Block-dependent sedation during epidural anaesthesia is associated with delayed brainstem conduction

doi:10.1093/bja/aeh192

BJA Advance Access originally published online on June 25, 2004
British Journal of Anaesthesia 2004 93(2):228-234; doi:10.1093/bja/aeh192

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Block-dependent sedation during epidural anaesthesia is associated with delayed brainstem conduction

A. G. Doufas¹^,*, A. Wadhwa¹, Y. M. Shah¹, C.-M. Lin¹^,2, G. S. Haugh¹ and D. I. Sessler¹

¹ Outcomes Research^TM Institute and Department of Anesthesiology, University of Louisville, KY, USA. ² Department of Anesthesiology, Chang Gung Memorial Hospital, Kweishan, Taiwan

^* Corresponding author: Department of Anesthesiology, University of Louisville Hospital, 530 South Jackson Street, Louisville, KY 40202, USA. E-mail: agdoufas{at}louisville.edu

Background. Neuraxial anaesthesia produces a sedative and anaesthetic-sparingeffect. Recent evidence suggests that spinal cord anaesthesiamodifies reticulo-thalamo-cortical arousal by decreasing afferentsensory transmission. We hypothesized that epidural anaesthesiaproduces sensory deafferentation-dependent sedation that isassociated with impairment of brainstem transmission. We usedbrainstem auditory evoked potentials (BAEP) to evaluate reticularfunction in 11 volunteers.

Methods. Epidural anaesthesia was induced with 2-chloroprocaine2%. Haemodynamic and respiratory responses, sensory block level,sedation depth and BAEP were assessed throughout induction andresolution of epidural anaesthesia. Sedation was evaluated usingverbal rating score (VRS), observer's assessment alertness/sedation(OAA/S) score, and bispectral index score (BIS). Predictionprobability (P_K) was used to associate sensory block with sedation,as well as BIS with other sedation measures. Spearman's rankorder correlation was used to associate block level and sedationwith the absolute and interpeak BAEP latencies.

Results. Sensory block level significantly predicted VRS (P_K=0.747),OAA/S score (P_K=0.748) and BIS. BIS predicted VRS and OAA/Sscore (P_K=0.728). The latency of wave III of BAEP significantlycorrelated with sedation level ( ${rho}$ =0.335, P<0.01) and sensoryblock ( ${rho}$ =0.394, P<0.01). The other BAEP parameters did notchange during epidural anaesthesia. Haemodynamic and respiratoryresponses remained stable throughout the study.

Conclusions. Sedation during epidural anaesthesia depends onsensory block level and is associated with detectable block-dependentalterations in the brainstem auditory evoked responses. Sensorydeafferentation may reduce CNS alertness through mechanismsrelated to brainstem neural activity.

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