The role of biological system other than auditory air-conduction in the emergence of the hypersonic effect
Although human beings cannot perceive elastic vibrations in the frequency range above 20 kHz, nonstationary sounds containing a wealth of inaudible high-frequency components (HFC) above the human audible range activate deep-lying brain structures, including the brainstem and thalamus and evoke vario...
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| Published in | Brain research Vol. 1073; pp. 339 - 347 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Netherlands
Elsevier B.V
16.02.2006
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| Abstract | Although human beings cannot perceive elastic vibrations in the frequency range above 20 kHz, nonstationary sounds containing a wealth of inaudible high-frequency components (HFC) above the human audible range activate deep-lying brain structures, including the brainstem and thalamus and evoke various physiological, psychological, and behavioral responses. In the previous reports, we have called these phenomena collectively “the hypersonic effect.” It remains unclear, however, if vibratory stimuli above the audible range are transduced and perceived solely via the conventional air-conducting auditory system or if other mechanisms also contribute to mediate transduction and perception. In the present study, we have examined the emergence of the hypersonic effect when inaudible HFC and audible low-frequency components (LFC) were presented selectively to the ears, the entrance of an air-conducting auditory system, or to the body surface including the head which might contain some unknown vibratory sensing mechanisms. We used two independent measurements based on differing principles; one physiological (alpha 2 frequency of spontaneous electroencephalogram [alpha-EEG]) and the other behavioral (the comfortable listening level [CLL]). Only when the listener's entire body surface was exposed to HFC, but not when HFC was presented exclusively to the air-conducting auditory system, did both the alpha-EEG and the CLL significantly increase compared to the presentation of LFC alone, that is to say, there was an evident emergence of the hypersonic effect. The present findings suggest that the conventional air-conducting auditory system alone does not bring about the hypersonic effect. We may need to consider the possible involvement of a biological system distinct from the conventional air-conducting auditory nervous system in sensing and transducing high-frequency elastic vibration above the human audible range. |
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| AbstractList | Although human beings cannot perceive elastic vibrations in the frequency range above 20 kHz, nonstationary sounds containing a wealth of inaudible high-frequency components (HFC) above the human audible range activate deep-lying brain structures, including the brainstem and thalamus and evoke various physiological, psychological, and behavioral responses. In the previous reports, we have called these phenomena collectively ''the hypersonic effect.'' It remains unclear, however, if vibratory stimuli above the audible range are transduced and perceived solely via the conventional air-conducting auditory system or if other mechanisms also contribute to mediate transduction and perception. In the present study, we have examined the emergence of the hypersonic effect when inaudible HFC and audible low-frequency components (LFC) were presented selectively to the ears, the entrance of an air-conducting auditory system, or to the body surface including the head which might contain some unknown vibratory sensing mechanisms. We used two independent measurements based on differing principles; one physiological (alpha 2 frequency of spontaneous electroencephalogram [alpha-EEG]) and the other behavioral (the comfortable listening level [CLL]). Only when the listener's entire body surface was exposed to HFC, but not when HFC was presented exclusively to the air-conducting auditory system, did both the alpha-EEG and the CLL significantly increase compared to the presentation of LFC alone, that is to say, there was an evident emergence of the hypersonic effect. The present findings suggest that the conventional air-conducting auditory system alone does not bring about the hypersonic effect. We may need to consider the possible involvement of a biological system distinct from the conventional air-conducting auditory nervous system in sensing and transducing high-frequency elastic vibration above the human audible range. |
| Author | Nakamura, Satoshi Morimoto, Masako Nishina, Emi Yagi, Reiko Maekawa, Tadao Yonekura, Yoshiharu Oohashi, Tsutomu Kawai, Norie Honda, Manabu Shibasaki, Hiroshi |
| Author_xml | – sequence: 1 givenname: Tsutomu surname: Oohashi fullname: Oohashi, Tsutomu email: oohashi@fais.or.jp organization: Department of Research and Development, Foundation for Advancement of International Science, Tokyo 164-0003, Japan – sequence: 2 givenname: Norie surname: Kawai fullname: Kawai, Norie organization: Department of Research and Development, Foundation for Advancement of International Science, Tokyo 164-0003, Japan – sequence: 3 givenname: Emi surname: Nishina fullname: Nishina, Emi organization: Research and Development Department, National Institute of Multimedia Education, Chiba 261-0014, Japan – sequence: 4 givenname: Manabu surname: Honda fullname: Honda, Manabu organization: Department of Cortical Function Disorders, National Institute of Neuroscience, National Center of Neurology and Psychiatry, Kodaira 187-8502, Japan – sequence: 5 givenname: Reiko surname: Yagi fullname: Yagi, Reiko organization: Department of Research and Development, Foundation for Advancement of International Science, Tokyo 164-0003, Japan – sequence: 6 givenname: Satoshi surname: Nakamura fullname: Nakamura, Satoshi organization: SORST, Japan Science and Technology Agency, Kawaguchi 332-0012, Japan – sequence: 7 givenname: Masako surname: Morimoto fullname: Morimoto, Masako organization: Department of Cortical Function Disorders, National Institute of Neuroscience, National Center of Neurology and Psychiatry, Kodaira 187-8502, Japan – sequence: 8 givenname: Tadao surname: Maekawa fullname: Maekawa, Tadao organization: Faculty of Environmental and Information Sciences, Yokkaichi University, Yokkaichi 512-8512, Japan – sequence: 9 givenname: Yoshiharu surname: Yonekura fullname: Yonekura, Yoshiharu organization: Biomedical Imaging Research Center, University of Fukui, Fukui 910-1193, Japan – sequence: 10 givenname: Hiroshi surname: Shibasaki fullname: Shibasaki, Hiroshi organization: Human Brain Research Center, Kyoto University Graduate School of Medicine, Kyoto 606-8507, Japan |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/16458271$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1126/science.2063208 10.1121/1.1915552 10.1113/jphysiol.1978.sp012585 10.1097/00001756-200212200-00022 10.1016/S0165-0173(03)00193-0 10.1152/jn.2000.83.6.3548 10.1002/ana.410050402 10.1016/S0301-5629(98)00172-0 10.2466/pms.1989.68.1.186 10.1016/j.neulet.2003.07.020 10.1073/pnas.8.7.155 10.1097/00001756-199803300-00024 10.1126/science.285.5429.882 10.1250/ast.24.197 |
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| SubjectTerms | Adult Aged Auditory Auditory Perception - physiology Auditory Perception - radiation effects Body surface Brain Mapping Comfortable listening level Electroencephalogram Electroencephalography - methods Female Functional Laterality Hearing - physiology Humans Male Middle Aged Nonauditory Radio Waves Reaction Time Spectrum Analysis Ultrasonics Vibration |
| Title | The role of biological system other than auditory air-conduction in the emergence of the hypersonic effect |
| URI | https://dx.doi.org/10.1016/j.brainres.2005.12.096 https://www.ncbi.nlm.nih.gov/pubmed/16458271 https://search.proquest.com/docview/17173219 https://search.proquest.com/docview/67764358 |
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