Mindfulness training induces structural connectome changes in insula networks

Although mindfulness meditation is known to provide a wealth of psychological benefits, the neural mechanisms involved in these effects remain to be well characterized. A central question is whether the observed benefits of mindfulness training derive from specific changes in the structural brain co...

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Veröffentlicht in:	Scientific reports 2018-05, Vol.8 (1), p.7929-10, Article 7929
Hauptverfasser:	Sharp, Paul B., Sutton, Bradley P., Paul, Erick J., Sherepa, Nikolai, Hillman, Charles H., Cohen, Neal J., Kramer, Arthur F., Prakash, Ruchika Shaurya, Heller, Wendy, Telzer, Eva H., Barbey, Aron K.
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Schlagworte:	59 631/378/1457/1369 631/378/2649/2150 Adolescent Adult Brain - physiology Cerebral Cortex - physiology Cognitive ability Connectome Female Fitness Humanities and Social Sciences Humans Interoception Male Meditation Meditation - methods Mindfulness - statistics & numerical data multidisciplinary Nerve Net - physiology Neural networks Physical fitness Physical training Science Science (multidisciplinary) Topology Training Young Adult
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creator	Sharp, Paul B. Sutton, Bradley P. Paul, Erick J. Sherepa, Nikolai Hillman, Charles H. Cohen, Neal J. Kramer, Arthur F. Prakash, Ruchika Shaurya Heller, Wendy Telzer, Eva H. Barbey, Aron K.
description	Although mindfulness meditation is known to provide a wealth of psychological benefits, the neural mechanisms involved in these effects remain to be well characterized. A central question is whether the observed benefits of mindfulness training derive from specific changes in the structural brain connectome that do not result from alternative forms of experimental intervention. Measures of whole-brain and node-level structural connectome changes induced by mindfulness training were compared with those induced by cognitive and physical fitness training within a large, multi-group intervention protocol ( n = 86). Whole-brain analyses examined global graph-theoretical changes in structural network topology. A hypothesis-driven approach was taken to investigate connectivity changes within the insula, which was predicted here to mediate interoceptive awareness skills that have been shown to improve through mindfulness training. No global changes were observed in whole-brain network topology. However, node-level results confirmed a priori hypotheses, demonstrating significant increases in mean connection strength in right insula across all of its connections. Present findings suggest that mindfulness strengthens interoception, operationalized here as the mean insula connection strength within the overall connectome. This finding further elucidates the neural mechanisms of mindfulness meditation and motivates new perspectives about the unique benefits of mindfulness training compared to contemporary cognitive and physical fitness interventions.
doi_str_mv	10.1038/s41598-018-26268-w
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subjects	59 631/378/1457/1369 631/378/2649/2150 Adolescent Adult Brain - physiology Cerebral Cortex - physiology Cognitive ability Connectome Female Fitness Humanities and Social Sciences Humans Interoception Male Meditation Meditation - methods Mindfulness - statistics & numerical data multidisciplinary Nerve Net - physiology Neural networks Physical fitness Physical training Science Science (multidisciplinary) Topology Training Young Adult
title	Mindfulness training induces structural connectome changes in insula networks
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