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1.
J Mod Opt ; 62(21): 1781-1788, 2015.
Article in English | MEDLINE | ID: mdl-26689672

ABSTRACT

An improved three-beam Doppler optical coherence tomography system was developed. It utilizes a custom-made three-facet prism telescope to improve the transversal resolution at the sample. Furthermore, a two-axis gimbal-less MEMS mirror is used to minimize off-pivot beam movement at the pupil of the eye, enabling circular scanning for in vivo retinal measurements. We demonstrate the system's abilities for in vitro circular scanning to measure absolute flow and to reconstruct the full velocity vector on a bifurcation flow phantom. Moreover, in vivo retinal measurements using circular scanning around vessel bifurcations of healthy human volunteers were performed. Measurements of the absolute mean flow and its orientation are in good agreement with the expected values for in vitro measurements. For in vivo measurements, the in- and outflow of blood for retinal vessel bifurcations show an excellent agreement, demonstrating the reliability of the technique.

2.
Biomed Opt Express ; 2(1): 100-12, 2010 Dec 15.
Article in English | MEDLINE | ID: mdl-21326640

ABSTRACT

In this study we use our previously introduced scanning laser ophthalmoscope (SLO) / transverse scanning optical coherence tomography (TS-OCT) instrument to investigate long term changes in cone photoreceptors. The instrument is capable to provide 3D information of the human cone photoreceptors with negligible eye motion artifacts due to an implemented 3D motion correction on a cellular level. This allows for an in vivo investigation of exactly the same location on the retina with cellular resolution over several days. Temporal changes in the backscattered intensity are observed and quantified within the junction between inner and outer segments of cone photoreceptors, the cone outer segments, the end tips of cone photoreceptors and the retinal pigment epithelium. Furthermore, the length of individual cone outer segments is measured and observed over time. We show, to the best of our knowledge for the first time, that bright reflection spots which are located within the outer segment of cone photoreceptors change their position when observed over extended time periods. The average measured bright reflection spot motion speed corresponds well to the expected cone growth speed. We believe that this observation can be associated with the first direct in vivo imaging of the cone renewal process.

3.
Br J Ophthalmol ; 92(2): 204-9, 2008 Feb.
Article in English | MEDLINE | ID: mdl-18227201

ABSTRACT

OBJECTIVES: To evaluate pathological changes of retinal pigment epithelium (RPE) by polarisation-sensitive optical coherence tomography (PS-OCT). METHODS: Forty-four eyes (22 patients) with significant pathologies of the RPE were evaluated using PS-OCT. A transversal scanning time domain OCT system was used for two-dimensional cross-sectional imaging of retinal polarisation properties. RESULTS: The RPE scrambles the polarisation state of backscattered light (ie, acts as a depolarising layer), while the polarisation state of transmitted light is maintained. In patients with RPE pathologies irregularity, elevation, thickening or absence of the RPE is readily visualised by exploiting the depolarisation information. Polarisation scrambling in the sensory retina can be found in cases with advanced dry age-related macular degeneration. Sclera and fibrosis show characteristic birefringence in PS-OCT. CONCLUSION: PS-OCT allows tissue identification based on polarisation scrambling and birefringence, providing additional information on RPE pathologies. It is a promising new tool for diagnosis, disease follow-up and evaluation of new treatment strategies.


Subject(s)
Pigment Epithelium of Eye/pathology , Retinal Diseases/diagnosis , Tomography, Optical Coherence/methods , Atrophy/diagnosis , Birefringence , Fibrosis/diagnosis , Humans , Macular Degeneration/diagnosis , Retinal Detachment/diagnosis , Retinal Drusen/diagnosis , Retinal Perforations/diagnosis
4.
Opt Lett ; 33(1): 22-4, 2008 Jan 01.
Article in English | MEDLINE | ID: mdl-18157245

ABSTRACT

We describe a novel instrument capable of acquiring, simultaneously, adaptive optics enhanced scanning laser ophthalmoscopy and optical coherence tomography (OCT) images of the human cone mosaic in vivo. The OCT system is based on transversal scanning of the sample with a line scan rate of 14 kHz, approximately 20 times faster than a previously reported instrument. We demonstrate the capability of this instrument with the measurement of the human cone spacing in perifoveal retina.


Subject(s)
Image Enhancement/instrumentation , Microscopy, Confocal/instrumentation , Ophthalmoscopes , Retinal Cone Photoreceptor Cells/cytology , Subtraction Technique/instrumentation , Tomography, Optical Coherence/instrumentation , Equipment Design , Equipment Failure Analysis , Humans , Optics and Photonics/instrumentation , Sensitivity and Specificity
5.
J Biophotonics ; 1(2): 129-39, 2008 May.
Article in English | MEDLINE | ID: mdl-19343644

ABSTRACT

A polarization-sensitive spectral domain optical coherence tomography (PS-SD-OCT) system is used to measure phase retardation and birefringence of the human retinal nerve fiber layer (RNFL) in vivo. The instrument records three parameters simultaneously: intensity, phase retardation and optic-axis orientation. 3D data sets are recorded in the optic nerve-head area of a healthy and a glaucomatous eye, and the results are presented in various ways: En-face phase-retardation maps of the RNFL are generated from the recorded 3D data and results are compared with scanning laser polarimetry (SLP). The depth information provided by OCT is used to segment the RNFL in the intensity image and measure the RNFL thickness. From the retardation and thickness data, 2D birefringence maps of the RNFL are derived. Circumpapillary plots of RNFL retardation and thickness obtained by PS-SD-OCT are quantitatively compared with those obtained by SLP.


Subject(s)
Nerve Fibers/pathology , Optic Disk/pathology , Retinal Ganglion Cells/pathology , Birefringence , Diagnostic Techniques, Ophthalmological , Glaucoma/diagnosis , Glaucoma/pathology , Humans , Lasers , Male , Middle Aged , Tomography, Optical Coherence
6.
J Biomed Opt ; 11(5): 054013, 2006.
Article in English | MEDLINE | ID: mdl-17092162

ABSTRACT

Imaging the human retina still represents the main field of application of optical coherence tomography (OCT). A major advantage of OCT is the decoupling of depth resolution (given by the coherence length of the light source) and transverse resolution (given by the focal spot size). This enables images of the retina with high depth resolution. On the other hand, in most OCT systems, a limited transverse resolution has been accepted to provide a sufficiently large (approximately 1 mm) depth of focus. However, to obtain images with high transverse resolution throughout the whole depth of the retina (especially in the nerve head region) a tracking of coherence gate and focus position (dynamic focus) is essential. This study realizes a dynamic focus in a time domain transversal (en face) scanning system for retinal imaging. We show that maintenance of a transverse resolution of approximately 4.4 microm can be achieved over an optical depth of 1 mm in a model eye and apply our method to imaging the human retina in vivo.


Subject(s)
Image Enhancement/instrumentation , Retina/anatomy & histology , Retinoscopes , Tomography, Optical Coherence/instrumentation , Humans , Image Enhancement/methods , Phantoms, Imaging , Pilot Projects , Reproducibility of Results , Retinoscopy/methods , Sensitivity and Specificity , Tomography, Optical Coherence/methods
7.
Bull Soc Belge Ophtalmol ; (302): 153-68, 2006.
Article in English | MEDLINE | ID: mdl-17265796

ABSTRACT

We map the three-dimensional distribution of birefringence of the normal human cornea and provide insight into structures and mechanisms causing corneal birefringence, establishing standard patterns of 3D birefringence distribution. A polarization sensitive optical coherence tomography (PS-OCT) system was developed that allows measurement and imaging of three tissue parameters simultaneously: reflectivity, retardation, and slow optic axis orientation. This instrument was used to obtain 3D PS-OCT data sets of normal human corneas in vitro. From the 3D data sets, conventional cross sectional, as well as en face images of reflectivity, retardation, and optic axis orientation were derived. Preliminary results from a healthy cornea in vivo and a keratoconus cornea in vitro are also presented. In transversal direction the retardation distribution of the normal cornea has a radially symmetric shape; retardation is lowest at the center of the cornea and increases towards the periphery. At peripheral regions, retardation also increases with depth. The distribution of the optic axis is not constant with the parallel illumination scheme used. Optic axis orientation is an approximately linear function of azimuth angle, however, if averaged over the entire cornea, a preferential optic axis orientation is observed. In a keratoconus cornea, the normal birefringence pattern is heavily distorted. The results provide additional insight into corneal birefringence as compared to published work where corneal birefringence is usually averaged over a larger area. The results can be explained by a birefringence model based on stacked collagen fibril lamellae of different orientations. The observed birefringence patterns in normal corneas might be used as standard patterns for comparisons with pathologic changes.


Subject(s)
Cornea/anatomy & histology , Tomography, Optical Coherence , Birefringence , Cornea/physiology , Equipment Design , Humans , In Vitro Techniques , Keratoconus/diagnosis , Models, Biological , Reference Values , Tomography, Optical Coherence/instrumentation
8.
Opt Express ; 14(13): 5945-53, 2006 Jun 26.
Article in English | MEDLINE | ID: mdl-19516764

ABSTRACT

Optical coherence tomography (OCT) and its extension, polarization-sensitive (PS-)OCT, are techniques for contactless and nondestructive imaging of internal structures. In this work, we apply PS-OCT for material characterization. We use a transversal scanning, ultra-high resolution (UHR-)PS-OCT setup providing cross-sectional as well as inplane information about the internal microstructure, the birefringence and the orientation of the optical axis within the material. We perform structural analysis and strain-mapping for different samples: we show the necessity of UHR imaging for a highly strained elastomer sample, and we discuss the effect of large birefringence on the PS-OCT images. Furthermore, we investigate high-aspect ratio photoresist moulds for the production of microelectromechanical parts (MEMS), demonstrating that transversal UHR-PSOCT is a promising tool for non-destructive strain-mapping.

9.
Opt Express ; 11(8): 889-94, 2003 Apr 21.
Article in English | MEDLINE | ID: mdl-19461802

ABSTRACT

In this article we present a detailed discussion of noise sources in Fourier Domain Optical Coherence Tomography (FDOCT) setups. The performance of FDOCT with charge coupled device (CCD) cameras is compared to current standard time domain OCT systems. We describe how to measure sensitivity in the case of FDOCT and confirm the theoretically obtained values. It is shown that FDOCT systems have a large sensitivity advantage and allow for sensitivities well above 80dB, even in situations with low light levels and high speed detection.

10.
J Cataract Refract Surg ; 27(6): 861-7, 2001 Jun.
Article in English | MEDLINE | ID: mdl-11408132

ABSTRACT

PURPOSE: To evaluate the feasibility of using a new optical biometry technique, dual-beam partial coherence interferometry (PCI), to improve intraocular lens (IOL) power prediction in cataract surgery. SETTING: Department of Ophthalmology, Vienna General Hospital, and Institute of Medical Physics, University of Vienna, Vienna, Austria. METHODS: Preoperative axial length (AL) data obtained with PCI biometry and applanation ultrasound (US) biometry in 77 eyes of 51 patients was applied to 4 commonly used IOL power formulas. The refractive outcome and the mean absolute error (MAE) were calculated for each formula using both biometry methods. A linear multiple-regression model based on preoperative PCI biometry data was derived to predict the postoperative anterior chamber depth (ACD). The predictive power of this regression model was assessed by adding the predicted ACD to the SRK/T formula. Predicted residuals were calculated to evaluate the feasibility and stability of this modified IOL power formula. RESULTS: Using PCI instead of US biometry significantly improved the refractive outcome with all 4 IOL power formulas. The Holladay I and SRK/T formulas yielded an MAE of 0.44 diopter (D) using PCI AL data and 0.56 D and 0.57 D, respectively, using US biometry data. The SRK/T formula combined with the PCI regression model for postoperative ACD prediction performed slightly better (MAE 0.42 D) than the conventional SRK/T formula alone. Predicted residuals revealed an MAE of 0.46 D, proving the predictive performance of the new formula. CONCLUSIONS: Partial coherence interferometry biometry applied to several widely used IOL power formulas yielded significantly better IOL power prediction and therefore refractive outcome in cataract surgery than US biometry. Further improvement can be achieved by applying PCI to a modified SRK/T formula that predicts the postoperative ACD using PCI biometry data.


Subject(s)
Diagnostic Techniques, Ophthalmological , Lenses, Intraocular , Optics and Photonics , Biometry/methods , Cataract Extraction , Feasibility Studies , Humans , Interferometry , Lens Implantation, Intraocular , Sound
11.
Opt Lett ; 26(8): 518-20, 2001 Apr 15.
Article in English | MEDLINE | ID: mdl-18040371

ABSTRACT

Differential phase-contrast optical coherence tomography allows one to measure the path-length differences of two transversally separated beams in the nanometer range. We calculate these path-length differences from the phase functions of the interferometric signals. Pure phase objects consisting of chromium layers containing steps of approximately 100-200-nm height were imaged. Phase differences can be measured with a precision of +/-2 degrees , corresponding to a path-difference resolution of 2-3 nm. To investigate the influence of scattering, we imaged the phase objects through scattering layers with increasing scattering coefficients. The limit of phase imaging through these layers was at approximately 8-9 mean free path lengths thick (single pass).

12.
Opt Lett ; 26(23): 1864-6, 2001 Dec 01.
Article in English | MEDLINE | ID: mdl-18059719

ABSTRACT

Quantitative phase measurements by low-coherence interferometry and optical coherence tomography are restricted by the well-known 2pi ambiguity to path-length differences smaller than lambda/2 . We present a method that overcomes this ambiguity. Introducing a slight dispersion imbalance between reference and sample arms of the interferometer causes the short and long wavelengths of the source spectrum to separate within the interferometric signal. This causes the phase slope to vary within the signal. The phase-difference function between two adjacent sample beam components is calculated by subtraction of their phase functions obtained from phase-sensitive interferometric signal recording. Because of the dispersive effect, the phase difference varies across the interferometric signal. The slope of that phase difference is proportional to the optical path difference, without 2pi ambiguity.

13.
Opt Express ; 9(12): 610-5, 2001 Dec 03.
Article in English | MEDLINE | ID: mdl-19424297

ABSTRACT

Dispersive samples introduce a wavelength dependent phase distortion to the probe beam. This leads to a noticeable loss of depth resolution in high resolution OCT using broadband light sources. The standard technique to avoid this consequence is to balance the dispersion of the sample byarrangingadispersive materialinthereference arm. However, the impact of dispersion is depth dependent. A corresponding depth dependent dispersion balancing technique is diffcult to implement. Here we present a numerical dispersion compensation technique for Partial Coherence Interferometry (PCI) and Optical Coherence Tomography (OCT) based on numerical correlation of the depth scan signal with a depth variant kernel. It can be used a posteriori and provides depth dependent dispersion compensation. Examples of dispersion compensated depth scan signals obtained from microscope cover glasses are presented.

14.
Opt Express ; 9(13): 780-90, 2001 Dec 17.
Article in English | MEDLINE | ID: mdl-19424315

ABSTRACT

We present an improved method of polarization sensitive optical coherence tomography that enables measurement and imaging of backscattered intensity, birefringence, and fast optic axis orientation simultaneously with only one single A-scan per transverse measurement location. While intensity and birefringence data are obtained in a conventional way, the optic axis orientation is determined from the phase difference recorded in two orthogonal polarization channels. We report on accuracy and precision of the method by measuring birefringence and optic axis orientation of well defined polarization states in a technical object and present maps of birefringence and, what we believe for the first time, of optic axis orientation in biological tissue.

15.
Graefes Arch Clin Exp Ophthalmol ; 238(5): 385-92, 2000 May.
Article in English | MEDLINE | ID: mdl-10901469

ABSTRACT

BACKGROUND: The purpose of the study was to demonstrate the improved axial resolution and longitudinal stability of dual-beam optical coherence tomography (OCT) in comparison to conventional OCT setups used in commercially available OCT instruments. METHODS: The conventional OCT technique is based on an interferometric setup that is rather sensitive to axial eye motions. We have developed a special dual-beam OCT technique which eliminates the influence of axial eye motions. This is achieved by using the anterior corneal surface as the reference surface for the interferometric ranging. To improve the signal quality, the different wavefront curvatures of beams reflected at cornea and retina are matched by a diffractive optical element. To improve the axial resolution, a broadband synthesized light source with an effective bandwidth of 50 nm is used, and the group dispersion of the ocular media is compensated. Tomographic images were recorded in the fovea and the optic nerve head of healthy volunteers. For comparison purposes, approximately the same locations in the same eyes were imaged by a commercially available OCT instrument. RESULTS: Compared to the standard OCT technique, the dual-beam OCT images show considerably improved axial resolution. Especially in tomograms recorded at the fovea, dual-beam OCT resolves microstructural details that are not visible in the standard OCT images. Furthermore, the axial stability of dual-beam OCT enables the recording of exact geometrical contours of fundus layers. CONCLUSIONS: Dual-beam OCT is able to provide structural information on the ocular fundus that is not obtained with standard OCT. The long recording times of our instrument limit the transverse resolution to 100-150 microm at present.


Subject(s)
Fovea Centralis/anatomy & histology , Optic Disk/anatomy & histology , Tomography/standards , Humans , Optics and Photonics , Reference Values , Tomography/methods
16.
Caries Res ; 34(1): 59-69, 2000.
Article in English | MEDLINE | ID: mdl-10601786

ABSTRACT

Optical coherence tomography (OCT) has been developed during the last 10 years as a new noninvasive imaging tool and has been applied to diagnose different ocular and skin diseases. This technique has been modified for cross-sectional imaging of dental structures. In this first preliminary study the technique was applied to obtain tomographic images of extracted sound and decayed human teeth in order to evaluate its possible diagnostic potential for dental applications. Classical OCT images based on reflectivity measurements and phase retardation images using polarization-sensitive OCT were recorded. It was demonstrated that polarization-sensitive OCT can provide additional information which is probably related to the mineralization status and/or the scattering properties of the dental material. One of the attractive features of OCT is that it uses near-infrared light instead of ionizing radiation. Furthermore, high transversal and depth resolution on the order of 10 microm can be obtained. Present limitations, e.g. the limited penetration depth, and possible solutions are discussed.


Subject(s)
Dental Caries/diagnosis , Diagnosis, Oral/methods , Tomography/methods , Dental Enamel/anatomy & histology , Diagnosis, Oral/instrumentation , Humans , Interferometry/methods , Lasers , Microscopy, Polarization , Molar/anatomy & histology , Tomography/instrumentation , Tooth Crown/anatomy & histology , Transillumination/methods
17.
Opt Lett ; 25(11): 820-2, 2000 Jun 01.
Article in English | MEDLINE | ID: mdl-18064195

ABSTRACT

A new method of measurement that essentially combines Fourier-domain optical coherence tomography with spectroscopy is introduced. By use of a windowed Fourier transform it is possible to obtain, in addition to the object structure, spectroscopic information such as the absorption properties of materials. The feasibility of this new method for performing depth-resolved spectroscopy is demonstrated with a glass filter plate. The results are compared with theoretically calculated spectra by use of the well-known spectral characteristics of the light source and the filter plate.

18.
J Cataract Refract Surg ; 25(5): 659-62, 1999 May.
Article in English | MEDLINE | ID: mdl-10330641

ABSTRACT

PURPOSE: To quantify changes in intraocular lens (IOL) position caused by neodymium: YAG (Nd:YAG) capsulotomy with 3 IOL styles. SETTING: Department of Ophthalmology, University of Vienna, Austria. METHODS: In a prospective study, anterior chamber depth (ACD) was measured by dualbeam partial coherence interferometry (PCI) in 32 pseudophakic eyes of 32 patients with posterior capsule opacification before and immediately after planned capsulotomy under mydriasis. Patients were divided into 3 groups with the following IOL styles: 1-piece poly(methyl methacrylate) (PMMA), 3-piece foldable, and plate haptic. RESULTS: The capsulotomy induced a backward IOL movement in all 32 eyes (mean 25 microns; range 9 to 55 microns). It was more pronounced in eyes with plate-haptic IOLs than in those with the other styles. Precision of ACD measurement by PCI was 4 microns. Changes in ACD correlated significantly with capsulotomy size but not with preoperative lens-capsule distance. CONCLUSION: Capsulotomy caused a backward movement of the IOL, which was more pronounced with plate-haptic IOLs than with 1-piece PMMA and 3-piece foldable IOLs. Since the magnitude of IOL movement in this study population was small, a hyperopic shift in refraction after capsulotomy will usually be small and not clinically relevant.


Subject(s)
Foreign-Body Migration/etiology , Laser Therapy/adverse effects , Lens Capsule, Crystalline/surgery , Lenses, Intraocular , Adult , Aged , Aged, 80 and over , Anterior Chamber/pathology , Foreign-Body Migration/pathology , Humans , Interferometry , Lens Capsule, Crystalline/pathology , Light , Middle Aged , Polymethyl Methacrylate , Prospective Studies , Pseudophakia/complications
19.
Opt Lett ; 24(9): 622-4, 1999 May 01.
Article in English | MEDLINE | ID: mdl-18073803

ABSTRACT

We report on a modification of optical coherence tomography (OCT) that allows one to measure small phase differences between beams traversing adjacent areas of a specimen. The sample beam of a polarization-sensitive low-coherence interferometer is split by a Wollaston prism into two components that traverse the object along closely spaced paths. After reflection at the various sample surfaces, the beams are recombined at the Wollaston prism. Any phase difference encountered between the two beams is converted into a change of polarization state of the recombined beam. This change is measured, and the resulting signals are converted to differential phase-contrast OCT images. The first images obtained from simple test objects allowed us to determine path-difference gradients with a resolution of the order of 5 x 10(-5) .

20.
J Biomed Opt ; 4(1): 94, 1999 Jan.
Article in English | MEDLINE | ID: mdl-23015174

ABSTRACT

This Special Section Guest Editorial provides an overview of the topical area and an introduction to the articles featured in the special section.

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