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- All Subjects: Drosophila melanogaster
- Creators: Angilletta, Michael
- Creators: Bond, Angela
- Creators: Hackney-Price, Jennifer
- Member of: Barrett, The Honors College Thesis/Creative Project Collection
Lactate is a commonly known biochemical that is usually produced under anaerobic conditions. This makes it a useful marker for examining the possibility that Drosophila melanogaster undergoes natural hypoxic states during development due to the rate of growth. To analyze this observation and its potential for explaining developmental changes, a lactate assay was used to quantify lactate produced across time points in the third larval instar and across early adulthood. Lactate assay results showed near-zero lactate levels for both larvae and adults. There were confounding factors present in larval lactate assays which made analysis difficult. However, the results of the adult lactate assays seem to indicate an inability to produce large amounts of lactate regardless of time point in adulthood, suggesting that adults do not naturally experience hypoxia during or after eclosion.
Veterans are approximately 30% more likely than non-veterans to suffer from severe hearing impairment. Tinnitus, or ringing in the ears, which is increasingly common among military service men and women, has been linked to significant cognitive and psychological impairment and can be worsened by the same sounds that trigger post-traumatic stress disorder (PTSD). In fact, tinnitus and PTSD often present as comorbidities, and recent studies suggest these two disorders may share a common neurological pathway. Additional studies are required to better understand the connection between hearing loss and impaired cognitive function such as that observed in with PTSD. Here, we use the fruit fly, Drosophila melanogaster, to explore the relationship between hearing loss and cognitive function. Negative geotaxis climbing assays and courtship behavior analysis were used to examine neurobehavioral changes induced by prolonged, intense auditory stimulation. Preliminary results suggest that exposure to loud noise for an extended period of time significantly affected Drosophila behavior, with males being more sensitive than females. Based on our results, there appears to be a potential connection between noise exposure and behavior, further suggesting that Drosophila could be an effective model to study the link between hearing loss and PTSD.