Accurate determination of effective lens position and lens-capsule distance with 4 intraocular lenses
Identifieur interne : 001584 ( PascalFrancis/Corpus ); précédent : 001583; suivant : 001585Accurate determination of effective lens position and lens-capsule distance with 4 intraocular lenses
Auteurs : O. Findl ; W. Drexler ; R. Menapace ; B. Bobr ; S. Bittermann ; C. Vass ; G. Rainer ; C. K. Hitzenberger ; A. F. FercherSource :
- Journal of cataract and refractive surgery [ 0886-3350 ] ; 1998.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
Purpose: To measure effective lens position (ELP) of 4 intraocular lenses (lOLs) using high precision and high resolution dual-beam partial coherence interferometry (PCI) and to assess the tendency of these lOLs to produce a lens-capsule distance (LCD), a possible risk factor for posterior capsule opacification. Setting: Department of Ophthalmology, Vienna General Hospital; Institute of Medical Physics, University of Vienna, Austria Methods: In a retrospective study, PCI was used to measure ELP and LCD in 139 pseudophakic eyes of 110 patients with 4 lOLs: acrylic 3-piece IOL (AcrySof MA60BM) ; silicone 3-piece IOL without a capsular tension ring (PhacoFlex S130) and with a capsular tension ring (PhacoFlex S130 and Morcher Type 14); silicone plate-haptic IOL (Staar AA4203VF); and a hydrogel plate-haptic IOL (logel 1103). Results: The ELP and LCD were determined with a precision of approximately 3 to 4 μm. An LCD was detected in 21% eyes with the AcrySof, 20% of eyes with the S130 without a capsular tension ring, 10% of eyes with a capsular tension ring, 21% of eyes with the Staar, and 17% of eyes with the logel. The LCDs detected by PCI, but not by slitlamp examination, were significantly smaller than those detected by both. Conclusion: The amount of LCD detected by PCI was approximately the same with all IOL types (∼20%) except the PhacoFlex S130 with a capsular tension ring (10%).
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Format Inist (serveur)
NO : | PASCAL 98-0419931 INIST |
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ET : | Accurate determination of effective lens position and lens-capsule distance with 4 intraocular lenses |
AU : | FINDL (O.); DREXLER (W.); MENAPACE (R.); BOBR (B.); BITTERMANN (S.); VASS (C.); RAINER (G.); HITZENBERGER (C. K.); FERCHER (A. F.) |
AF : | Universitätsklinik für Augenheilkunde, Allgemeines Krankenhaus Wien, Währinger Gürtel 18-20/1090 Wien/Autriche (1 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Journal of cataract and refractive surgery; ISSN 0886-3350; Coden JCSUEV; Etats-Unis; Da. 1998; Vol. 24; No. 8; Pp. 1094-1098; Bibl. 18 ref. |
LA : | Anglais |
EA : | Purpose: To measure effective lens position (ELP) of 4 intraocular lenses (lOLs) using high precision and high resolution dual-beam partial coherence interferometry (PCI) and to assess the tendency of these lOLs to produce a lens-capsule distance (LCD), a possible risk factor for posterior capsule opacification. Setting: Department of Ophthalmology, Vienna General Hospital; Institute of Medical Physics, University of Vienna, Austria Methods: In a retrospective study, PCI was used to measure ELP and LCD in 139 pseudophakic eyes of 110 patients with 4 lOLs: acrylic 3-piece IOL (AcrySof MA60BM) ; silicone 3-piece IOL without a capsular tension ring (PhacoFlex S130) and with a capsular tension ring (PhacoFlex S130 and Morcher Type 14); silicone plate-haptic IOL (Staar AA4203VF); and a hydrogel plate-haptic IOL (logel 1103). Results: The ELP and LCD were determined with a precision of approximately 3 to 4 μm. An LCD was detected in 21% eyes with the AcrySof, 20% of eyes with the S130 without a capsular tension ring, 10% of eyes with a capsular tension ring, 21% of eyes with the Staar, and 17% of eyes with the logel. The LCDs detected by PCI, but not by slitlamp examination, were significantly smaller than those detected by both. Conclusion: The amount of LCD detected by PCI was approximately the same with all IOL types (∼20%) except the PhacoFlex S130 with a capsular tension ring (10%). |
CC : | 002B25B |
FD : | Lentille intraoculaire; Précision élevée; Haute résolution; Interférométrie; Cohérence partielle; Position; Chambre postérieure; Technique mesure; Cataracte; Traitement; Chirurgie; Homme |
FG : | Oeil pathologie; Cristallin pathologie; Segment antérieur pathologie |
ED : | Intraocular lens; High precision; High resolution; Interferometry; Partial coherence; Position; Posterior chamber; Measurement technique; Cataract; Treatment; Surgery; Human |
EG : | Eye disease; Lens disease; Anterior segment disease |
GD : | Interferometrie; Messtechnik; Aufbereiten |
SD : | Lente intraocular; Precisión elevada; Alta resolucion; Interferometría; Coherencia parcial; Posición; Cámara posterior; Técnica medida; Catarata; Tratamiento; Cirugía; Hombre |
LO : | INIST-20937.354000070256880110 |
ID : | 98-0419931 |
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Pascal:98-0419931Le document en format XML
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<author><name sortKey="Drexler, W" sort="Drexler, W" uniqKey="Drexler W" first="W." last="Drexler">W. Drexler</name>
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<author><name sortKey="Menapace, R" sort="Menapace, R" uniqKey="Menapace R" first="R." last="Menapace">R. Menapace</name>
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<author><name sortKey="Bobr, B" sort="Bobr, B" uniqKey="Bobr B" first="B." last="Bobr">B. Bobr</name>
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<author><name sortKey="Bittermann, S" sort="Bittermann, S" uniqKey="Bittermann S" first="S." last="Bittermann">S. Bittermann</name>
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<author><name sortKey="Vass, C" sort="Vass, C" uniqKey="Vass C" first="C." last="Vass">C. Vass</name>
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<author><name sortKey="Bobr, B" sort="Bobr, B" uniqKey="Bobr B" first="B." last="Bobr">B. Bobr</name>
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<author><name sortKey="Bittermann, S" sort="Bittermann, S" uniqKey="Bittermann S" first="S." last="Bittermann">S. Bittermann</name>
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<author><name sortKey="Vass, C" sort="Vass, C" uniqKey="Vass C" first="C." last="Vass">C. Vass</name>
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<author><name sortKey="Rainer, G" sort="Rainer, G" uniqKey="Rainer G" first="G." last="Rainer">G. Rainer</name>
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<author><name sortKey="Hitzenberger, C K" sort="Hitzenberger, C K" uniqKey="Hitzenberger C" first="C. K." last="Hitzenberger">C. K. Hitzenberger</name>
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<series><title level="j" type="main">Journal of cataract and refractive surgery</title>
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<profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Cataract</term>
<term>High precision</term>
<term>High resolution</term>
<term>Human</term>
<term>Interferometry</term>
<term>Intraocular lens</term>
<term>Measurement technique</term>
<term>Partial coherence</term>
<term>Position</term>
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<term>Surgery</term>
<term>Treatment</term>
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<keywords scheme="Pascal" xml:lang="fr"><term>Lentille intraoculaire</term>
<term>Précision élevée</term>
<term>Haute résolution</term>
<term>Interférométrie</term>
<term>Cohérence partielle</term>
<term>Position</term>
<term>Chambre postérieure</term>
<term>Technique mesure</term>
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<front><div type="abstract" xml:lang="en">Purpose: To measure effective lens position (ELP) of 4 intraocular lenses (lOLs) using high precision and high resolution dual-beam partial coherence interferometry (PCI) and to assess the tendency of these lOLs to produce a lens-capsule distance (LCD), a possible risk factor for posterior capsule opacification. Setting: Department of Ophthalmology, Vienna General Hospital; Institute of Medical Physics, University of Vienna, Austria Methods: In a retrospective study, PCI was used to measure ELP and LCD in 139 pseudophakic eyes of 110 patients with 4 lOLs: acrylic 3-piece IOL (AcrySof MA60BM) ; silicone 3-piece IOL without a capsular tension ring (PhacoFlex S130) and with a capsular tension ring (PhacoFlex S130 and Morcher Type 14); silicone plate-haptic IOL (Staar AA4203VF); and a hydrogel plate-haptic IOL (logel 1103). Results: The ELP and LCD were determined with a precision of approximately 3 to 4 μm. An LCD was detected in 21% eyes with the AcrySof, 20% of eyes with the S130 without a capsular tension ring, 10% of eyes with a capsular tension ring, 21% of eyes with the Staar, and 17% of eyes with the logel. The LCDs detected by PCI, but not by slitlamp examination, were significantly smaller than those detected by both. Conclusion: The amount of LCD detected by PCI was approximately the same with all IOL types (∼20%) except the PhacoFlex S130 with a capsular tension ring (10%).</div>
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<server><NO>PASCAL 98-0419931 INIST</NO>
<ET>Accurate determination of effective lens position and lens-capsule distance with 4 intraocular lenses</ET>
<AU>FINDL (O.); DREXLER (W.); MENAPACE (R.); BOBR (B.); BITTERMANN (S.); VASS (C.); RAINER (G.); HITZENBERGER (C. K.); FERCHER (A. F.)</AU>
<AF>Universitätsklinik für Augenheilkunde, Allgemeines Krankenhaus Wien, Währinger Gürtel 18-20/1090 Wien/Autriche (1 aut.)</AF>
<DT>Publication en série; Niveau analytique</DT>
<SO>Journal of cataract and refractive surgery; ISSN 0886-3350; Coden JCSUEV; Etats-Unis; Da. 1998; Vol. 24; No. 8; Pp. 1094-1098; Bibl. 18 ref.</SO>
<LA>Anglais</LA>
<EA>Purpose: To measure effective lens position (ELP) of 4 intraocular lenses (lOLs) using high precision and high resolution dual-beam partial coherence interferometry (PCI) and to assess the tendency of these lOLs to produce a lens-capsule distance (LCD), a possible risk factor for posterior capsule opacification. Setting: Department of Ophthalmology, Vienna General Hospital; Institute of Medical Physics, University of Vienna, Austria Methods: In a retrospective study, PCI was used to measure ELP and LCD in 139 pseudophakic eyes of 110 patients with 4 lOLs: acrylic 3-piece IOL (AcrySof MA60BM) ; silicone 3-piece IOL without a capsular tension ring (PhacoFlex S130) and with a capsular tension ring (PhacoFlex S130 and Morcher Type 14); silicone plate-haptic IOL (Staar AA4203VF); and a hydrogel plate-haptic IOL (logel 1103). Results: The ELP and LCD were determined with a precision of approximately 3 to 4 μm. An LCD was detected in 21% eyes with the AcrySof, 20% of eyes with the S130 without a capsular tension ring, 10% of eyes with a capsular tension ring, 21% of eyes with the Staar, and 17% of eyes with the logel. The LCDs detected by PCI, but not by slitlamp examination, were significantly smaller than those detected by both. Conclusion: The amount of LCD detected by PCI was approximately the same with all IOL types (∼20%) except the PhacoFlex S130 with a capsular tension ring (10%).</EA>
<CC>002B25B</CC>
<FD>Lentille intraoculaire; Précision élevée; Haute résolution; Interférométrie; Cohérence partielle; Position; Chambre postérieure; Technique mesure; Cataracte; Traitement; Chirurgie; Homme</FD>
<FG>Oeil pathologie; Cristallin pathologie; Segment antérieur pathologie</FG>
<ED>Intraocular lens; High precision; High resolution; Interferometry; Partial coherence; Position; Posterior chamber; Measurement technique; Cataract; Treatment; Surgery; Human</ED>
<EG>Eye disease; Lens disease; Anterior segment disease</EG>
<GD>Interferometrie; Messtechnik; Aufbereiten</GD>
<SD>Lente intraocular; Precisión elevada; Alta resolucion; Interferometría; Coherencia parcial; Posición; Cámara posterior; Técnica medida; Catarata; Tratamiento; Cirugía; Hombre</SD>
<LO>INIST-20937.354000070256880110</LO>
<ID>98-0419931</ID>
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