gdx scanning laser polarimeter|Scanning laser polarimetry

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Zeiss GDx Pro 8000 is the only commercially available, current-generation scanning laser polarimeter. GDx Pro uses a near-infrared laser (780nm) in a raster pattern to image the .

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The GDx nerve fiber analyzers measure the retinal nerve fiber layer (RNFL) thickness with a scanning laser polarimeter based on the birefringent properties of the RNFL. Measurement is obtained from a band 1.75 disc diameters concentric to the disc. It projects a polarized beam of a light into the eye. As this light passes through the NFL tissue, it changes and slow. The detectors measure the change and convert it into thickness units that ar.

Scanning laser polarimetry is basically a confocal scanning laser ophthalmoscope with an integrated ellipsometer to measure retardation. It determines the RNFL thickness, .The scanning laser polarimeter, the GDx VCC, measures the phase shift (retardation) of polarized light passing through the eye in 0.8 seconds using GaAIA's 780–798 nm laser diode (Fig. 5.14). Retardation is affected by the arrangement and density of RNFL microtubules or other directional elements and tissue thickness.Scanning laser polarimetry is performed by a confocal scanning laser ophthalmoscope with an integrated polarimeter (GDx-VCC). There is a considerable amount of scientific evidence about the role of this imaging technique for glaucoma diagnosis. The aim of this review is to describe the principles of operation, the examination procedure, the .The GDx ECC is a confocal scanning laser device that quantitatively measures the thickness of the peripapillary retinal nerve fiber layer (RNFL). . Caprioli J (2002) Correction for the erroneous compensation of anterior segment birenfringence with the scanning laser polarimeter for glaucoma diagnosis. Invest Ophthalmol Vis Sci 43(5):1465–1474.

of as many as 40% of the ganglion cells. Hence, the measurement of RNFL thickness has come up. Optical coherence tomography and scanning laser polarimetry (SLP) are the techniques that utilize the evaluation of RNFL for the evaluation of glaucoma. SLP provides RNFL thickness measurements based upon the birefringence of the retinal ganglion cell axons. We have .Receiver operating characteristiccurves of the best parameters from the GDx VCC scanning laser polarimeter,HRT II confocal scanning laser ophthalmoscope, and Stratus OCT optical coherencetomograph. Manufacturers are provided in the legend to Figure 1. Bathija function refers to the linear discriminant functionused by Bathija et al. 4

Scanning laser polarimetry (SLP) (GDx Nerve Fiber Analyzer, Carl Zeiss Meditec) measures peripapillary RNFL thickness by sending a laser beam to the posterior retina and assessing the change in polarization (retardation) of the reflected beam. This retardation of the scanning beam results from the birefringent properties of the neurotubules . Scanning laser polarimetry (SLP) is a confocal scanning laser ophthalmoscope with an integrated polarimeter that measures the amount of retardation (phase shift) of a polarized, near-infrared laser beam as it passes through the retinal nerve fiber layer (RNFL) [6, 12, 18–22].The RNFL is made of highly ordered parallel axon bundles. These techniques are optical coherence tomography (OCT), scanning laser polarimetry (SLP) and confocal scanning laser ophthalmosopy (CSLO). Each of these diagnostic tools is based on different imaging modalities. Optical coherence tomography applies the principle of interferometry to determine the interface between different ocular tissues.

Scanning laser polarimetry is performed by a confocal scanning laser ophthalmoscope with an integrated polarimeter (GDx-VCC). There is a considerable amount of scientific evidence about the role of this imaging technique for glaucoma diagnosis. The aim of this review is to describe the principles of operation, the examination procedure, the .Optical coherence tomography (OCT) and scanning laser polarimetry with variable corneal compensation (GDx) are noninvasive, quantitative techniques that measure the thickness of the RNFL with good reproducibility. 13 Both techniques have been widely used in the clinic and research for detecting RNFL loss in glaucoma, 14 and recently in ON/MS . Scanning laser polarimetry (SLP) is a confocal scanning laser ophthalmoscope with an integrated polarimeter that measures the amount of retardation (phase shift) of a polarized, near-infrared laser beam as it passes through the retinal nerve fiber layer (RNFL) [6, 12, 18–22].The RNFL is made of highly ordered parallel axon bundles. Comparison of the GDx VCC scanning laser polarimeter, HRT II confocal scanning laser ophthalmoscope, and Stratus OCT optical coherence tomograph for the detection of glaucoma. Arch Ophthalmol 2004 .

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The measurements of the RNFL in glaucoma patients reveal a high correlation of OCT and GDx devices because OCTs can measure all major retinal layers and SLP can detect nerve fibers allowing a comparison between the results of this devices. . (Topcon OCT R² = 0.207 and Cirrus OCT R² = 0.258). The confocal scanning laser ophthalmoscopy (HRT 3 . Scanning laser polarimetry is performed by a confocal scanning laser ophthalmoscope with an integrated polarimeter (GDx-VCC). There is a considerable amount of scientific evidence about the role of this imaging .

Purpose: To compare the abilities of scanning laser polarimetry with the variable corneal compensator (GDx VCC) with those of optical coherence tomography (Stratus OCT) in discriminating between healthy and early-to-moderate perimetric glaucomatous eyes. Methods: A total of 95 glaucomatous patients (mean deviation - 3.7 +/- 3.0 dB, pattern standard deviation .

Medeiros F.A., Zangwill L.M., Bowd C. Comparison of the GDx VCC scanning laser polarimeter, HRT II confocal scanning laser ophthalmoscope, and Stratus OCT optical coherence tomography for the detection of glaucoma. Arch Ophthalmol. 2004; 122:827–837. [Google Scholar]

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GDx VCC scanning laser polarimeter, HRT II confocal scanning laser ophthal-moscope and Stratus OCT optical coher-ence tomograph for the detection of. glaucoma. Arch Ophthalmol 122: 827–837.A typical scan score of >8 was achieved in 192 eyes on the first examination. In 8 eyes, an initial scan score of <8 was obtained, which improved on the second test. Four eyes were excluded because of inability to obtain good quality GDx VCC scan even with repeat testing. The mean age of the subjects was 8.62 ± 2.84 years (range 3 to 15 years).Comparison of the GDx VCC scanning laser polarimeter, HRT II confocal scanning laser ophthalmoscope, and Stratus OCT optical coherence tomograph for the detection of glaucoma. Arch Ophthalmol. 2004;122:827–837. 7. MedeirosFA, ZangwillLM, BowdC, et al. Comparison of scanning laser polarimetry using variable corneal compensation and retinal . Scanning laser polarimetry was performed on each patient using GDx Access (Laser Diagnostic Technologies, San Diego, CA, USA). All GDx acquisitions were taken by the same investigator (SF).

Purpose: To evaluate and compare the diagnostic accuracies for glaucoma detection of scanning laser polarimetry (SLP) with enhanced corneal compensation (GDx ECC) and variable corneal compensation (GDx VCC; both by Carl Zeiss Meditec, Dublin, CA), according to different levels of disease severity and presence of atypical retardation patterns.Payable to ACME REVIVAL INC, write USER MANUAL: Zeiss GDX Vcc Scanning Laser Polarimeter in memo line, and mail your check to: 26591 Main St, Conifer, CO 80433 Tell us how you sent it Check No.clinical studies on scanning laser polarimetry [12,13]. In these studies, SLP images were excluded from the analysis when the GDx VCC software flagged them as incompatible with its normative database. The software flags an image as such when the typical scan score (TSS) is below 25 [20]. The TSS is a proprietary measure provided by the GDx For scanning laser polarimetry we used a GDx/NFA, version 2.010 E beta (LDT, San Diego, California, currently Carl Zeiss Meditec, Jena, Germany) which is based on an aluminium-arsenic laser (wavelength 780 nm, maximal retinal illumination 0.025 Watt/cm 2).

Zeiss GDx Pro 8000

Scanning Laser Polarimetry. SLP (GDx, Carl Zeiss Meditec, Dublin, CA) determines the peripapillary RNFL thickness by measuring the amount of the retardation of polarized light, which is linearly correlated with the birefringent properties of the retina. . Weinreb RN. Comparison of the GDx VCC scanning laser polarimeter, HRT II confocal . SLP works by measuring the birefringence and phase shift of laser light passing through the RNFL. A scanning laser polarimeter called GDx VCC is described, which takes RNFL scans and analyzes parameters like thickness averages, deviation maps, and nerve fiber indicators to detect glaucomatous changes. Key advantages are that it is non-invasive .

Scanning laser polarimetry in glaucoma

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gdx scanning laser polarimeter|Scanning laser polarimetry

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