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  • 1
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    Neogene palynomorpha from site 93-603, part 1 (2003)
    PANGAEA
    Details
    Publication Date: 2023-07-10
    Keywords: 93-603; 93-603B; Achomosphaera andalousiense; Achomosphaera crassipellis; Achomosphaera ramulifera; Achomosphaera spp.; Adnatosphaeridium multispinosum; Adnatosphaeridium robustum; Adnatosphaeridium spp.; Adnatosphaeridium vittatum; Amiculosphaera umbracula; Apectodinium parvum; Apteodinium australiense; Apteodinium tectatum; Araneosphaera araneosa; Areoligera sp.; Areoligera spp.; Areosphaeridium arcuatum; Areosphaeridium diktyoplokus; Areosphaeridium pectiniforme; Areosphaeridium spp.; Ascostomocystis granosa; Ataxiodinium choane; Batiacasphaera baculata; Batiacasphaera hirsuta; Batiacasphaera micropapillata; Batiacasphaera reticulata; Batiacasphaera sp.; Batiacasphaera sphaerica; Batiacasphaera spp.; Bitectatodinium spp.; Bitectatodinium tepikiense; Brigantedinium spp.; Caligodinium spp.; Cannosphaeropsis sp.; Cannosphaeropsis spp.; Cannosphaeropsis utinensis; Cerebrocysta bartonensis; cf. Leptodinium sp.; Chiropteridium mespilanum; Cleistosphaeridium sp.; Cleistosphaeridium spp.; Cordosphaeridium cantharellum; Cordosphaeridium cracenospinosum; Cordosphaeridium divergens; Cordosphaeridium exilimurum; Cordosphaeridium fibrospinosum; Cordosphaeridium gracile; Cordosphaeridium inodes; Cordosphaeridium multispinosum; Cordosphaeridium spp.; Corrudinium incompositum; Corrudinium spp.; Cribroperidinium giuseppei; Cribroperidinium spp.; Cyclonephelium exuberans; Cyclonephelium microfenestratum; Cyclonephelium semitectum; Cyclonephelium spp.; Cyclonephelium textum; Cyclopsiella elliptica; Dapsilidinium pastielsii; Dapsilidinium pseudocolligerum; Dapsilidinium simplex; Dapsilidinium spp.; Deep Sea Drilling Project; Deflandrea phosphoritica; Deflandrea spp.; DEPTH, sediment/rock; Dinoflagellate cyst indeterminata; Dinopterygium verriculum; Diphyes colligerum; Diphyes sp.; Diphyes spp.; Distatodinium craterum; Distatodinium paradoxum; Distatodinium virgatum; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Eatonicysta ursulae; Eocladopyxis peniculatum; Event label; Evittosphaerula spp.; Fibrocysta spp.; Filisphaera filifera; Gelatia sp.; Gelatia spp.; GEOMAR; Glaphyrocysta intricata; Glaphyrocysta vicina; Glomar Challenger; Helmholtz Centre for Ocean Research Kiel; Hemicystodinium congregatum; Heteraulacacysta campanula; Heteraulacacysta porosa; Heteraulacacysta spp.; Homotryblium abbreviatum; Homotryblium caliculum; Homotryblium floripes; Homotryblium oceanicum; Homotryblium pallidum; Homotryblium spp.; Homotryblium tenuispinosum; Homotryblium vallum; Homotryblium variabile; Hystrichokolpoma cinctum; Hystrichokolpoma granulatum; Hystrichokolpoma rigaudiae; Hystrichokolpoma sp.; Hystrichokolpoma spp.; Hystrichokolpoma unispina; Hystrichosphaeridium latirictum; Hystrichosphaeridium spp.; Hystrichosphaeridium tubiferum; Hystrichosphaeropsis complanata; Hystrichosphaeropsis obscura; Hystrichosphaeropsis rectangularis; Hystrichosphaeropsis spp.; Hystrichostrogylon sp.; Impagidinium aculeatum; Impagidinium aquaeductum; Impagidinium japonicum; Impagidinium maculatum; Impagidinium pallidum; Impagidinium paradoxum; Impagidinium patulum; Impagidinium sp.; Impagidinium spp.; Impagidinium velorum; Impletosphaeridium cracens; Invertocysta lacrymosa; Invertocysta spp.; Invertocysta tabulata; Kallosphaeridium biornatum; Kallosphaeridium capulatum; Kallosphaeridium curiosum; Kisselovia tenuivirgula; Labyrinthodinium truncatum; Leg93; Leiofusa spp.; Lejeunecysta beninensis; Lejeunecysta cinctoria; Lejeunecysta fallax; Lejeunecysta globosa; Lejeunecysta granosa; Lejeunecysta hyalina; Lejeunecysta lata; Lejeunecysta pulchra; Lejeunecysta spatiosa; Lejeunecysta spp.; Lentinia serrata; Lentinia spp.; Leptodinium sp.; Lingulodinium machaerophorum; Melitasphaeridium asterium; Melitasphaeridium choanophorum; Multispinula minuta; Nematosphaeropsis downiei; Nematosphaeropsis labyrinthus; Nematosphaeropsis lemniscata; Nematosphaeropsis sp.; Nematosphaeropsis spp.; Odontochitina spp.; Operculodinium centrocarpum; Operculodinium crassum; Operculodinium giganteum; Operculodinium israelianum; Operculodinium placitum; Operculodinium sp.; Operculodinium spp.; Operculodinium wallii; Sample code/label
    Type: Dataset
    Format: text/tab-separated-values, 14365 data points
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  • 2
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    Neogene palynomorpha from site 93-603, part 2 (2003)
    PANGAEA
    Details
    Publication Date: 2023-11-28
    Keywords: 93-603; 93-603B; Baculatisporites; Bacutricolporopollenites; Cicatricosisporites; Cingulatisporites; Cingulatisporites levispeciosus; Concavisporites; Concavisporites obtusangulus; Corrugatisporites; Cristatisporites; Cymatiosphaera spp.; Deep Sea Drilling Project; DEPTH, sediment/rock; Dinoflagellate cyst per unit mass; Divisisporites; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Event label; Extratriporopollenites; Foraminifera, linings per unit mass; Fungia debris per unit sediment mass; GEOMAR; Glomar Challenger; Granulatisporites; Helmholtz Centre for Ocean Research Kiel; Inaperturopollenites; Inaperturopollenites dubius; Inaperturopollenites hiatus; Inaperturopollenites polyformosus; Intratriporopollenites; Laevigatisporites; Laevigatosporites haardti; Leg93; Leiotriletes; Micrhystridium spp.; Minerisporites; Monocolpopollenites ingens; Monocolpopollenites observatus; Monocolpopollenites serratus; Monocolpopollenites sp.; Monocolpopollenites spectatus; Monocolpopollenites tranquillus; Palaeocystodinium golzowense; Palaeocystodinium sp.; Palaeocystodinium spp.; Pentadinium laticinctum; Phthanoperidinium comatum; Phthanoperidinium echinatum; Phthanoperidinium geminatum; Phthanoperidinium levimurum; Phthanoperidinium pseudoechinatum; Phthanoperidinium spp.; Pityosporites spp.; Plant debris per unit sediment mass; Pollen, reworked; Pollen and spores per unit sediment mass; Polyporopollenites; Polysphaeridium congregatum; Polysphaeridium sp.; Polysphaeridium subtile; Polysphaeridium zoharyi; Porocolpopollenites; Pterodinium cingulatum; Pterodinium premnos; Punctatisporites; Pyxidinopsis sp.; Reculacysta perforata; Reticulatisporites; Reticulatosphaera actinocoronata; Rottnestia borussica; Rugulatisporites; Samlandia chlamydophora; Samlandia sp.; Sample code/label; Scolecodonta per unit sediment mass; Selenopemphix armata; Selenopemphix coronata; Selenopemphix nephroides; Selenopemphix sp.; Selenopemphix spp.; Spiniferites; Spiniferites bentori; Spiniferites cornutus; Spiniferites elongatus; Spiniferites hyperacanthus; Spiniferites membranaceus; Spiniferites mirabilis; Spiniferites monilis; Spiniferites pachydermus; Spiniferites pseudofurcatus; Spiniferites ramosus; Spiniferites rubinus; Spiniferites scabratus; Spiniferites sp.; Spiniferites spp.; sum atradinium sp.; Systematophora placacantha; Systematophora sp.; Systematophora spp.; Tanyosphaeridium spp.; Tasmanites per unit sediment mass; Tectatodinium pellitum; Tectatodinium psilatum; Tectatodinium sp.; Tectatodinium spp.; Tenua microcysta; Tenua microsphaera; Tetracolporopollenites; Tetradopollenites; Thalassiphora delicata; Thalassiphora fenestrata; Thalassiphora pansa; Thalassiphora pelagica; Thalassiphora spp.; Triatriopollenites; Tricolpopollenites; Tricolpopollenites microhenrici; Tricolporopollenites; Tricolporopollenites wallensis; Trinovantedinium capitatum; Triplanosporites; Triplanosporites sinuosus; Triplanosporites tertiarius; Triporopollenites; Triporopollenites coryloides; Triporopollenites undulatus; Trivestibulopollenites; Tuberculatisporites; Tuberculodinium vancampoae; Verucatisporites; Verucatosporites sp.; Veryhachium; Wetzeliella astra; Wetzeliella spp.; Zonalapollenites viridifluminipites
    Type: Dataset
    Format: text/tab-separated-values, 10962 data points
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    DATA PANGAEA
  • 3
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    Neogene palynomorpha from site 81-552 (2003)
    PANGAEA
    Details
    Publication Date: 2023-11-28
    Keywords: 81-552; 81-552A; Achomosphaera andalousiense; Achomosphaera crassipellis; Achomosphaera ramulifera; Achomosphaera spp.; Adnatosphaeridium robustum; Algidasphaeridium minutum; Aquilapollenites; Areosphaeridium fenestratum; Areosphaeridium pectiniforme; Ataxiodinium choane; Baculatisporites; Batiacasphaera baculata; Batiacasphaera hirsuta; Batiacasphaera micropapillata; Batiacasphaera sphaerica; Batiacasphaera spp.; Bitectatodinium tepikiense; Cannosphaeropsis spp.; Cannosphaeropsis utinensis; Cerebrocysta bartonensis; Chiropteridium lobospinosum; Cleistosphaeridium sp.; Cordosphaeridium cantharellum; Cordosphaeridium cracenospinosum; Cordosphaeridium inodes; Cordosphaeridium spp.; Cribroperidinium giuseppei; Cribroperidinium spp.; Cyclonephelium spp.; Cymatiosphaera spp.; Dapsilidinium pastielsii; Dapsilidinium pseudocolligerum; Deep Sea Drilling Project; Deflandrea phosphoritica; Deflandrea spp.; Depth, composite; DEPTH, sediment/rock; Dinoflagellate cyst; Dinoflagellate cyst indeterminata; Dinoflagellate cyst per unit mass; Dinopterygium cladoides; Diphyes colligerum; Distatodinium craterum; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Event label; Filisphaera filifera; Foraminifera, linings per unit mass; Fungia debris per unit sediment mass; Gelatia sp.; Glaphyrocysta spp.; Glomar Challenger; Heteraulacacysta campanula; Heteraulacacysta porosa; Heteraulacacysta spp.; Homotryblium caliculum; Homotryblium spp.; Hystrichokolpoma granulatum; Hystrichokolpoma spp.; Impagidinium aculeatum; Impagidinium japonicum; Impagidinium pallidum; Impagidinium paradoxum; Impagidinium patulum; Impagidinium sp.; Impagidinium spp.; Impagidinium velorum; Inaperturopollenites; Intratriporopollenites; Invertocysta tabulata; Kisselovia spp.; Labyrinthodinium truncatum; Laevigatisporites; Leg81; Leiofusa; Leiotriletes; Lejeunecysta hyalina; Lejeunecysta spp.; Leptodinium sp.; Lingulodinium machaerophorum; Melitasphaeridium asterium; Melitasphaeridium choanophorum; Monocolpopollenites tranquillus; Nematosphaeropsis downiei; Nematosphaeropsis labyrinthus; Nematosphaeropsis spp.; North Atlantic/PLATEAU; Operculodinium centrocarpum; Operculodinium crassum; Operculodinium sp.; Operculodinium spp.; Palaeocystodinium golzowense; Pentadinium laticinctum; Phthanoperidinium echinatum; Phthanoperidinium geminatum; Phthanoperidinium multispinum; Pityosporites spp.; Plant debris per unit sediment mass; Pollen and spores per unit sediment mass; Pollen indeterminata; Polyporopollenites carpinoides; Polysphaeridium zoharyi; Polyvestibulopollenites verus; Pterodinium cingulatum; Punctatisporites; Pyxidiella simplex; Reticulatisporites; Reticulatosphaera actinocoronata; Rottnestia borussica; Sample code/label; Scolecodonta per unit sediment mass; Selenopemphix armata; Selenopemphix nephroides; Spiniferites bentori; Spiniferites bulloideus; Spiniferites elongatus; Spiniferites frigidus; Spiniferites mirabilis; Spiniferites pseudofurcatus; Spiniferites ramosus; Spiniferites sp.; Spiniferites spp.; Spores, reworked; Systematophora placacantha; Tasmanites per unit sediment mass; Tectatodinium pellitum; Tectatodinium psilatum; Tectatodinium sp.; Tectatodinium spp.; Thalassiphora delicata; Thalassiphora pansa; Thalassiphora spp.; Triatriopollenites myricoides; Tricolpopollenites; Tricolpopollenites microhenrici; Tricolporopollenites; Trinovantedinium capitatum; Triporopollenites coryloides; Trivestibulopollenites betuloides; Tuberculatisporites
    Type: Dataset
    Format: text/tab-separated-values, 6528 data points
    Location Call Number Limitation Availability
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  • 4
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    Neogene palynomorpha from site 81-555 (2003)
    PANGAEA
    Details
    Publication Date: 2023-11-28
    Keywords: 81-555; Achomosphaera andalousiense; Achomosphaera crassipellis; Achomosphaera ramulifera; Areosphaeridium arcuatum; Areosphaeridium diktyoplokus; Ataxiodinium choane; Batiacasphaera baculata; Batiacasphaera hirsuta; Batiacasphaera sphaerica; Bitectatodinium tepikiense; Brigantedinium spp.; Cannosphaeropsis utinensis; Cingulatisporites; Cribroperidinium giuseppei; Cymatiosphaera spp.; Dapsilidinium pastielsii; Dapsilidinium pseudocolligerum; Deep Sea Drilling Project; DEPTH, sediment/rock; Dinoflagellate cyst indeterminata; Dinoflagellate cyst per unit mass; Diphyes colligerum; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Fibrocysta axialis; Fibrocysta fusiforma; Fibrocysta spp.; Filisphaera filifera; Foraminifera, linings per unit mass; Fungia debris per unit sediment mass; GEOMAR; Glaphyrocysta semitecta; Glomar Challenger; Helmholtz Centre for Ocean Research Kiel; Homotryblium oceanicum; Homotryblium spp.; Homotryblium variabile; Hystrichokolpoma cinctum; Hystrichosphaeropsis obscura; Impagidinium aculeatum; Impagidinium aquaeductum; Impagidinium patulum; Impagidinium sp.; Impagidinium spp.; Impagidinium velorum; Inaperturopollenites; Inaperturopollenites dubius; Inaperturopollenites hiatus; Inaperturopollenites magnus; Inaperturopollenites polyformosus; Intratriporopollenites; Invertocysta lacrymosa; Invertocysta tabulata; Labyrinthodinium truncatum; Laevigatisporites; Laevigatosporites haardti; Leg81; Leiosphaera spp.; Leiotriletes; Lejeunecysta fallax; Lejeunecysta globosa; Lingulodinium machaerophorum; Monocolpopollenites ingens; Monocolpopollenites tranquillus; Mycrhistidium spp.; Nematosphaeropsis downiei; Nematosphaeropsis labyrinthus; North Atlantic/PLATEAU; Operculodinium centrocarpum; Operculodinium crassum; Operculodinium giganteum; Operculodinium placitum; Operculodinium sp.; Operculodinium spp.; Palaeocystodinium golzowense; Pentadinium laticinctum laticinctum; Pityosporites spp.; Plant debris per unit sediment mass; Pollen and spores per unit sediment mass; Pollen indeterminata; Polysphaeridium zoharyi; Pterodinium premnos; Reticulatisporites; Reticulatosphaera actinocoronata; Sample code/label; Scolecodonta per unit sediment mass; Selenopemphix nephroides; Spiniferites bentori; Spiniferites bulloideus; Spiniferites elongatus; Spiniferites hyperacanthus; Spiniferites membranaceus; Spiniferites mirabilis; Spiniferites pseudofurcatus; Spiniferites ramosus; Spiniferites spp.; Systematophora placacantha; Tasmanites; Tectatodinium pellitum; Tectatodinium psilatum; Tectatodinium simplex; Tectatodinium spp.; Triatriopollenites myricoides; Tricolpopollenites henrici; Tricolporopollenites; Tricolporopollenites wallensis; Triporopollenites coryloides
    Type: Dataset
    Format: text/tab-separated-values, 2200 data points
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  • 5
    Electronic Resource
    Electronic Resource
    Silikonöl in der Netzhautchirurgie (2000)
    Springer
    Der Ophthalmologe 97 (2000), S. 514-525 
    Details
    ISSN: 1433-0423
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Seit der Einführung in die vitreoretinale Chirurgie 1962 hat die intraokulare Tamponade mit Silikonöl einen festen Platz in der Augenheilkunde eingenommen. Silikonöl wird dabei nicht nur zur Tamponade retinaler Defekte eingesetzt, sondern dient ferner auch der Stabilisierung des intraokulären Milieus. Die Dekompartimentierung beschränkt zum einen postoperative Blutungen, senkt aber auch die Menge der intravitreal zirkulierenden Mitogene. Gleichzeitig wird eine Wiederablösung der Netzhaut durch Reproliferationen in ihrer Ausdehnung begrenzt. Aufgrund dieser Vorteile wird Silikonöl in der Behandlung der fortgeschrittenen proliferativen Vitreoretinopathie (PVR), z.B. nach schweren Augenverletzungen, auch zur Langzeittamponade eingesetzt. Daneben bietet die Silikonöltamponade einen effektiven therapeutischen Ansatz in der Behandlung der proliferativen diabetischen Retinopathie, bei schweren Augenverletzungen, virusbedingter nekrotisierender Retinitiden, bei der Behandlung von Makulaforamen und persistierenden Hypotonien. Eine anfänglich vermutete Unverträglichkeit durch Verunreinigungen ist seit der Einführung von hochgereinigtem und fraktioniertem Silikonöl überwunden. Gleichzeitig ist die Rate schwerer Komplikationen wie Sekundärglaukom oder Keratopathie durch die Weiterentwicklung der chirurgischen Techniken deutlich gesunken. Stabile Langzeitverläufe mit Silikonöl Dauertamponaden von weit über 10 Jahren begründen eine gute Verträglichkeit.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/s003470070085
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  • 6
    Electronic Resource
    Electronic Resource
    Autologous platelet treatment for optic disc pit associated with persistent macular detachment (1998)
    Springer
    Graefe's archive for clinical and experimental ophthalmology 236 (1998), S. 151-153 
    Details
    ISSN: 1435-702X
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract  • Purpose: To determine the effectiveness of autologous platelets in repair of optic disc pit associated with persistent macular detachment. • Patient: We report on a 44-year-old woman with optic disc pit associated with persistent macular detachment. The patient underwent an uneventful pars plana vitrectomy with autologous platelets injected over the optic disc pit. Good anatomical and functional results were obtained. • Conclusion: This surgical approach may be a valuable adjunct to the surgical management of optic disc pit associated with persistent macular detachment.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/s004170050056
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  • 7
    Electronic Resource
    Electronic Resource
    Comparison of spatial thresholds and intensity thresholds in glaucoma (1993)
    Springer
    International ophthalmology 17 (1993), S. 171-178 
    Details
    ISSN: 1573-2630
    Keywords: conventional perimetry ; functional loos ; glaucoma ; ring perimetry
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract Spatial resolution perimetry and conventional perimetry measure different qualities of the functional performance of the eye. Theoretically, spatial resolution is directly related to the density of intact sensory units, but the relation of intensity to the density of intact sensory units is unknown. Previous studies indicated an almost linear relationship of global indices of spatial thresholds and intensity thresholds. The purpose of our study is to look at any difference in the behaviour of local threshold values and their precise relation. We examined 41 eyes of 23 patients with open angle glaucoma. Perimetry was carried out using the Humphrey Field Analyzer, and program 30-S or program 30-2 and the ring perimeter and standard program. Because test point patterns of the two examinations were different, the best matching points were calculated. If the distance between next points in both examinations was more than 5 degrees, the location was excluded. The Humphrey program 30-2 provided 47 matching points, the Humphrey program 30-S furnished 49 matching points for 50 locations. For the range of 20.36 dB in conventional perimetry, linearity could be verified in relation to the local thresholds in ring perimetry. The spatial threshold units used in the ring perimeter are the logarithm of spatial extend. Vice versa, spatial resolution is a power function of spatial thresholds. Based on the linear relationship of both thresholds, spatial resolution is a power function of intensity thresholds. In other words, if the intensity threshold is reduced from 36 to 30 dB, the spatial resolution is nearly half. If intensity threshold is reduced by a further 6 dB, spatial resolution is diminished to one quarter, and so on. If we accept that two-dimensional spatial resolution is directly related to the density of functional units, most of these units are lost when only small changes in dB values of conventional perimetry occur. For revaluation of visual fields in early glaucoma, our results are important for the otherwise rather meaningless decibel numbers.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF01007736
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  • 8
    Electronic Resource
    Electronic Resource
    Limits of two-dimensional planimetry in the follow-up of glaucomatous optic discs (1996)
    Springer
    Graefe's archive for clinical and experimental ophthalmology 234 (1996), S. 69-69 
    Details
    ISSN: 1435-702X
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00186523
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  • 9
    Electronic Resource
    Electronic Resource
    Communication between the subretinal space and the vitreous cavity in the morning glory syndrome (1996)
    Springer
    Graefe's archive for clinical and experimental ophthalmology 234 (1996), S. 409-409 
    Details
    ISSN: 1435-702X
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00190719
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  • 10
    Electronic Resource
    Electronic Resource
    Limits of two-dimensional planimetry in the follow-up of glaucomatous optic discs (1995)
    Springer
    Graefe's archive for clinical and experimental ophthalmology 233 (1995), S. 284-290 
    Details
    ISSN: 1435-702X
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract •Background: To test the intra-observer, intra-photographic variability of two-dimensional measurements of the optic nerve head we used computer-assisted planimetry. Depending on the variability, we calculated the confidence intervals of the optic disc parameters which could be indicative of glaucomatous damage on follow-up. •Methods: Slides of the optic disc were taken from 10 eyes of 10 patients (n = 6 open angle glaucoma, n = 4 ocular hypertension) using a Zeiss fundus camera. All eyes were evaluated 10 times within a random sequence on 10 different days. We obtained the absolute values of the disc radii and the cup radii in steps of 1, 10, and 45 deg in predefined quadrants and the mean radii. •Results: The confidence interval of the cup radius on follow-up, depending on sector size, ranged between 62 and 38 % for small cups (radius 0.2 mm) and between 12 and 7% for large cups (radius 0.8 mm). The confidence intervals of the cup/disc ratio distinguishable from the disc boundary, depending on sector size, ranged between 0.81 and 0.89 for small discs (radius 0.5 mm) and from 0.90 to 0.94 for large discs (radius 1.0 mm). The confidence intervals of the cup/disc ratio indicating an increase on the cup radius in follow-up, distinguishable from the boundary of the disc, ranged, depending on sector size, between 0.57 and 0.75 for small discs (radius 0.5 mm) and from 0.81 to 0.89 for large discs (radius 1.0 mm). 9 Conclusion: The smaller the disc, the more difficult is the detection of glaucomatous damage, and the larger the cup, the more difficult is the detection of progression of glaucomatous damage.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00177650
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