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Cover ArticleArticles, Development/Plasticity/Repair

In Vivo Voltage-Sensitive Dye Imaging in Adult Mice Reveals That Somatosensory Maps Lost to Stroke Are Replaced over Weeks by New Structural and Functional Circuits with Prolonged Modes of Activation within Both the Peri-Infarct Zone and Distant Sites

Craig E. Brown, Khatereh Aminoltejari, Heidi Erb, Ian R. Winship and Timothy H. Murphy
Journal of Neuroscience 11 February 2009, 29 (6) 1719-1734; https://doi.org/10.1523/JNEUROSCI.4249-08.2009
Craig E. Brown
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Khatereh Aminoltejari
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Heidi Erb
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Ian R. Winship
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Timothy H. Murphy
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Abstract

After brain damage such as stroke, topographically organized sensory and motor cortical representations remap onto adjacent surviving tissues. It is conceivable that cortical remapping is accomplished by changes in the temporal precision of sensory processing and regional connectivity in the cortex. To understand how the adult cortex remaps and processes sensory signals during stroke recovery, we performed in vivo imaging of sensory-evoked changes in membrane potential, as well as multiphoton imaging of dendrite structure and tract tracing. In control mice, forelimb stimulation evoked a brief depolarization in forelimb cortex that quickly propagated to, and dissipated within, adjacent motor/hindlimb areas (<100 ms). One week after forelimb cortex stroke, the cortex was virtually unresponsive to tactile forelimb stimulation. After 8 weeks recovery, forelimb-evoked depolarizations reemerged with a characteristic pattern in which responses began within surviving portions of forelimb cortex (<20 ms after stimulation) and then spread horizontally into neighboring peri-infarct motor/hindlimb areas in which depolarization persisted 300–400% longer than controls. These uncharacteristically prolonged responses were not limited to the remapped peri-infarct zone and included distant posteromedial retrosplenial cortex, millimeters from the stroke. Structurally, the remapped peri-infarct area selectively exhibited high levels of dendritic spine turnover, shared more connections with retrosplenial cortex and striatum, and lost inputs from lateral somatosensory cortical regions. Our findings demonstrate that sensory remapping during stroke recovery is accompanied by the development of prolonged sensory responses and new structural circuits in both the peri-infarct zone as well as more distant sites.

  • stroke
  • plasticity
  • somatosensory cortex
  • dendritic spine
  • motor cortex
  • membrane potential
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The Journal of Neuroscience: 29 (6)
Journal of Neuroscience
Vol. 29, Issue 6
11 Feb 2009
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In Vivo Voltage-Sensitive Dye Imaging in Adult Mice Reveals That Somatosensory Maps Lost to Stroke Are Replaced over Weeks by New Structural and Functional Circuits with Prolonged Modes of Activation within Both the Peri-Infarct Zone and Distant Sites
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In Vivo Voltage-Sensitive Dye Imaging in Adult Mice Reveals That Somatosensory Maps Lost to Stroke Are Replaced over Weeks by New Structural and Functional Circuits with Prolonged Modes of Activation within Both the Peri-Infarct Zone and Distant Sites
Craig E. Brown, Khatereh Aminoltejari, Heidi Erb, Ian R. Winship, Timothy H. Murphy
Journal of Neuroscience 11 February 2009, 29 (6) 1719-1734; DOI: 10.1523/JNEUROSCI.4249-08.2009

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In Vivo Voltage-Sensitive Dye Imaging in Adult Mice Reveals That Somatosensory Maps Lost to Stroke Are Replaced over Weeks by New Structural and Functional Circuits with Prolonged Modes of Activation within Both the Peri-Infarct Zone and Distant Sites
Craig E. Brown, Khatereh Aminoltejari, Heidi Erb, Ian R. Winship, Timothy H. Murphy
Journal of Neuroscience 11 February 2009, 29 (6) 1719-1734; DOI: 10.1523/JNEUROSCI.4249-08.2009
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