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Registration of OCT fundus images with color fundus photographs based on blood vessel ridges.

Li Y, Gregori G, Knighton RW, Lujan BJ, Rosenfeld PJ - Opt Express (2011)

Bottom Line: Blood vessel ridges are taken as features for registration.Based on this distance a similarity function between the pair image is defined.The average root mean square errors for the affine model are 31 µm (normal) and 59 µm (eyes with disease).

View Article: PubMed Central - PubMed

Affiliation: Department of Ophthalmology, Bascom Palmer Eye Institute, University of Miami Miller School of Medicine, Miami, Florida 33136, USA. yli@med.miami.edu

ABSTRACT
This paper proposes an algorithm to register OCT fundus images (OFIs) with color fundus photographs (CFPs). This makes it possible to correlate retinal features across the different imaging modalities. Blood vessel ridges are taken as features for registration. A specially defined distance, incorporating information of normal direction of blood vessel ridge pixels, is designed to calculate the distance between each pair of pixels to be matched in the pair image. Based on this distance a similarity function between the pair image is defined. Brute force search is used for a coarse registration and then an Iterative Closest Point (ICP) algorithm for a more accurate registration. The registration algorithm was tested on a sample set containing images of both normal eyes and eyes with pathologies. Three transformation models (similarity, affine and quadratic models) were tested on all image pairs respectively. The experimental results showed that the registration algorithm worked well. The average root mean square errors for the affine model are 31 µm (normal) and 59 µm (eyes with disease). The proposed algorithm can be easily adapted to registration for other modality retinal images.

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Related in: MedlinePlus

Examples of registration results. (a) Registration results for a normal eye by three transformation models. (b) Registration results for an eye with pathology. Registration errors in microns are displayed along with each figure.
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Related In: Results  -  Collection

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g006: Examples of registration results. (a) Registration results for a normal eye by three transformation models. (b) Registration results for an eye with pathology. Registration errors in microns are displayed along with each figure.

Mentions: Root Mean Square Error (in microns) of registration for three transformation models. (a) Data set of normal eyes. (b) Data set of eyes with pathologies.


Registration of OCT fundus images with color fundus photographs based on blood vessel ridges.

Li Y, Gregori G, Knighton RW, Lujan BJ, Rosenfeld PJ - Opt Express (2011)

Examples of registration results. (a) Registration results for a normal eye by three transformation models. (b) Registration results for an eye with pathology. Registration errors in microns are displayed along with each figure.
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC3368356&req=5

g006: Examples of registration results. (a) Registration results for a normal eye by three transformation models. (b) Registration results for an eye with pathology. Registration errors in microns are displayed along with each figure.
Mentions: Root Mean Square Error (in microns) of registration for three transformation models. (a) Data set of normal eyes. (b) Data set of eyes with pathologies.

Bottom Line: Blood vessel ridges are taken as features for registration.Based on this distance a similarity function between the pair image is defined.The average root mean square errors for the affine model are 31 µm (normal) and 59 µm (eyes with disease).

View Article: PubMed Central - PubMed

Affiliation: Department of Ophthalmology, Bascom Palmer Eye Institute, University of Miami Miller School of Medicine, Miami, Florida 33136, USA. yli@med.miami.edu

ABSTRACT
This paper proposes an algorithm to register OCT fundus images (OFIs) with color fundus photographs (CFPs). This makes it possible to correlate retinal features across the different imaging modalities. Blood vessel ridges are taken as features for registration. A specially defined distance, incorporating information of normal direction of blood vessel ridge pixels, is designed to calculate the distance between each pair of pixels to be matched in the pair image. Based on this distance a similarity function between the pair image is defined. Brute force search is used for a coarse registration and then an Iterative Closest Point (ICP) algorithm for a more accurate registration. The registration algorithm was tested on a sample set containing images of both normal eyes and eyes with pathologies. Three transformation models (similarity, affine and quadratic models) were tested on all image pairs respectively. The experimental results showed that the registration algorithm worked well. The average root mean square errors for the affine model are 31 µm (normal) and 59 µm (eyes with disease). The proposed algorithm can be easily adapted to registration for other modality retinal images.

Show MeSH
Related in: MedlinePlus