SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2890768280> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W2890768280 endingPage "120" @default.
W2890768280 startingPage "112" @default.
W2890768280 abstract "Purpose To study the glistening formation in various hydrophobic-acrylic intraocular lens (IOL) models, and to evaluate the effect of glistenings on light scattering in these IOLs. Design Laboratory investigation. Methods The susceptibility of the hydrophobic-acrylic material to develop glistenings was evaluated in 6 IOL models. Accelerated lens aging was induced by immersing the IOLs in a solution at 45 C for 24 hours and cooled to 37 C for 2.5 hours. Light microscopy and image acquisition were performed. Glistening statistics—that is, microvacuoles' (MV) number and size—were derived from image analysis. Light scattering was measured using a clinical device featuring an adaptation for in vitro IOL assessment. Results The number of glistenings differed among the studied IOLs and ranged from 0 to 3532 MV/mm2. In 1 model, glistenings were found only at the periphery, with diffuse light scattering observed centrally despite the absence of microvacuoles. The mean size of glistenings ranged from 5.2 to 10.2 μm. The mean straylight parameter of the IOLs increased from 0.6 to 5.0 deg2/sr after accelerated aging. Straylight elevation demonstrated a proportional relationship with the glistening number. Conclusions We showed that hydrophobic-acrylic lenses differ in their resistance to glistenings, as one group proved to be glistening-free, but the other models revealed varying grades of glistenings. Moreover, we demonstrated that the presence of glistenings results in increased straylight, and that straylight proportionally depends on the glistenings number irrespective of the IOL model. However, more research is needed to confirm that the relationship we found holds for all hydrophobic-acrylic IOLs. To study the glistening formation in various hydrophobic-acrylic intraocular lens (IOL) models, and to evaluate the effect of glistenings on light scattering in these IOLs. Laboratory investigation. The susceptibility of the hydrophobic-acrylic material to develop glistenings was evaluated in 6 IOL models. Accelerated lens aging was induced by immersing the IOLs in a solution at 45 C for 24 hours and cooled to 37 C for 2.5 hours. Light microscopy and image acquisition were performed. Glistening statistics—that is, microvacuoles' (MV) number and size—were derived from image analysis. Light scattering was measured using a clinical device featuring an adaptation for in vitro IOL assessment. The number of glistenings differed among the studied IOLs and ranged from 0 to 3532 MV/mm2. In 1 model, glistenings were found only at the periphery, with diffuse light scattering observed centrally despite the absence of microvacuoles. The mean size of glistenings ranged from 5.2 to 10.2 μm. The mean straylight parameter of the IOLs increased from 0.6 to 5.0 deg2/sr after accelerated aging. Straylight elevation demonstrated a proportional relationship with the glistening number. We showed that hydrophobic-acrylic lenses differ in their resistance to glistenings, as one group proved to be glistening-free, but the other models revealed varying grades of glistenings. Moreover, we demonstrated that the presence of glistenings results in increased straylight, and that straylight proportionally depends on the glistenings number irrespective of the IOL model. However, more research is needed to confirm that the relationship we found holds for all hydrophobic-acrylic IOLs." @default.
W2890768280 created "2018-09-27" @default.
W2890768280 creator A5015179472 @default.
W2890768280 creator A5020915834 @default.
W2890768280 creator A5023227589 @default.
W2890768280 creator A5038756249 @default.
W2890768280 creator A5052477544 @default.
W2890768280 creator A5058642781 @default.
W2890768280 creator A5059605413 @default.
W2890768280 creator A5090366762 @default.
W2890768280 date "2018-12-01" @default.
W2890768280 modified "2023-10-06" @default.
W2890768280 title "Glistening Formation and Light Scattering in Six Hydrophobic-Acrylic Intraocular Lenses" @default.
W2890768280 cites W1962372448 @default.
W2890768280 cites W1998493277 @default.
W2890768280 cites W2000694209 @default.
W2890768280 cites W2005283999 @default.
W2890768280 cites W2018364462 @default.
W2890768280 cites W2018857130 @default.
W2890768280 cites W2023933977 @default.
W2890768280 cites W2027960546 @default.
W2890768280 cites W2039078418 @default.
W2890768280 cites W2039705894 @default.
W2890768280 cites W2045276693 @default.
W2890768280 cites W2047664562 @default.
W2890768280 cites W2047844667 @default.
W2890768280 cites W2048363262 @default.
W2890768280 cites W2053598028 @default.
W2890768280 cites W2055084303 @default.
W2890768280 cites W2070794503 @default.
W2890768280 cites W2075166439 @default.
W2890768280 cites W2081697775 @default.
W2890768280 cites W2085114494 @default.
W2890768280 cites W2102025519 @default.
W2890768280 cites W2115666518 @default.
W2890768280 cites W2117385189 @default.
W2890768280 cites W2119806554 @default.
W2890768280 cites W2124731570 @default.
W2890768280 cites W2130745211 @default.
W2890768280 cites W2131638059 @default.
W2890768280 cites W2139719694 @default.
W2890768280 cites W2148070213 @default.
W2890768280 cites W2149570320 @default.
W2890768280 cites W2159692692 @default.
W2890768280 cites W2160254527 @default.
W2890768280 cites W2167837996 @default.
W2890768280 cites W2236679067 @default.
W2890768280 cites W2292193735 @default.
W2890768280 cites W2298845395 @default.
W2890768280 cites W2475076751 @default.
W2890768280 cites W2532944213 @default.
W2890768280 cites W2596118400 @default.
W2890768280 cites W2601889585 @default.
W2890768280 cites W2761731935 @default.
W2890768280 cites W2777175023 @default.
W2890768280 doi "https://doi.org/10.1016/j.ajo.2018.08.032" @default.
W2890768280 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30189220" @default.
W2890768280 hasPublicationYear "2018" @default.
W2890768280 type Work @default.
W2890768280 sameAs 2890768280 @default.
W2890768280 citedByCount "47" @default.
W2890768280 countsByYear W28907682802019 @default.
W2890768280 countsByYear W28907682802020 @default.
W2890768280 countsByYear W28907682802021 @default.
W2890768280 countsByYear W28907682802022 @default.
W2890768280 countsByYear W28907682802023 @default.
W2890768280 crossrefType "journal-article" @default.
W2890768280 hasAuthorship W2890768280A5015179472 @default.
W2890768280 hasAuthorship W2890768280A5020915834 @default.
W2890768280 hasAuthorship W2890768280A5023227589 @default.
W2890768280 hasAuthorship W2890768280A5038756249 @default.
W2890768280 hasAuthorship W2890768280A5052477544 @default.
W2890768280 hasAuthorship W2890768280A5058642781 @default.
W2890768280 hasAuthorship W2890768280A5059605413 @default.
W2890768280 hasAuthorship W2890768280A5090366762 @default.
W2890768280 hasBestOaLocation W28907682802 @default.
W2890768280 hasConcept C118487528 @default.
W2890768280 hasConcept C120456961 @default.
W2890768280 hasConcept C120665830 @default.
W2890768280 hasConcept C121332964 @default.
W2890768280 hasConcept C136229726 @default.
W2890768280 hasConcept C15336307 @default.
W2890768280 hasConcept C191486275 @default.
W2890768280 hasConcept C192562407 @default.
W2890768280 hasConcept C2778257484 @default.
W2890768280 hasConcept C2779567214 @default.
W2890768280 hasConcept C2781104129 @default.
W2890768280 hasConcept C3017621354 @default.
W2890768280 hasConcept C71924100 @default.
W2890768280 hasConceptScore W2890768280C118487528 @default.
W2890768280 hasConceptScore W2890768280C120456961 @default.
W2890768280 hasConceptScore W2890768280C120665830 @default.
W2890768280 hasConceptScore W2890768280C121332964 @default.
W2890768280 hasConceptScore W2890768280C136229726 @default.
W2890768280 hasConceptScore W2890768280C15336307 @default.
W2890768280 hasConceptScore W2890768280C191486275 @default.
W2890768280 hasConceptScore W2890768280C192562407 @default.
W2890768280 hasConceptScore W2890768280C2778257484 @default.