S. Houtman et al., Systemic circulation and cerebral oxygenation during head-up tilt in spinal cord injured individuals, SPINAL CORD, 38(3), 2000, pp. 158-163
Objective: To compare tilt-induced alterations in cardiovascular homeostasi
s and cerebral oxygenation of spinal cord-injured (SCI) to able-bodied (AB)
individuals.
Design: Subjects underwent 10 min supine rest followed by 10 min 70 degrees
head-up tilt. The last 5 min of supine rest and head-up tilt were analyzed
, provided a steady slate existed.
Subjects: SCI individuals (n = 11), with lesions between C4 and T4, and AB
individuals (n = 10), all males and balanced for age and weight.
Main outcome measures: Calf circumference, mean arterial pressure (MAP), st
roke volume, heart rate and cerebral oxygenated ([O(2)Hb]), deoxygenated ([
HHb]) and total ([tHb]) haemoglobin concentration changes were measured.
Results: Head-up tilt evoked a greater fall in MAP (mean (SD): -9 (12) vs 2
(6) mmHg P = 0.02) and stroke volume (-43 (12) vs -22 (10)%, P = 0.005), a
nd a greater increase in heart rate (27 (12) vs 18 (6) beats, P = 0.04) in
SCI than AB. Cardiac output decreased during head-up tilt in SCI but not in
AB (-17 (15) vs 1 (15)%, P = 0.01). The change in cerebral oxygenation ([H
Hb]: 3.9 (2.8) vs 2.8 (1.4) mu mol.l(-1), P = 0.1 and [O(2)Hb]: -6.1 (5.0)
vs -2.1 (5.5) mu mol.l(-1), P = 0.1) was similar in SCI and AB. All variabl
es mentioned showed a change significantly different from zero in both grou
ps, apart from [O(2)Hb] in AB and [tHb] in both groups.
Conclusion: SCI demonstrated a greater decrease of MAP and stroke volume wi
th a similar decrease in cerebral oxygenation compared to AB. This suggests
that although systemic circulation was less well regulated in SCI compared
with AB, cerebral circulation in SCI was maintained as in AB.