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Christopher I. Moore

Brown University

2 papers in the library · 2,036 citations · publishing 2005-2013

Papers

Meditation experience is associated with increased cortical thickness

Neuroreport November 7, 2005 Sara W. Lazar, Catherine E. Kerr, Rachel H. Wasserman et al. 1,707 citations

Long-term meditation practice is linked to structural changes in the brain. Magnetic resonance imaging of 20 experienced Insight meditation practitioners showed greater cortical thickness in regions involved in attention, interoception, and sensory processing, including the prefrontal cortex and right anterior insula, compared to matched controls. The difference in prefrontal thickness was most pronounced in older participants, suggesting meditation may counteract age-related cortical thinning. Thickness in two regions also correlated with meditation experience. These findings provide the first structural evidence that meditation practice can induce experience-dependent cortical plasticity.

Mindfulness starts with the body: somatosensory attention and top-down modulation of cortical alpha rhythms in mindfulness meditation

Frontiers in Human Neuroscience January 1, 2013 Catherine E. Kerr, Matthew D. Sacchet, Sara W. Lazar et al. 329 citations

Standardized mindfulness practices that focus attention on breath and body sensations may work by training the brain to better regulate alpha rhythms (7-14 Hz) in the primary somatosensory cortex. These alpha rhythms filter sensory information entering the neocortex. The framework suggests that in chronic pain, somatic attention in mindfulness reduces pain-focused attentional resources by altering alpha activity. In depression relapse prevention, somatic attention competes with rumination, as internal cognitive processes rely on alpha filtering. A computational model predicts enhanced top-down modulation of alpha through precise timing changes in thalamocortical inputs. The theory aligns with Buddhist teachings that mindfulness begins with mindfulness of the body, proposing that enhanced alpha regulation improves detection and regulation of mind-wandering.