Sensitivity of rat inferior colliculus neurons to frequency distributions

Parthasarathy, Aravindakshan; Han, Emily X.; Obleser, Jonas; Bartlett, Edward E.

doi:10.1152/jn.00555.2015

Cited by 15 publications

(27 citation statements)

References 91 publications

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“…Little is known about the extent to which adaptation to stimulus statistics may be affected by aging. Sensitivity to sound-frequency statistics appears to be unaffected in older people (Herrmann et al, 2013a). However, auditory cortex neurons of older adults seem to recover faster from neural adaptation compared with younger people (consistent with observations in older animals; de Villers-Sidani et al, 2010;Herrmann et al, 2016a).…”

Section: Introductionsupporting

confidence: 67%

“…However, neurons supporting perceptual inferences are inherently limited in the range with which they respond to sensory inputs (Laughlin, 1981). One way to overcome this limitation is to adjust dynamically a neuron's response range (input-output function) to statistical distributions of acoustic features in the environment in a process called adaptation to stimulus statistics, dynamic range adaptation, or gain control (Salinas and Thier, 2000;Nagel and Doupe, 2006;Wark et al, 2007;Robinson and McAlpine, 2009;Wen et al, 2009Wen et al, , 2012Dahmen et al, 2010;Hildebrandt et al, 2011;Rabinowitz et al, 2011;Herrmann et al, 2014). Neural adaptation to stimulus statistics has been studied almost exclusively in nonhuman mammals and whether the results generalize to humans, particularly to older humans, is unknown.…”

Section: Introductionmentioning

confidence: 99%

“…In humans, neural responses (measured using EEG or MEG) adapt to different sound-frequency distributions (Garrido et al, 2013;Herrmann et al, 2013aHerrmann et al, , 2014). Adaptation to sound-level (as opposed to sound-frequency) statistics has not been investigated despite this being crucial for avoiding neural response saturation in loud sound environments.…”

Section: Introductionmentioning

confidence: 99%

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Aging Affects Adaptation to Sound-Level Statistics in Human Auditory Cortex

2018

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Optimal perception requires efficient and adaptive neural processing of sensory input. Neurons in nonhuman mammals adapt to the statistical properties of acoustic feature distributions such that they become sensitive to sounds that are most likely to occur in the environment. However, whether human auditory responses adapt to stimulus statistical distributions and how aging affects adaptation to stimulus statistics is unknown. We used MEG to study how exposure to different distributions of sound levels affects adaptation in auditory cortex of younger (mean: 25 years; = 19) and older (mean: 64 years; = 20) adults (male and female). Participants passively listened to two sound-level distributions with different modes (either 15 or 45 dB sensation level). In a control block with long interstimulus intervals, allowing neural populations to recover from adaptation, neural response magnitudes were similar between younger and older adults. Critically, both age groups demonstrated adaptation to sound-level stimulus statistics, but adaptation was altered for older compared with younger people: in the older group, neural responses continued to be sensitive to sound level under conditions in which responses were fully adapted in the younger group. The lack of full adaptation to the statistics of the sensory environment may be a physiological mechanism underlying the known difficulty that older adults have with filtering out irrelevant sensory information. Behavior requires efficient processing of acoustic stimulation. Animal work suggests that neurons accomplish efficient processing by adjusting their response sensitivity depending on statistical properties of the acoustic environment. Little is known about the extent to which this adaptation to stimulus statistics generalizes to humans, particularly to older humans. We used MEG to investigate how aging influences adaptation to sound-level statistics. Listeners were presented with sounds drawn from sound-level distributions with different modes (15 vs 45 dB). Auditory cortex neurons adapted to sound-level statistics in younger and older adults, but adaptation was incomplete in older people. The data suggest that the aging auditory system does not fully capitalize on the statistics available in sound environments to tune the perceptual system dynamically.

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Section: Introductionsupporting

confidence: 67%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Aging Affects Adaptation to Sound-Level Statistics in Human Auditory Cortex

2018

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“…The ABR responses showed clear age‐related changes in hearing thresholds (all values dB SPL and standard deviation: nine older animals: click 53.3 ± 6.6, 8 kHz tone 36.7 ± 2.5; nine younger animals: click 36.4 ± 3.8, 8 kHz tone 30.0 ± 7.5), with a larger threshold discrepancy for clicks vs. 8 kHz tones as reported previously (Parthasarathy & Bartlett, ). Methods for surgery, sound stimulation and recording are similar to those described in (Rabang et al ., ; Herrmann et al ., ). Surgeries and recordings were performed in a 9′ × 9′ double walled acoustic chamber (Industrial Acoustics Corporation).…”

Section: Methodsmentioning

confidence: 99%

Ageing affects dual encoding of periodicity and envelope shape in rat inferior colliculus neurons

Herrmann

Parthasarathy

Bartlett

2016

Eur J of Neuroscience

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Extracting temporal periodicities and envelope shapes of sounds is important for listening within complex auditory scenes but declines behaviorally with age. Here we recorded local field potentials (LFPs) and spikes to investigate how aging affects the neural representations of different modulation rates and envelope shapes in the inferior colliculus of rats. We specifically aimed to explore the input-output (LFP-spike) response transformations of inferior colliculus neurons. Our results show that envelope shapes up to 256-Hz modulation rates are represented in the neural synchronization phase lags in younger and older animals. Critically, aging was associated with (1) an enhanced gain in onset response magnitude from LFPs to spikes; (2) an enhanced gain in neural synchronization strength from LFPs to spikes for a low modulation rate (45 Hz); (3) a decrease in LFP synchronization strength for higher modulation rates (128 and 256 Hz); and (4) changes in neural synchronization strength to different envelope shapes. The current age-related changes are discussed in the context of an altered excitation-inhibition balance accompanying aging.

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“…Responses were recorded from Fischer-344 rats, similar to Rabang et al 30 and Herrmann et al 13 Briefly, all surgical procedures used were approved by the Purdue University animal care and use committee (PACUC 06-106). Auditory brainstem responses were recorded from these animals a few days preceding surgery to ensure all animals had hearing thresholds typical for their age and to ensure there were no abnormal auditory pathologies.…”

Section: Methodsmentioning

confidence: 99%

Hierarchical winner-take-all particle swarm optimization social network for neural model fitting

et al. 2016

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Particle swarm optimization (PSO) has gained widespread use as a general mathematical programming paradigm and seen use in a wide variety of optimization and machine learning problems. In this work, we introduce a new variant on the PSO social network and apply this method to the inverse problem of input parameter selection from recorded auditory neuron tuning curves. The topology of a PSO social network is a major contributor to optimization success. Here we propose a new social network which draws influence from winner-take-all coding found in visual cortical neurons. We show that the winner-take-all network performs exceptionally well on optimization problems with greater than 5 dimensions and runs at a lower iteration count as compared to other PSO topologies. Finally we show that this variant of PSO is able to recreate auditory frequency tuning curves and modulation transfer functions, making it a potentially useful tool for computational neuroscience models.

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Sensitivity of rat inferior colliculus neurons to frequency distributions

Cited by 15 publications

References 91 publications

Aging Affects Adaptation to Sound-Level Statistics in Human Auditory Cortex

Aging Affects Adaptation to Sound-Level Statistics in Human Auditory Cortex

Ageing affects dual encoding of periodicity and envelope shape in rat inferior colliculus neurons

Hierarchical winner-take-all particle swarm optimization social network for neural model fitting

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