Spectral imaging of the retina

Mordant, D. J.; Alabboud, I.; Muyo, Gonzalo; Gorman, Alistair; Sallam, Ahmed; Ritchie, P; Harvey, Andrew R.; McNaught, Andrew

doi:10.1038/eye.2010.222

Cited by 102 publications

(99 citation statements)

References 38 publications

(13 reference statements)

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“…Other groups have used multispectral imaging for the quantification of retinal haemoglobins (for example, see Mordant et al 23 ), but MRIA offers a completely different approach in that it interprets the images by means of a comparison of the images with a computer-generated reflectance model of the fundus and it reconstructs 'parametric maps' from the data available, potentially providing the clinician with pixel-by-pixel concentration values.…”

Section: Discussionmentioning

confidence: 99%

Multispectral retinal image analysis: a novel non-invasive tool for retinal imaging

Calcagni

Gibson

Styles

et al. 2011

Eye

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Purpose To develop a non-invasive method for quantification of blood and pigment distributions across the posterior pole of the fundus from multispectral images using a computer-generated reflectance model of the fundus. Methods A computer model was developed to simulate light interaction with the fundus at different wavelengths. The distribution of macular pigment (MP) and retinal haemoglobins in the fundus was obtained by comparing the model predictions with multispectral image data at each pixel. Fundus images were acquired from 16 healthy subjects from various ethnic backgrounds and parametric maps showing the distribution of MP and of retinal haemoglobins throughout the posterior pole were computed. Results The relative distributions of MP and retinal haemoglobins in the subjects were successfully derived from multispectral images acquired at wavelengths 507, 525, 552, 585, 596, and 611 nm, providing certain conditions were met and eye movement between exposures was minimal. Recovery of other fundus pigments was not feasible and further development of the imaging technique and refinement of the software are necessary to understand the full potential of multispectral retinal image analysis. Conclusion The distributions of MP and retinal haemoglobins obtained in this preliminary investigation are in good agreement with published data on normal subjects. The ongoing development of the imaging system should allow for absolute parameter values to be computed. A further study will investigate subjects with known pathologies to determine the effectiveness of the method as a screening and diagnostic tool.

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Section: Discussionmentioning

confidence: 99%

Multispectral retinal image analysis: a novel non-invasive tool for retinal imaging

Calcagni

Gibson

Styles

et al. 2011

Eye

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“…The measurement of oxygen saturation in retinal vessels is useful as a diagnostic aid in a number of ocular vascular disorders such as glaucoma, 1 diabetic retinopathy, 2 and central retinal vein occlusion, 3 where hypoxia of the retina and optic-nerve head [4][5][6] are believed to contribute. Spectral imaging is also potentially a useful tool for making reliable measurements of oxygen saturation in the human ocular fundus; however, a deeper understanding of light propagation from the illumination source through the various layers of the retina and to the detector is needed to enable these measurements to be made accurately.…”

Section: Introductionmentioning

confidence: 99%

“…10,11 In retinal imaging, it is often assumed that images obtained in reflection geometry can be used to estimate transmission measurements through a blood vessel. 6 A proportion of the illuminating light is scattered by tissues underneath the vessel and then illuminates the vessel from the underside. This effectively results in a transmission geometry between the "back-illuminating" light and the imaging camera.…”

Section: Introductionmentioning

confidence: 99%

Light path-length distributions within the retina

et al. 2014

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Abstract. A Monte Carlo simulation of light propagation through the retina has been developed to understand the path-length distributions within the retinal vessel. For full-field illumination, the path-length distribution within the vessel comprises directly backscattered light and light that has passed once or twice through the vessel. The origins of these light path-length distributions can be better understood by investigating different combinations of single-point illumination and detection positions. Perhaps the most significant observation is that illumination at the edges of the vessel, rather than over the whole field of view, and detection directly above the vessel capture only the light that has taken a single pass through the vessel. This path-length distribution is tightly constrained around the diameter of the vessel and can potentially provide enhancements for oxygen saturation imaging. The method could be practically implemented using an offset-pinhole confocal imaging system or structured light illumination.

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“…They have applications in astronomy and microscopy [13] and also in opthalmology [14,15]. Snapshot imaging spectrometers generally require a trade-off between spatial and spectral resolution and hence the spectral resolution is normally limited.…”

Section: Introductionmentioning

confidence: 99%

A multi-object spectral imaging instrument

Gibson

Dienerowitz

Kelleher

et al. 2013

J. Opt.

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We have developed a snapshot spectral imaging system which fits onto the side camera port of a commercial inverted microscope. The system provides spectra, in real time, from multiple points randomly selected on the microscope image. Light from the selected points in the sample is directed from the side port imaging arm using a digital micromirror device to a spectrometer arm based on a dispersing prism and CCD camera. A multi-line laser source is used to calibrate the pixel positions on the CCD for wavelength. A CMOS camera on the front port of the microscope allows the full image of the sample to be displayed and can also be used for particle tracking, providing spectra of multiple particles moving in the sample. We demonstrate the system by recording the spectra of multiple fluorescent beads in aqueous solution and from multiple points along a microscope sample channel containing a mixture of red and blue dye.

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Spectral imaging of the retina

Cited by 102 publications

References 38 publications

Multispectral retinal image analysis: a novel non-invasive tool for retinal imaging

Multispectral retinal image analysis: a novel non-invasive tool for retinal imaging

Light path-length distributions within the retina

A multi-object spectral imaging instrument

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