FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2112860240> ?p ?o ?g. }

• W2112860240 endingPage "791.e1" @default.
• W2112860240 startingPage "782" @default.
• W2112860240 abstract "Purpose To evaluate the newly developed Ocular Surface Thermographer (TOMEY Corporation) for dry eye screening. Design Prospective, controlled study. Methods We studied 30 eyes of 30 patients diagnosed with dry eye (mean age ± standard deviation, 52.9 ± 17.1 years) and 30 eyes of 30 normal subjects (42.7 ± 17.0 years). The ocular surface temperature was measured immediately after eye opening and every second during 10 seconds of eye opening. The reliability of the measurements was determined by calculating intraclass correlation coefficients. Then, the correlations between the change in the ocular surface temperature and tear film break-up time, Schirmer I test values, and fluorescein staining scores were determined. Results The measurements of the ocular surface temperature had a high degree of reliability. Immediately after eye opening, the temperature in the dry eye did not differ significantly from that in normal eyes in any of the 3 regions tested. The decrease in the ocular surface temperature in dry eyes was significantly greater than that in normal eyes (P < .001) at 10 seconds after eye opening. The decrease in the temperature of the cornea was correlated significantly with the tear film break-up time (r = −0.572; P < .001). When the changes in ocular surface temperature of the cornea were used as an index for dry eye, the sensitivity was 0.83 and the specificity was 0.80 after 10 seconds. Conclusions Measurements of the ocular surface temperature obtained with our newly developed Ocular Surface Thermographer after 10 seconds of eye opening may provide a simple, noninvasive screening test for dry eyes. To evaluate the newly developed Ocular Surface Thermographer (TOMEY Corporation) for dry eye screening. Prospective, controlled study. We studied 30 eyes of 30 patients diagnosed with dry eye (mean age ± standard deviation, 52.9 ± 17.1 years) and 30 eyes of 30 normal subjects (42.7 ± 17.0 years). The ocular surface temperature was measured immediately after eye opening and every second during 10 seconds of eye opening. The reliability of the measurements was determined by calculating intraclass correlation coefficients. Then, the correlations between the change in the ocular surface temperature and tear film break-up time, Schirmer I test values, and fluorescein staining scores were determined. The measurements of the ocular surface temperature had a high degree of reliability. Immediately after eye opening, the temperature in the dry eye did not differ significantly from that in normal eyes in any of the 3 regions tested. The decrease in the ocular surface temperature in dry eyes was significantly greater than that in normal eyes (P < .001) at 10 seconds after eye opening. The decrease in the temperature of the cornea was correlated significantly with the tear film break-up time (r = −0.572; P < .001). When the changes in ocular surface temperature of the cornea were used as an index for dry eye, the sensitivity was 0.83 and the specificity was 0.80 after 10 seconds. Measurements of the ocular surface temperature obtained with our newly developed Ocular Surface Thermographer after 10 seconds of eye opening may provide a simple, noninvasive screening test for dry eyes." @default.
• W2112860240 created "2016-06-24" @default.
• W2112860240 creator A5002108814 @default.
• W2112860240 creator A5015432576 @default.
• W2112860240 creator A5031684966 @default.
• W2112860240 creator A5049180616 @default.
• W2112860240 creator A5073700114 @default.
• W2112860240 creator A5076411390 @default.
• W2112860240 date "2011-05-01" @default.
• W2112860240 modified "2023-09-27" @default.
• W2112860240 title "Screening for Dry Eye With Newly Developed Ocular Surface Thermographer" @default.
• W2112860240 cites W1556564593 @default.
• W2112860240 cites W1990693236 @default.
• W2112860240 cites W1992591938 @default.
• W2112860240 cites W1996692798 @default.
• W2112860240 cites W2040998583 @default.
• W2112860240 cites W2060861103 @default.
• W2112860240 cites W2063819509 @default.
• W2112860240 cites W2094564880 @default.
• W2112860240 cites W2125147181 @default.
• W2112860240 doi "https://doi.org/10.1016/j.ajo.2010.10.033" @default.
• W2112860240 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21333265" @default.
• W2112860240 hasPublicationYear "2011" @default.
• W2112860240 type Work @default.
• W2112860240 sameAs 2112860240 @default.
• W2112860240 citedByCount "90" @default.
• W2112860240 countsByYear W21128602402012 @default.
• W2112860240 countsByYear W21128602402013 @default.
• W2112860240 countsByYear W21128602402014 @default.
• W2112860240 countsByYear W21128602402015 @default.
• W2112860240 countsByYear W21128602402016 @default.
• W2112860240 countsByYear W21128602402017 @default.
• W2112860240 countsByYear W21128602402018 @default.
• W2112860240 countsByYear W21128602402019 @default.
• W2112860240 countsByYear W21128602402020 @default.
• W2112860240 countsByYear W21128602402021 @default.
• W2112860240 countsByYear W21128602402022 @default.
• W2112860240 countsByYear W21128602402023 @default.
• W2112860240 crossrefType "journal-article" @default.
• W2112860240 hasAuthorship W2112860240A5002108814 @default.
• W2112860240 hasAuthorship W2112860240A5015432576 @default.
• W2112860240 hasAuthorship W2112860240A5031684966 @default.
• W2112860240 hasAuthorship W2112860240A5049180616 @default.
• W2112860240 hasAuthorship W2112860240A5073700114 @default.
• W2112860240 hasAuthorship W2112860240A5076411390 @default.
• W2112860240 hasConcept C104709138 @default.
• W2112860240 hasConcept C118487528 @default.
• W2112860240 hasConcept C171606756 @default.
• W2112860240 hasConcept C2776882836 @default.
• W2112860240 hasConcept C2776883082 @default.
• W2112860240 hasConcept C70410870 @default.
• W2112860240 hasConcept C71924100 @default.
• W2112860240 hasConceptScore W2112860240C104709138 @default.
• W2112860240 hasConceptScore W2112860240C118487528 @default.
• W2112860240 hasConceptScore W2112860240C171606756 @default.
• W2112860240 hasConceptScore W2112860240C2776882836 @default.
• W2112860240 hasConceptScore W2112860240C2776883082 @default.
• W2112860240 hasConceptScore W2112860240C70410870 @default.
• W2112860240 hasConceptScore W2112860240C71924100 @default.
• W2112860240 hasIssue "5" @default.
• W2112860240 hasLocation W21128602401 @default.
• W2112860240 hasLocation W21128602402 @default.
• W2112860240 hasOpenAccess W2112860240 @default.
• W2112860240 hasPrimaryLocation W21128602401 @default.
• W2112860240 hasRelatedWork W1500014813 @default.
• W2112860240 hasRelatedWork W2005917885 @default.
• W2112860240 hasRelatedWork W2023874515 @default.
• W2112860240 hasRelatedWork W2093545788 @default.
• W2112860240 hasRelatedWork W2178358390 @default.
• W2112860240 hasRelatedWork W2362959154 @default.
• W2112860240 hasRelatedWork W2375014553 @default.
• W2112860240 hasRelatedWork W2380265754 @default.
• W2112860240 hasRelatedWork W2523115738 @default.
• W2112860240 hasRelatedWork W3144440816 @default.
• W2112860240 hasVolume "151" @default.
• W2112860240 isParatext "false" @default.
• W2112860240 isRetracted "false" @default.
• W2112860240 magId "2112860240" @default.
• W2112860240 workType "article" @default.