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Full-Text Articles in Life Sciences
Long-Term Neural Activity Recorders Using Energy-Based Sensing, Compressive Computation And Data Logging, Darshit Mehta
Long-Term Neural Activity Recorders Using Energy-Based Sensing, Compressive Computation And Data Logging, Darshit Mehta
McKelvey School of Engineering Theses & Dissertations
Insects are ideal candidates for developing bio-robotic systems owing to their ability to thrive in almost any environment. For example, neurons in their exquisite olfactory sensory systems can be tapped to create a sensing platform for standoff chemical monitoring. However, for enabling such cyborg systems, it is vital that the neural activity of a freely behaving organism can be measured for long periods of time. The current state-of-the-art neural recording techniques are power-intensive and they either need batteries, which make them too bulky for insects, or they have to maintain a continuous telemetry link to an external power source which …
Sex Differences In The Role Of Cornichon Homolog-3 On Spatial Memory And Synaptic Plasticity, Hannah Elizabeth Frye
Sex Differences In The Role Of Cornichon Homolog-3 On Spatial Memory And Synaptic Plasticity, Hannah Elizabeth Frye
Arts & Sciences Electronic Theses and Dissertations
Cornichon homolog-3 (CNIH3) is an AMPA receptor (AMPAR) auxiliary protein highly expressed in the dorsal hippocampus (dHPC), a region where AMPARs are critical for spatial memory and synaptic plasticity. A 2016 genome-wide association study (GWAS) by Nelson et al. identified single nucleotide polymorphisms (SNPs) in the gene CNIH3 to be associated with reduced individual risk for the development of opioid use disorder (OUD) in individuals with prior opioid exposure. We previously demonstrated a key role for AMPARs in the dHPC in opioid-associated learning and memory, therefore we hypothesized that CNIH3 in the dHPC may mediate learning and memory processes through …
Dedicated Interneuronal Microcircuits Regulated By Behavioral State, Moises William Arriaga
Dedicated Interneuronal Microcircuits Regulated By Behavioral State, Moises William Arriaga
Arts & Sciences Electronic Theses and Dissertations
The hippocampus is a critical brain structure for learning and memory. Neuronal inhibition within the hippocampus, performed by a wide variety of inhibitory interneuron subtypes, is required to organize and regulate the cell activity and circuit operations which underly memory formation. Despite the importance of inhibitory interneurons to the function of the hippocampus, detailed descriptions of the role of interneurons in the regulation of network activity have been limited by difficulties associated with identifying and recording from these cells using traditional electrophysiology techniques, especially in awake, behaving animals. To better investigate the function of hippocampal interneurons in awake, behaving animals, …
Isolating Item And Subject Contributions To The Subsequent Memory Effect, Jihyun Cha
Isolating Item And Subject Contributions To The Subsequent Memory Effect, Jihyun Cha
Arts & Sciences Electronic Theses and Dissertations
The subsequent memory effect (SME) refers to the greater brain activation during encoding of subsequently recognized items compared to subsequently forgotten items. Previous literature regarding SME has been primarily focused on identifying the role of specific regions during encoding or factors that potentially modulate the phenomenon. The current dissertation examines the degree to which this phenomenon can be explained by item selection effects; that is, the tendency of some items to be inherently more memorable than others. To estimate the potential contribution of items to SME, I provided participants a fixed set of items during encoding, which allowed me to …
The Impact Of Delay On Retrieval Success In The Parietal Memory Network, Nathan Anderson
The Impact Of Delay On Retrieval Success In The Parietal Memory Network, Nathan Anderson
Arts & Sciences Electronic Theses and Dissertations
Recent work has identified a Parietal Memory Network (PMN), which exhibits regular patterns of activation during memory encoding and retrieval. Among these characteristic patterns, this network displays a strong “retrieval success” effect, showing greater activation for correctlyremembered studied items (hits) compared to correctly-rejected novel items (CRs). To date, most relevant studies have used short retention intervals. Here, we ask if the retrieval success effect seen in the PMN would remain consistent over a delay. Twenty participants underwent fMRI while encoding and recognizing scenes. Greater activity for hits than for correctly-rejected lures within PMN regions was observed after a short delay …
Perceiving Oldness In Parietal Cortex: Fmri Characterization Of A Parietal Memory Network, Adrian Gilmore
Perceiving Oldness In Parietal Cortex: Fmri Characterization Of A Parietal Memory Network, Adrian Gilmore
Arts & Sciences Electronic Theses and Dissertations
The manner in which the human brain recognizes certain stimuli as novel or familiar is a matter of ongoing investigation. The overarching goal of this dissertation is to improve our understanding of how this may be accomplished. More specifically, work contained herein focuses on a recently described "parietal memory network" (PMN; Gilmore et al., 2015) that shows opposite patterns of activity when perceiving novel or familiar stimuli: deactivating in response to novelty, and activating in response to familiarity. Critically, our understanding of this network is based on explicit memory tasks, in which subjects are deliberately instructed to learn or remember …