Cortisol, sleep and cognition in sickle cell anaemia
Cortisol, sleep and cognition in sickle cell anaemia
Objectives/Introduction: Cortisol is critical for supporting a healthy immune system, maintaining energy levels and cognitive function- ing. The relationship of cortisol, cognition and sleep in sickle cell dis- ease (SCD) is not well understood. Methods: Participants of African heritage (Meanage = 19.37, Nmale= 16, Ncontrol = 18, NSCD= 27) were recruited from the community in London, UK. Salivary cortisol was taken 4 times on a week day. Sleep was measured with an Actiwatch (CamNtech) for 7 nights. Assessment from the Wechsler Scales of Intelligence occurred within 7 days of data collection. Results: Both groups slept on average 6 h, but SCD experienced greater sleep fragmentation (SF) and night wake bouts (WB) (SF; 31% & WB; 41) compared to controls (SF; 25% & WB; 34, both p < 0.05). SCD had numerically greater sleep latency of 48 min (range:8min-3h6min)comparedto35min(range:3min-1h 55 min) for controls (p = 0.21). The mean full-scale IQ, processing speed index (PSI) and perceptual reasoning index (PRI) were lower in SCD: FSIQSCD = 95 (SD = 11.8) & FSIQcontrols= 107.22 (SD = 9.55), PSISCD = 90.56 (SD = 13.3) & PSIcontrols= 106.78 (SD = 10.38, both p < 0.01) & PRISCD = 101.11 (SD = 13.95) & PRIcontrols= 108.24 (SD = 10.69), p = 0.06. SCD showed a flatter cortisol profile with lower normalized cortisol in the afternoon (54%) compared to controls (89%, p = 0.027). There was a positive correlation be- tween morning cortisol and PRI (r (45) = 0.41, p < 0.01) and PSI (r (45) = 0.30, p < 0.05), suggesting that greater increase in morning cortisol might be beneficial for cognitive performance. Hierarchical multiple regression revealed that WB and morning cortisol predict PSI(R2 =0.575,F(3,41)=6.76,p=0.001)andPRI(R2 =0.514,F(3, 41) = 4.9, p = 0.005) in patient and controls. Conclusions: Morning cortisol and WB could be contributing fac- tors to the observed cognitive differences in SCD. Frequent WB and SF might be an indicator of sleep disordered breathing in SCD. It is important to understand what drives the relationship between sleep and cognitive difficulties to develop interventions early on for chil- dren with SCD.
236-236
Koelbel, M.
5d30eddf-daaf-49a5-9bda-1ec865467394
Dimitrou, D.
7558b76e-01e1-46e1-891d-27598cb9268b
Stotesbury, H.
1104423d-f215-4585-bb50-29b7fdd6c518
Sahota, S.
66c1457f-cba2-4c49-9c8c-fcee0748b6b8
Kirkham, F.
1dfbc0d5-aebe-4439-9fb2-dac6503bcd58
Koelbel, M.
5d30eddf-daaf-49a5-9bda-1ec865467394
Dimitrou, D.
7558b76e-01e1-46e1-891d-27598cb9268b
Stotesbury, H.
1104423d-f215-4585-bb50-29b7fdd6c518
Sahota, S.
66c1457f-cba2-4c49-9c8c-fcee0748b6b8
Kirkham, F.
1dfbc0d5-aebe-4439-9fb2-dac6503bcd58
Koelbel, M., Dimitrou, D., Stotesbury, H., Sahota, S. and Kirkham, F.
(2020)
Cortisol, sleep and cognition in sickle cell anaemia.
Journal of Sleep Research, 29 (S1), , [P341].
Record type:
Meeting abstract
Abstract
Objectives/Introduction: Cortisol is critical for supporting a healthy immune system, maintaining energy levels and cognitive function- ing. The relationship of cortisol, cognition and sleep in sickle cell dis- ease (SCD) is not well understood. Methods: Participants of African heritage (Meanage = 19.37, Nmale= 16, Ncontrol = 18, NSCD= 27) were recruited from the community in London, UK. Salivary cortisol was taken 4 times on a week day. Sleep was measured with an Actiwatch (CamNtech) for 7 nights. Assessment from the Wechsler Scales of Intelligence occurred within 7 days of data collection. Results: Both groups slept on average 6 h, but SCD experienced greater sleep fragmentation (SF) and night wake bouts (WB) (SF; 31% & WB; 41) compared to controls (SF; 25% & WB; 34, both p < 0.05). SCD had numerically greater sleep latency of 48 min (range:8min-3h6min)comparedto35min(range:3min-1h 55 min) for controls (p = 0.21). The mean full-scale IQ, processing speed index (PSI) and perceptual reasoning index (PRI) were lower in SCD: FSIQSCD = 95 (SD = 11.8) & FSIQcontrols= 107.22 (SD = 9.55), PSISCD = 90.56 (SD = 13.3) & PSIcontrols= 106.78 (SD = 10.38, both p < 0.01) & PRISCD = 101.11 (SD = 13.95) & PRIcontrols= 108.24 (SD = 10.69), p = 0.06. SCD showed a flatter cortisol profile with lower normalized cortisol in the afternoon (54%) compared to controls (89%, p = 0.027). There was a positive correlation be- tween morning cortisol and PRI (r (45) = 0.41, p < 0.01) and PSI (r (45) = 0.30, p < 0.05), suggesting that greater increase in morning cortisol might be beneficial for cognitive performance. Hierarchical multiple regression revealed that WB and morning cortisol predict PSI(R2 =0.575,F(3,41)=6.76,p=0.001)andPRI(R2 =0.514,F(3, 41) = 4.9, p = 0.005) in patient and controls. Conclusions: Morning cortisol and WB could be contributing fac- tors to the observed cognitive differences in SCD. Frequent WB and SF might be an indicator of sleep disordered breathing in SCD. It is important to understand what drives the relationship between sleep and cognitive difficulties to develop interventions early on for chil- dren with SCD.
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e-pub ahead of print date: 15 September 2020
Additional Information:
© 2020 The Authors Journal of Sleep Research © 2020 European Sleep Research Society
Venue - Dates:
25th Congress of the European Sleep Research Society, Virtual Congress, 2020-09-22 - 2020-09-24
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Local EPrints ID: 471196
URI: http://eprints.soton.ac.uk/id/eprint/471196
ISSN: 0962-1105
PURE UUID: 6f1d5247-0870-450a-ba04-fbb12a33f5e6
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Date deposited: 31 Oct 2022 17:43
Last modified: 17 Mar 2024 02:53
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Contributors
Author:
M. Koelbel
Author:
D. Dimitrou
Author:
H. Stotesbury
Author:
S. Sahota
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