nir light images Search Results


fundus autofluorescence imaging using nir and sw excitation lights  (heidelberg engineering)
90
heidelberg engineering fundus autofluorescence imaging using nir and sw excitation lights
A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, <t>16.5-mm,</t> <t>SD-OCT</t> through the fovea in the patient. Inset is an <t>NIR-REF</t> image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.
Fundus Autofluorescence Imaging Using Nir And Sw Excitation Lights, supplied by heidelberg engineering, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
fundus autofluorescence imaging using nir and sw excitation lights - by Bioz Stars, 2026-04
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video imaging the retina under invisible near-infrared (nir) light mp1  (Nidek CO)
90
Nidek CO video imaging the retina under invisible near-infrared (nir) light mp1
A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, <t>16.5-mm,</t> <t>SD-OCT</t> through the fovea in the patient. Inset is an <t>NIR-REF</t> image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.
Video Imaging The Retina Under Invisible Near Infrared (Nir) Light Mp1, supplied by Nidek CO, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/video imaging the retina under invisible near-infrared (nir) light mp1/product/Nidek CO
Average 90 stars, based on 1 article reviews
video imaging the retina under invisible near-infrared (nir) light mp1 - by Bioz Stars, 2026-04
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fluorescence and visible light images nir-ii with lightfield 6  (Princeton Instruments)
90
Princeton Instruments fluorescence and visible light images nir-ii with lightfield 6
A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, <t>16.5-mm,</t> <t>SD-OCT</t> through the fovea in the patient. Inset is an <t>NIR-REF</t> image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.
Fluorescence And Visible Light Images Nir Ii With Lightfield 6, supplied by Princeton Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/fluorescence and visible light images nir-ii with lightfield 6/product/Princeton Instruments
Average 90 stars, based on 1 article reviews
fluorescence and visible light images nir-ii with lightfield 6 - by Bioz Stars, 2026-04
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fusion images merging nir and standard white light images  (Stryker)
90
Stryker fusion images merging nir and standard white light images
A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, <t>16.5-mm,</t> <t>SD-OCT</t> through the fovea in the patient. Inset is an <t>NIR-REF</t> image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.
Fusion Images Merging Nir And Standard White Light Images, supplied by Stryker, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/fusion images merging nir and standard white light images/product/Stryker
Average 90 stars, based on 1 article reviews
fusion images merging nir and standard white light images - by Bioz Stars, 2026-04
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nir d-light imaging system  (KARL STORZ)
90
KARL STORZ nir d-light imaging system
A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, <t>16.5-mm,</t> <t>SD-OCT</t> through the fovea in the patient. Inset is an <t>NIR-REF</t> image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.
Nir D Light Imaging System, supplied by KARL STORZ, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nir d-light imaging system/product/KARL STORZ
Average 90 stars, based on 1 article reviews
nir d-light imaging system - by Bioz Stars, 2026-04
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Image Search Results


A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, 16.5-mm, SD-OCT through the fovea in the patient. Inset is an NIR-REF image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.

Journal: Retinal cases & brief reports

Article Title: ENHANCED S-CONE SYNDROME: VISUAL FUNCTION, CROSS-SECTIONAL IMAGING, AND CELLULAR STRUCTURE WITH ADAPTIVE OPTICS OPHTHALMOSCOPY

doi: 10.1097/ICB.0000000000000891

Figure Lengend Snippet: A. Central retinal function and colocalized cross-sectional and cellular structure in ESCS. S-cone sensitivity profiles measured with a 440-nm stimulus on a yellow L-M cone adapting background compared with the normal range (gray band = mean ± 2 SD). Hatched bar: blind spot. B. Horizontal, 16.5-mm, SD-OCT through the fovea in the patient. Inset is an NIR-REF image with the location and orientation of the scan (green arrow). Asterisks denote cystoid spaces. Arrow points to transition zone where the ISe band becomes undetectable. Black arrow heads on the eccentricity axis denote locations where ONL thickness measurements from the patient (P) were compared with normal measurements (N) (plotted as vertical bars overlaid above SD-OCT cross-section). Scale bar is to the bottom left; (A and B) share the same eccentricity scale. C. AOSLO images from the patient with ESCS compared with a normal. Cone densities and cone spacing are denoted in panel. Cone density is approximately 2- and 3-fold higher than normal in the patient at 0.8 mm and 1.9 mm (~3° and 6°) temporal to the fovea, respectively. Scale bar: 25 μm.

Article Snippet: Spectral domain OCT, en face near-infrared (NIR) reflectance (REF), and fundus autofluorescence imaging using NIR and SW excitation lights were performed using a Spectralis-HRA system (Heidelberg Engineering GmbH, Heidelberg, Germany).

Techniques: