transfected and non-transfected cells for comparison. Results will be presented demonstrating a correlation between the phase shifts produced by the two cell types and the corresponding fluorescent images, potentially facilitating optical cell identification without the need for pathology.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

Authors: Hunter Morrill, Ryley Parrish. Mentors: Ryley Parrish. Insitution: Brigham Young University. Spreading depolarizations (SDs) are slow propagating waves of depolarization that move through the brain and have been associated with a wide variety of neuropathologies including the termination of seizures, the cellular correlate of aura in migraines, traumatic brain injury, and ischemic stroke. Though first characterized by Aristides Leão in the 1940s, only a very limited understanding of the mechanisms of SD induction has been achieved. SDs have been induced in mouse models using a variety of techniques, however regardless of the method of induction, high extracellular potassium and/or a strong cellular depolarization have been largely hypothesized as necessary conditions for SD induction. Interestingly, we have recently demonstrated that using a light-induced chloride pump (Halorhodopsin) to drive chloride ions into the neurons can reliably induce SDs even in the absence of high extracellular potassium levels (Parrish, 2023). It was also demonstrated that the triggering of archaerhodopsin, which removes protons from the cell and therefore hyperpolarizes the neuronal membrane without affecting chloride levels, did not induce SDs, suggesting the implication of chloride loading as a primary mechanism in SD induction. This challenges the prevalent hypothesis regarding the induction of SDs and results in a novel method of induction that allows for more characterization of the mechanisms involved. The use of genetically expressed light-gated ion channels or pumps is referred to as optogenetics. Using zebrafish, a common model for electrophysiology recordings that is also cost-effective to genetically manipulate, we have established an optogenetically induced model of SD induction. We are currently characterizing mechanisms that result in optogenetically induced SDs with pharmacology to further our understanding of SD initiation and propagation.Parrish, R. R.-G.-T. (2023). Indirect Effects of Halorhodopsin Activation: Potassium Redistribution, Nonspecific Inhibition, and Spreading Depolarization. The Journal of neuroscience: the official journal of the Society for Neuroscience, 43(5), 685-692.

Authors: Zach Moore, Owen Benzley, Austin Flitton, Frederic Schaper, Jared Nielsen. Mentors: Jared Nielsen. Insitution: Brigham Young University. Objective: Identify neural networks that are associated with panic disorder symptoms through lesion network mapping.Background: Panic Disorder is a neurological disorder in which one experiences unexpected and reoccurring panic attacks. Panic attacks can be characterized by the following symptoms: trembling, racing heart, excessive fear and worry, weakness, tingly hands, chest pain, or a feeling of unreality. A proposed circuit for panic disorder includes the amygdalofugal pathway, which deals primarily with the amygdala. The lesion network mapping method uses functional connectivity to identify neural networks associated with symptoms arising from brain lesions. This is a benefit compared to previous studies done on panic disorder because it relates brain circuits to symptoms rather than individual regions.Methods: 21 lesions causing Panic Disorder were found in the literature, traced on a standard template, and analyzed using lesion network mapping. Specifically, lesion networks for each lesion were calculated using a large cohort of healthy control resting state scans (N = 1000). In our sensitivity analysis, overlap between lesion networks was observed. Results: Of the 21 lesion networks, 14 (67%) positively overlap on the parahippocampal gyrus in the sensitivity map; 13 (62%) positively overlap at the ventral tegmental area in the sensitivity map.Discussion: Symptoms of panic disorder may be associated with the parahippocampal gyrus and ventral tegmental area of the brain. These results found are unique compared to previous studies, but do have general connections.

Authors: James Blood, Nathan Sheets, Chase Seiter, Lydia Hawley, Erin Taylor, Eliza White, Hillary Wadsworth, Jason Hansen, Jordan Yorgason. Mentors: Jordan Yorgason. Insitution: Brigham Young University. Microglia are the immune cells of the brain and are activated by many drugs of abuse. One drug of abuse of interest is methamphetamine, which is known to increase reactive oxygen species (ROS). Microglia are sensitive to ROS. Methamphetamine changes microglia morphology. To determine if the effects of methamphetamine on microglia are through ROS, glucose oxidase, which reacts with glucose to form hydrogen peroxide, was applied. Glucose oxidase increased ROS production and decreased dopamine release but had little-to-no effect on ATP release. Glucose oxidase has similar effects on microglia morphology compared to methamphetamine. This suggests that methamphetamine effects on microglia are due to ROS production. Methamphetamine locomotor sensitization behavioral experiments were run to mimic repeated methamphetamine exposure. Along with voltammetry experiments to measure dopamine and ATP release, methamphetamine treated animals were used to detect microglial morphology changes using confocal microscopy. Our methamphetamine treatment was able to change microglial morphology compared to saline treated controls. Methamphetamine injected animals also had attenuated glucose oxidase effects on dopamine release. By understanding how neuronal outputs affect microglia activity in the context of psychostimulant use we can better parse out how the mechanisms of addiction are connected to immune system function.

Authors: Joshua Evans, Allison Voyles, McKenzie Bellon, Julianne Grose. Mentors: Julianne Grose. Insitution: Brigham Young University. Alpha-crystallin B (CryAB) is a small heat shock protein that acts as a molecular chaperone and plays an essential role in cytoskeletal organization and myofibril function. Human mutations in CryAB have been associated with various diseases, such as cardiomyopathy and cataracts. However, the precise molecular pathways and protein substrates of CryAB are not yet fully understood and require further investigation. This project aims to increase understanding of CryAB by determining proteins that bind wild-type versus disease-causing variants using yeast two-hybrid screens. It also involves testing for binding specificity of variant-binding partners. A series of these Y2H screens gives valuable information regarding the binding patterns of CryAB, showing distinct binding partners for different alleles of CryAB. Overall, the project provides greater insight into the molecular functions of CryAB as well as a better understanding of the dysfunctional pathways of its disease-causing variants—a factor which may, in the future, have potential applications to the treatment of related diseases in a clinical setting

Authors: Noah Bezzant, Mikayla Kimball, Ashley Allan. Mentors: Brent Feland. Insitution: Brigham Young University. BACKGROUND: General knee pain is a common complaint among both athletes and older adults. Osteoarthritis is a common etiology for knee pain that can interfere with function during aging and can be assessed by validated questionnaires. It remains unclear whether there exists a dose–response relationship between cartilage loss and pain worsening. Articular cartilage thickness of the femoral condyles can be measured by ultrasound imaging and few studies utilizing this form of measurement exist. It is currently unknown if articular cartilage thickness measured ultrasonographically correlates with pain related ratings in aging athletes. PURPOSE: The aim of this study was to assess whether articular cartilage thickness at the femoral condyles as measured by ultrasound imaging has any relationship to knee pain as rated by the modified KOOS (Knee Injury and Osteoarthritis Outcome Score) survey in senior athletes over the age of 50.METHODS: Data was collected from 35 volunteers (participants in the Huntsman World Senior Games) in St. George, Utah, 2023. All subjects (22 females: mean age = 64.9 ± 6.6 yrs, Ht = 158.7 ± 35.6 cm, Wt= 66.3 ± 10.0 kg; 13 males: mean age = 67.3 ± 8.3 yrs, Ht = 179.3 ± 10.7 cm, Wt= 84.3 ± 13.4 kg) signed an approved consent and completed a modified KOOS survey before being seated on a table, with their back flattened against the wall directly behind them. They were then asked to bring either knee as deeply into flexion against their torso as possible; approximating 120°-140° of knee flexion, depending on the range of motion the subject was capable of. In flexion, the patella was shifted inferiorly enough to expose the femoral condyles so that a short axis image of the articular cartilage was obtained and the thickness of the cartilage was assessed at 3 points.ANALYSIS: All data were analyzed using JMP ver16.2 with a Pearson product pairwise correlations to determine if a relationship between average cartilage thickness correlates with pain subscale scoring from the KOOS in males and females. Correlation between age and thickness was also examined.RESULTS AND CONCLUSION: There were no significant correlations between the pain subscale score and cartilage thickness in males (p=.6998, r=0.1316), females (p=.8733, r=0.0392), or combined (p=.7308, r=0.0655) in this group of senior athletes. Age and thickness was not significantly correlated (p=.1232, r= -0.2877), but did show a trend of decreasing cartilage thickness with age. The addition of more subjects should show age and thickness to be negatively correlated with each other.

Authors: Dean Peterson. Mentors: John Chaston. Insitution: Brigham Young University. The microbiota of Drosophila melanogaster fruit flies can be observed to study their effects on fly phenotypes. This paper will focus on the microbiota’s effects on fruit fly dietary preference for yeast (DPY), to determine if specific nutritional molecules produced by the microbiota control DPY. Previous studies have unsuccessfully sought to identify such small molecules by testing for roles of essential amino acids (Leitao-Goncalves 2017). A study completed in our lab suggested that bacterial thiamine biosynthesis/metabolism genes influence fly DPY because mutations shifted the preference from a diet with less yeast to a diet with more yeast (Call 2022). In our first efforts we found that raising flies on thiamine supplemented diet influenced their DPY. I want to determine if supplementing thiamine specifically causes this shift, and if the shift observed in the mutants is seen due to a lack of dietary thiamine. Here, I will perform the same tests with flies given diet supplemented with other B vitamins to test specificity. I will then confirm the role of bacterial thiamine on these phenotypes by rearing flies colonized with bacterial thiamine biosynthesis/metabolism mutants on thiamine supplemented diets. If these flies raised with increased dietary thiamine prefer a diet with less yeast, and the experiment with other B vitamins does not show a similar shift as thiamine, then the specificity of thiamine as the small molecule involved in yeast preference is confirmed.

Authors: Jakob Lenker, Trevor Kendrick. Mentors: Jeff Tessem. Insitution: Brigham Young University. Diabetes is characterized by a loss in beta cell function within the pancreas and the subsequent inability to produce sufficient insulin to regulate blood glucose. While current diabetes treatments focus on delivering pharmaceutical insulin to diabetic individuals, such treatments are temporary solutions and do not address the root of the issue. Instead, our research focuses on potential mechanisms for inducing greater insulin secretion within the pancreas of the individual. NK6 Homeobox 1 (Nkx6.1) is a major transcription factor in beta cells and its overexpression in beta cells is associated with higher insulin secretion. We have shown that Syntaxin 1A (Stx1A) interacts with Nkx6.1; Stx1A is of particular interest due to its role in mediating insulin granule fusion at the beta cell plasma membrane, directly impacting insulin secretion. We hypothesize that the interaction between Nkx6.1 and Stx1A may play an important yet understudied role in insulin secretion. Here, we present the results of Stx1A overexpression on glucose-stimulated insulin secretion within pancreatic beta cells, as well as the effect on the Nkx6.1 interaction. Understanding more about the role of Stx1A in beta cells could provide therapeutic targets to induce greater insulin secretion, which could aid in the effort toward finding a cure to diabetes.

Authors: Brett Pickett, Lincoln Sutherland, Jacob Lang. Mentors: Brett Pickett. Insitution: Brigham Young University. Introduction: Breast cancer is one of the most prevalent types of cancer present in society today, and is the second leading cause of cancer death for women. Approximately 13% (1 in 8) of women will develop invasive breast cancer, with 3% of women (1 in 39) dying from this type of cancer. Three important classifications used when formulating a treatment plan for breast cancer are the presence or absence of Estrogen Receptor (ER), Progesterone Receptor (PR), or Hormone Receptor (HR). Treating Estrogen Receptor Positive (ER+) breast cancer with aromatase inhibitors, such as Letrozole, is the current standard treatment for all postmenopausal women. A prior study by Lee et. al. identified PRR11 as the only gene that was significantly overexpressed in resistant vs non-resistant cancers among the 51 genes in chromosome arm 17q23. The goal of the current study is to perform a secondary analysis of this valuable dataset to identify genes, signaling pathways, and biomarkers across the whole human transcriptome that are significantly associated with treatment resistance in ER+ patients.Methods: We retrieved, preprocessed and analyzed 58 ER+ breast cancer samples from patients who had been treated with Letrozole, which are publicly available in the NCBI Gene Expression Omnibus (GEO) database. The Automated Reproducible MOdular Workflow for Preprocessing and Differential Analysis of RNA-seq Data (ARMOR) was used to process our data downloaded from NCBI. This workflow trimmed low quality reads from the RNA-sequence reads, mapped and quantified our data to generate a DEG list. Gene ontology enrichment with camera was also performed. Next, the genes were mapped to common gene identifiers and input to the signaling pathway impact analysis (SPIA) algorithm to identify intracellular signaling pathways that were enhanced by our DEGs. With that information, Pathway2Target was used to identify known drug targets within our identified pathways. Finally, a decision tree-based machine learning approach was used to predict features/expressed genes that could be used to most accurately classify responders vs nonresponders to Letrozole. Results: Our comparison of 36 responders versus 22 non-responders detected a total of 18,735 genes and identified 105 that were statistically significant (p-value < 0.05) after applying a false-discovery rate (FDR) correction, including SOX11, S100A8/S100A8, and IGLV3-25. We then used the Signaling Pathway Impact Analysis (SPIA) algorithm to determine whether any known intracellular signaling pathways were significantly enriched in DEGs (Bonferroni-adjusted p-value < 0.05). This analysis identified 4 pathways that were statistically significant in Non-Responders to Letrozole Treatment. We then used the pathway results to predict 60 existing therapeutic targets that could be repurposed to treat the resistance phenotype. Notably, the predicted targets for the non-response phenotype included VEGFA, a current target for solid tumors as well as ESR1, an Estrogen Receptor. We next wanted to determine whether we could predict transcriptional biomarkers that could aid with identifying patients that do not respond to treatment. To do so, we used the read counts for all samples as the input for this analysis and identified 278 transcriptional biomarkers. Performance metrics for all biomarkers identified yielded an area under the receiver-operator characteristic (AUROC) curve of 0.972 (Figure 2), indicating an exceptional ability to classify Letrozole responders vs non-responders by the transcriptional profile. Sensitivity for all transcriptional biomarkers was measured at 100%, and specificity at 94%. We used the top two biomarkers from our first analysis as input for a second analysis to determine the performance of a smaller subset. Our second analysis determined that PRDX4 and E2F8 together yielded an AUROC of 0.823 and an overall accuracy of 88.2%. Discussion:Our results identify additional DEGs, pathways, targets and biomarkers for further exploration in the treatment and categorization of ER+ breast cancer.

Authors: Jared Wieland, Jacob Herring. Mentors: Jeffery Tessem. Insitution: Brigham Young University. A central attribute of Type 2 Diabetes (T2D) is beta cell damage. This damage commonly affects beta cell’s ability to secrete insulin and regulate blood glucose levels. Nkx6.1 is a beta cell transcription factor essential for proliferation, differentiation, and glucose-stimulated insulin secretion. Hyperglycemia is detrimental to beta cell function and function. We hypothesize that hyperglycemia may negatively affect the expression and activity of beta cell transcription factors, including Nkx6.1. To provide an understanding of the effects of hyperglycemic conditions on Nkx6.1 expression, INS-1 832/13 beta cells were cultured in hyperglycemic conditions, then primary rat islets were treated for the same durations of time. Here, we present transcriptional, translational, cellular localization, and degradation of states of Nkx6.1 over 48 hours of hyperglycemic culture conditions both in vitro and ex vivo models. Comprehension of the mechanisms involved in hyperglycemic downregulation of Nkx6.1 is imperative to the development of treatments for diabetes.

Authors: Eden Beazer, Aubree Bench, Ethan Jones, Jared Carter. Mentors: Jeffrey Tessem. Insitution: Brigham Young University. Incidence of diabetes worldwide has grown from 108 million people in 1980 to 422 million people in 2014, nearly tripling in just thirty-four years. Type 2 diabetes (T2D) is characterized by the loss of pancreatic beta cell mass and the failure of the remaining beta cells to provide adequate insulin. Contributing to the development of T2D is glucolipotoxicity (GLT), a condition characterized by the harmful elevation of glucose and fatty acid levels within beta cells. While there are existing treatments for symptoms of diabetes, much remains to be understood about its underlying causes and effective preventative measures. Flavonoids are naturally occurring phenolic compounds found in many fruits and vegetables that have various anti-inflammatory health benefits. Previous studies suggest that epicatechin, a flavonoid present in cocoa, can reduce the effects of diabetes by diminishing insulin desensitization and increasing glucose stimulated insulin secretion (GSIS). Interestingly, the bioavailability of epicatechin is poor, while its metabolites are more easily absorbed in the small intestine. Further studies demonstrated that under non-stressed conditions in beta-cells, hippuric acid, homovanillic acid, and 5-phenylvaleric acid, metabolites of epicatechin, stimulate insulin secretion at concentrations more realistically found in the body. However, the effects of these metabolites in glucolipotoxic conditions are unknown. Here, we present the effects of epicatechin and its metabolites hippuric acid, homovanillic acid, and 5-phenylvaleric acid on beta cell insulin secretion and mitochondrial respiration under GLT culture conditions. This study aimed to contribute to the limited body of knowledge on the bioactivity of flavonoid metabolites on beta cell function under damaging conditions observed with T2D, offering crucial insights for developing effective strategies to harness the health benefits associated with flavonoids.

Authors: Owen Damitz. Mentors: Jeffrey Tessem. Insitution: Brigham Young University. Type one and two diabetes affect the everyday lives of millions of people worldwide. These diseases are characterized by decreased functional beta cell mass. Functional beta cell mass is defined by the beta cell’s ability to proliferate, secrete insulin, and resist apoptosis. Wehave shown that the orphan nuclear receptor Nr4a3 is sufficient to induce beta cell proliferation. We have sought to define compounds that can interact with and modulate Nr4a3 activity. Using AutoDock Vina we have defined a number of compounds that interact with Nr4a3. Here wepresent data demonstrating the ability of these compounds to modulate Nr4a3 mediated proliferation, survival, and insulin secretion in the beta cell. Furthermore, we demonstrate the effect of these compounds to modulate Nr4a3 transcriptional control. These findings are the basis for developing interventions to increase functional beta cell mass as a treatment for type 1 and type 2 diabetes.

Authors: Isaac Stubbs, Skyler Russell, Melissa Blotter, Maxwell Holmes. Mentors: Ryley Parrish. Insitution: Brigham Young University. Status Epilepticus (SE) is a severe medical condition marked by continuous seizures lasting over 5 minutes. When SE becomes resistant to anticonvulsant drugs, the condition is known as Refractory Status Epilepticus (RSE), which lacks effective treatments and has a mortality rate of 38%. RSE lacks effective treatments partially due to our limited understanding of the mechanisms that lead to patient drug resistance to commonly used anticonvulsants. This study aims to address this knowledge gap in two pivotal ways.First, we have employed a high-density multi-electrode array (HD-MEA) with acute mouse brain slices to better understand RSE propagation patterns and various seizure states with unparalleled spatial precision. The HD-MEA allows us to record from the entire brain slice with 4096 electrodes sampling electrophysiological activity at every 60 micrometers for many hours at a time. Our data demonstrates that different seizure states, such as phasic seizure-like events, short duration epileptic discharges, or RSE itself, occur within both the same brain region and in different brain regions simultaneously. With our novel data visualization software, we can visualize the unique propagation of this phenomenon. These findings indicate that RSE might be a progressive event, challenging conventional understanding of RSE. Second, we are currently exploring a potential pharmacoresistance mechanism that may contribute to the patient entering RSE, which suggests that changes in the chloride reversal potential may lead to a phenomenon known as depolarizing GABA. Depolarizing GABA may negate the effectiveness of the currently used antiepileptic drugs that rely on standard physiological chloride conductance to effectively limit seizure activity. We are studying this drug resistant mechanism with the HD-MEA by introducing anticonvulsant drugs to acute mouse brain slices during the evolution of RSE to locate a critical point at which the slice becomes resistant to these compounds.We hope this study will illuminate the complexities of RSE by revealing its progressive nature and drug resistant properties.

Authors: Mikayla Kimball, Noah Bezzant, Ashley Allan, Josh Sponbeck. Mentors: Brent Feland. Insitution: Brigham Young University. Ultrasonic analysis of patellar tendon thickness in active older athletesBACKGROUND: Recent research has suggested that patellar tendon loading through exercise and resistance training can help maintain and increase patellar tendon thickness in older adults. Limited research exists that identifies the average thickness of patellar tendons in younger athletes, however, it is unknown if this thickness remains or is maintained in older adult athletes who have maintained a very active lifestyle.PURPOSE: This study aimed to determine how gender correlates to patellar tendon thickness in the proximal and middle patellar tendon of active older athletes participating in sporting events at the Huntsman World Senior Games.METHODS: Data was collected from 59 volunteers (participants in the Huntsman WorldSenior Games) in St. George, Utah, 2022. All subjects (34 females: mean age = 61.09 ± 7.00 yrs, Ht = 162.41 ± 25.73 cm, Wt= 66.29 ±11.38 kg; 25 males: mean age = 68.68 ± 7.03 yrs, Ht = 178.21 ± 8.63 cm, Wt= 84.42±10.90 kg) signed an approved consent form and then sat on a treatment table with their legs relaxed and dangling off. The probe was placed vertically below the kneecap and an ultrasonic image was taken. Each image showed a small section of the patellar for reference. Each ultrasonic measurement showed the middle and proximal thickness of the patellar tendon. ANALYSIS: All data were analyzed using JMP ver16.2 with a stepwise multiple regression analysis to determine the effect of age, height, wt and gender on patellar tendon thickness. A sex*location mixed model was used to determine differences in middle and proximal thickness between gender. Data were normally distributed, not requiring transformation.RESULTS & CONCLUSIONS: Proximal tendon measurements were thicker than middle tendon measurements on both sides (p=0.0001). There was no significant difference either proximal tendon thickness (p=0.9323) or middle tendon thickness (p= 0.3993) between left and right sides. No significant difference between male and female tendon thickness at either location (p=0.7700). Proximal tendon thickness was greater and this has been found to be greater in younger athletes with a history of patellar tendinopathy. Aging athletes may also have a history of knee pain episodes that could have contributed to this finding. The lack of gender differences in thickness measures was surprising, but may be a result of the level of activity of senior athletes. In the future studies should look to compare active vs non-active aging athletes, more specific age range differences, and how knee replacements and other injuries affect patellar tendon thickness.

Authors: Caroline Cowley, Megan Jewell, Brenda Mendoza, Aubrey Cluff, Ryan Summerhays, Jason Hansen. Mentors: Jason Hansen. Insitution: Brigham Young University. Approximately 8 million newborns manifest a birth defect every year worldwide. One of the most common birth defects involve disruptions in musculoskeletal development. Oxidative stress has been found to propagate teratogenesis. Thioredoxin-1 (Trx1), an oxidoreductase, is an important antioxidant regulator required for proper embryonic development. Trx1 knockouts have been found to be embryolethal prior to implantation. A preliminary study to assess osteogenesis was conducted using mouse embryonic fibroblasts (MEFs) originating from transgenic conditional Trx1 knockout embryos. Upon confluence, MEFs were stimulated to undergo osteogenesis via commercially available media. A subset of cells were treated with doxycycline (DOX) prior to and throughout the culture period. MEFs were maintained over a 21 day period in a reduced oxygen environment. MEFs were then fixed in formalin and stained with Alizarin red to determine the degree of osteogenesis. MEFs treated with DOX were unable to undergo proper osteogenesis. While this would suggest that osteogenesis is regulated through proper functions of Trx1, it is unknown how Trx1 regulates osteogenesis in utero. Because Trx1 deletion is lethal prior to implantation it has been historically difficult to study the role of Trx1 during organogenesis. With the development of the DOX-inducible Trx1 conditional knockout mouse, we can now target specific developmental periods and evaluate post-implantation processes like osteogenesis. Using proper transgenic mice and breeding schemes, DOX-inducible Trx1 conditional knockout embryos were treated in utero with DOX through the dam’s drinking water, starting on gestational day (GD) 8.5. The embryos were collected on GD 16.5, fixed in 95% ethanol, and then skinned. To visualize bone and cartilage, the embryos were placed in ethanol and subsequently stained with Alizarin red and Alcian blue. The staining showed that embryos lacking Trx1 were significantly stunted in their skeletal maturation. With this data, we are the first to show that during organogenesis, the musculoskeletal system is affected by deletions of Trx1 at specific periods of development. Under oxidizing conditions which exceed the capacity of the oxidoreductase pathway of Trx1, Trx1 exists primarily in its oxidized form and can no longer reduce proteins that have been turned off by oxidation. Our Trx1 deletions model a highly oxidized state in which Trx1 is dysfunctional. Because regulatory redox control of protein activity is required for proper embryonic development, exposure to oxidizing environmental conditions specifically affecting Trx1 redox state may target the disruption of the musculoskeletal system.

Authors: Michael Mann, David Bates, Steven Johnson. Mentors: Steven Johnson. Insitution: Brigham Young University. Nucleosome positioning, or the placement of nucleosomes along DNA, is known to be a significant factor in determining gene expression in eukaryotic cells. Further, post-translational modifications (or PTMs) help modulate gene expression by acting as an intermediate to other factors. The extent to which PTMs directly affect nucleosome positioning is poorly understood, however. Since gene expression is known to be affected by several coincident PTMs on each histone, the goal of this research is to evaluate the suitability of a Lys-->Gln mutation as a substitute for histone lysine acetylation. If successful, this research can be used to support future combinatorial studies on PTMs and nucleosome positioning without the difficulty of combining several forms of PTMs simultaneously.

Authors: Zach Fiore. Mentors: Jared Nielsen. Insitution: Brigham Young University. Gait apraxia is a type of apraxia that affects lower limb use in walking. It is characterized by difficulty initiating gait, freezing of gait, and other gait disturbances that cannot be attributed to complications affecting sensory, motor, or cerebellar function, psychiatric disease, nor ataxia. Symptoms often present following brain trauma. Previous research has indicated that gait apraxia may be linked to lesions in the frontal lobes, basal ganglia and supplementary motor area. However, the specific cerebral location has been debated with minimal research done on the symptom’s implicated neural circuits. The purpose of this study is to determine the networks in the brain that are involved in the pathophysiology of gait apraxia. To determine this, we used the lesion network mapping method. A systematic literature review was performed, with specific inclusion criteria, to find case studies of patients presenting with gait apraxia stemming from acquired brain injury (n=15). Lesion network mapping analysis (Fox et al., 2018) was performed on 15 cases with a large cohort of healthy control resting-state scans (n=1000). The analysis showed that lesions exhibited functional connectivity to the bilateral medial dorsal and pulvinar nuclei of the thalami (n=15), which supports previous associations of basal ganglia damage contributing to gait apraxia. A novel region, the cingulate cortex (n=15), was also found to be functionally connected to the lesion networks. This region is a part of the cingulo-opercular network, responsible for many functions, including action. This network has recently been found to display strong functional connectivity with the somato-cognitive action network, responsible for coordinating movements with cognitive processes. Further research is necessary to determine the mechanism of how these networks interact in contributing to gait apraxia.

Authors: Grant Rousseau, Kenneth Harrington, Jamie Jensen. Mentors: Jamie Jensen. Insitution: Brigham Young University. We know that evolution acceptance is low in the United States, and a perceived conflict between evolution and religion is a big predictor of whether someone accepts or rejects evolution. Helping undergraduates accept evolution involves multiple teaching strategies, including teaching evolution with a reconciliatory approach, increasing their knowledge of evolution, and introducing role models (scientists who maintain religious beliefs) to the students. However, because some students have higher scientific reasoning abilities than others, they may find certain evolution teaching strategies more beneficial than others. In our study, we assessed scientific reasoning ability, change in evolution acceptance, and teaching strategy rankings with surveys before and after evolution instruction. We predicted that students who possessed more scientific reasoning skills would rank evolution knowledge above role models when asked which strategy was most influential in helping them accept evolution. However, we saw that scientific reasoning did not appear to moderate the effect of evolution knowledge. Role models were more important in increasing evolution acceptance, regardless of scientific reasoning skills. This reinforces the importance of having a role model present when teaching evolution to religious audiences.

Authors: Abby Hoyal. Mentors: Kristen Arnold. Insitution: Weber State University. The United States is one of the most prominent locations involved in the exchange of children in human trafficking. There are very few outlets that take in recovered children help them receive the proper aftercare and help to gain an education to integrate them back into society. Research has shown that children learn most efficiently in spaces that are modular and flexible. In research conducted for habilitation centers for children, they discovered, “Planning flexibility and variability comfort children and parents, accessibility and emotionality for children visiting [these] centers.” (Kasper, Ilvitskaya, Petrova, Shulginova, 2019). It has also been found that learning levels are highest in spaces that allow the children to learn from their surroundings rather than by just the instruction alone. “An interior shall lead children to learn concepts from working with materials, rather than by direct instruction. [Interiors] should improve cognitive learning, promote independence, curiosity, decision-making, cooperation, persistence, creativity, and problem-solving.” (Manav, 2016). One of the key elements to properly educating children, as listed previously, is to promote independence. One of the ways that research has shown independence to be achieved through design is proper wayfinding elements should be implemented so that occupants do not have to rely on any other occupant to navigate the space. Researchers examined how different colors, light temperatures, and lighting brightness can provide a natural easiness to wayfinding for occupants. Results found, that “the use of cool colors and high brightness levels help people be spatially oriented.” (Hidayetoglu, Yildirim, Akalin, 2012). The Grove will be an Aftercare center that will provide refuge and educate child survivors of human trafficking in a modular environment that educates through the use of space and materials used, with an encouraging push for independence throughout the space due to proper wayfinding elements.

Authors: Hailey Packard. Mentors: Brandon Ro. Insitution: Utah Valley University. In the vast landscape of architectural mediums, the key to capturing clients' attention and ensuring a comprehensive grasp of a proposed project lies in the choice of rendering methods. This research endeavors to pinpoint the most effective communication medium through an experiment employing various rendering techniques. Four renderings of a single exterior façade will be crafted, each utilizing diverse media methodologies. To convert the renderings into quantifiable data an innovative approach involves subjecting the renderings to AI-driven algorithms, predicting where the human eye is drawn to in the images in the first 3-5 seconds superseding the influence of cognitive bias, and aiming to identify which of the images inherently captures the most attention. The research results will be examined and the significance of differences between rendering methods addressed. This research delves into the implications for architects, exploring how these findings may influence presentation strategies, considering potential impact of passing fads, taking into account the alignment of media style with architectural subject matter, and noting whether the experiment requires diverse architectural styles for optimal effectiveness. The current hypothesis regarding these results is that the images with contrast and hierarchy in the composition, such as watercolor renderings, will outperform the other methods. The overarching objective of this research project is to discern the most effective medium for capturing the client's attention when presenting architectural projects. Due to modern advancements that increase our access to an abundance of knowledge and techniques, architects and designers must make informed choices about how they present their ideas. By comparing these mediums and formats through these methods, this research will attempt to identify the most effective strategy for engaging clients and enhancing their comprehension of projects which will also aid in contributing to a clearer understanding of visual communication in the architectural field.

Authors: Desiree Ritchie. Mentors: Brandon Ro. Insitution: Utah Valley University. Both music and classical architecture have a strong foundation in proportion. Further research shows that the same systems of proportions are found in both areas. Common chords found in music can be translated into proportions found in architecture. For example, the octave has the same proportion as a 2:1 ratio. While there is a clear relationship, the question remains: does understanding one help in understanding the other? Does understanding music make one a better architect? Can designers benefit from musical instruction? To answer these questions, a comparative survey was conducted asking participants to determine which visual proportion best matched the sound heard. These questions range from basic chords and rectangles to a more complex comparison of the Fibonacci sequence to the golden ratio. The survey also asks about participants' background in both music and architecture, as well as general demographic questions. The demographics of the current survey are limited to students and faculty attending BYU and Utah Valley University, but further studies will provide a more comprehensive result. To analyze the results, a comparison will be conducted on the percentage of individuals who were correctly able to recognize the same proportions visually and audibly. This will then be cross-examined with the demographics, comparing those who have a background in music and/or architecture to those who do not. The expected result is that those familiar with one of the previously mentioned fields will better recognize proportions in both music and architecture. If this is proven true, it will show that having a background knowledge in multiple fields will help to create a more well-rounded and capable individual. It will provide insight on how to become better in one’s chosen field.

Authors: Eric Burton. Mentors: Brandon Ro. Insitution: Utah Valley University. Which approach creates more interesting and beautiful buildings: Those who utilize ‘form following function’, or ‘function following form’? When an architect designs only using form following function, the building can have an excess of the utilitarian, resulting in a building that is very useful but can suffer in its overall design aesthetic, lacking attention to beauty. When the opposite occurs, the building can be an incredible work of art, but perhaps suffer in its usage. For an architect to be successful, there needs to be a balance of both methods.In the field of architecture, many architects and designers follow the adage ‘form ever follows function’. While the purpose of this research project is not to discredit this philosophy, the goal is to prove that the other side of the architectural coin, so to speak, has value and that there are multiple philosophies to consider.The research methodology for this project was comparing the buildings of architects that utilize differing philosophies with various building types, and utilizing eye tracking software to help determine which philosophy is more engaging, and beautiful to the average person. The results show that function following form typically produces buildings that are considered more pleasing to the eye, when it comes to the building facades that are evaluated. Building with form in mind first will allow for the designs to better fit their perceived building typology. There is worth at looking into different perspectives. When one is approaching design, they should be willing to implement multiple methods to achieve the best version of their building. Function following form is one method that can help us attain a more beautiful building experience that will impact the world for generations to come.