Inhibition of pericranial muscle activity, respiration, and heart rate enhances auditory sensitivity

J.J. STEKELENBURG; A. VAN BOXTEL

doi:10.1111/1469-8986.3840629

Abstract

We investigated whether previously observed inhibition of pericranial electromyographic (EMG) activity, respiration, and heart rate during sensory intake processes improves auditory sensitivity. Participants had to detect weak auditory stimuli. We found that EMG activity in masticatory and lower facial muscles, respiration, and heart rate were more strongly inhibited when stimulus intensity was gradually lowered to threshold level whereas EMG of upper facial muscles progressively increased. Detection of near-threshold stimuli was inversely related to prestimulus EMG levels in masticatory and lower facial muscles. In two additional experiments, it was investigated whether steady, voluntary contractions negatively influence auditory sensitivity. As expected, contraction of zygomaticus produced an increase in auditory threshold in comparison with contraction of corrugator or first dorsal interosseus. It is concluded that attention to external stimuli is accompanied by quieting of those somatic activities that produce internal noise or are accompanied by impaired middle ear transmission of auditory stimuli.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Benning, Stephen D. Patrick, Christopher J. and Lang, Alan R. 2004. Emotional modulation of the post‐auricular reflex. Psychophysiology, Vol. 41, Issue. 3, p. 426.

De Clercq, Armand Verschuere, Bruno De Vlieger, Petra and Crombez, Geert 2006. Psychophysiological Analysis (PSPHA): A modular script-based program for analyzing psychophysiological data. Behavior Research Methods, Vol. 38, Issue. 3, p. 504.

Sheldon, Robert S. Wright, Christopher I. Duff, Henry J. Thakore, Ela Gillis, Anne M. and Roach, Daniel E. 2007. Mechanism of hypotensive transients associated with abrupt bradycardias in conscious rabbits. Canadian Journal of Cardiology, Vol. 23, Issue. 9, p. 721.

De Wied, Minet Boxtel, Anton Van Posthumus, Jocelyne A. Goudena, Paul P. and Matthys, Walter 2009. Facial EMG and heart rate responses to emotion‐inducing film clips in boys with disruptive behavior disorders. Psychophysiology, Vol. 46, Issue. 5, p. 996.

Hackley, Steven A. Muñoz, Miguel Ángel Hebert, Karen Valle‐Inclán, Fernando and Vila, Jaime 2009. Reciprocal modulation of eye‐blink and pinna‐flexion components of startle during reward anticipation. Psychophysiology, Vol. 46, Issue. 6, p. 1154.

Van Diest, Ilse Bradley, Margaret M. Guerra, Pedro Van den Bergh, Omer and Lang, Peter J. 2009. Fear-conditioned respiration and its association to cardiac reactivity. Biological Psychology, Vol. 80, Issue. 2, p. 212.

Parks, Nathan A. Hilimire, Matthew R. and Corballis, Paul M. 2009. Visual perceptual load modulates an auditory microreflex. Psychophysiology, Vol. 46, Issue. 3, p. 498.

Verschuere, Bruno and Ben-Shakhar, Gershon 2011. Memory Detection. p. 128.

Benning, Stephen D. 2011. Postauricular and superior auricular reflex modulation during emotional pictures and sounds. Psychophysiology, Vol. 48, Issue. 3, p. 410.

Buss, Emily Hall, Joseph W. and Grose, John H. 2012. Human Auditory Development. Vol. 42, Issue. , p. 107.

Huijbers, Willem Pennartz, Cyriel M.A. Beldzik, Ewa Domagalik, Aleksandra Vinck, M. Hofman, Winnie F. Cabeza, Roberto and Daselaar, Sander M. 2014. Respiration phase‐locks to fast stimulus presentations: Implications for the interpretation of posterior midline “deactivations”. Human Brain Mapping, Vol. 35, Issue. 9, p. 4932.

Huis in ‘t Veld, Elisabeth M. J. Van Boxtel, Geert J. M. and de Gelder, Beatrice 2014. The Body Action Coding System I: Muscle activations during the perception and expression of emotion. Social Neuroscience, Vol. 9, Issue. 3, p. 249.

Hackley, Steven A. 2015. Evidence for a vestigial pinna‐orienting system in humans. Psychophysiology, Vol. 52, Issue. 10, p. 1263.

Buss, Emily Porter, Heather L. Leibold, Lori J. Grose, John H. and Hall, Joseph W. 2016. Effects of Self-Generated Noise on Estimates of Detection Threshold in Quiet for School-Age Children and Adults. Ear & Hearing, Vol. 37, Issue. 6, p. 650.

De Letter, Miet Vanhoutte, Sarah Aerts, Annelies Santens, Patrick Vermeersch, Hubert Roche, Nathalie Stillaert, Filip Blondeel, Philip and Van Lierde, Kristiane 2017. Facial nerve regeneration after facial allotransplantation: A longitudinal clinical and electromyographic follow-up of lip movements during speech. Journal of Plastic, Reconstructive & Aesthetic Surgery, Vol. 70, Issue. 6, p. 729.

Timme, Sinika Brand, Ralf and Micklewright, Dominic 2020. Affect and exertion during incremental physical exercise: Examining changes using automated facial action analysis and experiential self-report. PLOS ONE, Vol. 15, Issue. 2, p. e0228739.

Stiepan, Samantha Siegel, Jonathan Lee, Jungwha Souza, Pamela and Dhar, Sumitrajit 2020. The Association Between Physiological Noise Levels and Speech Understanding in Noise. Ear & Hearing, Vol. 41, Issue. 2, p. 461.

Porter, Heather L. Leibold, Lori J. and Buss, Emily 2020. Effects of Self-Generated Noise on Quiet Threshold by Transducer Type in School-Age Children and Adults. Journal of Speech, Language, and Hearing Research, Vol. 63, Issue. 6, p. 2027.

Bell, Andrew and Jedrzejczak, W. Wiktor 2021. Muscles in and around the ear as the source of “physiological noise” during auditory selective attention: A review and novel synthesis. European Journal of Neuroscience, Vol. 53, Issue. 8, p. 2726.

Carli, Giancarlo and Farabollini, Francesca 2021. Cardiovascular correlates of human emotional vasovagal syncope differ from those of animal freezing and tonic immobility.. Physiology & Behavior, Vol. 238, Issue. , p. 113463.

Download full list

Article contents

Inhibition of pericranial muscle activity, respiration, and heart rate enhances auditory sensitivity

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Inhibition of pericranial muscle activity, respiration, and heart rate enhances auditory sensitivity

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests