Decreasing dorsal cochlear nucleus activity ameliorates noise-induced tinnitus perception in mice

Malfatti, T; Ciralli, Barbara; Hilscher, Markus M.; Leão, Richardson N.; Leão, Katarina E.

doi:10.1186/s12915-022-01288-1

Cited by 8 publications

(14 citation statements)

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“…Analysis of auditory brainstem responses was done as pre-413 viously described (Malfatti et al, 2022) and consisted of 414 averaging the 529 trials, filter the signal using a 3rd order 415 butterworth bandpass filter from 600-1500 Hz, and slice 416 the data 12 ms after the sound pulse onset. Thresholds 417 were defined by automatically detecting the lowest inten-418 sity that can elicit a wave peak one standard deviation 419 above the mean, and preceded by a peak in the previous 420 intensity ( Malfatti et al, 2022). Effect of noise exposure 421 5/18 on ABR thresholds was evaluated using the Friedman Test, and pairwise comparisons were performed using the Wilcoxon test.…”

Section: Discussionmentioning

confidence: 99%

“…The frequency bands tested were: 8-10 kHz, 9-11 kHz, 10-12 kHz, 12-14 kHz and 14-16 kHz. Pulses were presented at 80 dBSPL in decreasing steps of 5 dBSPL to the final intensity 45 dB-SPL as previously described (Malfatti et al, 2022). The experimenter was blinded to the animal group during the ABR recordings.…”

Section: Methodsmentioning

confidence: 99%

“…Mice were initially screened 3 days before the noise exposure for their ability to detect the gap. Animals were then tested again 3 days after noise exposure or sham procedures (no noise), as previously described (Malfatti et al, 2022). In detail, animals were placed in custom-made acrylic cylinders perforated at regular intervals.…”

Section: Methodsmentioning

confidence: 99%

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Alterations of auditory sensory gating in mice with noise-induced tinnitus treated with nicotine and cannabis extract

Ciralli

Malfatti

Lima

et al. 2022

Preprint

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Aims/Hypothesis: Tinnitus is a phantom sound perception affecting both auditory and limbic structures. The mechanisms of tinnitus remain unclear and it is debatable whether tinnitus alters attention to sound and the ability to inhibit repetitive sounds, a phenomenon also known as auditory gating. Methods: 22 male C57BL/6J mice were used in this study. Anesthetized mice were exposed to a 9-11 kHz narrow band noise (90 dBSPL for 1 hr) and sham exposed mice were used as controls. Hearing thresholds were measured using auditory brainstem responses (ABRs) and tinnitus was assessed using Gap prepulse inhibition of acoustic startle (GPIAS). After the induction of tinnitus, mice were implanted multi-electrodes to assess auditory event-related potentials (aERPs) in the dorsal hippocampus in response to paired clicks. Alterations of aERPs under nicotine (1.0 mg/kg, intraperitoneal (i.p.) or cannabis extract (100 mg/Kg, i.p.) were evaluated (in isolation or in combination), the latter containing 47.25 mg/kg of tetrahydrocannabinol (THC); 0.43 mg/kg of cannabidiol (CBD) and 1.17 mg/kg of cannabinol (CBN), as analyzed by high-performance liquid chromatography (HPLC). Saline-treated animals were used as controls. Results: Our results show that mice with behavioral evidence of tinnitus display auditory gating of repetitive click, but with larger amplitudes and longer latencies of the N40 component. In contrast, no difference was observed in the P80 amplitude and latency between groups or treatments. The combination of cannabis extract and nicotine also improved auditory gating ratio in mice with noise-induced tinnitus without permanent hearing threshold shifts by strongly increasing the first N40 click amplitude but without altering the second click response amplitude. Furthermore, the increased latency of the N40 component suggests altered temporal processing of triggered attention in mice with tinnitus due to an increased sensitivity to the exposure to cannabis extract. Conclusion/Interpretation: In summary, we show that nicotine and cannabis extract alter sensory gating in mice with behavioral evidence of tinnitus and propose that the altered central plasticity in tinnitus is more sensitive to the combined actions on the cholinergic and the endocannabinoid systems. We conclude that the limbic system may play a role in the altered sensory gating responses on tinnitus since the hippocampus responses to auditory inputs are altered. These findings could enable a new understanding of which neuronal pathways could be involved in sensory gating in tinnitus.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Alterations of auditory sensory gating in mice with noise-induced tinnitus treated with nicotine and cannabis extract

Ciralli

Malfatti

Lima

et al. 2022

Preprint

Self Cite

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show abstract

“…Mice were then screened 3 days before the noise exposure for their ability to detect the gap. Animals were then tested again 3 days after noise exposure or sham procedures (no noise), as previously described (Malfatti et al, 2022). Animals were placed in custom-made acrylic cylinders perforated at regular intervals.…”

Section: Gap Prepulse Inhibition Of Acoustic Startlementioning

confidence: 99%

Alterations of auditory sensory gating in mice with noise-induced tinnitus treated with nicotine and cannabis extract

Ciralli,

Malfatti,

Lima

et al. 2023

J Psychopharmacol

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Tinnitus is a phantom sound perception affecting both auditory and limbic structures. The mechanisms of tinnitus remain unclear and it is debatable whether tinnitus alters attention to sound and the ability to inhibit repetitive sounds, a phenomenon also known as auditory gating. Here we investigate if noise exposure interferes with auditory gating and whether natural extracts of cannabis or nicotine could improve auditory pre-attentional processing in noise-exposed mice. We used 22 male C57BL/6J mice divided into noise-exposed (exposed to a 9–11 kHz narrow band noise for 1 h) and sham (no sound during noise exposure) groups. Hearing thresholds were measured using auditory brainstem responses, and tinnitus-like behavior was assessed using Gap prepulse inhibition of acoustic startle. After noise exposure, mice were implanted with multi-electrodes in the dorsal hippocampus to assess auditory event-related potentials in response to paired clicks. The results showed that mice with tinnitus-like behavior displayed auditory gating of repetitive clicks, but with larger amplitudes and longer latencies of the N40 component of the aERP waveform. The combination of cannabis extract and nicotine improved the auditory gating ratio in noise-exposed mice without permanent hearing threshold shifts. Lastly, the longer latency of the N40 component appears due to an increased sensitivity to cannabis extract in noise-exposed mice compared to sham mice. The study suggests that the altered central plasticity in tinnitus is more sensitive to the combined actions on the cholinergic and the endocannabinoid systems. Overall, the findings contribute to a better understanding of pharmacological modulation of auditory sensory gating.

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“…We focused on neuroscientific evidence that there may be a cerebellum-like circuit that cancels responses to self-generated sounds at the earliest level (brainstem) for auditory processing [ 15 ]. The dorsal cochlear nucleus (DCN) operates as the key structure at the earliest level [ 16 ], and hearing deafferentation leads to a decrease in auditory input with a subsequent increase in somatosensory input to the DCN, which may play a role in the pathogenesis of tinnitus [ 17 ]. Moreover, the auditory predictions at higher stages in the hierarchy of auditory processing are made in the paraflocculus in the cerebellum, which is thought to integrate ECs [ 18 ].…”

Section: Introductionmentioning

confidence: 99%

Neurobiological Signatures of Auditory False Perception and Phantom Perception as a Consequence of Sensory Prediction Errors

Ahn

Alsabbagh

Lee

et al. 2022

Biology

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In this study, we hypothesized that top-down sensory prediction error due to peripheral hearing loss might influence sensorimotor integration using the efference copy (EC) signals as functional connections between auditory and motor brain areas. Using neurophysiological methods, we demonstrated that the auditory responses to self-generated sound were not suppressed in a group of patients with tinnitus accompanied by significant hearing impairment and in a schizophrenia group. However, the response was attenuated in a group with tinnitus accompanied by mild hearing impairment, similar to a healthy control group. The bias of attentional networks to self-generated sound was also observed in the subjects with tinnitus with significant hearing impairment compared to those with mild hearing impairment and healthy subjects, but it did not reach the notable disintegration found in those in the schizophrenia group. Even though the present study had significant constraints in that we did not include hearing loss subjects without tinnitus, these results might suggest that auditory deafferentation (hearing loss) may influence sensorimotor integration process using EC signals. However, the impaired sensorimotor integration in subjects with tinnitus with significant hearing impairment may have resulted from aberrant auditory signals due to sensory loss, not fundamental deficits in the reafference system, as the auditory attention network to self-generated sound is relatively well preserved in these subjects.

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Decreasing dorsal cochlear nucleus activity ameliorates noise-induced tinnitus perception in mice

Cited by 8 publications

References 83 publications

Alterations of auditory sensory gating in mice with noise-induced tinnitus treated with nicotine and cannabis extract

Alterations of auditory sensory gating in mice with noise-induced tinnitus treated with nicotine and cannabis extract

Alterations of auditory sensory gating in mice with noise-induced tinnitus treated with nicotine and cannabis extract

Neurobiological Signatures of Auditory False Perception and Phantom Perception as a Consequence of Sensory Prediction Errors

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