Original Article
Spinal Cord (2008) 46, 666–672; doi:10.1038/sc.2008.35; published online 8 April 2008
Assessing the capacity of the sympathetic nervous system to respond to a cardiovascular challenge in human spinal cord injury
- 1Spinal Injuries Research Centre, Prince of Wales Medical Research Institute, Sydney, New South Wales, Australia
- 2School of Medicine, University of Western Sydney, Sydney, New South Wales, Australia
Correspondence: R Brown, Spinal Injuries Research Centre, Prince of Wales Medical Research Institute, Barker Street, Randwick, New South Wales 2031, Australia. E-mail: rach.brown@unsw.edu.au
Received 30 October 2007; Revised 7 January 2008; Accepted 27 February 2008; Published online 8 April 2008.
Abstract
Study design:
Measurement of haemodynamic responses and cutaneous blood flow during an inspiratory-capacity apnoea following spinal cord injury (SCI).
Objective:
To assess the capacity of the sympathetic nervous system to respond to a cardiovascular challenge following SCI.
Setting:
Prince of Wales Medical Research Institute, Australia.
Subjects:
Thirteen spinal cord injured subjects with injuries ranging from C5-T8 and eight able-bodied control subjects.
Methods:
Continuous blood pressure, an electrocardiogram, respiration and cutaneous blood flow were recorded during a static maximum inspiratory breath-hold for 40 s.
Results:
On average, systolic blood pressure decreased 26% from baseline in the spinal group during the breath-hold and remained below baseline throughout the entire apnoeic period. Heart rate in this group had an initial decrease from baseline but quickly increased throughout the breath-hold, being 17% above baseline in the recovery period. Systolic pressure in the control group decreased 12% from baseline at the beginning of the breath-hold but quickly stabilized for the remainder of the apnoea, with heart rate initially decreasing 22% and remaining below baseline throughout the breath-hold.
Conclusion:
A maximal inspiratory breath-hold, which is known to cause a sustained increase in muscle sympathetic nerve activity, is a simple test to perform in supine spinal cord-injured subjects, and provides information on the capacity of muscle and splanchnic vasoconstrictor activity to increase blood pressure in SCI. A sustained decrease in blood pressure, coupled with an increase in heart rate, infers interruption of sympathetic vasoconstrictor pathways to muscle and splanchnic vascular beds.
Keywords:
spinal cord injury, inspiratory-capacity apnoea, blood pressure, heart rate, cutaneous blood flow, sympathetic nervous system
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