Interactions between occlusion and human brain function activities
Identifieur interne : 002B14 ( Main/Exploration ); précédent : 002B13; suivant : 002B15Interactions between occlusion and human brain function activities
Auteurs : C. Ohkubo [Japon] ; M. Morokuma [Japon] ; Y. Yoneyama [Japon] ; R. Matsuda [Japon] ; J. S. Lee [Corée du Sud]Source :
- Journal of Oral Rehabilitation [ 0305-182X ] ; 2013-02.
Descripteurs français
- Wicri :
- topic : Médecine dentaire.
English descriptors
- KwdEn :
- Activation levels, Animal research, Animal studies, Anterior cingulate, Basic rhythm, Biochemical studies, Blackwell publishing, Blood volume, Brain activity, Brain areas, Brain cells, Brain function, Brain functions, Brain waves, Caudate nucleus, Central pattern generator, Centric occlusion, Cerebral blood, Cerebral cortex, Clenching, Clenching tasks, Clin neurophysiol, Clinical research, Complete dentures, Control group, Cortex, Cranial nerve activity, Dent, Dent assoc, Dental arch, Dental medicine, Dental stimulation, Dental treatment, Dentate subjects, Denture, Denture treatment, Differential activity, Dimension system, Edentulous subjects, Emotion spectrum analysis method, Entire body, Exclusion criteria, Face sensorimotor cortex, Fmri, Force control, Frontal lobe, Functional improvement, Functional localisation, Functional spectroscopy study, Gyrus, Healthy volunteers, Hemispheric dominance, Higher brain function, Hippocampus, Human brain function, Human brain function activities, Imaging, Implant, Implant overdenture treatment, Implant prostheses, Implant prosthesis, Insula, Interindividual differences, Lingual gyrus, Many parts, Mastication, Masticatory, Masticatory function, Masticatory movements, Maxillofacial, Maxillofacial area, Maximum clenching force, Miyamoto, More subjects, Motor cortex, Natural teeth, Neurosci, Neurosci lett, Nger, Nger clenching, Nirs, Occlusal, Occlusal force, Occlusal interference, Occlusal interference devices, Occlusal rehabilitation, Occlusal splint, Occlusal splints, Occlusal support, Occlusion, Occlusion changes, Online database, Optical topography, Oral cavity, Oral rehabil, Other hand, Other movements, Prefrontal cortex, Primary motor, Primary sensorimotor cortex, Primary sensorimotor cortices, Prog brain, Prosthesis, Prosthetic rehabilitation, Region group, Removable prosthodontics, Resonance imaging, Review articles, Sensorimotor, Sensorimotor cortex, Sensory cortex, Sensory cortices, Single photon emission, Somatosensory, Somatosensory cortices, Spatial memory, Spatial resolution, Splint, Supplementary motor area, Synapse neuron, Synaptic action potentials, Systematic review, Tongue control, Tongue movements, Tongue muscles, Tooth loss, Tsurumi university school, Urinary cortisol excretion, Voluntary movements, Whole body.
- Teeft :
- Activation levels, Animal research, Animal studies, Anterior cingulate, Basic rhythm, Biochemical studies, Blackwell publishing, Blood volume, Brain activity, Brain areas, Brain cells, Brain function, Brain functions, Brain waves, Caudate nucleus, Central pattern generator, Centric occlusion, Cerebral blood, Cerebral cortex, Clenching, Clenching tasks, Clin neurophysiol, Clinical research, Complete dentures, Control group, Cortex, Cranial nerve activity, Dent, Dent assoc, Dental arch, Dental medicine, Dental stimulation, Dental treatment, Dentate subjects, Denture, Denture treatment, Differential activity, Dimension system, Edentulous subjects, Emotion spectrum analysis method, Entire body, Exclusion criteria, Face sensorimotor cortex, Fmri, Force control, Frontal lobe, Functional improvement, Functional localisation, Functional spectroscopy study, Gyrus, Healthy volunteers, Hemispheric dominance, Higher brain function, Hippocampus, Human brain function, Human brain function activities, Imaging, Implant, Implant overdenture treatment, Implant prostheses, Implant prosthesis, Insula, Interindividual differences, Lingual gyrus, Many parts, Mastication, Masticatory, Masticatory function, Masticatory movements, Maxillofacial, Maxillofacial area, Maximum clenching force, Miyamoto, More subjects, Motor cortex, Natural teeth, Neurosci, Neurosci lett, Nger, Nger clenching, Nirs, Occlusal, Occlusal force, Occlusal interference, Occlusal interference devices, Occlusal rehabilitation, Occlusal splint, Occlusal splints, Occlusal support, Occlusion, Occlusion changes, Online database, Optical topography, Oral cavity, Oral rehabil, Other hand, Other movements, Prefrontal cortex, Primary motor, Primary sensorimotor cortex, Primary sensorimotor cortices, Prog brain, Prosthesis, Prosthetic rehabilitation, Region group, Removable prosthodontics, Resonance imaging, Review articles, Sensorimotor, Sensorimotor cortex, Sensory cortex, Sensory cortices, Single photon emission, Somatosensory, Somatosensory cortices, Spatial memory, Spatial resolution, Splint, Supplementary motor area, Synapse neuron, Synaptic action potentials, Systematic review, Tongue control, Tongue movements, Tongue muscles, Tooth loss, Tsurumi university school, Urinary cortisol excretion, Voluntary movements, Whole body.
Abstract
Summary There are few review articles in the area of human research that focus on the interactions between occlusion and brain function. This systematic review discusses the effect of occlusion on the health of the entire body with a focus on brain function. Available relevant articles in English from 1999 to 2011 were assessed in an online database and as hard copies in libraries. The selected 19 articles were classified into the following five categories: chewing and tongue movements, clenching and grinding, occlusal splints and occlusal interference, prosthetic rehabilitation, and pain and stimulation. The relationships between the brain activity observed in the motor and sensory cortices and movements of the oral and maxillofacial area, such as those produced by gum chewing, tapping and clenching, were investigated. It was found that the sensorimotor cortex was also affected by the placement of the occlusal interference devices, splints and implant prostheses. Brain activity may change depending on the strength of the movements in the oral and maxillofacial area. Therefore, mastication and other movements stimulate the activity in the cerebral cortex and may be helpful in preventing degradation of a brain function. However, these findings must be verified by evidence gathered from more subjects.
Url:
DOI: 10.1111/j.1365-2842.2012.02316.x
Affiliations:
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Ohkubo</name><affiliation wicri:level="1"><country xml:lang="fr">Japon</country><wicri:regionArea>Department of Removable Prosthodontics, Tsurumi University School of Dental Medicine, Yokohama</wicri:regionArea><wicri:noRegion>Yokohama</wicri:noRegion></affiliation></author><author><name sortKey="Morokuma, M" sort="Morokuma, M" uniqKey="Morokuma M" first="M." last="Morokuma">M. Morokuma</name><affiliation wicri:level="1"><country xml:lang="fr">Japon</country><wicri:regionArea>Department of Removable Prosthodontics, Tsurumi University School of Dental Medicine, Yokohama</wicri:regionArea><wicri:noRegion>Yokohama</wicri:noRegion></affiliation></author><author><name sortKey="Yoneyama, Y" sort="Yoneyama, Y" uniqKey="Yoneyama Y" first="Y." last="Yoneyama">Y. Yoneyama</name><affiliation wicri:level="1"><country xml:lang="fr">Japon</country><wicri:regionArea>Department of Removable Prosthodontics, Tsurumi University School of Dental Medicine, Yokohama</wicri:regionArea><wicri:noRegion>Yokohama</wicri:noRegion></affiliation></author><author><name sortKey="Matsuda, R" sort="Matsuda, R" uniqKey="Matsuda R" first="R." last="Matsuda">R. Matsuda</name><affiliation wicri:level="1"><country xml:lang="fr">Japon</country><wicri:regionArea>Department of Removable Prosthodontics, Tsurumi University School of Dental Medicine, Yokohama</wicri:regionArea><wicri:noRegion>Yokohama</wicri:noRegion></affiliation></author><author><name sortKey="Lee, J S" sort="Lee, J S" uniqKey="Lee J" first="J. S." last="Lee">J. S. Lee</name><affiliation wicri:level="1"><country xml:lang="fr">Corée du Sud</country><wicri:regionArea>Department of Prosthodontics, College of Dentistry, Dankook University, Cheonan</wicri:regionArea><wicri:noRegion>Cheonan</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Journal of Oral Rehabilitation</title><title level="j" type="alt">JOURNAL OF ORAL REHABILITATION</title><idno type="ISSN">0305-182X</idno><idno type="eISSN">1365-2842</idno><imprint><biblScope unit="vol">40</biblScope><biblScope unit="issue">2</biblScope><biblScope unit="page" from="119">119</biblScope><biblScope unit="page" to="129">129</biblScope><biblScope unit="page-count">11</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2013-02">2013-02</date></imprint><idno type="ISSN">0305-182X</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0305-182X</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Activation levels</term><term>Animal research</term><term>Animal studies</term><term>Anterior cingulate</term><term>Basic rhythm</term><term>Biochemical studies</term><term>Blackwell publishing</term><term>Blood volume</term><term>Brain activity</term><term>Brain areas</term><term>Brain cells</term><term>Brain function</term><term>Brain functions</term><term>Brain waves</term><term>Caudate nucleus</term><term>Central pattern generator</term><term>Centric occlusion</term><term>Cerebral blood</term><term>Cerebral cortex</term><term>Clenching</term><term>Clenching tasks</term><term>Clin neurophysiol</term><term>Clinical research</term><term>Complete dentures</term><term>Control group</term><term>Cortex</term><term>Cranial nerve activity</term><term>Dent</term><term>Dent assoc</term><term>Dental arch</term><term>Dental medicine</term><term>Dental stimulation</term><term>Dental treatment</term><term>Dentate subjects</term><term>Denture</term><term>Denture treatment</term><term>Differential activity</term><term>Dimension system</term><term>Edentulous subjects</term><term>Emotion spectrum analysis method</term><term>Entire body</term><term>Exclusion criteria</term><term>Face sensorimotor cortex</term><term>Fmri</term><term>Force control</term><term>Frontal lobe</term><term>Functional improvement</term><term>Functional localisation</term><term>Functional spectroscopy study</term><term>Gyrus</term><term>Healthy volunteers</term><term>Hemispheric dominance</term><term>Higher brain function</term><term>Hippocampus</term><term>Human brain function</term><term>Human brain function activities</term><term>Imaging</term><term>Implant</term><term>Implant overdenture treatment</term><term>Implant prostheses</term><term>Implant prosthesis</term><term>Insula</term><term>Interindividual differences</term><term>Lingual gyrus</term><term>Many parts</term><term>Mastication</term><term>Masticatory</term><term>Masticatory function</term><term>Masticatory movements</term><term>Maxillofacial</term><term>Maxillofacial area</term><term>Maximum clenching force</term><term>Miyamoto</term><term>More subjects</term><term>Motor cortex</term><term>Natural teeth</term><term>Neurosci</term><term>Neurosci lett</term><term>Nger</term><term>Nger clenching</term><term>Nirs</term><term>Occlusal</term><term>Occlusal force</term><term>Occlusal interference</term><term>Occlusal interference devices</term><term>Occlusal rehabilitation</term><term>Occlusal splint</term><term>Occlusal splints</term><term>Occlusal support</term><term>Occlusion</term><term>Occlusion changes</term><term>Online database</term><term>Optical topography</term><term>Oral cavity</term><term>Oral rehabil</term><term>Other hand</term><term>Other movements</term><term>Prefrontal cortex</term><term>Primary motor</term><term>Primary sensorimotor cortex</term><term>Primary sensorimotor cortices</term><term>Prog brain</term><term>Prosthesis</term><term>Prosthetic rehabilitation</term><term>Region group</term><term>Removable prosthodontics</term><term>Resonance imaging</term><term>Review articles</term><term>Sensorimotor</term><term>Sensorimotor cortex</term><term>Sensory cortex</term><term>Sensory cortices</term><term>Single photon emission</term><term>Somatosensory</term><term>Somatosensory cortices</term><term>Spatial memory</term><term>Spatial resolution</term><term>Splint</term><term>Supplementary motor area</term><term>Synapse neuron</term><term>Synaptic action potentials</term><term>Systematic review</term><term>Tongue control</term><term>Tongue movements</term><term>Tongue muscles</term><term>Tooth loss</term><term>Tsurumi university school</term><term>Urinary cortisol excretion</term><term>Voluntary movements</term><term>Whole body</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Activation levels</term><term>Animal research</term><term>Animal studies</term><term>Anterior cingulate</term><term>Basic rhythm</term><term>Biochemical studies</term><term>Blackwell publishing</term><term>Blood volume</term><term>Brain activity</term><term>Brain areas</term><term>Brain cells</term><term>Brain function</term><term>Brain functions</term><term>Brain waves</term><term>Caudate nucleus</term><term>Central pattern generator</term><term>Centric occlusion</term><term>Cerebral blood</term><term>Cerebral cortex</term><term>Clenching</term><term>Clenching tasks</term><term>Clin neurophysiol</term><term>Clinical research</term><term>Complete dentures</term><term>Control group</term><term>Cortex</term><term>Cranial nerve activity</term><term>Dent</term><term>Dent assoc</term><term>Dental arch</term><term>Dental medicine</term><term>Dental stimulation</term><term>Dental treatment</term><term>Dentate subjects</term><term>Denture</term><term>Denture treatment</term><term>Differential activity</term><term>Dimension system</term><term>Edentulous subjects</term><term>Emotion spectrum analysis method</term><term>Entire body</term><term>Exclusion criteria</term><term>Face sensorimotor cortex</term><term>Fmri</term><term>Force control</term><term>Frontal lobe</term><term>Functional improvement</term><term>Functional localisation</term><term>Functional spectroscopy study</term><term>Gyrus</term><term>Healthy volunteers</term><term>Hemispheric dominance</term><term>Higher brain function</term><term>Hippocampus</term><term>Human brain function</term><term>Human brain function activities</term><term>Imaging</term><term>Implant</term><term>Implant overdenture treatment</term><term>Implant prostheses</term><term>Implant prosthesis</term><term>Insula</term><term>Interindividual differences</term><term>Lingual gyrus</term><term>Many parts</term><term>Mastication</term><term>Masticatory</term><term>Masticatory function</term><term>Masticatory movements</term><term>Maxillofacial</term><term>Maxillofacial area</term><term>Maximum clenching force</term><term>Miyamoto</term><term>More subjects</term><term>Motor cortex</term><term>Natural teeth</term><term>Neurosci</term><term>Neurosci lett</term><term>Nger</term><term>Nger clenching</term><term>Nirs</term><term>Occlusal</term><term>Occlusal force</term><term>Occlusal interference</term><term>Occlusal interference devices</term><term>Occlusal rehabilitation</term><term>Occlusal splint</term><term>Occlusal splints</term><term>Occlusal support</term><term>Occlusion</term><term>Occlusion changes</term><term>Online database</term><term>Optical topography</term><term>Oral cavity</term><term>Oral rehabil</term><term>Other hand</term><term>Other movements</term><term>Prefrontal cortex</term><term>Primary motor</term><term>Primary sensorimotor cortex</term><term>Primary sensorimotor cortices</term><term>Prog brain</term><term>Prosthesis</term><term>Prosthetic rehabilitation</term><term>Region group</term><term>Removable prosthodontics</term><term>Resonance imaging</term><term>Review articles</term><term>Sensorimotor</term><term>Sensorimotor cortex</term><term>Sensory cortex</term><term>Sensory cortices</term><term>Single photon emission</term><term>Somatosensory</term><term>Somatosensory cortices</term><term>Spatial memory</term><term>Spatial resolution</term><term>Splint</term><term>Supplementary motor area</term><term>Synapse neuron</term><term>Synaptic action potentials</term><term>Systematic review</term><term>Tongue control</term><term>Tongue movements</term><term>Tongue muscles</term><term>Tooth loss</term><term>Tsurumi university school</term><term>Urinary cortisol excretion</term><term>Voluntary movements</term><term>Whole body</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Médecine dentaire</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract">Summary There are few review articles in the area of human research that focus on the interactions between occlusion and brain function. This systematic review discusses the effect of occlusion on the health of the entire body with a focus on brain function. Available relevant articles in English from 1999 to 2011 were assessed in an online database and as hard copies in libraries. The selected 19 articles were classified into the following five categories: chewing and tongue movements, clenching and grinding, occlusal splints and occlusal interference, prosthetic rehabilitation, and pain and stimulation. The relationships between the brain activity observed in the motor and sensory cortices and movements of the oral and maxillofacial area, such as those produced by gum chewing, tapping and clenching, were investigated. It was found that the sensorimotor cortex was also affected by the placement of the occlusal interference devices, splints and implant prostheses. Brain activity may change depending on the strength of the movements in the oral and maxillofacial area. Therefore, mastication and other movements stimulate the activity in the cerebral cortex and may be helpful in preventing degradation of a brain function. However, these findings must be verified by evidence gathered from more subjects.</div></front></TEI><affiliations><list><country><li>Corée du Sud</li><li>Japon</li></country></list><tree><country name="Japon"><noRegion><name sortKey="Ohkubo, C" sort="Ohkubo, C" uniqKey="Ohkubo C" first="C." last="Ohkubo">C. Ohkubo</name></noRegion><name sortKey="Matsuda, R" sort="Matsuda, R" uniqKey="Matsuda R" first="R." last="Matsuda">R. Matsuda</name><name sortKey="Morokuma, M" sort="Morokuma, M" uniqKey="Morokuma M" first="M." last="Morokuma">M. Morokuma</name><name sortKey="Yoneyama, Y" sort="Yoneyama, Y" uniqKey="Yoneyama Y" first="Y." last="Yoneyama">Y. Yoneyama</name></country><country name="Corée du Sud"><noRegion><name sortKey="Lee, J S" sort="Lee, J S" uniqKey="Lee J" first="J. S." last="Lee">J. S. Lee</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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