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Association of Intraocular Cataract Lens Replacement With Circadian Rhythms, Cognitive Function, and Sleep in Older Adults.

Association of Intraocular Cataract Lens Replacement With Circadian Rhythms, Cognitive Function, and Sleep in Older Adults.
Association of Intraocular Cataract Lens Replacement With Circadian Rhythms, Cognitive Function, and Sleep in Older Adults.
Importance Cataract is associated with a progressive decline in light transmission due to the clouding and yellowing of the natural crystalline lens. While the downstream effects of aging lenses include long-term disruption of circadian rhythms, cognitive function, and sleep regulation, it remains unknown whether there is an association of intraocular cataract lens (IOLs) replacement with circadian rhythms, cognition, and sleep.

Objective To test whether IOL replacement (blue blocking [BB] or ultraviolet [UV] only blocking) in older patients with previous cataract is associated with the beneficial light effects on the circadian system, cognition, and sleep regulation.

Design, Setting, and Participants Cross-sectional study at the Centre for Chronobiology, University of Basel in Switzerland from February 2012 to April 2014, analyzed between June 2012 and September 2018. Sixteen healthy older controls and 13 patients with previous cataract and IOL replacement participated without medication and no medical and sleep comorbidities.

Exposures Three and a half hours of prior light control (dim-dark adaptation), followed by 2 hours of evening blue-enriched (6500 K) or non–blue-enriched light exposure (3000 K and 2500 K), 30 minutes in dim post–light exposure, 8 hours of sleep opportunity, and 2 hours of morning dim light following sleep.

Main Outcomes and Measures Salivary melatonin, cognitive tests, and sleep structure and electroencephalographic activity to test the association of IOLs with markers of circadian rhythmicity, cognitive performance, and sleep regulation, respectively.

Results The participants included 16 healthy older controls with a mean (standard error of the mean [SEM]) of 63.6 (5.6) years; 8 women and 13 patients with previous cataract (mean [SEM] age, 69.9 [5.2] years; 10 women); 5 patients had UV IOLs and 8 had BB IOLs. Patients with previous cataract and IOLs had an attenuated increase in melatonin levels during light exposure (mean [SEM] increase in the BB group: 23.3% [2.6%] and in the UV lens group: 19.1% [2.1%]) than controls (mean [SEM] increase, 48.8% [5.2%]) (difference between means, 27.7; 95% CI, 15.4%-41.7%; P < .001). Cognitive function, indexed by sustained attention performance, was improved in patients with UV lens (mean [SEM], 276.9 [11.1] milliseconds) compared with patients with BB lens (mean [SEM], 348.3 [17.8] milliseconds) (difference between means, 71.4; 95% CI, 29.5%-113.1%; P = .002) during light exposure and in the morning after sleep. Patients with UV lens had increased slow-wave sleep (mean [SEM] increase, 13% [3.4%]) compared with controls (mean [SEM] increase, 5.2% [0.8%]) (percentage of total sleep time; difference between means, 7.9; 95% CI, 2.4%-13.4%; P = .02) and frontal non–rapid eye movement slow-wave activity (0.75-4.5 Hz) during the first sleep cycle (mean [SEM], 79.9 [13.6] μV2/Hz) compared with patients with BB lens (mean [SEM], 53.2 [10.7] μV2/Hz) (difference between means, 26.7; 95% CI, 9.2-48.9; P = .03).

Conclusions and Relevance These in-laboratory empirical findings suggest that optimizing the spectral lens transmission in patients with previous cataract may minimize the adverse age-related effects on circadian rhythms, cognition, and sleep.
2168-6165
878-885
Chellappa, SL
516582b5-3cba-4644-86c9-14c91a4510f2
Bromundt, V
e1f6228d-9b6f-4aa3-a785-475f283b30e3
Frey, S
70fd2573-43df-4513-ab64-35b421ff4729
Steinemann, A
eb8b623c-ab05-44a9-b466-4caa95786209
Schmidt, C
b24f0087-3762-429e-9769-33280a332789
Schlote, T
4ce23d73-6a79-40c3-ba5f-214a87b5cc08
Goldblum, D
55652fee-de90-4618-bd19-237757627831
Cajochen, C
f605e720-e417-45dc-9b5c-244b1a1d6265
Chellappa, SL
516582b5-3cba-4644-86c9-14c91a4510f2
Bromundt, V
e1f6228d-9b6f-4aa3-a785-475f283b30e3
Frey, S
70fd2573-43df-4513-ab64-35b421ff4729
Steinemann, A
eb8b623c-ab05-44a9-b466-4caa95786209
Schmidt, C
b24f0087-3762-429e-9769-33280a332789
Schlote, T
4ce23d73-6a79-40c3-ba5f-214a87b5cc08
Goldblum, D
55652fee-de90-4618-bd19-237757627831
Cajochen, C
f605e720-e417-45dc-9b5c-244b1a1d6265

Chellappa, SL, Bromundt, V, Frey, S, Steinemann, A, Schmidt, C, Schlote, T, Goldblum, D and Cajochen, C (2019) Association of Intraocular Cataract Lens Replacement With Circadian Rhythms, Cognitive Function, and Sleep in Older Adults. JAMA Ophthalmology, 137 (8), 878-885. (doi:10.1001/jamaophthalmol.2019.1406).

Record type: Article

Abstract

Importance Cataract is associated with a progressive decline in light transmission due to the clouding and yellowing of the natural crystalline lens. While the downstream effects of aging lenses include long-term disruption of circadian rhythms, cognitive function, and sleep regulation, it remains unknown whether there is an association of intraocular cataract lens (IOLs) replacement with circadian rhythms, cognition, and sleep.

Objective To test whether IOL replacement (blue blocking [BB] or ultraviolet [UV] only blocking) in older patients with previous cataract is associated with the beneficial light effects on the circadian system, cognition, and sleep regulation.

Design, Setting, and Participants Cross-sectional study at the Centre for Chronobiology, University of Basel in Switzerland from February 2012 to April 2014, analyzed between June 2012 and September 2018. Sixteen healthy older controls and 13 patients with previous cataract and IOL replacement participated without medication and no medical and sleep comorbidities.

Exposures Three and a half hours of prior light control (dim-dark adaptation), followed by 2 hours of evening blue-enriched (6500 K) or non–blue-enriched light exposure (3000 K and 2500 K), 30 minutes in dim post–light exposure, 8 hours of sleep opportunity, and 2 hours of morning dim light following sleep.

Main Outcomes and Measures Salivary melatonin, cognitive tests, and sleep structure and electroencephalographic activity to test the association of IOLs with markers of circadian rhythmicity, cognitive performance, and sleep regulation, respectively.

Results The participants included 16 healthy older controls with a mean (standard error of the mean [SEM]) of 63.6 (5.6) years; 8 women and 13 patients with previous cataract (mean [SEM] age, 69.9 [5.2] years; 10 women); 5 patients had UV IOLs and 8 had BB IOLs. Patients with previous cataract and IOLs had an attenuated increase in melatonin levels during light exposure (mean [SEM] increase in the BB group: 23.3% [2.6%] and in the UV lens group: 19.1% [2.1%]) than controls (mean [SEM] increase, 48.8% [5.2%]) (difference between means, 27.7; 95% CI, 15.4%-41.7%; P < .001). Cognitive function, indexed by sustained attention performance, was improved in patients with UV lens (mean [SEM], 276.9 [11.1] milliseconds) compared with patients with BB lens (mean [SEM], 348.3 [17.8] milliseconds) (difference between means, 71.4; 95% CI, 29.5%-113.1%; P = .002) during light exposure and in the morning after sleep. Patients with UV lens had increased slow-wave sleep (mean [SEM] increase, 13% [3.4%]) compared with controls (mean [SEM] increase, 5.2% [0.8%]) (percentage of total sleep time; difference between means, 7.9; 95% CI, 2.4%-13.4%; P = .02) and frontal non–rapid eye movement slow-wave activity (0.75-4.5 Hz) during the first sleep cycle (mean [SEM], 79.9 [13.6] μV2/Hz) compared with patients with BB lens (mean [SEM], 53.2 [10.7] μV2/Hz) (difference between means, 26.7; 95% CI, 9.2-48.9; P = .03).

Conclusions and Relevance These in-laboratory empirical findings suggest that optimizing the spectral lens transmission in patients with previous cataract may minimize the adverse age-related effects on circadian rhythms, cognition, and sleep.

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e-pub ahead of print date: 23 May 2019
Published date: August 2019

Identifiers

Local EPrints ID: 479690
URI: http://eprints.soton.ac.uk/id/eprint/479690
ISSN: 2168-6165
PURE UUID: 327d87d5-117d-409d-afdc-111b54514d4f
ORCID for SL Chellappa: ORCID iD orcid.org/0000-0002-6190-464X
ORCID for S Frey: ORCID iD orcid.org/0000-0003-2551-7455

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Date deposited: 26 Jul 2023 16:47
Last modified: 17 Mar 2024 04:20

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Contributors

Author: SL Chellappa ORCID iD
Author: V Bromundt
Author: S Frey ORCID iD
Author: A Steinemann
Author: C Schmidt
Author: T Schlote
Author: D Goldblum
Author: C Cajochen

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