<p>Consciousness is a fundamental component of cognition<sup><CitationRef CitationID="CR1">1</CitationRef></sup>, but the degree to which higher-order pattern recognition relies on it remains disputed<sup><CitationRef CitationID="CR2">2</CitationRef>,<CitationRef CitationID="CR3">3</CitationRef></sup>. Here we demonstrate the persistence of oddball discrimination, semantic processing and online prediction in individuals under general-anaesthesia-induced loss of consciousness<sup><CitationRef CitationID="CR4">4</CitationRef>,<CitationRef CitationID="CR5">5</CitationRef></sup>. Using high-density Neuropixels microelectrodes<sup><CitationRef CitationID="CR6">6</CitationRef></sup> to record both single-unit and local-field-potential neural activity in the human hippocampus while playing a series of tones to anaesthetized patients, we found that hippocampal neurons and local oscillations retained some detection of oddball tones. This effect size grew over the course of the experiment (around 10 min), demonstrating representational plasticity. A biologically plausible recurrent neural network model showed that learning and oddball representation are an emergent property of flexible tone discrimination. Moreover, when we played language stimuli, single units and local field potentials carried information about the semantic and grammatical features of natural speech, even predicting semantic information about upcoming words. Together these results indicate that in the hippocampus, which is anatomically and functionally distant from primary sensory cortices<sup><CitationRef CitationID="CR7">7</CitationRef></sup>, complex processing of sensory stimuli occurs even in the unconscious state.</p>

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Plasticity and language in the anaesthetized human hippocampus

  • Kalman A. Katlowitz,
  • Eric R. Cole,
  • Elizabeth A. Mickiewicz,
  • Shraddha Shah,
  • Melissa Franch,
  • Joshua A. Adkinson,
  • James L. Belanger,
  • Raissa K. Mathura,
  • Domokos Meszéna,
  • Matthew McGinley,
  • William Muñoz,
  • Garrett P. Banks,
  • Sydney S. Cash,
  • Chih-Wei Hsu,
  • Angelique C. Paulk,
  • Nicole R. Provenza,
  • Andrew J. Watrous,
  • Ziv Williams,
  • Alica M. Goldman,
  • Vaishnav Krishnan,
  • Atul Maheshwari,
  • Sarah R. Heilbronner,
  • Robert Kim,
  • Nuttida Rungratsameetaweemana,
  • Benjamin Y. Hayden,
  • Sameer A. Sheth

摘要

Consciousness is a fundamental component of cognition1, but the degree to which higher-order pattern recognition relies on it remains disputed2,3. Here we demonstrate the persistence of oddball discrimination, semantic processing and online prediction in individuals under general-anaesthesia-induced loss of consciousness4,5. Using high-density Neuropixels microelectrodes6 to record both single-unit and local-field-potential neural activity in the human hippocampus while playing a series of tones to anaesthetized patients, we found that hippocampal neurons and local oscillations retained some detection of oddball tones. This effect size grew over the course of the experiment (around 10 min), demonstrating representational plasticity. A biologically plausible recurrent neural network model showed that learning and oddball representation are an emergent property of flexible tone discrimination. Moreover, when we played language stimuli, single units and local field potentials carried information about the semantic and grammatical features of natural speech, even predicting semantic information about upcoming words. Together these results indicate that in the hippocampus, which is anatomically and functionally distant from primary sensory cortices7, complex processing of sensory stimuli occurs even in the unconscious state.