Noninvasive Imaging of the Foveal Avascular Zone with High-Speed, Phase-Variance Optical Coherence Tomography
To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for contrast agent-free in vivo imaging of volumetric retinal microcirculation in the human foveal region and for extraction of foveal avascular zone dimensions. A custom-built, high-speed Fourier-domain OCT retina...
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| Published in | Investigative ophthalmology & visual science Vol. 53; no. 1; pp. 85 - 92 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Association for Research in Vision and Ophthalmology, Inc
05.01.2012
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| Subjects | |
| Online Access | Get full text |
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| Abstract | To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for contrast agent-free in vivo imaging of volumetric retinal microcirculation in the human foveal region and for extraction of foveal avascular zone dimensions.
A custom-built, high-speed Fourier-domain OCT retinal imaging system was used to image retinas of two healthy subjects and eight diabetic patients. Through the acquisition of multiple B-scans for each scan location, phase differences between consecutive scans were extracted and used for phase-variance contrast, identifying motion signals from within blood vessels and capillaries. The en face projection view of the inner retinal layers segmented out from volumetric pvOCT data sets allowed visualization of a perfusion network with the foveal avascular zone (FAZ). In addition, the authors presented 2D retinal perfusion maps with pseudo color-coded depth positions of capillaries.
Retinal vascular imaging with pvOCT provides accurate measurements of the FAZ area and its morphology and a volumetric perfusion map of microcapillaries. In this study using two images from each fundus fluorescein angiography (FA) and pvOCT, the measured average areas of the FAZ from two healthy subjects were below 0.22 mm(2), and each of eight diabetic patients had an enlarged FAZ area, larger than 0.22 mm(2). Moreover, the FAZ areas demonstrated a significant correlation (r = 0.91) between measurements from FA and pvOCT.
The high-speed pvOCT allows contrast agent-free visualization of capillary networks in the human foveal region that is analogous to fundus FA imaging. This could allow for noninvasive diagnosis and progression monitoring of diabetic retinopathy in clinical settings. |
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| AbstractList | To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for contrast agent-free in vivo imaging of volumetric retinal microcirculation in the human foveal region and for extraction of foveal avascular zone dimensions.
A custom-built, high-speed Fourier-domain OCT retinal imaging system was used to image retinas of two healthy subjects and eight diabetic patients. Through the acquisition of multiple B-scans for each scan location, phase differences between consecutive scans were extracted and used for phase-variance contrast, identifying motion signals from within blood vessels and capillaries. The en face projection view of the inner retinal layers segmented out from volumetric pvOCT data sets allowed visualization of a perfusion network with the foveal avascular zone (FAZ). In addition, the authors presented 2D retinal perfusion maps with pseudo color-coded depth positions of capillaries.
Retinal vascular imaging with pvOCT provides accurate measurements of the FAZ area and its morphology and a volumetric perfusion map of microcapillaries. In this study using two images from each fundus fluorescein angiography (FA) and pvOCT, the measured average areas of the FAZ from two healthy subjects were below 0.22 mm(2), and each of eight diabetic patients had an enlarged FAZ area, larger than 0.22 mm(2). Moreover, the FAZ areas demonstrated a significant correlation (r = 0.91) between measurements from FA and pvOCT.
The high-speed pvOCT allows contrast agent-free visualization of capillary networks in the human foveal region that is analogous to fundus FA imaging. This could allow for noninvasive diagnosis and progression monitoring of diabetic retinopathy in clinical settings. This study demonstrates two- and three-dimensional capillary networks of the human parafoveal region without use of any contrast agents or adaptive optics. Phase-variance optical coherence tomography provides precise measurement of the foveal avascular zone area from one single volumetric scan within 5-second acquisition time. To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for contrast agent-free in vivo imaging of volumetric retinal microcirculation in the human foveal region and for extraction of foveal avascular zone dimensions.PURPOSETo demonstrate the application of phase-variance optical coherence tomography (pvOCT) for contrast agent-free in vivo imaging of volumetric retinal microcirculation in the human foveal region and for extraction of foveal avascular zone dimensions.A custom-built, high-speed Fourier-domain OCT retinal imaging system was used to image retinas of two healthy subjects and eight diabetic patients. Through the acquisition of multiple B-scans for each scan location, phase differences between consecutive scans were extracted and used for phase-variance contrast, identifying motion signals from within blood vessels and capillaries. The en face projection view of the inner retinal layers segmented out from volumetric pvOCT data sets allowed visualization of a perfusion network with the foveal avascular zone (FAZ). In addition, the authors presented 2D retinal perfusion maps with pseudo color-coded depth positions of capillaries.METHODSA custom-built, high-speed Fourier-domain OCT retinal imaging system was used to image retinas of two healthy subjects and eight diabetic patients. Through the acquisition of multiple B-scans for each scan location, phase differences between consecutive scans were extracted and used for phase-variance contrast, identifying motion signals from within blood vessels and capillaries. The en face projection view of the inner retinal layers segmented out from volumetric pvOCT data sets allowed visualization of a perfusion network with the foveal avascular zone (FAZ). In addition, the authors presented 2D retinal perfusion maps with pseudo color-coded depth positions of capillaries.Retinal vascular imaging with pvOCT provides accurate measurements of the FAZ area and its morphology and a volumetric perfusion map of microcapillaries. In this study using two images from each fundus fluorescein angiography (FA) and pvOCT, the measured average areas of the FAZ from two healthy subjects were below 0.22 mm(2), and each of eight diabetic patients had an enlarged FAZ area, larger than 0.22 mm(2). Moreover, the FAZ areas demonstrated a significant correlation (r = 0.91) between measurements from FA and pvOCT.RESULTSRetinal vascular imaging with pvOCT provides accurate measurements of the FAZ area and its morphology and a volumetric perfusion map of microcapillaries. In this study using two images from each fundus fluorescein angiography (FA) and pvOCT, the measured average areas of the FAZ from two healthy subjects were below 0.22 mm(2), and each of eight diabetic patients had an enlarged FAZ area, larger than 0.22 mm(2). Moreover, the FAZ areas demonstrated a significant correlation (r = 0.91) between measurements from FA and pvOCT.The high-speed pvOCT allows contrast agent-free visualization of capillary networks in the human foveal region that is analogous to fundus FA imaging. This could allow for noninvasive diagnosis and progression monitoring of diabetic retinopathy in clinical settings.CONCLUSIONSThe high-speed pvOCT allows contrast agent-free visualization of capillary networks in the human foveal region that is analogous to fundus FA imaging. This could allow for noninvasive diagnosis and progression monitoring of diabetic retinopathy in clinical settings. |
| Author | Park, Susanna S. Fingler, Jeff Schwartz, Daniel M. Morse, Lawrence S. Kim, Dae Yu Zawadzki, Robert J. Fraser, Scott E. Werner, John S. |
| Author_xml | – sequence: 1 givenname: Dae Yu surname: Kim fullname: Kim, Dae Yu organization: From the Departments of Ophthalmology and Vision Science and 2Biomedical Engineering, University of California Davis, Davis, California – sequence: 2 givenname: Jeff surname: Fingler fullname: Fingler, Jeff organization: Department of Biology, California Institute of Technology, Pasadena, California; and – sequence: 3 givenname: Robert J. surname: Zawadzki fullname: Zawadzki, Robert J. organization: From the Departments of Ophthalmology and Vision Science and – sequence: 4 givenname: Susanna S. surname: Park fullname: Park, Susanna S. organization: From the Departments of Ophthalmology and Vision Science and – sequence: 5 givenname: Lawrence S. surname: Morse fullname: Morse, Lawrence S. organization: From the Departments of Ophthalmology and Vision Science and – sequence: 6 givenname: Daniel M. surname: Schwartz fullname: Schwartz, Daniel M. organization: Department of Ophthalmology, University of California San Francisco, San Francisco, California – sequence: 7 givenname: Scott E. surname: Fraser fullname: Fraser, Scott E. organization: Department of Biology, California Institute of Technology, Pasadena, California; and – sequence: 8 givenname: John S. surname: Werner fullname: Werner, John S. organization: From the Departments of Ophthalmology and Vision Science and 2Biomedical Engineering, University of California Davis, Davis, California |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/22125275$$D View this record in MEDLINE/PubMed |
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| Snippet | To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for contrast agent-free in vivo imaging of volumetric retinal... This study demonstrates two- and three-dimensional capillary networks of the human parafoveal region without use of any contrast agents or adaptive optics.... |
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| SubjectTerms | Adult Aged Capillaries - pathology Diabetic Retinopathy - diagnosis Female Fluorescein Angiography Fourier Analysis Fovea Centralis - blood supply Fovea Centralis - pathology Humans Imaging, Three-Dimensional Male Microcirculation Middle Aged Retinal Vessels - pathology Tomography, Optical Coherence |
| Title | Noninvasive Imaging of the Foveal Avascular Zone with High-Speed, Phase-Variance Optical Coherence Tomography |
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