We evaluate methods to visualize human retinal micro-circulation in vivo by standard intensity-based optical coherence tomography (OCT), speckle-variance optical coherence tomography (svOCT), and phase-variance optical coherence tomography (pvOCT). En face projection views created from the same volumetric data set of the human retina using all three data processing methods are created and compared. Additionally we used support vector machine (SVM) based semi-automatic segmentation to generate en face projection views of individual retinal layers. The layers include: first, the whole inner retina (from the nerve fiber layer to the outer nuclear layer), and second, from the ganglion cell layer to the outer nuclear layer. Finally, we compare t...
Human retinal and choroidal vasculature was visualized by a differential phase-contrast (DPC) method...
Purpose: Phase-variance optical coherence tomography (PV-OCT) provides volumetric imaging of the re...
Phase variance-based motion contrast imaging is demonstrated using a spectral domain optical coheren...
We evaluate methods to visualize human retinal micro-circulation in vivo by standard intensity-based...
We evaluate methods to visualize human retinal micro-circulation in vivo by standard intensity-based...
We present high-speed Fourier-domain optical coherence tomography (Fd-OCT) with the phase variance b...
We present in vivo volumetric images of human retinal micro-circulation using Fourier-domain optical...
Optical Coherence Tomography (OCT) is a non-invasive micrometer-resolution depth resolved medical im...
We present in vivo volumetric images of human retinal micro-circulation using Fourier-domain optical...
Detailed visualization of microvascular changes in the human retina is clinically limited by the cap...
A differential phase contrast (DPC) method is validated for in vivo human retinal and choroidal vasc...
We demonstrate an intensity-based motion sensitive method, called differential logarithmic intensity...
We formulate a theory to show that the statistics of OCT signal amplitude and intensity are highly d...
We present recent developments from a phase variance based motion contrast method of retinal vascula...
Purpose. To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for c...
Human retinal and choroidal vasculature was visualized by a differential phase-contrast (DPC) method...
Purpose: Phase-variance optical coherence tomography (PV-OCT) provides volumetric imaging of the re...
Phase variance-based motion contrast imaging is demonstrated using a spectral domain optical coheren...
We evaluate methods to visualize human retinal micro-circulation in vivo by standard intensity-based...
We evaluate methods to visualize human retinal micro-circulation in vivo by standard intensity-based...
We present high-speed Fourier-domain optical coherence tomography (Fd-OCT) with the phase variance b...
We present in vivo volumetric images of human retinal micro-circulation using Fourier-domain optical...
Optical Coherence Tomography (OCT) is a non-invasive micrometer-resolution depth resolved medical im...
We present in vivo volumetric images of human retinal micro-circulation using Fourier-domain optical...
Detailed visualization of microvascular changes in the human retina is clinically limited by the cap...
A differential phase contrast (DPC) method is validated for in vivo human retinal and choroidal vasc...
We demonstrate an intensity-based motion sensitive method, called differential logarithmic intensity...
We formulate a theory to show that the statistics of OCT signal amplitude and intensity are highly d...
We present recent developments from a phase variance based motion contrast method of retinal vascula...
Purpose. To demonstrate the application of phase-variance optical coherence tomography (pvOCT) for c...
Human retinal and choroidal vasculature was visualized by a differential phase-contrast (DPC) method...
Purpose: Phase-variance optical coherence tomography (PV-OCT) provides volumetric imaging of the re...
Phase variance-based motion contrast imaging is demonstrated using a spectral domain optical coheren...