Walking and finger tapping can be done with independent rhythms.
Identifieur interne : 000429 ( Main/Exploration ); précédent : 000428; suivant : 000430Walking and finger tapping can be done with independent rhythms.
Auteurs : Weihuang Qi [Japon] ; Tsuyoshi Nakajima [Japon] ; Masanori Sakamoto [Japon] ; Kouki Kato [Japon] ; Yasuo Kawakami [Japon] ; Kazuyuki Kanosue [Japon]Source :
- Scientific reports [ 2045-2322 ] ; 2019.
Descripteurs français
- KwdFr :
- MESH :
- méthodes : Cartographie cérébrale.
- physiologie : Doigts, Marche à pied, Membre inférieur, Mouvement, Performance psychomotrice.
- Adulte, Femelle, Humains, Jeune adulte, Mâle.
English descriptors
- KwdEn :
- MESH :
- methods : Brain Mapping.
- physiology : Fingers, Lower Extremity, Movement, Psychomotor Performance, Walking.
- Adult, Female, Humans, Male, Young Adult.
Abstract
Rhythmic movements occur in many aspects of daily life. Examples include clapping the hands and walking. The production of two independent rhythms with multiple limbs is considered to be extremely difficult. In the present study we evaluated whether two different, independent rhythms that involved finger tapping and walking could be produced. In Experiment I, twenty subjects that had no experience of musical instrument training performed rhythmic finger tapping with the right index finger and one of four different lower limb movements; (1) self-paced walking, (2) given-paced walking, (3) alternative bilateral heel tapping from a sitting position, and (4) unilateral heel tapping with the leg ipsilateral to the tapping finger from a sitting position. The target intervals of finger tapping and heel strikes for walking step/heel tapping were set at 375 ms and 600 ms, respectively. The even distribution of relative phases between instantaneous finger tapping and heel strike was taken as the criteria of independency for the two rhythms. In the self-paced walking and given-paced walking tasks, 16 out of 20 subjects successfully performed finger tapping and walking with independent rhythms without any special practice. On the other hand, in the bipedal heels striking and unipedal heel striking tasks 19 subjects failed to perform the two movements independently, falling into interrelated rhythms with the ratio mostly being 2:1. In Experiment II, a similar independency of finger tapping and walking at a given pace was observed for heel strike intervals of 400, 600, and 800 ms, as well as at the constant 375 ms for finger tapping. These results suggest that finger tapping and walking are controlled by separate neural control mechanisms, presumably with a supra-spinal locus for finger tapping, and a spinal location for walking.
DOI: 10.1038/s41598-019-43824-0
PubMed: 31110194
PubMed Central: PMC6527701
Affiliations:
Links toward previous steps (curation, corpus...)
Le document en format XML
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Kanosue@waseda.jp.</nlm:affiliation><country xml:lang="fr">Japon</country><wicri:regionArea>Faculty of Sport Sciences, Waseda University, Saitama</wicri:regionArea><wicri:noRegion>Saitama</wicri:noRegion></affiliation></author></analytic><series><title level="j">Scientific reports</title><idno type="eISSN">2045-2322</idno><imprint><date when="2019" type="published">2019</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Adult (MeSH)</term><term>Brain Mapping (methods)</term><term>Female (MeSH)</term><term>Fingers (physiology)</term><term>Humans (MeSH)</term><term>Lower Extremity (physiology)</term><term>Male (MeSH)</term><term>Movement (physiology)</term><term>Psychomotor Performance (physiology)</term><term>Walking (physiology)</term><term>Young Adult (MeSH)</term></keywords><keywords scheme="KwdFr" xml:lang="fr"><term>Adulte (MeSH)</term><term>Cartographie cérébrale (méthodes)</term><term>Doigts (physiologie)</term><term>Femelle (MeSH)</term><term>Humains (MeSH)</term><term>Jeune adulte (MeSH)</term><term>Marche à pied (physiologie)</term><term>Membre inférieur (physiologie)</term><term>Mouvement (physiologie)</term><term>Mâle (MeSH)</term><term>Performance psychomotrice (physiologie)</term></keywords><keywords scheme="MESH" qualifier="methods" xml:lang="en"><term>Brain Mapping</term></keywords><keywords scheme="MESH" qualifier="méthodes" xml:lang="fr"><term>Cartographie cérébrale</term></keywords><keywords scheme="MESH" qualifier="physiologie" xml:lang="fr"><term>Doigts</term><term>Marche à pied</term><term>Membre inférieur</term><term>Mouvement</term><term>Performance psychomotrice</term></keywords><keywords scheme="MESH" qualifier="physiology" xml:lang="en"><term>Fingers</term><term>Lower Extremity</term><term>Movement</term><term>Psychomotor Performance</term><term>Walking</term></keywords><keywords scheme="MESH" xml:lang="en"><term>Adult</term><term>Female</term><term>Humans</term><term>Male</term><term>Young Adult</term></keywords><keywords scheme="MESH" xml:lang="fr"><term>Adulte</term><term>Femelle</term><term>Humains</term><term>Jeune adulte</term><term>Mâle</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Rhythmic movements occur in many aspects of daily life. Examples include clapping the hands and walking. The production of two independent rhythms with multiple limbs is considered to be extremely difficult. In the present study we evaluated whether two different, independent rhythms that involved finger tapping and walking could be produced. In Experiment I, twenty subjects that had no experience of musical instrument training performed rhythmic finger tapping with the right index finger and one of four different lower limb movements; (1) self-paced walking, (2) given-paced walking, (3) alternative bilateral heel tapping from a sitting position, and (4) unilateral heel tapping with the leg ipsilateral to the tapping finger from a sitting position. The target intervals of finger tapping and heel strikes for walking step/heel tapping were set at 375 ms and 600 ms, respectively. The even distribution of relative phases between instantaneous finger tapping and heel strike was taken as the criteria of independency for the two rhythms. In the self-paced walking and given-paced walking tasks, 16 out of 20 subjects successfully performed finger tapping and walking with independent rhythms without any special practice. On the other hand, in the bipedal heels striking and unipedal heel striking tasks 19 subjects failed to perform the two movements independently, falling into interrelated rhythms with the ratio mostly being 2:1. In Experiment II, a similar independency of finger tapping and walking at a given pace was observed for heel strike intervals of 400, 600, and 800 ms, as well as at the constant 375 ms for finger tapping. These results suggest that finger tapping and walking are controlled by separate neural control mechanisms, presumably with a supra-spinal locus for finger tapping, and a spinal location for walking.</div></front></TEI><pubmed><MedlineCitation Status="MEDLINE" Owner="NLM"><PMID Version="1">31110194</PMID><DateCompleted><Year>2020</Year><Month>10</Month><Day>19</Day></DateCompleted><DateRevised><Year>2021</Year><Month>01</Month><Day>09</Day></DateRevised><Article PubModel="Electronic"><Journal><ISSN IssnType="Electronic">2045-2322</ISSN><JournalIssue CitedMedium="Internet"><Volume>9</Volume><Issue>1</Issue><PubDate><Year>2019</Year><Month>05</Month><Day>20</Day></PubDate></JournalIssue><Title>Scientific reports</Title><ISOAbbreviation>Sci Rep</ISOAbbreviation></Journal><ArticleTitle>Walking and finger tapping can be done with independent rhythms.</ArticleTitle><Pagination><MedlinePgn>7620</MedlinePgn></Pagination><ELocationID EIdType="doi" ValidYN="Y">10.1038/s41598-019-43824-0</ELocationID><Abstract><AbstractText>Rhythmic movements occur in many aspects of daily life. Examples include clapping the hands and walking. The production of two independent rhythms with multiple limbs is considered to be extremely difficult. In the present study we evaluated whether two different, independent rhythms that involved finger tapping and walking could be produced. In Experiment I, twenty subjects that had no experience of musical instrument training performed rhythmic finger tapping with the right index finger and one of four different lower limb movements; (1) self-paced walking, (2) given-paced walking, (3) alternative bilateral heel tapping from a sitting position, and (4) unilateral heel tapping with the leg ipsilateral to the tapping finger from a sitting position. The target intervals of finger tapping and heel strikes for walking step/heel tapping were set at 375 ms and 600 ms, respectively. The even distribution of relative phases between instantaneous finger tapping and heel strike was taken as the criteria of independency for the two rhythms. In the self-paced walking and given-paced walking tasks, 16 out of 20 subjects successfully performed finger tapping and walking with independent rhythms without any special practice. On the other hand, in the bipedal heels striking and unipedal heel striking tasks 19 subjects failed to perform the two movements independently, falling into interrelated rhythms with the ratio mostly being 2:1. In Experiment II, a similar independency of finger tapping and walking at a given pace was observed for heel strike intervals of 400, 600, and 800 ms, as well as at the constant 375 ms for finger tapping. These results suggest that finger tapping and walking are controlled by separate neural control mechanisms, presumably with a supra-spinal locus for finger tapping, and a spinal location for walking.</AbstractText></Abstract><AuthorList CompleteYN="Y"><Author ValidYN="Y"><LastName>Qi</LastName><ForeName>Weihuang</ForeName><Initials>W</Initials><Identifier Source="ORCID">http://orcid.org/0000-0001-7091-8325</Identifier><AffiliationInfo><Affiliation>Graduate School of Sport Sciences, Waseda University, Saitama, Japan.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Nakajima</LastName><ForeName>Tsuyoshi</ForeName><Initials>T</Initials><AffiliationInfo><Affiliation>Department of Integrative Physiology, Kyorin University School of Medicine, Tokyo, Japan.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Sakamoto</LastName><ForeName>Masanori</ForeName><Initials>M</Initials><AffiliationInfo><Affiliation>Faculty of Education, Department of Physical Education, Kumamoto University, Kumamoto, Japan.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Kato</LastName><ForeName>Kouki</ForeName><Initials>K</Initials><AffiliationInfo><Affiliation>Faculty of Sport Sciences, Waseda University, Saitama, Japan.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Kawakami</LastName><ForeName>Yasuo</ForeName><Initials>Y</Initials><AffiliationInfo><Affiliation>Faculty of Sport Sciences, Waseda University, Saitama, Japan.</Affiliation></AffiliationInfo></Author><Author ValidYN="Y"><LastName>Kanosue</LastName><ForeName>Kazuyuki</ForeName><Initials>K</Initials><AffiliationInfo><Affiliation>Faculty of Sport Sciences, Waseda University, Saitama, Japan. Kanosue@waseda.jp.</Affiliation></AffiliationInfo></Author></AuthorList><Language>eng</Language><PublicationTypeList><PublicationType UI="D016428">Journal Article</PublicationType><PublicationType UI="D013485">Research Support, Non-U.S. Gov't</PublicationType></PublicationTypeList><ArticleDate DateType="Electronic"><Year>2019</Year><Month>05</Month><Day>20</Day></ArticleDate></Article><MedlineJournalInfo><Country>England</Country><MedlineTA>Sci Rep</MedlineTA><NlmUniqueID>101563288</NlmUniqueID><ISSNLinking>2045-2322</ISSNLinking></MedlineJournalInfo><CitationSubset>IM</CitationSubset><MeshHeadingList><MeshHeading><DescriptorName UI="D000328" MajorTopicYN="N">Adult</DescriptorName></MeshHeading><MeshHeading><DescriptorName UI="D001931" MajorTopicYN="N">Brain Mapping</DescriptorName><QualifierName UI="Q000379" MajorTopicYN="N">methods</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D005260" MajorTopicYN="N">Female</DescriptorName></MeshHeading><MeshHeading><DescriptorName UI="D005385" MajorTopicYN="N">Fingers</DescriptorName><QualifierName UI="Q000502" MajorTopicYN="Y">physiology</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D006801" MajorTopicYN="N">Humans</DescriptorName></MeshHeading><MeshHeading><DescriptorName UI="D035002" MajorTopicYN="N">Lower Extremity</DescriptorName><QualifierName UI="Q000502" MajorTopicYN="N">physiology</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D008297" MajorTopicYN="N">Male</DescriptorName></MeshHeading><MeshHeading><DescriptorName UI="D009068" MajorTopicYN="N">Movement</DescriptorName><QualifierName UI="Q000502" MajorTopicYN="Y">physiology</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D011597" MajorTopicYN="N">Psychomotor Performance</DescriptorName><QualifierName UI="Q000502" MajorTopicYN="N">physiology</QualifierName></MeshHeading><MeshHeading><DescriptorName UI="D016138" MajorTopicYN="N">Walking</DescriptorName><QualifierName UI="Q000502" 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Kantō</li></region><settlement><li>Tokyo</li></settlement></list><tree><country name="Japon"><noRegion><name sortKey="Qi, Weihuang" sort="Qi, Weihuang" uniqKey="Qi W" first="Weihuang" last="Qi">Weihuang Qi</name></noRegion><name sortKey="Kanosue, Kazuyuki" sort="Kanosue, Kazuyuki" uniqKey="Kanosue K" first="Kazuyuki" last="Kanosue">Kazuyuki Kanosue</name><name sortKey="Kato, Kouki" sort="Kato, Kouki" uniqKey="Kato K" first="Kouki" last="Kato">Kouki Kato</name><name sortKey="Kawakami, Yasuo" sort="Kawakami, Yasuo" uniqKey="Kawakami Y" first="Yasuo" last="Kawakami">Yasuo Kawakami</name><name sortKey="Nakajima, Tsuyoshi" sort="Nakajima, Tsuyoshi" uniqKey="Nakajima T" first="Tsuyoshi" last="Nakajima">Tsuyoshi Nakajima</name><name sortKey="Sakamoto, Masanori" sort="Sakamoto, Masanori" uniqKey="Sakamoto M" first="Masanori" last="Sakamoto">Masanori Sakamoto</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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