Protruded retinal layers within the optic nerve head neuroretinal rim

Lucas A. Torres; Jayme R. Vianna; Faisal Jarrar; Glen P. Sharpe; Makoto Araie; Joseph Caprioli; Shaban Demirel; Christopher A. Girkin; Masanori Hangai; Aiko Iwase; Jeffrey M. Liebmann; Christian Y. Mardin; Toru Nakazawa; Harry A. Quigley; Alexander F. Scheuerle; Kazuhisa Sugiyama; Hidenobu Tanihara; Goji Tomita; Yasuo Yanagi; Claude F. Burgoyne; Balwantray C. Chauhan

doi:10.1111/aos.13657

Protruded retinal layers within the optic nerve head neuroretinal rim

Lucas A. Torres, Jayme R. Vianna, Faisal Jarrar, Glen P. Sharpe, Makoto Araie, Joseph Caprioli, Shaban Demirel, Christopher A. Girkin, Masanori Hangai, Aiko Iwase, Jeffrey M. Liebmann, Christian Y. Mardin, Toru Nakazawa, Harry A. Quigley, Alexander F. Scheuerle, Kazuhisa Sugiyama, Hidenobu Tanihara, Goji Tomita, Yasuo Yanagi, Claude F. BurgoyneBalwantray C. Chauhan

Medicine

Résultat de recherche: Article › examen par les pairs

2 Citations (Scopus)

Résumé

Purpose: To determine the frequency with which retinal tissues other than the nerve fibre layer, hereafter referred to as protruded retinal layers (PRL), are a component of optical coherence tomography (OCT) neuroretinal rim measurements. Methods: Ninety healthy (30 White, Black and Japanese, respectively) subjects were included in the study. A radial scan pattern (24 B-scans centred on Bruch's membrane opening [BMO]) was used. For each of the 48 minimum rim width (MRW) measurement points, we determined whether PRL were present, absent or indeterminate. When present, the proportion of PRL within the MRW was quantified. Results: Protruded retinal layers were present in 503 (11.6%), absent in 3805 (88.1%) and indeterminate in 12 (0.3%) measurement points. Overall, 69 (76.6%) subjects had ≥1 points with PRL, with White subjects having the highest frequency and Japanese the lowest (29 [97%] and 18 [60%], respectively; p < 0.01). PRL were present in one-third of points in the temporal sector, but ≤5% in other sectors. When present, the median PRL thickness was 53.0 (interquartile range [IQR]: 33.0 to 78.5) μm, representing 20.6 (IQR: 13.0 to 28.5)% of MRW. Globally, the median PRL thickness comprised 1.3 (IQR: 0.2 to 3.5)% of the MRW; however, in the temporal sector, it exceeded 30% of MRW in some subjects. Conclusions: Protruded retinal layers are a component of MRW measurements in most normal subjects, occurring in almost 12% of all measurement points analysed. There were racial variations in the presence of PRL and a significantly higher frequency of PRL in the temporal sector.

Langue d'origine	English
Pages (de-à)	e493-e502
Journal	Acta Ophthalmologica
Volume	96
Numéro de publication	4
DOI	https://doi.org/10.1111/aos.13657
Statut de publication	Published - juin 2018

Note bibliographique

Funding Information:
Funding/Support: Dalhousie Medical Research Foundation, Halifax, NS, Canada (BCC), National Eye Institute, National Institutes of Health, Bethesda MD (grant no. EY021281, CFB), Center for Disease Control, Atlanta, GA (CAG), Heidelberg Engineering, Heidelberg, Germany (JC, SD, CAG, MH, AI, JML, CYM, TN, HAQ, AFS, KS, HT, GT, YY, CFB, BCC). Financial disclosures: Commercial Relationships: Heidelberg Engineering, MA, JC, SD, CAG, MH, AI, JML, CYM, TN, HAQ, AFS, KS, HT, GT, YY, CFB, BCC (F).

Publisher Copyright:
© 2018 Acta Ophthalmologica Scandinavica Foundation. Published by John Wiley & Sons Ltd

ASJC Scopus Subject Areas

Ophthalmology

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10.1111/aos.13657

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Torres, L. A., Vianna, J. R., Jarrar, F., Sharpe, G. P., Araie, M., Caprioli, J., Demirel, S., Girkin, C. A., Hangai, M., Iwase, A., Liebmann, J. M., Mardin, C. Y., Nakazawa, T., Quigley, H. A., Scheuerle, A. F., Sugiyama, K., Tanihara, H., Tomita, G., Yanagi, Y., ... Chauhan, B. C. (2018). Protruded retinal layers within the optic nerve head neuroretinal rim. Acta Ophthalmologica, 96(4), e493-e502. https://doi.org/10.1111/aos.13657

Torres, LA, Vianna, JR, Jarrar, F, Sharpe, GP, Araie, M, Caprioli, J, Demirel, S, Girkin, CA, Hangai, M, Iwase, A, Liebmann, JM, Mardin, CY, Nakazawa, T, Quigley, HA, Scheuerle, AF, Sugiyama, K, Tanihara, H, Tomita, G, Yanagi, Y, Burgoyne, CF & Chauhan, BC 2018, 'Protruded retinal layers within the optic nerve head neuroretinal rim', Acta Ophthalmologica, vol. 96, n° 4, pp. e493-e502. https://doi.org/10.1111/aos.13657

@article{0056c5ff01ec4d0da1358aa2c04f1616,

title = "Protruded retinal layers within the optic nerve head neuroretinal rim",

abstract = "Purpose: To determine the frequency with which retinal tissues other than the nerve fibre layer, hereafter referred to as protruded retinal layers (PRL), are a component of optical coherence tomography (OCT) neuroretinal rim measurements. Methods: Ninety healthy (30 White, Black and Japanese, respectively) subjects were included in the study. A radial scan pattern (24 B-scans centred on Bruch's membrane opening [BMO]) was used. For each of the 48 minimum rim width (MRW) measurement points, we determined whether PRL were present, absent or indeterminate. When present, the proportion of PRL within the MRW was quantified. Results: Protruded retinal layers were present in 503 (11.6%), absent in 3805 (88.1%) and indeterminate in 12 (0.3%) measurement points. Overall, 69 (76.6%) subjects had ≥1 points with PRL, with White subjects having the highest frequency and Japanese the lowest (29 [97%] and 18 [60%], respectively; p < 0.01). PRL were present in one-third of points in the temporal sector, but ≤5% in other sectors. When present, the median PRL thickness was 53.0 (interquartile range [IQR]: 33.0 to 78.5) μm, representing 20.6 (IQR: 13.0 to 28.5)% of MRW. Globally, the median PRL thickness comprised 1.3 (IQR: 0.2 to 3.5)% of the MRW; however, in the temporal sector, it exceeded 30% of MRW in some subjects. Conclusions: Protruded retinal layers are a component of MRW measurements in most normal subjects, occurring in almost 12% of all measurement points analysed. There were racial variations in the presence of PRL and a significantly higher frequency of PRL in the temporal sector.",

author = "Torres, {Lucas A.} and Vianna, {Jayme R.} and Faisal Jarrar and Sharpe, {Glen P.} and Makoto Araie and Joseph Caprioli and Shaban Demirel and Girkin, {Christopher A.} and Masanori Hangai and Aiko Iwase and Liebmann, {Jeffrey M.} and Mardin, {Christian Y.} and Toru Nakazawa and Quigley, {Harry A.} and Scheuerle, {Alexander F.} and Kazuhisa Sugiyama and Hidenobu Tanihara and Goji Tomita and Yasuo Yanagi and Burgoyne, {Claude F.} and Chauhan, {Balwantray C.}",

note = "Funding Information: Funding/Support: Dalhousie Medical Research Foundation, Halifax, NS, Canada (BCC), National Eye Institute, National Institutes of Health, Bethesda MD (grant no. EY021281, CFB), Center for Disease Control, Atlanta, GA (CAG), Heidelberg Engineering, Heidelberg, Germany (JC, SD, CAG, MH, AI, JML, CYM, TN, HAQ, AFS, KS, HT, GT, YY, CFB, BCC). Financial disclosures: Commercial Relationships: Heidelberg Engineering, MA, JC, SD, CAG, MH, AI, JML, CYM, TN, HAQ, AFS, KS, HT, GT, YY, CFB, BCC (F). Publisher Copyright: {\textcopyright} 2018 Acta Ophthalmologica Scandinavica Foundation. Published by John Wiley & Sons Ltd",

year = "2018",

month = jun,

doi = "10.1111/aos.13657",

language = "English",

volume = "96",

pages = "e493--e502",

journal = "Acta Ophthalmologica",

issn = "1755-375X",

publisher = "Wiley-Blackwell",

number = "4",

}

TY - JOUR

T1 - Protruded retinal layers within the optic nerve head neuroretinal rim

AU - Torres, Lucas A.

AU - Vianna, Jayme R.

AU - Jarrar, Faisal

AU - Sharpe, Glen P.

AU - Araie, Makoto

AU - Caprioli, Joseph

AU - Demirel, Shaban

AU - Girkin, Christopher A.

AU - Hangai, Masanori

AU - Iwase, Aiko

AU - Liebmann, Jeffrey M.

AU - Mardin, Christian Y.

AU - Nakazawa, Toru

AU - Quigley, Harry A.

AU - Scheuerle, Alexander F.

AU - Sugiyama, Kazuhisa

AU - Tanihara, Hidenobu

AU - Tomita, Goji

AU - Yanagi, Yasuo

AU - Burgoyne, Claude F.

AU - Chauhan, Balwantray C.

N1 - Funding Information: Funding/Support: Dalhousie Medical Research Foundation, Halifax, NS, Canada (BCC), National Eye Institute, National Institutes of Health, Bethesda MD (grant no. EY021281, CFB), Center for Disease Control, Atlanta, GA (CAG), Heidelberg Engineering, Heidelberg, Germany (JC, SD, CAG, MH, AI, JML, CYM, TN, HAQ, AFS, KS, HT, GT, YY, CFB, BCC). Financial disclosures: Commercial Relationships: Heidelberg Engineering, MA, JC, SD, CAG, MH, AI, JML, CYM, TN, HAQ, AFS, KS, HT, GT, YY, CFB, BCC (F). Publisher Copyright: © 2018 Acta Ophthalmologica Scandinavica Foundation. Published by John Wiley & Sons Ltd

PY - 2018/6

Y1 - 2018/6

N2 - Purpose: To determine the frequency with which retinal tissues other than the nerve fibre layer, hereafter referred to as protruded retinal layers (PRL), are a component of optical coherence tomography (OCT) neuroretinal rim measurements. Methods: Ninety healthy (30 White, Black and Japanese, respectively) subjects were included in the study. A radial scan pattern (24 B-scans centred on Bruch's membrane opening [BMO]) was used. For each of the 48 minimum rim width (MRW) measurement points, we determined whether PRL were present, absent or indeterminate. When present, the proportion of PRL within the MRW was quantified. Results: Protruded retinal layers were present in 503 (11.6%), absent in 3805 (88.1%) and indeterminate in 12 (0.3%) measurement points. Overall, 69 (76.6%) subjects had ≥1 points with PRL, with White subjects having the highest frequency and Japanese the lowest (29 [97%] and 18 [60%], respectively; p < 0.01). PRL were present in one-third of points in the temporal sector, but ≤5% in other sectors. When present, the median PRL thickness was 53.0 (interquartile range [IQR]: 33.0 to 78.5) μm, representing 20.6 (IQR: 13.0 to 28.5)% of MRW. Globally, the median PRL thickness comprised 1.3 (IQR: 0.2 to 3.5)% of the MRW; however, in the temporal sector, it exceeded 30% of MRW in some subjects. Conclusions: Protruded retinal layers are a component of MRW measurements in most normal subjects, occurring in almost 12% of all measurement points analysed. There were racial variations in the presence of PRL and a significantly higher frequency of PRL in the temporal sector.

AB - Purpose: To determine the frequency with which retinal tissues other than the nerve fibre layer, hereafter referred to as protruded retinal layers (PRL), are a component of optical coherence tomography (OCT) neuroretinal rim measurements. Methods: Ninety healthy (30 White, Black and Japanese, respectively) subjects were included in the study. A radial scan pattern (24 B-scans centred on Bruch's membrane opening [BMO]) was used. For each of the 48 minimum rim width (MRW) measurement points, we determined whether PRL were present, absent or indeterminate. When present, the proportion of PRL within the MRW was quantified. Results: Protruded retinal layers were present in 503 (11.6%), absent in 3805 (88.1%) and indeterminate in 12 (0.3%) measurement points. Overall, 69 (76.6%) subjects had ≥1 points with PRL, with White subjects having the highest frequency and Japanese the lowest (29 [97%] and 18 [60%], respectively; p < 0.01). PRL were present in one-third of points in the temporal sector, but ≤5% in other sectors. When present, the median PRL thickness was 53.0 (interquartile range [IQR]: 33.0 to 78.5) μm, representing 20.6 (IQR: 13.0 to 28.5)% of MRW. Globally, the median PRL thickness comprised 1.3 (IQR: 0.2 to 3.5)% of the MRW; however, in the temporal sector, it exceeded 30% of MRW in some subjects. Conclusions: Protruded retinal layers are a component of MRW measurements in most normal subjects, occurring in almost 12% of all measurement points analysed. There were racial variations in the presence of PRL and a significantly higher frequency of PRL in the temporal sector.

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JO - Acta Ophthalmologica

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Protruded retinal layers within the optic nerve head neuroretinal rim

Résumé

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ASJC Scopus Subject Areas

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