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Imaging neuroscience (Cambridge, Mass.)

ISSN 2837-6056

4 papers in the library · 9 citations · publishing 2024-2026

Papers

Mindfulness, cognition, and long-term meditators: Toward a science of advanced meditation.

Imaging neuroscience (Cambridge, Mass.) January 1, 2025 Sebastian Ehmann, Idil Sezer, Isaac N Treves et al. 9 citations

Long-term meditators show a distinct pattern of cognitive and neural changes from prolonged mindfulness practice, including enhanced sensory integration, reduced negative emotional responses to pain, more rational decision-making, and altered self-awareness. Neuroimaging reveals increased activation in brain networks linked to interoception and pain (salience network), reduced connectivity between executive and salience networks, diminished fear and amygdala activation, and altered default-mode network activity associated with emotional neutrality and non-ordinary states of consciousness. Methodological limitations prevent firm conclusions about lasting trait effects, and a unified neurophenomenological framework is needed to systematically study advanced meditation's states and stages.

Task-invariant networks interfere with and task-specific networks support memory formation: An fMRI meta-analysis.

Imaging neuroscience (Cambridge, Mass.) January 1, 2026 Hongkeun Kim

Why some moments are remembered while others are forgotten involves a dissociation in large-scale brain networks. A meta-analysis of 56 fMRI studies using the subsequent memory paradigm found that brain activity linked to forgetting is consistent across different tasks, recruiting specific subsystems within the default mode, frontoparietal, and ventral attention networks—a pattern suggesting distraction or mind-wandering. In contrast, activity supporting successful memory encoding is task-specific: verbal encoding engages language-related networks, while pictorial encoding activates visuo-perceptual systems. This indicates that encoding failure may stem from similar attentional lapses regardless of context, whereas successful encoding requires precise, context-sensitive neural engagement.

Modulation of functional network co-activation pattern dynamics following ketamine treatment in major depression.

Imaging neuroscience (Cambridge, Mass.) January 1, 2025 Brandon Taraku, Jason S Nomi, Artemis Zavaliangos-Petropulu et al.

Ketamine treatment alters how brain networks dynamically interact in people with treatment-resistant depression. After four ketamine infusions over two weeks, patients spent less time in a visual-network brain state and more time in a central-executive-network state. Transitions between the salience network and central executive network increased, while salience-to-visual transitions decreased. Reduced time in the salience-network state was linked to less rumination. Before treatment, depressed patients differed from healthy controls in these same dynamic patterns, suggesting ketamine may shift network dynamics toward a healthier profile.

MDMA modulates human sensorimotor cortical pathways during gentle touch.

Imaging neuroscience (Cambridge, Mass.) January 1, 2024 Hanna Molla, Giovanni Novembre, Anya Bershad et al.

MDMA increases the perceived pleasantness of touch, but the neural mechanisms are not well understood. In a double-blind, randomized, within-subject fMRI study with 18 healthy participants, MDMA (1.5 mg/kg) compared to placebo enhanced affective ratings of gentle touch at both a slower, more pleasant speed (3 cm/s) and a faster, less pleasant speed (30 cm/s). Plasma oxytocin levels also increased more during the MDMA session. On the neural level, primary sensorimotor areas showed greater hemodynamic changes during MDMA for both touch speeds, indicating an early influence within somatosensory pathways. Changes in oxytocin levels interacted with the drug in area MT+, associated with motion perception. However, the posterior insula did not show preferential activation for the slower stroking speed.