Investigating the Interplay between Glucose Regulation, Neural Activity, and Motivation: A Novel Approach Utilizing Vibration Stimulation

This research explores the intricate relationship between glucose regulation, neural activity, and motivation in key brain regions, including the hypothalamus, basal ganglia, ventral tegmental area (VTA), and nucleus accumbens (NA). We aim to unravel the potential relationship of these factors on dopamine (DA) release and the broader implications for mental health, glucose regulation, well-being, and overall health. Our innovative approach involves using a chair that causes heterodyned whole-body vibration designed to stimulate DA release from the VTA and NA, areas associated with motivation and rewards

Development of a Protocol for Obtaining Biological Samples for Genetic Testing from Remote Individuals

Pharmacogenomic sequencing allows individuals to learn more about how they will respond to certain medications but requires shipping of a biological sample. One complication of sending biological samples to remote laboratories is stability. Blood generally yields sufficient quantities of high-quality DNA but requires a clinic visit. Saliva and buccal swabs are routinely used for DNA extractions, but the DNA quality is notoriously low due to the presence of bacteria in the mouth. Additionally, elderly individuals have difficulty producing enough saliva for testing, and the tubes contain several milliliters of liquid and shipping requires special considerations. Dried blood spot cards, which serve as an alternative to saliva and buccal swabs, yield high-quality DNA and ship easily, but may produce a lower yield. This project aims to determine which biological sample methods can reasonably be obtained from remote individuals

Investigating the Genetics of Chronic Intractable Migraine with Reactive Hypoglycemia

Migraines affect roughly 1-in-6 males and 1-in-5 females in the United States. Of these, approximately 5-30% experience intractable migraines, or migraines resistant to abortive treatments. Despite this large population, relatively little is known about intractable migraines compared to other types of migraines. Our recent work indicates that reactive hypoglycemia is common among these individuals. Additionally, empirical evidence suggests that individuals in families with chronic intractable migraines are more likely to have the same condition than people of the general population, suggesting a possible genetic link between both migraines and metabolic abnormalities. Previous Genome Wide Association Studies (GWAS) have found several genetic markers for migraines, but the studies have not differentiated groups by important factors including severity and frequency of migraines or treatment response. Furthermore, GWA studies investigate only common variation. Despite these limitations, a variant in the LEPR gene (rs751167), the leptin receptor gene was found to be significantly associated with migraines. Variants in the LEPR gene are associated with weight gain and metabolic syndrome, indicating a link between metabolism and migraines. In the present study, we aim to broaden the scope, investigating chronic intractable migraine with reactive hypoglycemia specifically, and using all variant types including small insertions/deletions, rare variants, and copy number variants. To investigate heritability, we will take pedigrees of individuals that fit this phenotype