Anxiety is characterized by heightened response to threat. However, the precise etiologic basis of anxiety disorders remains obscure. Differing from prevailing amygdala-centric views of threat processing and anxiety pathophysiology, this application proposes a neurosensory account, highlighting a sensory pathway to anxiety. Based on accruing new evidence from our laboratory and other groups, we posit that the biological significance of a stimulus can be stored in the sensory system such that the affective value is decoded as soon as the input registers with the sensory brain, paralleling and often preceding limbic- based threat evaluation. As one of the first operations in the cognitive stream, biased sensory perception of threat can then influence downstream processes, directly or indirectly contributing to a variety of cognitive and emotional anomalies observed in anxiety. Representing one of the first lines of research on basic sensory processing of threat in anxiety, this program would provide new insights into basic threat analysis and anxiety genesis, and thus help to innovate clinical treatment for anxiety disorders. Towards that end, this proposal will employ a cognitive-affective neuroscience approach to firstly define sensory encoding of threat in anxiety with two conceptual emphases: 1) to accentuate highly specialized sensory representations of individual threat subtypes, which could inform the neural basis for distinct and sometimes contradictory responses and reflexes to different threats, and account for the heterogeneous symptomology of anxiety disorders (Specific Aim 1);and 2) to evaluate threat perception of multi- and cross-modal (vs. unimodal) sensory input, which, by optimally simulating real-life sensory experience, holds great promise for revealing novel multifaceted and modality-specific sensory biases of threat in anxiety (Specific Aim 2). Secondly, the planned research will mechanistically specify the impact of initial perceptual bias to threat on subsequent emotional and cognitive processes, giving rise to various anxiety symptoms (in particular, negative interpretation, excessive social avoidance and selective attention to threat;
Specific Aim 3). In six independent experiments, we will employ a unique and fully developed constellation of expertise and techniques (functional magnetic resonance imaging, fMRI;brain event- related potentials, ERPs;autonomic physiology;psychophysics;and anxiety assessment and provocation) to determine the neural underpinnings of sensory perception of threat and its behavioral consequences, varying as a function of anxiety. The project findings will create a body of knowledge that is likely to challenge the dominant limbic-centered conceptualization of anxiety, promoting a shift to a multi-system, multi-path theorization.

Public Health Relevance

Anxiety disorders are the most common psychiatric illness, causing a great deal of devastation and suffering for the patients. However, the etiology of anxiety remains obscure. Traditional accounts for anxiety genesis typically implicate exaggerated amygdala reactivity as the primary mechanism, but the proposal here points to a novel alternative-a neurosensory model of anxiety. The proposed investigation will elucidate aberrant sensory representation of threat in the sensory brain and consequent threat perception bias in anxiety, which intensifies and perpetuates anxiety symptoms directly or indirectly via its impact on downstream information processing. As such, this research program will generate significant new insights into anxiety etiology and greatly contribute to clinical prevention and intervention of this illness.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
5R01MH093413-03
Application #
8608006
Study Section
Neural Basis of Psychopathology, Addictions and Sleep Disorders Study Section (NPAS)
Program Officer
Vicentic, Aleksandra
Project Start
2012-03-15
Project End
2017-01-31
Budget Start
2014-02-01
Budget End
2015-01-31
Support Year
3
Fiscal Year
2014
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
City
Madison
State
WI
Country
United States
Zip Code
53715
Han, Meng; Mao, Xinrui; Kartvelishvili, Nika et al. (2018) Unitization mitigates interference by intrinsic negative emotion in familiarity and recollection of associative memory: Electrophysiological evidence. Cogn Affect Behav Neurosci 18:1259-1268
Zheng, Yan; You, Yuqi; Farias, Ana R et al. (2018) Human chemosignals of disgust facilitate food judgment. Sci Rep 8:17006
Clancy, Kevin J; Baisley, Sarah K; Albizu, Alejandro et al. (2018) Lasting connectivity increase and anxiety reduction via transcranial alternating current stimulation. Soc Cogn Affect Neurosci 13:1305-1316
Clancy, Kevin; Ding, Mingzhou; Bernat, Edward et al. (2017) Restless 'rest': intrinsic sensory hyperactivity and disinhibition in post-traumatic stress disorder. Brain 140:2041-2050
You, Yuqi; Li, Wen (2016) Parallel processing of general and specific threat during early stages of perception. Soc Cogn Affect Neurosci 11:395-404
Forscher, Emily C; Zheng, Yan; Ke, Zijun et al. (2016) Decomposing fear perception: A combination of psychophysics and neurometric modeling of fear perception. Neuropsychologia 91:254-261
Novak, Lucas R; Gitelman, Darren R; Schuyler, Brianna et al. (2015) Olfactory-visual integration facilitates perception of subthreshold negative emotion. Neuropsychologia 77:288-97
Mao, Xinrui; You, Yuqi; Li, Wen et al. (2015) Emotion impairs extrinsic source memory--An ERP study. Biol Psychol 110:182-9
Li, Wen (2014) Learning to smell danger: acquired associative representation of threat in the olfactory cortex. Front Behav Neurosci 8:98
Krusemark, Elizabeth A; Novak, Lucas R; Gitelman, Darren R et al. (2013) When the sense of smell meets emotion: anxiety-state-dependent olfactory processing and neural circuitry adaptation. J Neurosci 33:15324-32

Showing the most recent 10 out of 14 publications