Faculty/Staff/PhD

PH.D STUDENT

brunelle-dimitri

Brunelle, Dimitri, B.A.

PhD Student 

Primary Advisor: Dr. Joseph Walton

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Auditory Neural Engineering Lab





I earned my B.A. in Psychology at the 91社区. I am a Ph.D. student in Communication Sciences and Disorders, with a concentration in Hearing Science. I am currently studying the behavioral and neural underpinnings of presbycusis, tinnitus, and the cocktail party problem in the mouse model. Some of my recent work involved leveraging the acoustic startle response and extra-cellular electrophysiology in the inferior colliculus to characterize the effect of presbycusis on signal-in-noise detection, and subsequently ameliorating signal-in-noise deficits via a targeted sound enrichment protocol. Additionally, our group has constructed a machine learning model which can classify the acoustic startle response with 98% accuracy. I am currently a member of the Auditory Neural Engineering Laboratory within the Global Center for Hearing and Speech Research.

Education
Bachelor of Arts in Psychology  91社区  2021

Recent Scholarly Activity 

  • Brunelle D.L., Park C.R., Fawcett T.J. and Walton J.P. Signal-in-Noise Detection Across the Lifespan in a Mouse Model of Presbycusis (Under review in Neurobiology of Aging).
  • Brunelle D.L. and Llano D.A. (2023). Role of audio-somatosensory corticothalamic circuit integration in analgesia. Cell Calcium, 111, 102717.
  • Fawcett T.J., Longenecker R.J., Brunelle D.L., Berger J.I., Wallace M.N., Galazyuk A.V., Rosen M.J., Salvi R.J. and Walton J.P. (2023). Universal automated classification of the acoustic startle reflex using machine learning. Hearing Research, 428, 108667.
  • Brunelle D.L., Park C.R., Fawcett T.J. and Walton J.P. Signal-in-Noise Detection Across the Lifespan in a Mouse Model of Presbycusis. USF Graduate Student Research Symposium, Tampa, FL, March 2023.
  • Brunelle D.L., Fawcett T.J. and Walton J.P. Age-induced modulation in sound-evoked local field potentials in the inferior colliculus of CBA/CaJ mice. Society for Neuroscience Meeting and Advances and Perspectives in Auditory Neuroscience Meeting, Washington D.C., November 2023 (to be presented).