Modest spontaneous recovery of ventilation following chronic high cervical hemisection in rats

D. D. Fuller*, N. J. Doperalski, B. J. Dougherty, M. S. Sandhu, D. C. Bolser, P. J. Reier

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

90 Scopus citations

Abstract

Following C2 spinal hemisection (C2HS) in adult rats, ipsilateral phrenic motoneuron (PhMN) recovery occurs through a time-dependent activation of latent, crossed-spinal collaterals (i.e., spontaneous crossed phrenic phenomenon; sCPP) from contralateral bulbospinal axons. Ventilation is maintained during quiet breathing after C2HS, but the ability to increase ventilation during a respiratory stimulation (e.g. hypercapnia) is impaired. We hypothesized that long-term expression of the sCPP would correspond to a progressive normalization in ventilatory patterns during respiratory challenge. Breathing was assessed via plethsymography in unanesthetized animals and phrenic motor output was measured in urethane-anesthetized, paralyzed and vagotomized rats. At 2-week post-C2HS, minute ventilation (VE) was maintained during baseline (room air) conditions as expected but was substantially blunted during hypercapnic challenge (68 ± 3% of VE in uninjured, weight-matched rats). However, by 12 weeks the spinal-lesioned rats achieved a hypercapnic VE response that was 85 ± 7% of control (p = 0.017 vs. 2 wks). These rats also exhibited augmented breaths (AB's) or "sighs" more frequently (p < 0.05) than controls; however, total AB volume was significantly less than control at 2- and 12-week post-injury (69 ± 4% and 80 ± 5%, p < 0.05, respectively). We also noted that phrenic neurograms demonstrated a consistent delay in onset of the ipsilateral vs. contralateral inspiratory phrenic burst at 2-12-week post-injury. Finally, the ipsilateral phrenic response to respiratory challenge (hypoxia) was greater, though not normalized, at 4-12- vs. 2-week post-injury. We conclude that recovery of ventilation deficits occurs over 2-12-week post-C2HS; however, intrinsic neuroplasticity remains insufficient to concurrently restore a normal level of ipsilateral phrenic output.

Original languageEnglish (US)
Pages (from-to)97-106
Number of pages10
JournalExperimental Neurology
Volume211
Issue number1
DOIs
StatePublished - May 2008

Keywords

  • Crossed phrenic phenomenon
  • Motoneurons
  • Phrenic
  • Plasticity

ASJC Scopus subject areas

  • Neurology
  • Developmental Neuroscience

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