FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1972723605> ?p ?o ?g. }

• W1972723605 endingPage "855" @default.
• W1972723605 startingPage "848" @default.
• W1972723605 abstract "Objective To investigate the internal structures of trabeculectomy blebs using 3-dimensional cornea and anterior segment optical coherence tomography (3-D CAS OCT). Design Observational case series. Participants Thirty-eight filtering blebs in 31 patients who had undergone trabeculectomy examined retrospectively. Methods Intrableb structures were examined using 3-D CAS OCT. The blebs were classified clinically as successful (intraocular pressure [IOP] <18 mmHg without glaucoma medication) or failed. Main Outcome Measures Bleb structures were assessed in terms of the visibility of the drainage route, scleral flap, and microcysts. The length and height of the internal fluid-filled cavity, maximum and minimum bleb wall thickness, total bleb height, volumes of the internal fluid-filled cavity and hyporeflective area, and number of microcysts were analyzed. Results Intrableb drainage route, scleral flap, and microcysts were observed in 92.1%, 94.7%, and 86.8% eyes, respectively. The IOP showed a significant negative correlation with horizontal and vertical length of the fluid-filled cavity (Spearman correlation coefficient [rs] = –0.634; P<0.0001; and rs = –0.539; P = 0.0008, respectively), height of the fluid-filled cavity (rs = –0.334; P = 0.031), maximum bleb wall thickness (rs = –0.491; P = 0.0023), total bleb height (rs = –0.629; P<0.0001), volume of the internal fluid-filled cavity (rs = –0.480; P = 0.0029), volume of hyporeflective area (rs = –0.443; P = 0.0056), and number of microcysts (rs = –0.451; P = 0.0045). There were 26 successful (64.8%) and 12 failed (31.6%) blebs. Significant differences were observed between these groups in IOP (P<0.0001), horizontal and vertical length of the fluid-filled cavity (P<0.0001 and P = 0.0019, respectively), height of the fluid-filled cavity (P = 0.0046), maximum bleb wall thickness (P = 0.0029), total bleb height (P = 0.0003), volume of the internal fluid-filled cavity (P = 0.0006), volume of hyporeflective area (P = 0.0020), and number of microcysts (P = 0.0025). Conclusions The internal aqueous humor outflow channel and scleral flap could be visualized, and the 3-D volume of the intrableb cavity was calculated using 3-D CAS OCT. The successful blebs exhibited a large internal fluid-filled cavity, an extensive hyporeflective area, and thicker bleb walls with more microcysts. Financial Disclosure(s) The author(s) have no proprietary or commercial interest in any materials discussed in this article. To investigate the internal structures of trabeculectomy blebs using 3-dimensional cornea and anterior segment optical coherence tomography (3-D CAS OCT). Observational case series. Thirty-eight filtering blebs in 31 patients who had undergone trabeculectomy examined retrospectively. Intrableb structures were examined using 3-D CAS OCT. The blebs were classified clinically as successful (intraocular pressure [IOP] <18 mmHg without glaucoma medication) or failed. Bleb structures were assessed in terms of the visibility of the drainage route, scleral flap, and microcysts. The length and height of the internal fluid-filled cavity, maximum and minimum bleb wall thickness, total bleb height, volumes of the internal fluid-filled cavity and hyporeflective area, and number of microcysts were analyzed. Intrableb drainage route, scleral flap, and microcysts were observed in 92.1%, 94.7%, and 86.8% eyes, respectively. The IOP showed a significant negative correlation with horizontal and vertical length of the fluid-filled cavity (Spearman correlation coefficient [rs] = –0.634; P<0.0001; and rs = –0.539; P = 0.0008, respectively), height of the fluid-filled cavity (rs = –0.334; P = 0.031), maximum bleb wall thickness (rs = –0.491; P = 0.0023), total bleb height (rs = –0.629; P<0.0001), volume of the internal fluid-filled cavity (rs = –0.480; P = 0.0029), volume of hyporeflective area (rs = –0.443; P = 0.0056), and number of microcysts (rs = –0.451; P = 0.0045). There were 26 successful (64.8%) and 12 failed (31.6%) blebs. Significant differences were observed between these groups in IOP (P<0.0001), horizontal and vertical length of the fluid-filled cavity (P<0.0001 and P = 0.0019, respectively), height of the fluid-filled cavity (P = 0.0046), maximum bleb wall thickness (P = 0.0029), total bleb height (P = 0.0003), volume of the internal fluid-filled cavity (P = 0.0006), volume of hyporeflective area (P = 0.0020), and number of microcysts (P = 0.0025). The internal aqueous humor outflow channel and scleral flap could be visualized, and the 3-D volume of the intrableb cavity was calculated using 3-D CAS OCT. The successful blebs exhibited a large internal fluid-filled cavity, an extensive hyporeflective area, and thicker bleb walls with more microcysts." @default.
• W1972723605 created "2016-06-24" @default.
• W1972723605 creator A5021546883 @default.
• W1972723605 creator A5057122621 @default.
• W1972723605 creator A5070326203 @default.
• W1972723605 creator A5075007945 @default.
• W1972723605 date "2009-05-01" @default.
• W1972723605 modified "2023-10-02" @default.
• W1972723605 title "Evaluation of Trabeculectomy Blebs Using 3-Dimensional Cornea and Anterior Segment Optical Coherence Tomography" @default.
• W1972723605 cites W1964863796 @default.
• W1972723605 cites W1976490710 @default.
• W1972723605 cites W1977380281 @default.
• W1972723605 cites W1991905771 @default.
• W1972723605 cites W2006432488 @default.
• W1972723605 cites W2012214769 @default.
• W1972723605 cites W2018888236 @default.
• W1972723605 cites W2021956041 @default.
• W1972723605 cites W2041492173 @default.
• W1972723605 cites W2047894181 @default.
• W1972723605 cites W2051562006 @default.
• W1972723605 cites W2062714345 @default.
• W1972723605 cites W2067236079 @default.
• W1972723605 cites W2069249829 @default.
• W1972723605 cites W2080188713 @default.
• W1972723605 cites W2083749846 @default.
• W1972723605 cites W2122864218 @default.
• W1972723605 cites W2125245889 @default.
• W1972723605 cites W2154106788 @default.
• W1972723605 cites W2157606761 @default.
• W1972723605 cites W2168404688 @default.
• W1972723605 doi "https://doi.org/10.1016/j.ophtha.2008.11.019" @default.
• W1972723605 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19268366" @default.
• W1972723605 hasPublicationYear "2009" @default.
• W1972723605 type Work @default.
• W1972723605 sameAs 1972723605 @default.
• W1972723605 citedByCount "90" @default.
• W1972723605 countsByYear W19727236052012 @default.
• W1972723605 countsByYear W19727236052013 @default.
• W1972723605 countsByYear W19727236052014 @default.
• W1972723605 countsByYear W19727236052015 @default.
• W1972723605 countsByYear W19727236052016 @default.
• W1972723605 countsByYear W19727236052017 @default.
• W1972723605 countsByYear W19727236052018 @default.
• W1972723605 countsByYear W19727236052019 @default.
• W1972723605 countsByYear W19727236052020 @default.
• W1972723605 countsByYear W19727236052021 @default.
• W1972723605 countsByYear W19727236052022 @default.
• W1972723605 countsByYear W19727236052023 @default.
• W1972723605 crossrefType "journal-article" @default.
• W1972723605 hasAuthorship W1972723605A5021546883 @default.
• W1972723605 hasAuthorship W1972723605A5057122621 @default.
• W1972723605 hasAuthorship W1972723605A5070326203 @default.
• W1972723605 hasAuthorship W1972723605A5075007945 @default.
• W1972723605 hasConcept C118487528 @default.
• W1972723605 hasConcept C2776228307 @default.
• W1972723605 hasConcept C2776882836 @default.
• W1972723605 hasConcept C2777824320 @default.
• W1972723605 hasConcept C2778113962 @default.
• W1972723605 hasConcept C2778527774 @default.
• W1972723605 hasConcept C2778818243 @default.
• W1972723605 hasConcept C2781092963 @default.
• W1972723605 hasConcept C71924100 @default.
• W1972723605 hasConceptScore W1972723605C118487528 @default.
• W1972723605 hasConceptScore W1972723605C2776228307 @default.
• W1972723605 hasConceptScore W1972723605C2776882836 @default.
• W1972723605 hasConceptScore W1972723605C2777824320 @default.
• W1972723605 hasConceptScore W1972723605C2778113962 @default.
• W1972723605 hasConceptScore W1972723605C2778527774 @default.
• W1972723605 hasConceptScore W1972723605C2778818243 @default.
• W1972723605 hasConceptScore W1972723605C2781092963 @default.
• W1972723605 hasConceptScore W1972723605C71924100 @default.
• W1972723605 hasIssue "5" @default.
• W1972723605 hasLocation W19727236051 @default.
• W1972723605 hasLocation W19727236052 @default.
• W1972723605 hasOpenAccess W1972723605 @default.
• W1972723605 hasPrimaryLocation W19727236051 @default.
• W1972723605 hasRelatedWork W129686204 @default.
• W1972723605 hasRelatedWork W1997772271 @default.
• W1972723605 hasRelatedWork W2031732907 @default.
• W1972723605 hasRelatedWork W2068363936 @default.
• W1972723605 hasRelatedWork W2347370477 @default.
• W1972723605 hasRelatedWork W2557989221 @default.
• W1972723605 hasRelatedWork W2911674918 @default.
• W1972723605 hasRelatedWork W3158889453 @default.
• W1972723605 hasRelatedWork W4200314767 @default.
• W1972723605 hasRelatedWork W4213294755 @default.
• W1972723605 hasVolume "116" @default.
• W1972723605 isParatext "false" @default.
• W1972723605 isRetracted "false" @default.
• W1972723605 magId "1972723605" @default.
• W1972723605 workType "article" @default.