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DOI: 10.1055/a-1905-1998
Impact of Overnight Wear of Orthokeratology Lens on Thickness of Tear Film Lipid Layer in Children with Myopia
Beurteilung der Nachtorthokeratologie auf Tränenfilm-Lipidschichtdicke bei Kindern mit MyopieThis research was sponsored by the Natural Science Foundation of Anhui (Project No. 2108085MH278) and the Innovation and Entrepreneurship Support Program for Returnees in Anhui Province (Project No. 2021LCX006). The sponsor or funding organization had no role in the design or conduct of this research.
Abstract
Background To elucidate the influence of overnight wear of orthokeratology (OOK) lenses on the thickness of the tear lipid layer (LLT).
Methods We conducted a retrospective cross-sectional study of children who visited The First Affiliated Hospital of USTC between July and September 2021. LLT and blinking dynamics were assessed. Diopters and corneal topography were also recorded.
Results The number of children enrolled in this program was 402 (804 eyes). One hundred and seventy-one children (342 eyes, 79 males and 92 females) aged 4 – 17 years (10.59 ± 2.54 years) who never wore OOK were included in the control group, while 231 children (462 eyes, 121 males and 110 females) aged 7 – 18 years (11.09 ± 2.24 years) who wore OOK for more than 1 week were included in the observation group. Compared to the control group with an LLT of 58.5 ± 18.19 nm, the OOK group exhibited a significant decrease in the LLT value to 54.42 ± 17.60 nm. In addition, the LLT in females was significantly thicker than that in males in both the control (male 54.78 ± 16.56 nm, female 61.70 ± 18.95 nm) and observation groups (male 51.88 ± 16.68 nm, female 57.21 ± 18.18 nm). It is worth noting that the influence of wearing OOK on the LLT value was only detected up to 18 months. Eighteen months later, there was almost no difference in LLT between the control and observation groups. We also noted that there was no change in LLT correlated to the surface regularity index/surface asymmetry index.
Conclusion Wearing OOK can affect tear film LLT within the first 18 months after wear. More attention should be given to children wearing OOK for less than 18 months, especially males.
Zusammenfassung
Zweck Zur Aufklärung des Einflusses der nächtlichen Orthokeratologie (OOK), des Linsentragens auf die Tränenfilm-Lipidschichtdicke (LLT).
Methoden Wir führten bei Kindern eine retrospektive Querschnittsstudie durch, die das First Affiliated Hospital der USTC zwischen Juli und September 2021 besuchten. Die LLT und Blinkdynamik wurden bewertet. Diopter und Hornhauttopografie wurden ebenfalls aufgezeichnet.
Ergebnisse Die Anzahl der in dieser Studie eingeschlossenen Kinder betrug 402 (804 Augen). 171 Kinder (342 Augen, 79 Jungen und 92 Mädchen) im Alter von 4 – 17 Jahren (10,59 ± 2,54 Jahre), die nie OOK trugen, wurden in die Kontrollgruppe aufgenommen. 231 Kinder (462 Augen, 121 Jungen und 110 Mädchen) im Alter von 7 – 18 Jahren (11,09 ± 2,24 Jahre) trugen OOK länger als 1 Woche und wurden in die Beobachtungsgruppe aufgenommen. Im Vergleich zur Kontrollgruppe mit einem LLT von 58,5 ± 18,19 nm zeigte die OOK-Gruppe einen signifikanten Rückgang des LLT-Wertes auf 54,42 ± 17,60 nm. Darüber hinaus war die LLT bei den Mädchen signifikant dicker als bei den Jungen, unabhängig von der Kontrollgruppe (männlich 54,78 ± 16,56 nm, weiblich 61,70 ± 18,95 nm) oder in der Beobachtungsgruppe (männlich 51,88 ± 16,68 nm, weiblich 57,21 ± 18,18 nm). Es ist erwähnenswert, dass der Einfluss des OOK-Tragens auf den LLT-Wert nur bis zu 18 Monate wirkt. Nach 18 Monaten wurde kein Unterschied der LLT zwischen der Kontroll- und Beobachtungsgruppe mehr gesehen. Wir stellten auch fest, dass es keine Veränderung der LLT gab, die mit der SRI/SAI korrelierte.
Fazit Das Tragen von OOK kann den Tränenfilm und den LLT-Wert innerhalb der ersten 18 Monate beeinflussen. Kinder, besonders Jungen, die weniger als 18 Monate OOK tragen, sollten regelmäßig kontrolliert werden.
What we already know:
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OOK lens wearing may impact the tear film. The lipid layer is also an important part of the tear film, although it was of less concern.
New findings:
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OOK wearing can affect the tear film LLT value within the first 18 months after wear. More attention should be given to children wearing OOK for less than 18 months, especially males. Age, diopter, and SRI/SAI were not related to LLT changes.
Publication History
Received: 05 May 2022
Accepted: 19 July 2022
Accepted Manuscript online:
20 July 2022
Article published online:
09 September 2022
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References
- 1 Sankaridurg P, Tahhan N, Kandel H. et al. IMI Impact of Myopia. Invest Ophthalmol Vis Sci 2021; 62: 2
- 2 Chen J, He XG, Wang JJ. et al. [Forcasting the prevalence of myopia among students aged 6–18 years in China from 2021 to 2030]. Zhonghua Yan Ke Za Zhi 2021; 57: 261-267
- 3 Tran HDM, Tran YH, Tran TD. et al. A review of myopia control with atropine. J Ocul Pharmacol Ther 2018; 34: 374-379
- 4 Gong Q, Janowski M, Luo M. et al. Efficacy and adverse effects of atropine in childhood myopia: a meta-analysis. JAMA Ophthalmol 2017; 135: 624
- 5 Stapleton F, Keay L, Jalbert I. et al. The epidemiology of contact lens related infiltrates. Optom Vis Sci 2007; 84: 257-272
- 6 Kojima T. Contact lens-associated dry eye disease: recent advances worldwide and in Japan. Invest Ophthalmol Vis Sci 2018; 59: 102-108
- 7 Yokoi N, Takehisa Y, Kinoshita S. Correlation of tear lipid layer interference patterns with the diagnosis and severity of dry eye. Am J Ophthalmol 1996; 122: 818-824
- 8 Zhao Y, Tan CL, Tong L. Intra-observer and inter-observer repeatability of ocular surface interferometer in measuring lipid layer thickness. BMC Ophthalmol 2015; 15: 53
- 9 Finis D, Pischel N, Schrader S. et al. Evaluation of lipid layer thickness measurement of the tear film as a diagnostic tool for Meibomian gland dysfunction. Cornea 2013; 32: 1549-1553
- 10 Eom Y, Lee JS, Kang SY. et al. Correlation between quantitative measurements of tear film lipid layer thickness and meibomian gland loss in patients with obstructive meibomian gland dysfunction and normal controls. Am J Ophthalmol 2013; 155: 1104-1110
- 11 Yang B, Wen K, Li J. et al. Quantitative evaluation of lipid layer thickness and blinking in children with allergic conjunctivitis. Graefes Arch Clin Exp Ophthalmol 2021; 259: 2795-2805
- 12 Li J, Ma J, Hu M. et al. Assessment of tear film lipid layer thickness in patients with Meibomian gland dysfunction at different ages. BMC Ophthalmol 2020; 20: 1-7
- 13 Won JJ, Yoon PS, Sun KJ. et al. Analysis of factors associated with the tear film lipid layer thickness in normal eyes and patients with dry eye syndrome. Invest Ophthalmol Vis Sci 2016; 57: 4076-4083
- 14 Maïssa C, Guillon M. Tear film dynamics and lipid layer characteristics–effect of age and gender. Cont Lens Anterior Eye 2010; 33: 176-182
- 15 Pult H. Relationships between meibomian gland loss and age, sex, and dry eye. Eye Contact Lens 2018; 44 (Suppl. 02) S318-S324
- 16 Machalińska A, Zakrzewska A, Safranow K. et al. Risk factors and symptoms of meibomian gland loss in a healthy population. J Ophthalmol 2016; 2016: 7526120
- 17 Mizoguchi T, Arita R, Fukuoka S. et al. Morphology and function of meibomian glands and other tear film parameters in junior high school students. Cornea 2017; 36: 922-926
- 18 Lee Y, Hyon JY, Jeon HS. Characteristics of dry eye patients with thick tear film lipid layers evaluated by a LipiView II interferometer. Graefes Arch Clin Exp Ophthalmol 2021; 259: 1235-1241
- 19 Schaumberg DA, Nichols JJ, Papas EB. et al. The international workshop on meibomian gland dysfunction: report of the subcommittee on the epidemiology of, and associated risk factors for, MGD. Invest Ophthalmol Vis Sci 2011; 52: 1994-2005
- 20 Yeotikar NS, Zhu H, Markoulli M. et al. Functional and morphologic changes of meibomian glands in an asymptomatic adult population. Invest Ophthalmol Vis Sci 2016; 57: 3996-4007
- 21 Arita R, Itoh K, Inoue K. et al. Noncontact infrared meibography to document age-related changes of the meibomian glands in a normal population. Ophthalmology 2008; 115: 911-915
- 22 Shirakawa R, Arita R, Amano S. Meibomian gland morphology in Japanese infants, children, and adults observed using a mobile pen-shaped infrared meibography device. Am J Ophthalmol 2013; 155: 1099-1103
- 23 Schröder A, Abrar DB, Hampel U. et al. In vitro effects of sex hormones in human meibomian gland epithelial cells. Exp Eye Res 2016; 151: 190-202
- 24 Versura P, Giannaccare G, Campos EC. Sex-steroid imbalance in females and dry eye. Curr Eye Res 2015; 40: 162-175
- 25 Sullivan DA, Jensen RV, Suzuki T. et al. Do sex steroids exert sex-specific and/or opposite effects on gene expression in lacrimal and meibomian glands?. Mol Vis 2009; 15: 1553-1572
- 26 Arita R, Itoh K, Inoue K. et al. Contact lens wear is associated with decrease of meibomian glands. Ophthalmology 2009; 116: 379-384
- 27 Alghamdi WM, Markoulli M, Holden BA. et al. Impact of duration of contact lens wear on the structure and function of the meibomian glands. Ophthalmic Physiol Opt 2016; 36: 120-131
- 28 Pucker AD, Jones-Jordan LA, Li W. et al. Associations with meibomian gland atrophy in daily contact lens wearers. Optom Vis Sci 2015; 92: e206-e213
- 29 Yeh TN, Lin MC. Risk factors for severe meibomian gland atrophy in a young adult population: A cross-sectional study. PLoS One 2017; 12: e0185603
- 30 Wang X, Li J, Zhang R. et al. The Influence of overnight orthokeratology on ocular surface and meibomian gland dysfunction in teenagers with myopia. J Ophthalmol 2019; 2019: 5142628
- 31 Panaser A, Tighe BJ. Evidence of lipid degradation during overnight contact lens wear: gas chromatography mass spectrometry as the diagnostic tool. Invest Ophthalmol Vis Sci 2014; 55: 1797-1804
- 32 Carracedo G, González-Méijome JM, Pintor J. Changes in diadenosine polyphosphates during alignment-fit and orthokeratology rigid gas permeable lens wear. Invest Ophthalmol Vis Sci 2012; 53: 4426-4432
- 33 Li J, Dong P, Liu H. Effect of overnight wear orthokeratology lenses on corneal shape and tears. Eye Contact Lens 2018; 44: 304-307
- 34 Maseedupally V, Gifford P, Lum E. et al. Central and paracentral corneal curvature changes during orthokeratology. Optom Vis Sci 2013; 90: 1249-1258
- 35 Kobayashi Y, Yanai R, Chikamoto N. et al. Reversibility of effects of orthokeratology on visual acuity, refractive error, corneal topography, and contrast sensitivity. Eye Contact Lens 2008; 34: 224-228
- 36 Sun Y, Wang L, Gao J. et al. Influence of overnight orthokeratology on corneal surface shape and optical quality. J Ophthalmol 2017; 2017: 3279821
- 37 Ousler GW, Abelson MB, Johnston PR. et al. Blink patterns and lid-contact times in dry-eye and normal subjects. Clin Ophthalmol 2014; 8: 869-874
- 38 Hirota M, Uozato H, Kawamorita T. et al. Effect of incomplete blinking on tear film stability. Optom Vis Sci 2013; 90: 650-657
- 39 Wan T, Jin X, Lin L. et al. Incomplete blinking may attribute to the development of meibomian gland dysfunction. Curr Eye Res 2016; 41: 179-185
- 40 Argilés M, Cardona G, Pérez-Cabré E. et al. Blink rate and incomplete blinks in six different controlled hard-copy and electronic reading conditions. Invest Ophthalmol Vis Sci 2015; 56: 6679-6685