Effects of progressive muscle relaxation on cerebral activity: An fMRI investigation

•Brain activity changes occurred in PMR and control sessions.•Unlike control sessions, PMR may suppress brain activity in specific regions.•Novices at PMR may be able to induce a brain state appropriate for relaxation. Progressive muscle relaxation (PMR) is one of the self-management relaxation tech...

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Published in	Complementary therapies in medicine Vol. 26; no. NA; pp. 33 - 39
Main Authors	Kobayashi, S., Koitabashi, K.
Format	Journal Article
Language	English
Published	Scotland Elsevier Ltd 01.06.2016 Elsevier Limited
Subjects	Adult Autogenic Training Bands Brain Brain activity Cerebral Cortex - physiology Conflicts of interest fMRI Humans Internal Medicine Magnetic Resonance Imaging Male Medical Education Medical imaging Muscle Relaxation - physiology Musical performances NMR Nuclear magnetic resonance Progressive muscle relaxation Young Adult fMRI Brain activity Progressive muscle relaxation
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ISSN	0965-2299 1873-6963
DOI	10.1016/j.ctim.2016.02.010

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Abstract	•Brain activity changes occurred in PMR and control sessions.•Unlike control sessions, PMR may suppress brain activity in specific regions.•Novices at PMR may be able to induce a brain state appropriate for relaxation. Progressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with specific issues. However, no study to date has revealed the brain activity associated with PMR. Therefore, we assessed the changes in brain activity induced by PMR using functional magnetic resonance imaging (fMRI). We conducted an intervention study with PMR and control sessions. The subjects were twelve healthy adult men who had no prior experience of PMR. Subjects performed a control session in which muscles were repeatedly simply tensed and relaxed. Subsequently, a PMR session took place, during which muscle tension was reduced through a systematic procedure of tensing and relaxing of muscle groups combined with structured breathing. We identified and visualised brain activity based on individual and group-level analysis of fMRI data. Eleven subjects’ data were analysed. In the control session, brain activity broadly changed, while the change was limited to specific parts of the cerebral cortex and limbic system in the PMR session. PMR gradually decreased activity in the superior frontal gyrus (SFG), inferior frontal gyrus (IFG), and posterior cingulate cortex (PCC). In a region of interest (ROI) analysis, interactions between sessions were observed in the putamen, anterior cingulate cortex (ACC), postcentral gyrus (PCG), and insula. That PMR led to few areas showing changed activity suggests that the technique may suppress brain activity. Even novices may be able to induce such a focused mental state.
AbstractList	Highlights • Brain activity changes occurred in PMR and control sessions. • Unlike control sessions, PMR may suppress brain activity in specific regions. • Novices at PMR may be able to induce a brain state appropriate for relaxation. •Brain activity changes occurred in PMR and control sessions.•Unlike control sessions, PMR may suppress brain activity in specific regions.•Novices at PMR may be able to induce a brain state appropriate for relaxation. Progressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with specific issues. However, no study to date has revealed the brain activity associated with PMR. Therefore, we assessed the changes in brain activity induced by PMR using functional magnetic resonance imaging (fMRI). We conducted an intervention study with PMR and control sessions. The subjects were twelve healthy adult men who had no prior experience of PMR. Subjects performed a control session in which muscles were repeatedly simply tensed and relaxed. Subsequently, a PMR session took place, during which muscle tension was reduced through a systematic procedure of tensing and relaxing of muscle groups combined with structured breathing. We identified and visualised brain activity based on individual and group-level analysis of fMRI data. Eleven subjects’ data were analysed. In the control session, brain activity broadly changed, while the change was limited to specific parts of the cerebral cortex and limbic system in the PMR session. PMR gradually decreased activity in the superior frontal gyrus (SFG), inferior frontal gyrus (IFG), and posterior cingulate cortex (PCC). In a region of interest (ROI) analysis, interactions between sessions were observed in the putamen, anterior cingulate cortex (ACC), postcentral gyrus (PCG), and insula. That PMR led to few areas showing changed activity suggests that the technique may suppress brain activity. Even novices may be able to induce such a focused mental state. Objectives Progressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with specific issues. However, no study to date has revealed the brain activity associated with PMR. Therefore, we assessed the changes in brain activity induced by PMR using functional magnetic resonance imaging (fMRI). Design and setting We conducted an intervention study with PMR and control sessions. The subjects were twelve healthy adult men who had no prior experience of PMR. Interventions Subjects performed a control session in which muscles were repeatedly simply tensed and relaxed. Subsequently, a PMR session took place, during which muscle tension was reduced through a systematic procedure of tensing and relaxing of muscle groups combined with structured breathing. Main outcome measures We identified and visualised brain activity based on individual and group-level analysis of fMRI data. Results Eleven subjects' data were analysed. In the control session, brain activity broadly changed, while the change was limited to specific parts of the cerebral cortex and limbic system in the PMR session. PMR gradually decreased activity in the superior frontal gyrus (SFG), inferior frontal gyrus (IFG), and posterior cingulate cortex (PCC). In a region of interest (ROI) analysis, interactions between sessions were observed in the putamen, anterior cingulate cortex (ACC), postcentral gyrus (PCG), and insula. Conclusions That PMR led to few areas showing changed activity suggests that the technique may suppress brain activity. Even novices may be able to induce such a focused mental state. OBJECTIVESProgressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with specific issues. However, no study to date has revealed the brain activity associated with PMR. Therefore, we assessed the changes in brain activity induced by PMR using functional magnetic resonance imaging (fMRI).DESIGN AND SETTINGWe conducted an intervention study with PMR and control sessions. The subjects were twelve healthy adult men who had no prior experience of PMR.INTERVENTIONSSubjects performed a control session in which muscles were repeatedly simply tensed and relaxed. Subsequently, a PMR session took place, during which muscle tension was reduced through a systematic procedure of tensing and relaxing of muscle groups combined with structured breathing.MAIN OUTCOME MEASURESWe identified and visualised brain activity based on individual and group-level analysis of fMRI data.RESULTSEleven subjects' data were analysed. In the control session, brain activity broadly changed, while the change was limited to specific parts of the cerebral cortex and limbic system in the PMR session. PMR gradually decreased activity in the superior frontal gyrus (SFG), inferior frontal gyrus (IFG), and posterior cingulate cortex (PCC). In a region of interest (ROI) analysis, interactions between sessions were observed in the putamen, anterior cingulate cortex (ACC), postcentral gyrus (PCG), and insula.CONCLUSIONSThat PMR led to few areas showing changed activity suggests that the technique may suppress brain activity. Even novices may be able to induce such a focused mental state. Progressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with specific issues. However, no study to date has revealed the brain activity associated with PMR. Therefore, we assessed the changes in brain activity induced by PMR using functional magnetic resonance imaging (fMRI). We conducted an intervention study with PMR and control sessions. The subjects were twelve healthy adult men who had no prior experience of PMR. Subjects performed a control session in which muscles were repeatedly simply tensed and relaxed. Subsequently, a PMR session took place, during which muscle tension was reduced through a systematic procedure of tensing and relaxing of muscle groups combined with structured breathing. We identified and visualised brain activity based on individual and group-level analysis of fMRI data. Eleven subjects' data were analysed. In the control session, brain activity broadly changed, while the change was limited to specific parts of the cerebral cortex and limbic system in the PMR session. PMR gradually decreased activity in the superior frontal gyrus (SFG), inferior frontal gyrus (IFG), and posterior cingulate cortex (PCC). In a region of interest (ROI) analysis, interactions between sessions were observed in the putamen, anterior cingulate cortex (ACC), postcentral gyrus (PCG), and insula. That PMR led to few areas showing changed activity suggests that the technique may suppress brain activity. Even novices may be able to induce such a focused mental state.
Author	Kobayashi, S. Koitabashi, K.
Author_xml	– sequence: 1 givenname: S. surname: Kobayashi fullname: Kobayashi, S. email: kobashino831@gmail.com organization: Department of Nursing, Gunma University Graduate School of Health Sciences, Japan – sequence: 2 givenname: K. surname: Koitabashi fullname: Koitabashi, K. organization: Faculty of Nursing, Kyoto Tachibana University, Japan
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Snippet	•Brain activity changes occurred in PMR and control sessions.•Unlike control sessions, PMR may suppress brain activity in specific regions.•Novices at PMR may... Highlights • Brain activity changes occurred in PMR and control sessions. • Unlike control sessions, PMR may suppress brain activity in specific regions. •... Progressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with specific... Objectives Progressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with... OBJECTIVESProgressive muscle relaxation (PMR) is one of the self-management relaxation techniques that can be used in the general population and patients with...
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SubjectTerms	Adult Autogenic Training Bands Brain Brain activity Cerebral Cortex - physiology Conflicts of interest fMRI Humans Internal Medicine Magnetic Resonance Imaging Male Medical Education Medical imaging Muscle Relaxation - physiology Musical performances NMR Nuclear magnetic resonance Progressive muscle relaxation Young Adult
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