Tear Meniscus Dimensions in Tear Dysfunction and Their Correlation With Clinical Parameters

To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Single-institution prospective observational study. This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower...

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Bibliographic Details
Published inAmerican journal of ophthalmology Vol. 157; no. 2; pp. 301 - 310.e1
Main Authors Tung, Cynthia I., Perin, Andrew F., Gumus, Koray, Pflugfelder, Stephen C.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.02.2014
Elsevier Limited
Subjects
Adult
Aged
Aged, 80 and over
Confidence intervals
Conjunctiva - metabolism
Conjunctiva - pathology
Cornea - metabolism
Cornea - pathology
Dry Eye Syndromes - diagnosis
Dry Eye Syndromes - physiopathology
Eyelid Diseases - diagnosis
Eyelid Diseases - physiopathology
Female
Health Insurance Portability & Accountability Act 1996-US
Humans
Lacrimal Apparatus Diseases - diagnosis
Lacrimal Apparatus Diseases - physiopathology
Lipids
Male
Medical imaging
Medical treatment
Meibomian Glands - physiopathology
Middle Aged
Ophthalmology
Prospective Studies
Questionnaires
Sickness Impact Profile
Staining and Labeling - methods
Statistical analysis
Surveys and Questionnaires
Tears - chemistry
Tomography
Tomography, Optical Coherence
Young Adult
California
Online AccessGet full text

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Abstract To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Single-institution prospective observational study. This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non–Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student's t test. When compared with mean tear meniscus height in controls (345 μm), mean tear meniscus height was lower in all tear dysfunction (234 μm; P = .0057), ATD (210 μm; P = .0016), and Sjögren syndrome groups (171 μm; P = .0054). For tear meniscus height ≤210 μm, relative risk ratio for developing corneal staining ≥10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects (R = −0.32; P = .0008), MGD (R = +0.40; P = .059), and ATD (R = −0.36; P = .04). Tear meniscus area showed similar trends in MGD (R = +0.55; P = .006) and ATD (R = −0.40; P = .018). Tear meniscus height correlated with TBUT for all subjects (R = +0.39; P < .0001) and ATD (R = +0.37; P = .018). In tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.
AbstractList Purpose To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Design Single-institution prospective observational study. Methods This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non-Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student'sttest. Results When compared with mean tear meniscus height in controls (345 ?m), mean tear meniscus height was lower in all tear dysfunction (234 ?m;P= .0057), ATD (210 ?m;P= .0016), and Sjögren syndrome groups (171 ?m;P= .0054). For tear meniscus height ?210 ?m, relative risk ratio for developing corneal staining ?10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects (R= ?0.32;P= .0008), MGD (R= +0.40;P= .059), and ATD (R= ?0.36;P= .04). Tear meniscus area showed similar trends in MGD (R= +0.55;P= .006) and ATD (R= ?0.40;P= .018). Tear meniscus height correlated with TBUT for all subjects (R= +0.39;P< .0001) and ATD (R= +0.37;P= .018). Conclusions In tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.
Purpose To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Design Single-institution prospective observational study. Methods This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non–Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student's t test. Results When compared with mean tear meniscus height in controls (345 μm), mean tear meniscus height was lower in all tear dysfunction (234 μm; P  = .0057), ATD (210 μm; P  = .0016), and Sjögren syndrome groups (171 μm; P  = .0054). For tear meniscus height ≤210 μm, relative risk ratio for developing corneal staining ≥10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects ( R  = −0.32; P  = .0008), MGD ( R  = +0.40; P  = .059), and ATD ( R  = −0.36; P  = .04). Tear meniscus area showed similar trends in MGD ( R  = +0.55; P  = .006) and ATD ( R  = −0.40; P  = .018). Tear meniscus height correlated with TBUT for all subjects ( R  = +0.39; P  < .0001) and ATD ( R  = +0.37; P  = .018). Conclusions In tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.
To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Single-institution prospective observational study. This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non–Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student's t test. When compared with mean tear meniscus height in controls (345 μm), mean tear meniscus height was lower in all tear dysfunction (234 μm; P = .0057), ATD (210 μm; P = .0016), and Sjögren syndrome groups (171 μm; P = .0054). For tear meniscus height ≤210 μm, relative risk ratio for developing corneal staining ≥10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects (R = −0.32; P = .0008), MGD (R = +0.40; P = .059), and ATD (R = −0.36; P = .04). Tear meniscus area showed similar trends in MGD (R = +0.55; P = .006) and ATD (R = −0.40; P = .018). Tear meniscus height correlated with TBUT for all subjects (R = +0.39; P < .0001) and ATD (R = +0.37; P = .018). In tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.
To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Single-institution prospective observational study. This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non-Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student's t test. When compared with mean tear meniscus height in controls (345 μm), mean tear meniscus height was lower in all tear dysfunction (234 μm; P = .0057), ATD (210 μm; P = .0016), and Sjögren syndrome groups (171 μm; P = .0054). For tear meniscus height ≤210 μm, relative risk ratio for developing corneal staining ≥10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects (R = -0.32; P = .0008), MGD (R = +0.40; P = .059), and ATD (R = -0.36; P = .04). Tear meniscus area showed similar trends in MGD (R = +0.55; P = .006) and ATD (R = -0.40; P = .018). Tear meniscus height correlated with TBUT for all subjects (R = +0.39; P < .0001) and ATD (R = +0.37; P = .018). In tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.
To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions.PURPOSETo evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions.Single-institution prospective observational study.DESIGNSingle-institution prospective observational study.This study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non-Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student's t test.METHODSThis study from the Baylor College of Medicine included 128 eyes of 64 subjects. Cross-sectional lower tear meniscus height and tear meniscus area were measured using optical coherence tomography and were compared with tear break-up time (TBUT), corneal staining, conjunctival staining, and an irritation symptom questionnaire (Ocular Surface Disease Index). Study groups included meibomian gland disease (MGD), aqueous tear deficiency (ATD), Sjögren syndrome, non-Sjögren syndrome ATD, and control subjects. Statistical analyses were performed using the Pearson correlation and Student's t test.When compared with mean tear meniscus height in controls (345 μm), mean tear meniscus height was lower in all tear dysfunction (234 μm; P = .0057), ATD (210 μm; P = .0016), and Sjögren syndrome groups (171 μm; P = .0054). For tear meniscus height ≤210 μm, relative risk ratio for developing corneal staining ≥10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects (R = -0.32; P = .0008), MGD (R = +0.40; P = .059), and ATD (R = -0.36; P = .04). Tear meniscus area showed similar trends in MGD (R = +0.55; P = .006) and ATD (R = -0.40; P = .018). Tear meniscus height correlated with TBUT for all subjects (R = +0.39; P < .0001) and ATD (R = +0.37; P = .018).RESULTSWhen compared with mean tear meniscus height in controls (345 μm), mean tear meniscus height was lower in all tear dysfunction (234 μm; P = .0057), ATD (210 μm; P = .0016), and Sjögren syndrome groups (171 μm; P = .0054). For tear meniscus height ≤210 μm, relative risk ratio for developing corneal staining ≥10 was 4.65. Tear meniscus height correlated with corneal staining for all subjects (R = -0.32; P = .0008), MGD (R = +0.40; P = .059), and ATD (R = -0.36; P = .04). Tear meniscus area showed similar trends in MGD (R = +0.55; P = .006) and ATD (R = -0.40; P = .018). Tear meniscus height correlated with TBUT for all subjects (R = +0.39; P < .0001) and ATD (R = +0.37; P = .018).In tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.CONCLUSIONSIn tear dysfunction conditions, lower tear volume correlates with worse corneal epithelial disease in ATD and Sjögren syndrome, conditions with lacrimal gland dysfunction. In contrast, higher tear volume is associated with corneal epithelial disease in MGD. These findings may improve the ability to identify patients at risk for corneal epithelial disease.
Author Gumus, Koray
Pflugfelder, Stephen C.
Perin, Andrew F.
Tung, Cynthia I.
AuthorAffiliation 1 Department of Ophthalmology Cullen Eye Institute Baylor College of Medicine 6565 Fannin St. NC505 Houston, Texas 77030
AuthorAffiliation_xml – name: 1 Department of Ophthalmology Cullen Eye Institute Baylor College of Medicine 6565 Fannin St. NC505 Houston, Texas 77030
Author_xml – sequence: 1
  givenname: Cynthia I.
  surname: Tung
  fullname: Tung, Cynthia I.
– sequence: 2
  givenname: Andrew F.
  surname: Perin
  fullname: Perin, Andrew F.
– sequence: 3
  givenname: Koray
  surname: Gumus
  fullname: Gumus, Koray
– sequence: 4
  givenname: Stephen C.
  surname: Pflugfelder
  fullname: Pflugfelder, Stephen C.
  email: stevenp@bcm.edu
BackLink https://www.ncbi.nlm.nih.gov/pubmed/24315297$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
Copyright 2014 Elsevier Inc.
Elsevier Inc.
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Copyright Elsevier Limited Feb 2014
2013 Elsevier Inc. All rights reserved. 2013
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Koray Gumus is currently at the Erciyes University School of Medicine Department of Ophthalmology Kayseri, Turkey, 38039
Cynthia I. Tung is currently at the University of Texas Medical Branch Department of Ophthalmology 700 University Blvd Galveston, TX 77550
Andrew F. Perin is currently at the Harvey & Bernice Jones Eye Institute University of Arkansas for Medical Sciences 4105 Outpatient Circle Little Rock, AR 72205
OpenAccessLink https://www.ncbi.nlm.nih.gov/pmc/articles/3946984
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SSID ssj0006747
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Snippet To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions....
Purpose To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions. Design...
To evaluate relationships between tear meniscus dimensions and parameters of ocular surface disease in a variety of tear dysfunction conditions.PURPOSETo...
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proquest
pubmed
crossref
elsevier
SourceType Open Access Repository
Aggregation Database
Index Database
Enrichment Source
Publisher
StartPage 301
SubjectTerms Adult
Aged
Aged, 80 and over
Confidence intervals
Conjunctiva - metabolism
Conjunctiva - pathology
Cornea - metabolism
Cornea - pathology
Dry Eye Syndromes - diagnosis
Dry Eye Syndromes - physiopathology
Eyelid Diseases - diagnosis
Eyelid Diseases - physiopathology
Female
Health Insurance Portability & Accountability Act 1996-US
Humans
Lacrimal Apparatus Diseases - diagnosis
Lacrimal Apparatus Diseases - physiopathology
Lipids
Male
Medical imaging
Medical treatment
Meibomian Glands - physiopathology
Middle Aged
Ophthalmology
Prospective Studies
Questionnaires
Sickness Impact Profile
Staining and Labeling - methods
Statistical analysis
Surveys and Questionnaires
Tears - chemistry
Tomography
Tomography, Optical Coherence
Young Adult
Title Tear Meniscus Dimensions in Tear Dysfunction and Their Correlation With Clinical Parameters
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0002939413006466
https://www.clinicalkey.es/playcontent/1-s2.0-S0002939413006466
https://dx.doi.org/10.1016/j.ajo.2013.09.024
https://www.ncbi.nlm.nih.gov/pubmed/24315297
https://www.proquest.com/docview/1477232224
https://www.proquest.com/docview/1490899963
https://pubmed.ncbi.nlm.nih.gov/PMC3946984
Volume 157
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