By Annette Finley-Croswhite

The Office of Academic Affairs is pleased to announce funding for three new Course-based Undergraduate Research (CURE) projects. The CURE program aims to generate active learning in the classroom by embedding the research process into course curricula. Studies indicate that students who engage in undergraduate research develop higher-level critical thinking skills and discover new knowledge.聽

The CURE proposals were reviewed by a CURE committee consisting of Annette Finley-Croswhite, Professor of History and Director of the Center for Faculty Development, M鈥檋ammed Abdous, CFD Associate Director of Faculty Innovation and Teaching with Technology, Wayne Hynes, Professor of Biological Sciences and Associate Dean in the College of Sciences, Lin Guo, Associate Professor of Marketing, and Cathleen Rhodes, Master Lecturer in Women鈥檚 & Gender Studies. Both Guo and Rhodes are former CURE grant winners. As Director of the CFD, I want to extend my thanks to the review committee for their work with the CURE review process.

The 2024 winners are listed below with their project abstracts. We look forward to learning more about these projects next semester. At the Center for Faculty Development, we congratulate these CURE grant winners.

Angela Wilson,聽Clinical Assistant Professor. Medical Diagnostic & Translational Sciences,聽"Investigating Bacteria isolated in Dental Caries of Siblings."聽Dr. Wilson will receive $1442.58 in CURE monies with an additional $480 in support from her department chair and college dean. The funds will be used for lab equipment and conference travel.

"Clinical microbiologists provide essential clinical information to allied health professionals that directly affects patient outcomes. Clinical microbiologists also provide valuable data to public health sectors that help shape public health recommendations, provide knowledge, and analyze trends. It is difficult to capture this unique role of the clinical microbiologist in the student laboratory setting. This project aims to engage students in an experiential, collaborative, project-based curriculum innovation that includes dental hygiene, clinical microbiology, and public health personnel. With the assistance of dental hygiene faculty, students will organize primary teeth and identify primary dental caries in sibling populations. After classifying teeth with caries, students will culture donated de-identified primary teeth with caries and definitively identify the cavity causing bacteria. The instructor will provide demographic data to the students in computer file format matching their assigned specimens. Finally, students will work with a public health personnel to examine demographic and bacteriology culture data for correlations and trends among the sample population. Students will analyze results based on sibling demographic data, the prevalence of primary dental caries, and frequently isolated bacteria.

This curriculum innovation allows students to engage in the clinical microbiology lab and experience how their work contributes to recommendations and public health policies.聽 MLS students will experience and fell more connected in their future roles as clinical microbiologist in the lab and as contributors to public health.鈥

Robert Strozak, Master Lecturer, Mathematics and Statistics/Katie Rafferty, Senior Lecturer Mathematics and Statistics, "Undergraduate Research in Baseball Analytics."聽Strozak and Rafferty will receive $2000 in CURE monies with a total of $2690 in matching funds coming from their department chair and college dean. The funds will be used for summer stipends and for necessary baseball analytics certifications.

鈥淩ecently, Old Dominion University鈥檚 baseball team聽has requested the assistance of the math聽department聽in聽the聽development聽of聽baseball聽analytics.聽To聽provide聽support for聽this, the course MATH 494,聽Entrepreneurship in Mathematics, will be offered in Fall 2024. Within the course, the students聽will:听听聽

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  • Learn聽the聽basics聽of聽baseball聽analytics聽(also聽known聽as聽鈥淪abermetrics鈥),听听
  • Learn聽how聽to聽generate聽analytical聽baseball聽reports聽in聽the聽R聽programming聽language聽and聽develop聽proficiency聽by聽using聽field聽data聽from聽黑料正能量鈥檚聽baseball聽team,听听
  • Learn聽how聽the聽Trackman漏聽system聽tracks聽each聽pitch聽and聽how聽its聽data聽is聽used聽to聽support聽baseball analytics,听听
  • Meet聽with聽staff聽members聽of聽the聽baseball聽team聽to聽gain聽better聽understanding聽of聽the聽data聽used聽in聽the聽reports,therefore聽improving,聽and聽creating聽more聽novel聽reports.听听

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For聽each聽student, the聽final聽project of聽the聽course聽will聽be聽a聽set聽of聽reports requested by the baseball team. After completion of MATH 494, the students will be prepared聽to聽become聽members聽of聽our聽鈥淒ata聽Analytics聽Team,鈥 which will work with the baseball team the following Spring.聽The goal is to offer MATH 494 every Fall 聽to provide a pipeline of undergraduate researchers to provide analytics to the 黑料正能量 baseball team and to function as a long-term incubator of undergraduate research in the Mathematics Department.鈥澛

Margaret Mulholland, Professor of Ocean and Earth Sciences, "CURE: Training Students to Analyze Segments of Large Environmental Databases to Further Harmful Algal Bloom Research and the Development of Alert Systems."聽Mulholland will receive $2000 in CURE monies with a total of $4000 in matching funds coming from her department chair and her college dean. Funds will be spent on IFCB Training (Imaging Flow Cytobot鈥擨FCB, an automated imaging flow cytometer).聽

鈥淭his proposal is aimed at transitioning an existing 1 credit undergraduate laboratory course (OEAS 307) into a fully developed 3 credit CURE course in Environmental Science and Oceanography. While targeting undergraduates in OES, this course should be of interest to students in Biology and Chemistry. Multidisciplinary aquatic sampling and聽data聽analysis聽are聽already聽integral parts聽of聽the聽existing聽OEAS 307 course, and the proposed CURE transition will enhance and expand sampling and data analyses to develop publishable products.聽Initially, this course will be centered around harmful algal blooms (HABs) and the environmental conditions that promote them. This topic is highly relevant as HABs have been increasing worldwide and their impacts on aquatic ecosystems, fisheries and human populations can be severe. In the lower Chesapeake Bay, physical, chemical, biological, and geological processes combine to control the timing, magnitude and duration of blooms making this an ideal topic to build upon for the proposed CURE.聽Further, there are several long-term databases that can be used to develop group projects that examine climate relevant changes in the environment and the occurrence of HABs over time.鈥澛