Influence of cataract light scatters on retinal vessel oxygen saturation

Background The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses. Methods A total of 96 eyes of 62 subjects w...

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Published in	Acta ophthalmologica (Oxford, England) Vol. 98; no. 1; pp. e56 - e62
Main Authors	della Volpe Waizel, Maria, Türksever, Cengiz, Todorova, Margarita G.
Format	Journal Article
Language	English
Published	England Wiley Subscription Services, Inc 01.02.2020
Subjects	Arterioles cataract Cataracts Cortex Eye Light scattering Oxygen Oxygen saturation Retina retinal vessel diameter retinal vessel oximetry Statistical analysis retinal vessel oximetry oxygen saturation cataract retinal vessel diameter
Online Access	Get full text
ISSN	1755-375X 1755-3768 1755-3768
DOI	10.1111/aos.14200

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Abstract	Background The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses. Methods A total of 96 eyes of 62 subjects were examined: 51 eyes from 33 cataract patients (mean age: 64.8y) were compared to 45 eyes from 29 controls with clear lenses (mean age: 61.5y). RO was performed with the oxygen saturation measurement tool from the RVA (IMEDOS Systems UG). The oxygen saturation in all major peripapillary retinal arterioles (A‐SO2) and venules (V‐SO2) was measured, and their difference (A‐V SO2) was calculated. In addition, the corresponding diameter in retinal arterioles (D‐A) and venules (D‐V) was evaluated. Cataract formation was graded according to the Lens Opacities Classification System III (LOCS III). Oximetry data were compared with the grade of cataract formation within both groups. For statistical evaluation, anova‐based linear mixed‐effects models were calculated (spss®, pairwise comparisons: Bonferroni‐corrected; p < 0.05). Results Cataract eyes showed significantly lower A‐SO2 and A‐V SO2 values (mean ± SD 92.52 ± 9.80% and 28.56 ± 9.80%), when compared to healthy controls (95.47 ± 4.48% and 34.8 ± 7.08%; p = 0.046 and p = 0.001). Within the cataract group, cortical opacities showed significant interactions with the A‐SO2, V‐SO2 and the A‐V SO2 parameters (p = 0.027; p = 0.002; and p = 0.026, respectively). Conclusions These data indicate that the cataract‐induced light scatter influences optical retinal oxygen measurements. Cortical opacities showed the highest influence on RO measurement when compared to nuclear opacification, nuclear colour and posterior cataract formation.
AbstractList	The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses. A total of 96 eyes of 62 subjects were examined: 51 eyes from 33 cataract patients (mean age: 64.8y) were compared to 45 eyes from 29 controls with clear lenses (mean age: 61.5y). RO was performed with the oxygen saturation measurement tool from the RVA (IMEDOS Systems UG). The oxygen saturation in all major peripapillary retinal arterioles (A-SO ) and venules (V-SO ) was measured, and their difference (A-V SO ) was calculated. In addition, the corresponding diameter in retinal arterioles (D-A) and venules (D-V) was evaluated. Cataract formation was graded according to the Lens Opacities Classification System III (LOCS III). Oximetry data were compared with the grade of cataract formation within both groups. For statistical evaluation, anova-based linear mixed-effects models were calculated (spss , pairwise comparisons: Bonferroni-corrected; p < 0.05). Cataract eyes showed significantly lower A-SO and A-V SO values (mean ± SD 92.52 ± 9.80% and 28.56 ± 9.80%), when compared to healthy controls (95.47 ± 4.48% and 34.8 ± 7.08%; p = 0.046 and p = 0.001). Within the cataract group, cortical opacities showed significant interactions with the A-SO , V-SO and the A-V SO parameters (p = 0.027; p = 0.002; and p = 0.026, respectively). These data indicate that the cataract-induced light scatter influences optical retinal oxygen measurements. Cortical opacities showed the highest influence on RO measurement when compared to nuclear opacification, nuclear colour and posterior cataract formation. Background The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses. Methods A total of 96 eyes of 62 subjects were examined: 51 eyes from 33 cataract patients (mean age: 64.8y) were compared to 45 eyes from 29 controls with clear lenses (mean age: 61.5y). RO was performed with the oxygen saturation measurement tool from the RVA (IMEDOS Systems UG). The oxygen saturation in all major peripapillary retinal arterioles (A‐SO2) and venules (V‐SO2) was measured, and their difference (A‐V SO2) was calculated. In addition, the corresponding diameter in retinal arterioles (D‐A) and venules (D‐V) was evaluated. Cataract formation was graded according to the Lens Opacities Classification System III (LOCS III). Oximetry data were compared with the grade of cataract formation within both groups. For statistical evaluation, anova‐based linear mixed‐effects models were calculated (spss®, pairwise comparisons: Bonferroni‐corrected; p < 0.05). Results Cataract eyes showed significantly lower A‐SO2 and A‐V SO2 values (mean ± SD 92.52 ± 9.80% and 28.56 ± 9.80%), when compared to healthy controls (95.47 ± 4.48% and 34.8 ± 7.08%; p = 0.046 and p = 0.001). Within the cataract group, cortical opacities showed significant interactions with the A‐SO2, V‐SO2 and the A‐V SO2 parameters (p = 0.027; p = 0.002; and p = 0.026, respectively). Conclusions These data indicate that the cataract‐induced light scatter influences optical retinal oxygen measurements. Cortical opacities showed the highest influence on RO measurement when compared to nuclear opacification, nuclear colour and posterior cataract formation. BackgroundThe aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses.MethodsA total of 96 eyes of 62 subjects were examined: 51 eyes from 33 cataract patients (mean age: 64.8y) were compared to 45 eyes from 29 controls with clear lenses (mean age: 61.5y). RO was performed with the oxygen saturation measurement tool from the RVA (IMEDOS Systems UG). The oxygen saturation in all major peripapillary retinal arterioles (A‐SO2) and venules (V‐SO2) was measured, and their difference (A‐V SO2) was calculated. In addition, the corresponding diameter in retinal arterioles (D‐A) and venules (D‐V) was evaluated. Cataract formation was graded according to the Lens Opacities Classification System III (LOCS III). Oximetry data were compared with the grade of cataract formation within both groups. For statistical evaluation, anova‐based linear mixed‐effects models were calculated (spss®, pairwise comparisons: Bonferroni‐corrected; p < 0.05).ResultsCataract eyes showed significantly lower A‐SO2 and A‐V SO2 values (mean ± SD 92.52 ± 9.80% and 28.56 ± 9.80%), when compared to healthy controls (95.47 ± 4.48% and 34.8 ± 7.08%; p = 0.046 and p = 0.001). Within the cataract group, cortical opacities showed significant interactions with the A‐SO2, V‐SO2 and the A‐V SO2 parameters (p = 0.027; p = 0.002; and p = 0.026, respectively).ConclusionsThese data indicate that the cataract‐induced light scatter influences optical retinal oxygen measurements. Cortical opacities showed the highest influence on RO measurement when compared to nuclear opacification, nuclear colour and posterior cataract formation. The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses.BACKGROUNDThe aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in patients with cataract formation against those of healthy controls with clear lenses.A total of 96 eyes of 62 subjects were examined: 51 eyes from 33 cataract patients (mean age: 64.8y) were compared to 45 eyes from 29 controls with clear lenses (mean age: 61.5y). RO was performed with the oxygen saturation measurement tool from the RVA (IMEDOS Systems UG). The oxygen saturation in all major peripapillary retinal arterioles (A-SO2 ) and venules (V-SO2 ) was measured, and their difference (A-V SO2 ) was calculated. In addition, the corresponding diameter in retinal arterioles (D-A) and venules (D-V) was evaluated. Cataract formation was graded according to the Lens Opacities Classification System III (LOCS III). Oximetry data were compared with the grade of cataract formation within both groups. For statistical evaluation, anova-based linear mixed-effects models were calculated (spss® , pairwise comparisons: Bonferroni-corrected; p < 0.05).METHODSA total of 96 eyes of 62 subjects were examined: 51 eyes from 33 cataract patients (mean age: 64.8y) were compared to 45 eyes from 29 controls with clear lenses (mean age: 61.5y). RO was performed with the oxygen saturation measurement tool from the RVA (IMEDOS Systems UG). The oxygen saturation in all major peripapillary retinal arterioles (A-SO2 ) and venules (V-SO2 ) was measured, and their difference (A-V SO2 ) was calculated. In addition, the corresponding diameter in retinal arterioles (D-A) and venules (D-V) was evaluated. Cataract formation was graded according to the Lens Opacities Classification System III (LOCS III). Oximetry data were compared with the grade of cataract formation within both groups. For statistical evaluation, anova-based linear mixed-effects models were calculated (spss® , pairwise comparisons: Bonferroni-corrected; p < 0.05).Cataract eyes showed significantly lower A-SO2 and A-V SO2 values (mean ± SD 92.52 ± 9.80% and 28.56 ± 9.80%), when compared to healthy controls (95.47 ± 4.48% and 34.8 ± 7.08%; p = 0.046 and p = 0.001). Within the cataract group, cortical opacities showed significant interactions with the A-SO2 , V-SO2 and the A-V SO2 parameters (p = 0.027; p = 0.002; and p = 0.026, respectively).RESULTSCataract eyes showed significantly lower A-SO2 and A-V SO2 values (mean ± SD 92.52 ± 9.80% and 28.56 ± 9.80%), when compared to healthy controls (95.47 ± 4.48% and 34.8 ± 7.08%; p = 0.046 and p = 0.001). Within the cataract group, cortical opacities showed significant interactions with the A-SO2 , V-SO2 and the A-V SO2 parameters (p = 0.027; p = 0.002; and p = 0.026, respectively).These data indicate that the cataract-induced light scatter influences optical retinal oxygen measurements. Cortical opacities showed the highest influence on RO measurement when compared to nuclear opacification, nuclear colour and posterior cataract formation.CONCLUSIONSThese data indicate that the cataract-induced light scatter influences optical retinal oxygen measurements. Cortical opacities showed the highest influence on RO measurement when compared to nuclear opacification, nuclear colour and posterior cataract formation.
Author	della Volpe Waizel, Maria Todorova, Margarita G. Türksever, Cengiz
Author_xml	– sequence: 1 givenname: Maria orcidid: 0000-0002-6588-4842 surname: della Volpe Waizel fullname: della Volpe Waizel, Maria organization: University of Basel – sequence: 2 givenname: Cengiz surname: Türksever fullname: Türksever, Cengiz organization: VISTA Klinik – sequence: 3 givenname: Margarita G. orcidid: 0000-0001-8326-1449 surname: Todorova fullname: Todorova, Margarita G. email: margarita.todorova@kssg.ch organization: Cantonal Hospital St. Gallen
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Copyright	2019 Acta Ophthalmologica Scandinavica Foundation. Published by John Wiley & Sons Ltd 2019 Acta Ophthalmologica Scandinavica Foundation. Published by John Wiley & Sons Ltd. Copyright © 2020 Acta Ophthalmologica Scandinavica Foundation
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Snippet	Background The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel... The aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel oximetry (RO) in... BackgroundThe aim of our study was to compare metabolic (oxygen saturation; %) and anatomical parameters (retinal vessel diameter; μm) of retinal vessel...
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SubjectTerms	Arterioles cataract Cataracts Cortex Eye Light scattering Oxygen Oxygen saturation Retina retinal vessel diameter retinal vessel oximetry Statistical analysis
Title	Influence of cataract light scatters on retinal vessel oxygen saturation
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