Nocturnal hypoxaemia and central-nervous-system events in sickle-cell disease
Nocturnal hypoxaemia and central-nervous-system events in sickle-cell disease
Background: Central-nervous-system (CNS) events, including strokes, transient ischaemic attacks, and seizures are common in sickle-cell disease. Stroke can be predicted by high velocities in the internal-carotid or middle-cerebral arteries on transcranial doppler ultrasonography. We tested the hypothesis that nocturnal hypoxaemia can predict CNS events better than clinical or haematological features, or transcranial doppler sonography.
Methods: We screened 95 hospital-based patients with sickle-cell disease (median age 7·7 years [range 1·0-23·1]), but without previous stroke, with transcranial doppler and overnight pulse oximetry. Follow-up continued for a median of 6·01 (0·11-8·54) years.
Findings: 19 patients had CNS events (six ischaemic and one haemorrhagic stroke, eight transient ischaemic attacks, and four seizures). Mean overnight oxygen saturation ([SaO2] hazard ratio 0·82 per 1% increase [95% Cl 0·71-0·93]; p=0·003) and higher internal-carotid or middle-cerebral artery velocity (1·02 for every increase of 1 cm/s [1·004-1·03]; p=0·009) were independently associated with time to CNS event. After accounting for mean SaO2, artery velocity, and haemoglobinopathy, high haemoglobin concentration was also associated with an increased risk of CNS event (1·7 per g/dL, [1·18-2·43]; p=0·004). Dips suggestive of obstructive sleep apnoea did not predict CNS events, and adenotonsillectomy seemed to have no effect, although the Cl were wide and clinically important effects cannot be excluded.
Interpretation: Screening for, and appropriate management of, nocturnal hypoxaemia might be a safe and effective alternative to prophylactic blood transfusion for primary prevention of CNS events in sickle-cell disease.
1656-1659
Kirkham, F.J.
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Hewes, D.K.M.
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Prengler, M.
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Wade, A.
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Lane, R.
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Evans, J.P.M.
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26 May 2001
Kirkham, F.J.
1dfbc0d5-aebe-4439-9fb2-dac6503bcd58
Hewes, D.K.M.
0da12a8e-8418-4b44-99c9-e9863e47bf91
Prengler, M.
f5a84d85-bba6-4af4-8437-a003532796e6
Wade, A.
dde0ab5a-d277-4178-8ae8-d086a06eaacb
Lane, R.
2c1cf022-2993-48a3-b23d-2ac4c635e9bf
Evans, J.P.M.
ccac8fa8-cbef-41ff-b9d6-f39c40a50c9b
Kirkham, F.J., Hewes, D.K.M., Prengler, M., Wade, A., Lane, R. and Evans, J.P.M.
(2001)
Nocturnal hypoxaemia and central-nervous-system events in sickle-cell disease.
The Lancet, 357 (9269), .
(doi:10.1016/S0140-6736(00)04821-2).
Abstract
Background: Central-nervous-system (CNS) events, including strokes, transient ischaemic attacks, and seizures are common in sickle-cell disease. Stroke can be predicted by high velocities in the internal-carotid or middle-cerebral arteries on transcranial doppler ultrasonography. We tested the hypothesis that nocturnal hypoxaemia can predict CNS events better than clinical or haematological features, or transcranial doppler sonography.
Methods: We screened 95 hospital-based patients with sickle-cell disease (median age 7·7 years [range 1·0-23·1]), but without previous stroke, with transcranial doppler and overnight pulse oximetry. Follow-up continued for a median of 6·01 (0·11-8·54) years.
Findings: 19 patients had CNS events (six ischaemic and one haemorrhagic stroke, eight transient ischaemic attacks, and four seizures). Mean overnight oxygen saturation ([SaO2] hazard ratio 0·82 per 1% increase [95% Cl 0·71-0·93]; p=0·003) and higher internal-carotid or middle-cerebral artery velocity (1·02 for every increase of 1 cm/s [1·004-1·03]; p=0·009) were independently associated with time to CNS event. After accounting for mean SaO2, artery velocity, and haemoglobinopathy, high haemoglobin concentration was also associated with an increased risk of CNS event (1·7 per g/dL, [1·18-2·43]; p=0·004). Dips suggestive of obstructive sleep apnoea did not predict CNS events, and adenotonsillectomy seemed to have no effect, although the Cl were wide and clinically important effects cannot be excluded.
Interpretation: Screening for, and appropriate management of, nocturnal hypoxaemia might be a safe and effective alternative to prophylactic blood transfusion for primary prevention of CNS events in sickle-cell disease.
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Published date: 26 May 2001
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Local EPrints ID: 429824
URI: http://eprints.soton.ac.uk/id/eprint/429824
ISSN: 0140-6736
PURE UUID: 8f1eef0f-6f52-4fc1-9007-dbe844d795b5
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Date deposited: 05 Apr 2019 16:30
Last modified: 16 Mar 2024 03:22
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Author:
D.K.M. Hewes
Author:
M. Prengler
Author:
A. Wade
Author:
R. Lane
Author:
J.P.M. Evans
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