Cross-sectional study of intraocular cataract lens replacement, circadian rest–activity rhythms, and sleep quality in older adults
Cross-sectional study of intraocular cataract lens replacement, circadian rest–activity rhythms, and sleep quality in older adults
Study Objectives: age-related cataract decreases light transmission at the most sensitive spectrum for circadian photoentrainment, with negative ramifications for human health. Here, we assessed whether intraocular lens replacement (IOL) in older patients with previous cataract was associated with increased stability and amplitude of circadian rest–activity rhythms, and improved sleep quality.
Methods: our cross-sectional study included sixteen healthy older individuals without ocular diseases (controls; 55–80 years; 63.6 ± 5.6y; 8 women) and 13 patients with previous cataract and bilateral IOL (eight with blue-blocking [BB] lens and five with ultraviolet-only [UV] blocking lens; 55–80 years; 69.9 ± 5.2y; 9 women). The study comprised three weeks of at home rest–activity assessments using wrist-worn actigraphs, and each week preceded a laboratory protocol. Primary outcomes were actigraphy-derived interdaily stability, intradaily variability, and relative amplitude of circadian rest–activity rhythms. Secondary outcomes were actigraphy-assessed sleep quality (i.e. time in bed, sleep duration, sleep efficiency, mean wake bout time and fragmentation index).
Results: patients with IOL had significantly higher interdaily stability (“Group” effect: pFDR =.001), but not intradaily variability (“Group” effect: pFDR = n.s.), and significantly higher relative amplitude of rest–activity rhythms (“Group” effect: pFDR < .001). Moreover, patients with IOL had significantly higher activity levels during the day and lower levels during the evening, as compared to healthy older controls (“Group” effect: pFDR = .03). Analyses of actigraphy-derived sleep parameters yielded no significant differences across groups (“Group” effect: all pFDR > .1).
Conclusions: our cross-sectional study suggests that enhancing spectral lens transmission in patients with cataract may benefit their circadian health.
Chellappa, Sarah
516582b5-3cba-4644-86c9-14c91a4510f2
Bromundt, Vivien
e1f6228d-9b6f-4aa3-a785-475f283b30e3
Frey, Sylvia
9242fbd1-e165-4242-aa2f-d81a5823365d
Schlote, Torsten
4ce23d73-6a79-40c3-ba5f-214a87b5cc08
Goldblum, David
55652fee-de90-4618-bd19-237757627831
Cajochen, Christian
f605e720-e417-45dc-9b5c-244b1a1d6265
Chellappa, Sarah
516582b5-3cba-4644-86c9-14c91a4510f2
Bromundt, Vivien
e1f6228d-9b6f-4aa3-a785-475f283b30e3
Frey, Sylvia
9242fbd1-e165-4242-aa2f-d81a5823365d
Schlote, Torsten
4ce23d73-6a79-40c3-ba5f-214a87b5cc08
Goldblum, David
55652fee-de90-4618-bd19-237757627831
Cajochen, Christian
f605e720-e417-45dc-9b5c-244b1a1d6265
Chellappa, Sarah, Bromundt, Vivien, Frey, Sylvia, Schlote, Torsten, Goldblum, David and Cajochen, Christian
(2022)
Cross-sectional study of intraocular cataract lens replacement, circadian rest–activity rhythms, and sleep quality in older adults.
Sleep, 45 (4).
(doi:10.1093/sleep/zsac027).
Abstract
Study Objectives: age-related cataract decreases light transmission at the most sensitive spectrum for circadian photoentrainment, with negative ramifications for human health. Here, we assessed whether intraocular lens replacement (IOL) in older patients with previous cataract was associated with increased stability and amplitude of circadian rest–activity rhythms, and improved sleep quality.
Methods: our cross-sectional study included sixteen healthy older individuals without ocular diseases (controls; 55–80 years; 63.6 ± 5.6y; 8 women) and 13 patients with previous cataract and bilateral IOL (eight with blue-blocking [BB] lens and five with ultraviolet-only [UV] blocking lens; 55–80 years; 69.9 ± 5.2y; 9 women). The study comprised three weeks of at home rest–activity assessments using wrist-worn actigraphs, and each week preceded a laboratory protocol. Primary outcomes were actigraphy-derived interdaily stability, intradaily variability, and relative amplitude of circadian rest–activity rhythms. Secondary outcomes were actigraphy-assessed sleep quality (i.e. time in bed, sleep duration, sleep efficiency, mean wake bout time and fragmentation index).
Results: patients with IOL had significantly higher interdaily stability (“Group” effect: pFDR =.001), but not intradaily variability (“Group” effect: pFDR = n.s.), and significantly higher relative amplitude of rest–activity rhythms (“Group” effect: pFDR < .001). Moreover, patients with IOL had significantly higher activity levels during the day and lower levels during the evening, as compared to healthy older controls (“Group” effect: pFDR = .03). Analyses of actigraphy-derived sleep parameters yielded no significant differences across groups (“Group” effect: all pFDR > .1).
Conclusions: our cross-sectional study suggests that enhancing spectral lens transmission in patients with cataract may benefit their circadian health.
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e-pub ahead of print date: 27 January 2022
Identifiers
Local EPrints ID: 479537
URI: http://eprints.soton.ac.uk/id/eprint/479537
ISSN: 0161-8105
PURE UUID: 807ed422-0127-4b53-9428-efbc6d9451fe
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Date deposited: 26 Jul 2023 16:30
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
Sarah Chellappa
Author:
Vivien Bromundt
Author:
Sylvia Frey
Author:
Torsten Schlote
Author:
David Goldblum
Author:
Christian Cajochen
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