Your search keyword '"Ralf P. Tornow"' showing total 30 results

1. Heart rate and age modulate retinal pulsatile patterns

Author

Ivana Labounková, René Labounek, Radim Kolář, Ralf P. Tornow, Charles F. Babbs, Collin M. McClelland, Benjamin R. Miller, and Igor Nestrašil

Subjects

Biology (General), QH301-705.5

Abstract

Video-recordings of retinal pulsatile patterns in human eye are modulated by heart rate and age. This invivo evidence fundamentally impacts modeling of retinal function and clinical design in wide range of medical specialties.

Published

2022

2. A multi-color video-ophthalmoscopes allows to measure the spectral distribution of light absorption of blood in the human retina

Author

Ralf-Peter Tornow, Jan Odstrcilik, and Radim Kolar

Subjects

blood light absorption, photoplethysmography, video ophthalmoscopy, retina, multi-color imaging, retinal imaging, Medicine (General), R5-920

Abstract

Based on our previously developed mono-color video-ophthalmoscope a multi-color video-ophthalmoscope was developed. Using narrow band transmission filters, this instrument allows to measure the pulsatile cardiac cycle induced blood volume changes in the human retina for any wavelength in the sensitivity range of the used CMOS-camera. In this key experiment, video sequences (8 s, 25 fps, 200 frames) of the optic nerve head (ONH) were acquire for seven wavelengths between 475 nm and 677 nm one after the other. After image registration of all frames of each video sequence (to compensate for eye movements) and trend correction (to compensate for slow intensity changes), the amplitude of the cardiac cycle induced light intensity changes (pulsatile absorption amplitude PAA) can be calculated for all seven wavelengths. The results confirmed that the spectral distribution of PAA (λ) follows the distribution of the light absorption of blood. The measured values correspond to the absorption of a thin blood layer of about 0.5 μm thickness.

Published

2023

3. Comparative analysis of retinal photoplethysmographic spatial maps and thickness of retinal nerve fiber layer.

Author

Jan Odstrcilik, Radim Kolar, Folkert Horn, and Ralf-Peter Tornow

Subjects

Medicine, Science

Abstract

The paper presents a comparative study of the pulsatile attenuation amplitude (PAA) within the optic nerve head (ONH) at four different areas calculated from retinal video sequences and its relevance to the retinal nerve fiber layer thickness (RNFL) changes in normal subjects and patients with different stages of glaucoma. The proposed methodology utilizes processing of retinal video sequences acquired by a novel video ophthalmoscope. The PAA parameter measures the amplitude of heartbeat-modulated light attenuation in retinal tissue. Correlation analysis between PAA and RNFL is performed in vessel-free locations of the peripapillary region with the proposed evaluating patterns: 360° circular area, temporal semi-circle, nasal semi-circle. For comparison, the full ONH area is also included. Various positions and sizes of evaluating patterns in peripapillary region were tested which resulted in different outputs of correlation analysis. The results show significant correlation between PAA and RNFL thickness calculated in proposed areas. The highest correlation coefficient Rtemp = 0.557 (p

Published

2023

4. Assessment of retinal vein pulsation through video-ophthalmoscopy and simultaneous biosignals acquisition

Author

Radim Kolar, Tomas Vicar, Jiri Chmelik, Roman Jakubicek, Jan Odstrcilik, Eva Valterova, Michal Nohel, Karolina Skorkovska, and Ralf P. Tornow

Subjects

retina, video-ophtalmoscope, vein pulsation, biosignals, Atomic and Molecular Physics, and Optics, Biotechnology

Abstract

The phenomenon of retinal vein pulsation is still not a deeply understood topic in retinal hemodynamics. In this paper, we present a novel hardware solution for recording retinal video sequences and physiological signals using synchronized acquisition, we apply the photoplethysmographic principle for the semi-automatic processing of retinal video sequences and we analyse the timing of the vein collapse within the cardiac cycle using of an electrocardiographic signal (ECG). We measured the left eyes of healthy subjects and determined the phases of vein collapse within the cardiac cycle using a principle of photoplethysmography and a semi-automatic image processing approach. We found that the time to vein collapse (Tvc) is between 60 ms and 220 ms after the R-wave of the ECG signal, which corresponds to 6% to 28% of the cardiac cycle. We found no correlation between Tvc and the duration of the cardiac cycle and only a weak correlation between Tvc and age (0.37, p = 0.20), and Tvc and systolic blood pressure (-0.33, p = 0.25). The Tvc values are comparable to those of previously published papers and can contribute to the studies that analyze vein pulsations.

Published

2023

5. Blind Source Separation of Retinal Pulsatile Patterns in Optic Nerve Head Video-Recordings

Author

René Labounek, Ivana Labounkova, Jan Odstrcilik, Igor Nestrasil, Ralf P. Tornow, and Radim Kolar

Subjects

genetic structures, Computer science, Optic Disk, Video Recording, Pulsatile flow, Optic cup (anatomical), Blind signal separation, Retina, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Optical imaging, medicine, Humans, Electrical and Electronic Engineering, Monocular, Radiological and Ultrasound Technology, Retinal, Independent component analysis, Healthy Volunteers, Computer Science Applications, Ophthalmoscopy, medicine.anatomical_structure, chemistry, Optic nerve, sense organs, Software, Biomedical engineering

Abstract

Dynamic optical imaging of retinal hemodynamics is a rapidly evolving technique in vision and eye-disease research. Video-recording, which may be readily accessible and affordable, captures several distinct functional phenomena such as the spontaneous venous pulsations (SVP) of central vein or local arterial blood supply etc. These phenomena display specific dynamic patterns that have been detected using manual or semi-automated methods. We propose a pioneering concept in retina video-imaging using blind source separation (BSS) serving as an automated localizer of distinct areas with temporally synchronized hemodynamics. The feasibility of BSS techniques (such as spatial principal component analysis and spatial independent component analysis) and K-means based post-processing method were successfully tested on the monocular and binocular video-ophthalmoscopic (VO) recordings of optic nerve head (ONH) in healthy subjects. BSSs automatically detected three spatially distinct reproducible areas, i.e. SVP, optic cup pulsations (OCP) that included areas of larger vessels in the nasal part of ONH, and "other" pulsations (OP). The K-means post-processing reduced a spike noise from the patterns' dynamics while high linear dependence between the non-filtered and post-processed signals was preserved. Although the dynamics of all patterns were heart rate related, the morphology analysis demonstrated significant phase shifts between SVP and OCP, and between SVP and OP. In addition, we detected low frequency oscillations that may represent respiratory-induced effects in time-courses of the VO recordings.

Published

2021

6. Heart rate and age modulate retinal pulsatile patterns

Author

Ivana Labounková, René Labounek, Radim Kolář, Ralf P. Tornow, Charles F. Babbs, Collin M. McClelland, Benjamin R. Miller, and Igor Nestrašil

Subjects

Optic Disk, Medicine (miscellaneous), Retinal Vein, General Biochemistry, Genetics and Molecular Biology, image processing, optical imaging, translational research, Heart Rate, Pulsatile Flow, blood flow, ocular hypertension, Humans, General Agricultural and Biological Sciences, Intraocular Pressure

Abstract

Video-recordings of retinal pulsatile patterns in human eye are modulated by heart rate and age. This invivo evidence fundamentally impacts modeling of retinal function and clinical design in wide range of medical specialties. Theoretical models of retinal hemodynamics showed the modulation of retinal pulsatile patterns (RPPs) by heart rate (HR), yet in-vivo validation and scientific merit of this biological process is lacking. Such evidence is critical for result interpretation, study design, and (patho-)physiological modeling of human biology spanning applications in various medical specialties. In retinal hemodynamic video-recordings, we characterize the morphology of RPPs and assess the impact of modulation by HR or other variables. Principal component analysis isolated two RPPs, i.e., spontaneous venous pulsation (SVP) and optic cup pulsation (OCP). Heart rate modulated SVP and OCP morphology (p(FDR) < 0.05); age modulated SVP morphology (p(FDR) < 0.05). In addition, age and HR demonstrated the effect on between-group differences. This knowledge greatly affects future study designs, analyses of between-group differences in RPPs, and biophysical models investigating relationships between RPPs, intracranial, intraocular pressures, and cardiovascular physiology.

Published

2021

7. Blind Source Separation of Different Retinal Pulsatile Patterns from Simultaneous Long-term Binocular Ophthalmoscopic Video-records

Author

René Labounek, Michal Hracho, Ralf P. Tornow, Jan Odstrcilik, Radim Kolar, Ivana Labounkova, and Igor Nestrasil

Subjects

Computer science, Optic Disk, Phase (waves), Optic disk, Video Recording, Blind signal separation, Retina, Ophthalmoscopy, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Humans, Segmentation, medicine.diagnostic_test, business.industry, Ophthalmoscopes, Pattern recognition, Retinal, Intensity (physics), medicine.anatomical_structure, chemistry, Principal component analysis, 030221 ophthalmology & optometry, Artificial intelligence, business, 030217 neurology & neurosurgery, Optic disc

Abstract

Optical imaging of retinal hemodynamic function is an important part of ophthalmologic research. Development and inventing of imaging devices and data analysis methods are both just in progress. The current study innovatively implements two blind source separation (BSS) techniques (i.e. spatial Principal Component Analysis – sPCA; and spatial Independent Component Analysis – sICA) in application of an automatic detection and segmentation of a distinct Optic Disc (OD) areas with different hemodynamic properties from a simultaneous binocular video-ophthalmoscopic records. Both methods detected 3 different spatial patterns mostly symmetric over both eyes stable and reproducible over investigated participants, i.e. central Spontaneous Vessel Pulsations (SVPs), inner OD intensity pulsations and other OD pulsations. Dynamics of all mentioned patterns has a periodic character with similar main frequency (possibly corresponding to subject-specific heart rate) but shifted phase decreasing patterns’ mutual high cross-correlations. The sICA estimates a higher rate of phase shifts than sPCA.

Published

2020

8. Estimation of Time Delay Between Artery and Vein Pulsation using Experimental Video-Ophthalmoscope

Author

Eva Valterova, Radim Kolar, and Ralf P. Tornow

Subjects

Fundus Oculi, Retinal Artery, business.industry, Ophthalmoscopes, Medical practice, Retinal Vein, 01 natural sciences, Retina, Time, Time–frequency analysis, 010309 optics, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Fundus (uterus), 0103 physical sciences, 030221 ophthalmology & optometry, medicine, Humans, business, Artery, Biomedical engineering

Abstract

The fundus observation by ophthalmoscope is a non-invasive approach for diagnosis of various retinal diseases. The vein and artery pulsation are usually clearly apparent on fundus and might be also important for medical practice. Thus our method focuses on these changes and analyzes the time delay between the pulsation signal detected in the vein and the artery region. Data acquired by an experimental video-ophthalmoscope from five subjects with no eye diseases are analyzed. The analysis is based on the selection of artery and vein regions of interest and computation of averaged brightness within these regions for each frame. These extracted signals are filtered, interpolated and the trend is eliminated. Finally, the delays between artery and vein pulsation signals are determined using phase spectra. The measured delays are in the range of 15 to 95 ms, which is comparable with other published results.

Published

2019

9. Eye movement analysis using a binocular video-ophthalmoscope

Author

Michal Hracho, Ralf P. Tornow, Radim Kolar, Jan Odstrcilik, and Ivana Labounkova

Subjects

Vision, Binocular, Retina, Monocular, Eye Movements, genetic structures, Computer science, Ophthalmoscopes, Eye movement, Fixation, Ocular, eye diseases, 03 medical and health sciences, Eye position, 0302 clinical medicine, medicine.anatomical_structure, Fixation (visual), 030221 ophthalmology & optometry, medicine, Humans, Optometry, sense organs, 030217 neurology & neurosurgery

Abstract

This paper describes an application of binocular video-ophthalmoscope for binocular eye movement analysis during target fixation. We analyze eye movements during monocular and binocular fixation and the changes in eye position for 73 subjects. We show that the standard deviations of differences between eye shifts for vertical and horizontal movements are higher for binocular fixation with respect to monocular fixation. We also present different examples of eye movement visualization.

Published

2019

10. Flicker-defined form perimetry in glaucoma patients

Author

Jan Kremers, Werner Adler, Folkert K. Horn, Ralf P. Tornow, Anselm G. Jünemann, and Christian Y. Mardin

Subjects

Male, medicine.medical_specialty, Refractive error, genetic structures, Vision Disorders, Visual Acuity, Glaucoma, Tonometry, Ocular, Cellular and Molecular Neuroscience, Ophthalmology, Optic Nerve Diseases, Humans, Medicine, Intraocular Pressure, Aged, Receiver operating characteristic, business.industry, Automated perimetry, Flicker, Pupil size, Middle Aged, medicine.disease, eye diseases, Sensory Systems, Visual field, medicine.anatomical_structure, Visual Field Tests, Optometry, Female, Visual Fields, business, Glaucoma, Open-Angle, Optic disc

Abstract

To assess the potential of flicker-defined form (FDF) perimetry to detect functional loss in patient groups with beginning glaucoma, and to evaluate the dynamic range of the FDF stimulus in individual patients and at individual test positions. FDF perimetry and standard automated perimetry (SAP) were performed at identical test locations (adapted G1 protocol) in 60 healthy subjects and 111 glaucoma patients. All patients showed glaucomatous optic disc appearance. Grouping within the glaucoma cohort was based on SAP-performance: 33 “preperimetric” open-angle glaucoma (OAG) patients, 28 “borderline” OAG (focal defects and SAP-mean defect (MD)

Published

2014

11. Automatic Detection of Spontaneous Venous Pulsations Using Retinal Image Sequences

Author

Radim Kolar, Ivana Liberdova, Michal Hracho, Ralf P. Tornow, and Jan Odstrcilik

Subjects

chemistry.chemical_compound, chemistry, Computer science, business.industry, medicine, Glaucoma, Image processing, Retinal, Computer vision, Artificial intelligence, medicine.disease, business, Retinal image

Abstract

This paper proposes a method of automated detection and parameterization of spontaneous venous pulsation using raw video data acquired from retinal video-ophthalmoscope. Evaluation of magnitude of spontaneous venous pulsation has been proven to correlate with occurrence of glaucoma. Based on this relation a method is proposed that might help to detect glaucoma via detection of spontaneous venous pulsation.

Published

2017

12. Binocular video ophthalmoscope for simultaneous recording of sequences of the human retina to compare dynamic parameters

Author

Aleksandra Milczarek, Jan Odstrcilik, Ralf P. Tornow, and Radim Kolar

Subjects

Retina, genetic structures, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image registration, Eye movement, Video sequence, eye diseases, Synchronization, Fundus camera, medicine.anatomical_structure, medicine, Retinal imaging, Computer vision, sense organs, Artificial intelligence, business

Abstract

A parallel video ophthalmoscope was developed to acquire short video sequences (25 fps, 250 frames) of both eyes simultaneously with exact synchronization. Video sequences were registered off-line to compensate for eye movements. From registered video sequences dynamic parameters like cardiac cycle induced reflection changes and eye movements can be calculated and compared between eyes.

Published

2017

13. Detection of distorted frames in retinal video-sequences via machine learning

Author

Ivana Liberdova, Radim Kolar, Jan Odstrcilik, Michal Hracho, and Ralf P. Tornow

Subjects

Computer science, business.industry, Feature vector, Distortion (optics), Frame (networking), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Video sequence, Retinal, Support vector machine, Set (abstract data type), chemistry.chemical_compound, chemistry, Retinal imaging, Computer vision, Artificial intelligence, business

Abstract

This paper describes detection of distorted frames in retinal sequences based on set of global features extracted from each frame. The feature vector is consequently used in classification step, in which three types of classifiers are tested. The best classification accuracy 96% has been achieved with support vector machine approach.

Published

2017

14. Retinal image registration for eye movement estimation

Author

Ralf P. Tornow, Radim Kolar, and Jan Odstrcilik

Subjects

Computer science, business.industry, Perspective (graphical), Representation (systemics), Retinal image registration, Eye movement, Image registration, Fixation, Ocular, Retina, Ophthalmoscopy, Fixation (visual), Image Processing, Computer-Assisted, Humans, Computer vision, Artificial intelligence, business

Abstract

This paper describes a novel methodology for eye fixation measurement using a unique videoophthalmoscope setup and advanced image registration approach. The representation of the eye movements via Poincare plot is also introduced. The properties, limitations and perspective of this methodology are finally discussed.

Published

2016

15. Registration of retinal sequences from new video-ophthalmoscopic camera

Author

Ivana Liberdova, Jan Odstrcilik, Ralf P. Tornow, and Radim Kolar

Subjects

Eye Movements, Biomedical Engineering, Image registration, 02 engineering and technology, Signal-To-Noise Ratio, Biology, Tracking (particle physics), Retina, 030218 nuclear medicine & medical imaging, Biomaterials, 03 medical and health sciences, Speckle pattern, 0302 clinical medicine, Medizinische Fakultät, Video-ophthalmoscopy, Image Processing, Computer-Assisted, 0202 electrical engineering, electronic engineering, information engineering, medicine, Humans, Radiology, Nuclear Medicine and imaging, Computer vision, ddc:610, Radiological and Ultrasound Technology, business.industry, Research, Tracking, Ophthalmoscopes, Retinal imaging, Retinal Vessels, Videotape Recording, Eye movement, General Medicine, medicine.anatomical_structure, Phase correlation, Fixation (visual), 020201 artificial intelligence & image processing, Artificial intelligence, sense organs, business, Rotation (mathematics), Algorithms, Optic disc

Abstract

Background Analysis of fast temporal changes on retinas has become an important part of diagnostic video-ophthalmology. It enables investigation of the hemodynamic processes in retinal tissue, e.g. blood-vessel diameter changes as a result of blood-pressure variation, spontaneous venous pulsation influenced by intracranial-intraocular pressure difference, blood-volume changes as a result of changes in light reflection from retinal tissue, and blood flow using laser speckle contrast imaging. For such applications, image registration of the recorded sequence must be performed. Methods Here we use a new non-mydriatic video-ophthalmoscope for simple and fast acquisition of low SNR retinal sequences. We introduce a novel, two-step approach for fast image registration. The phase correlation in the first stage removes large eye movements. Lucas-Kanade tracking in the second stage removes small eye movements. We propose robust adaptive selection of the tracking points, which is the most important part of tracking-based approaches. We also describe a method for quantitative evaluation of the registration results, based on vascular tree intensity profiles. Results The achieved registration error evaluated on 23 sequences (5840 frames) is 0.78 ± 0.67 pixels inside the optic disc and 1.39 ± 0.63 pixels outside the optic disc. We compared the results with the commonly used approaches based on Lucas-Kanade tracking and scale-invariant feature transform, which achieved worse results. Conclusion The proposed method can efficiently correct particular frames of retinal sequences for shift and rotation. The registration results for each frame (shift in X and Y direction and eye rotation) can also be used for eye-movement evaluation during single-spot fixation tasks.

Published

2016

16. Super-Resolved Retinal Image Mosaicing

Author

Joachim Hornegger, Thomas Köhler, Andreas Maier, Ralf P. Tornow, and Axel Heinrich

Subjects

FOS: Computer and information sciences, Computer science, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition, Optic disk, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, Fundus (eye), Tracking (particle physics), 01 natural sciences, Fundus camera, 030218 nuclear medicine & medical imaging, 010309 optics, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, 0103 physical sciences, medicine, Computer vision, Retina, business.industry, Eye movement, Retinal, Superresolution, Retinal image, medicine.anatomical_structure, chemistry, Eye tracking, Artificial intelligence, business

Abstract

The acquisition of high-resolution retinal fundus images with a large field of view (FOV) is challenging due to technological, physiological and economic reasons. This paper proposes a fully automatic framework to reconstruct retinal images of high spatial resolution and increased FOV from multiple low-resolution images captured with non-mydriatic, mobile and video-capable but low-cost cameras. Within the scope of one examination, we scan different regions on the retina by exploiting eye motion conducted by a patient guidance. Appropriate views for our mosaicing method are selected based on optic disk tracking to trace eye movements. For each view, one super-resolved image is reconstructed by fusion of multiple video frames. Finally, all super-resolved views are registered to a common reference using a novel polynomial registration scheme and combined by means of image mosaicing. We evaluated our framework for a mobile and low-cost video fundus camera. In our experiments, we reconstructed retinal images of up to 30{\deg} FOV from 10 complementary views of 15{\deg} FOV. An evaluation of the mosaics by human experts as well as a quantitative comparison to conventional color fundus images encourage the clinical usability of our framework., Comment: accepted for 2016 IEEE 13th International Symposium on Biomedical Imaging (ISBI 2016)

Published

2016

17. On- and off-response ERGs elicited by sawtooth stimuli in normal subjects and glaucoma patients

Author

Jan Kremers, Ralf P. Tornow, Folkert K. Horn, Gobinda Pangeni, and Robert Lämmer

Subjects

Male, medicine.medical_specialty, genetic structures, media_common.quotation_subject, Glaucoma, Sawtooth wave, Retina, chemistry.chemical_compound, Nerve Fibers, Optics, Physiology (medical), Ophthalmology, Optic Nerve Diseases, Electroretinography, medicine, Humans, Contrast (vision), Intraocular Pressure, Aged, media_common, Mathematics, business.industry, Retinal, Middle Aged, medicine.disease, Control subjects, eye diseases, Sensory Systems, Visual field, chemistry, Visual Field Tests, Female, sense organs, Off response, Visual Fields, business, Erg, Glaucoma, Open-Angle, Photic Stimulation, Tomography, Optical Coherence

Abstract

The aim of this study is to measure the on- and off-responses and their response asymmetries elicited by sawtooth stimuli in normal subjects and glaucoma patients. Furthermore, the correlation between the ERGs and other functional and structural parameters are investigated. Full-field stimuli were produced using a Ganzfeld bowl with Light Emitting Diodes (LEDs) as light sources. On- and off-response ERGs were recorded from 17 healthy subjects, 12 pre-perimetric and 15 perimetric glaucoma patients using 4-Hz luminance rapid-on and rapid-off sawtooth stimuli (white light; mean luminance 55 cd/m2) at 100 % contrast. The on- and off-responses were added to study response asymmetries. In addition, flash ERGs were elicited by red stimuli (200 cd/m2) on a blue background (10 cd/m2). The mean deviations (MD) of the visual field defects were obtained by standard automated perimetry. The retinal nerve fibre layer thickness (RNFLT) was measured with Spectral Domain Optical Coherence Tomography (SOCT). We studied the correlation between ERG response amplitudes, visual field mean deviation (MDs) and RNFLT values. The on-responses showed an initial negative (N-on) followed by a positive (P-on), a late positive (LP-on) and a late negative responses (LN-on). The off-responses showed an initial positive (P-off) a late positive (LP-off) and a late negative response (LN-off). The addition of on- and off-responses revealed an initial positive (P-add) and a late negative response (LN-add). The on-response components (N-on, P-on and LN-on) in the glaucoma patients were relatively similar to those of the control subjects. However, the LP-on was significantly elevated (p = 0.03) in perimetric patients. The LP-off was significantly elevated (p

Published

2012

18. Objective perimetry using a four-channel multifocal VEP system: correlation with conventional perimetry and thickness of the retinal nerve fibre layer

Author

Ralf P. Tornow, C. Kaltwasser, Jan Kremers, Folkert K. Horn, and Anselm G. Jünemann

Subjects

Adult, Male, Retinal Ganglion Cells, Intraocular pressure, medicine.medical_specialty, genetic structures, Glaucoma, Nerve fibre layer, Severity of Illness Index, Correlation, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Nerve Fibers, Optical coherence tomography, Medizinische Fakultät, Ophthalmology, medicine, Electrode array, Humans, ddc:610, Scotoma, Intraocular Pressure, medicine.diagnostic_test, business.industry, Retinal, Equipment Design, Middle Aged, medicine.disease, eye diseases, Sensory Systems, Visual field, chemistry, Evoked Potentials, Visual, Visual Field Tests, Female, Visual Fields, business, Glaucoma, Open-Angle, Tomography, Optical Coherence

Abstract

Purpose There is evidence that multifocal visual evoked potentials (VEPs) can be used as an objective tool to detect visual field loss. The aim of this study was to correlate multifocal VEP amplitudes with standard perimetry data and retinal nerve fibre layer (RNFL) thickness. Method Multifocal VEP recordings were performed with a four-channel electrode array using 58 stimulus fields (pattern reversal dartboard). For each field, the recording from the channel with maximal signal-to-noise ratio (SNR) was retained, resulting in an SNR optimised virtual recording. Correlation with RNFL thickness, measured with spectral domain optical coherence tomography and with standard perimetry, was performed for nerve fibre bundle related areas. Results The mean amplitudes in nerve fibre related areas were smaller in glaucoma patients than in normal subjects. The differences between both groups were most significant in mid-peripheral areas. Amplitudes in these areas were significantly correlated with corresponding RNFL thickness (Spearman R=0.76) and with standard perimetry (R=0.71). Conclusion The multifocal VEP amplitude was correlated with perimetric visual field data and the RNFL thickness of the corresponding regions. This method of SNR optimisation is useful for extracting data from recordings and may be appropriate for objective assessment of visual function at different locations. Trial registration number This study has been registered at http://www.clinicaltrials.gov (NCT00494923).

Published

2011

19. Retinal Nerve Fiber Layer Thickness in Normals Measured by Spectral Domain OCT

Author

Folkert K. Horn, Delia Bendschneider, Anselm G M Juenemann, Robert Laemmer, Christian Y. Mardin, Christopher W. Roessler, Ralf P. Tornow, and Friedrich E. Kruse

Subjects

Adult, Male, Retinal Ganglion Cells, medicine.medical_specialty, genetic structures, Optic Disk, Optic disk, Nerve fiber layer, Glaucoma, Spectral domain, Normal values, Young Adult, chemistry.chemical_compound, Nerve Fibers, Sex Factors, Optical coherence tomography, Reference Values, Ophthalmology, medicine, Humans, Aged, medicine.diagnostic_test, business.industry, Age Factors, Retinal, Middle Aged, medicine.disease, eye diseases, Cross-Sectional Studies, medicine.anatomical_structure, chemistry, Female, sense organs, Tomography, business, Tomography, Optical Coherence

Abstract

To determine normal values for peripapillary retinal nerve fiber layer thickness (RNFL) measured by spectral domain Optical Coherence Tomography (SOCT) in healthy white adults and to examine the relationship of RNFL with age, gender, and clinical variables.The peripapillary RNFL of 170 healthy patients (96 males and 74 females, age 20 to 78 y) was imaged with a high-resolution SOCT (Spectralis HRA+OCT, Heidelberg Engineering) in an observational cross-sectional study. RNFL thickness was measured around the optic nerve head using 16 automatically averaged, consecutive circular B-scans with 3.4-mm diameter. The automatically segmented RNFL thickness was divided into 32 segments (11.25 degrees each). One randomly selected eye per subject entered the study.Mean RNFL thickness in the study population was 97.2 ± 9.7 μm. Mean RNFL thickness was significantly negatively correlated with age (r = -0.214, P = 0.005), mean RNFL decrease per decade was 1.90 μm. As age dependency was different in different segments, age-correction of RNFL values was made for all segments separately. Age-adjusted RNFL thickness showed a significant correlation with axial length (r = -0.391, P = 0.001) and with refractive error (r = 0.396, P0.001), but not with disc size (r = 0.124).Normal RNFL results with SOCT are comparable to those reported with time-domain OCT. In accordance with the literature on other devices, RNFL thickness measured with SOCT was significantly correlated with age and axial length. For creating a normative database of SOCT RNFL values have to be age adjusted.

Published

2010

20. Lasers in ophthalmology

Author

Friedrich E. Kruse, Christian Y. Mardin, and Ralf P. Tornow

Subjects

Engineering, medicine.medical_specialty, business.industry, Laser, Glaucoma, Physics and Astronomy(all), Eye, eye diseases, law.invention, Lens (optics), Ophthalmology, medicine.anatomical_structure, law, Cornea, Diagnosis, medicine, Therapy, sense organs, business

Abstract

Lasers are widely used in Ophthalmology. The unique transparent tissues of the eye’s cornea, lens and vitreous body make lasers an ideal medium for diagnosis and therapy. They are incorporated in well established commercially available ophthalmic instruments but they also play an important role in new developments and research work. This paper gives a short overview on selected laser applications in our department.

Published

2010

21. Non-mydriatic video ophthalmoscope to measure fast temporal changes of the human retina

Author

Radim Kolář, Ralf P. Tornow, and Jan Odstrcilik

Subjects

Retina, genetic structures, Cardiac cycle, business.industry, Computer science, Eye disease, Image registration, Eye movement, Glaucoma, medicine.disease, eye diseases, Pupil, medicine.anatomical_structure, Fixation (visual), medicine, Computer vision, sense organs, Artificial intelligence, business

Abstract

The analysis of fast temporal changes of the human retina can be used to get insight to normal physiological behavior and to detect pathological deviations. This can be important for the early detection of glaucoma and other eye diseases. We developed a small, lightweight, USB powered video ophthalmoscope that allows taking video sequences of the human retina with at least 25 frames per second without dilating the pupil. Short sequences (about 10 s) of the optic nerve head (20° x 15°) are recorded from subjects and registered offline using two-stage process (phase correlation and Lucas-Kanade approach) to compensate for eye movements. From registered video sequences, different parameters can be calculated. Two applications are described here: measurement of (i) cardiac cycle induced pulsatile reflection changes and (ii) eye movements and fixation pattern. Cardiac cycle induced pulsatile reflection changes are caused by changing blood volume in the retina. Waveform and pulse parameters like amplitude and rise time can be measured in any selected areas within the retinal image. Fixation pattern ΔY(ΔX) can be assessed from eye movements during video acquisition. The eye movements ΔX[t], ΔY[t] are derived from image registration results with high temporal (40 ms) and spatial (1,86 arcmin) resolution. Parameters of pulsatile reflection changes and fixation pattern can be affected in beginning glaucoma and the method described here may support early detection of glaucoma and other eye disease.

Published

2015

22. Multi-frame super-resolution with quality self-assessment for retinal fundus videos

Author

Thomas, Köhler, Alexander, Brost, Katja, Mogalle, Qianyi, Zhang, Christiane, Köhler, Georg, Michelson, Joachim, Hornegger, and Ralf P, Tornow

Subjects

Fundus Oculi, Subtraction Technique, Image Interpretation, Computer-Assisted, Video Recording, Humans, Reproducibility of Results, Retinal Vessels, Image Enhancement, Sensitivity and Specificity, Algorithms, Feedback, Retinoscopy

Abstract

This paper proposes a novel super-resolution framework to reconstruct high-resolution fundus images from multiple low-resolution video frames in retinal fundus imaging. Natural eye movements during an examination are used as a cue for super-resolution in a robust maximum a-posteriori scheme. In order to compensate heterogeneous illumination on the fundus, we integrate retrospective illumination correction for photometric registration to the underlying imaging model. Our method utilizes quality self-assessment to provide objective quality scores for reconstructed images as well as to select regularization parameters automatically. In our evaluation on real data acquired from six human subjects with a low-cost video camera, the proposed method achieved considerable enhancements of low-resolution frames and improved noise and sharpness characteristics by 74%. In terms of image analysis, we demonstrate the importance of our method for the improvement of automatic blood vessel segmentation as an example application, where the sensitivity was increased by 13% using super-resolution reconstruction.

Published

2014

23. In Response

Author

Wolfgang A. Schrems, Christian Y. Mardin, Folkert K. Horn, Ralf P. Tornow, and Robert Laemmer

Subjects

Ophthalmology

Published

2010

24. Perimetric measurements with flicker-defined form stimulation in comparison with conventional perimetry and retinal nerve fiber measurements

Author

Jan Kremers, Folkert K. Horn, Ralf P. Tornow, Anselm G. Jünemann, and Robert Laemmer

Subjects

Male, Retinal Ganglion Cells, medicine.medical_specialty, genetic structures, Optic Disk, Nerve fiber layer, Photopsia, Glaucoma, Nerve fiber, Flicker Fusion, chemistry.chemical_compound, Tonometry, Ocular, Nerve Fibers, Optical coherence tomography, Ophthalmology, medicine, Humans, Intraocular Pressure, medicine.diagnostic_test, business.industry, Reproducibility of Results, Retinal, Middle Aged, medicine.disease, eye diseases, medicine.anatomical_structure, chemistry, ROC Curve, Visual Field Tests, Female, sense organs, medicine.symptom, High intraocular pressure, business, Glaucoma, Open-Angle, Photic Stimulation, Tomography, Optical Coherence, Optic disc

Abstract

PURPOSE We compared the results of flicker-defined form (FDF) perimetry with standard automated perimetry (SAP) and retinal nerve fiber layer (RNFL) thickness measurements using spectral domain optical coherence tomography (OCT). METHODS A total of 64 healthy subjects, 45 ocular hypertensive patients, and 97 "early" open-angle glaucoma (OAG) patients participated in this study. Definition of glaucoma was based exclusively on glaucomatous optic disc appearance. All subjects underwent FDF perimetry, SAP, and peripapillary measurements of the RNFL thickness. The FDF perimetry and SAP were performed at identical test locations (G1 protocol). Exclusion criteria were subjects younger than 34 years, SAP mean defect (SAP MD) > 5 dB, eye diseases other than glaucoma, or nonreliable FDF measurements. The correlations between the perimetric data on one hand and RNFL thicknesses on the other hand were analyzed statistically. RESULTS The age-corrected sensitivity values and the local results from the controls were used to determine FDF mean defect (FDF MD). The FDF perimetry and SAP showed high concordance in this cohort of experienced patients (MD values, R = -0.69, P < 0.001). Of a total of 42 OAG patients with abnormal SAP MD, 38 also displayed abnormal FDF MD. However, FDF MD was abnormal in 28 of 55 OAG patients with normal SAP MD. The FDF MD was significantly (R = -0.61, P < 0.001) correlated with RNFL thickness with a (nonsignificantly) larger correlation coefficient than conventional SAP MD (R = -0.48, P < 0.001). CONCLUSIONS The FDF perimetry is able to uncover functional changes concurrent with the changes in RNFL thickness. The FDF perimetry may be an efficient functional test to detect early glaucomatous nerve atrophy. (ClinicalTrials.gov number, NCT00494923.).

Published

2013

25. Glaucoma diagnostic performance of GDxVCC and spectralis OCT on eyes with atypical retardation pattern

Author

Robert Laemmer, Christian Y. Mardin, Wolfgang A. Schrems, Anselm G M Juenemann, L. M. Hoesl, Friedrich E. Kruse, Folkert K. Horn, and Ralf P. Tornow

Subjects

Male, Retinal Ganglion Cells, Intraocular pressure, medicine.medical_specialty, genetic structures, Optic Disk, Nerve fiber layer, Scanning laser polarimetry, Glaucoma, Nerve fiber, Sensitivity and Specificity, Nerve Fibers, Optical coherence tomography, Ophthalmology, Optic Nerve Diseases, Medicine, Humans, Intraocular Pressure, Receiver operating characteristic, medicine.diagnostic_test, business.industry, Reproducibility of Results, Middle Aged, medicine.disease, eye diseases, medicine.anatomical_structure, Cross-Sectional Studies, ROC Curve, Scanning Laser Polarimetry, Visual Field Tests, Female, Ocular Hypertension, sense organs, Visual Fields, business, Glaucoma, Open-Angle, Tomography, Optical Coherence, Optic disc

Abstract

PURPOSE To investigate the impact of typical scan score (TSS) on discriminating glaucomatous and healthy eyes by scanning laser polarimetry and spectral domain optical coherence tomography (SD-OCT) in 32 peripapillary sectors. PATIENTS AND METHODS One hundred two glaucoma patients and 32 healthy controls underwent standard automated perimetry, 24-hour intraocular pressure profile, optic disc photography, GDxVCC, and SD-OCT measurements. For controls, only very typical scans (TSS=100) were accepted. Glaucoma patients were divided into 3 subgroups (very typical: TSS=100; typical: 99≥TSS≥80, atypical: TSS

Published

2011

26. Atypical retardation patterns in scanning laser polarimetry are associated with low peripapillary choroidal thickness

Author

Wolfgang A. Schrems, Ralf P. Tornow, Markus A. Mayer, Folkert K. Horn, Delia Bendschneider, Robert Lämmer, and Christian Y. Mardin

Subjects

Retinal Ganglion Cells, medicine.medical_specialty, Birefringence, Light, business.industry, Choroid, Healthy subjects, Scanning laser polarimetry, Spectral domain, Retinal Pigment Epithelium, Refraction, Ocular, Sclera, Ocular physiology, medicine.anatomical_structure, Nerve Fibers, Scanning Laser Polarimetry, Ophthalmology, medicine, Humans, Visual Field Tests, Bruch Membrane, Visual Fields, business, Tomography, Optical Coherence

Abstract

PURPOSE. Scanning laser polarimetry (SLP) results can be affected by an atypical retardation pattern (ARP). One reason for an ARP is the birefringence of the sclera. The purpose of this study was to investigate the influence of the peripapillary choroidal thickness (pChTh) on the occurrence of ARP. METHODS. One hundred ten healthy subjects were investigated with SLP and spectral domain OCT. pChTh was measured in B-scan images at 768 positions using semiautomatic software. Values were averaged to 32 sectors and the total peripapillary mean. Subjects were divided into four groups according to the typical scan score (TSS) provided by the GDxVCC: group 1 TSS, 100; group 2 TSS, 90‐99; group 3 TSS, 80‐89; group 4 TSS, 80. RESULTS. Mean pChTh ( SD) in 110 healthy subjects was 141 m( 49 m). There was a significant correlation between pChTh and TSS (r 0.608; P 0.001). In TSS groups 1 to 4, mean pChTh was 168 m( 38 m), 148 m( 48 m), 119 m( 35 m), and 92 (42 m). Mean pChTh of TSS groups 3 and 4 was significantly lower than that of TSS group 1 (P 0.001). CONCLUSIONS. Low values of TSS resulting from the appearance of ARP in SLP are associated with low peripapillary choroidal thickness. Reduced choroidal thickness may result in an increased amount of confounding light getting to the SLP light detectors. (Invest Ophthalmol Vis Sci. 2011;52:7523‐7528) DOI:10.1167/iovs.11-7557

Published

2011

27. Longitudinal Analysis of Progression in Glaucoma Using Spectral-Domain Optical Coherence Tomography

Author

Friedrich E. Kruse, Christian Y. Mardin, Folkert K. Horn, Ralf P. Tornow, Robert Laemmer, Julia M. Wessel, Anselm G M Juenemann, and Matthias Schmid

Subjects

Male, medicine.medical_specialty, genetic structures, Open angle glaucoma, Optic Disk, Optic disk, Glaucoma, Spectral domain, Nerve Fibers, Optical coherence tomography, Ophthalmology, Photography, medicine, Humans, In patient, Longitudinal Studies, Aged, medicine.diagnostic_test, business.industry, Middle Aged, medicine.disease, eye diseases, medicine.anatomical_structure, Healthy individuals, Disease Progression, Female, sense organs, Atrophy, business, Tomography, Optical Coherence, Follow-Up Studies, Optic disc

Abstract

PURPOSE To compare the longitudinal loss of RNFL thickness measurements by SD-OCT in healthy individuals and glaucoma patients with or without progression concerning optic disc morphology. METHODS A total of 62 eyes, comprising 38 glaucomatous eyes with open angle glaucoma and 24 healthy controls, were included in the study (Erlangen Glaucoma Registry, NTC00494923). All patients were investigated annually over a period of 3 years by Spectralis SD-OCT measuring peripapillary RNFL thickness. By masked comparative analysis of photographs, the eyes were classified into nonprogressive and progressive glaucoma cases. Longitudinal loss of RNFL thickness was compared with morphological changes of optic disc morphology. RESULTS Mixed model analysis of annual OCT scans revealed an estimated annual decrease of the RNFL thickness by 2.12 μm in glaucoma eyes with progression, whereas glaucoma eyes without progression in optic disc morphology lost 1.18 μm per year in RNFL thickness (P = 0.002). The rate of change in healthy eyes was 0.60 μm and thereby also significantly lower than in glaucoma eyes with progression (P < 0.001). The intrasession variability of three successive measurements without head repositioning was 1.5 ± 0.7 μm. The loss of mean RNFL thickness exceeded the intrasession variability in 60% of nonprogressive eyes, and in 85% of progressive eyes after 3 years. CONCLUSIONS LONGITUDINAL MEASUREMENTS OF RNFL THICKNESS USING SD-OCT SHOW A MORE PRONOUNCED REDUCTION OF RNFL THICKNESS IN PATIENTS WITH PROGRESSION COMPARED WITH PATIENTS WITHOUT PROGRESSION IN GLAUCOMATOUS OPTIC DISC CHANGES. (www.clinicaltrials.gov number, NTC00494923.).

Published

2013

28. Wavelet denoising of multiframe optical coherence tomography data

Author

Christian Y. Mardin, Markus A. Mayer, Anja Borsdorf, Ralf P. Tornow, Martin G. Wagner, and Joachim Hornegger

Subjects

business.industry, Computer science, Noise (signal processing), Image quality, Image Processing, Noise reduction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Wavelet transform, Speckle noise, Image processing, ocis:(100.7410) Wavelets, ocis:(110.4500) Optical coherence tomography, Atomic and Molecular Physics, and Optics, Reduction (complexity), Wavelet, ocis:(100.2980) Image enhancement, Computer vision, Artificial intelligence, ocis:(100.0100) Image processing, business, Biotechnology

Abstract

We introduce a novel speckle noise reduction algorithm for OCT images. Contrary to present approaches, the algorithm does not rely on simple averaging of multiple image frames or denoising on the final averaged image. Instead it uses wavelet decompositions of the single frames for a local noise and structure estimation. Based on this analysis, the wavelet detail coefficients are weighted, averaged and reconstructed. At a signal-to-noise gain at about 100% we observe only a minor sharpness decrease, as measured by a full-width-half-maximum reduction of 10.5%. While a similar signal-to-noise gain would require averaging of 29 frames, we achieve this result using only 8 frames as input to the algorithm. A possible application of the proposed algorithm is preprocessing in retinal structure segmentation algorithms, to allow a better differentiation between real tissue information and unwanted speckle noise.

Published

2012

29. Retinal Nerve Fiber Layer Segmentation on FD-OCT Scans of Normal Subjects and Glaucoma Patients

Author

Christian Y. Mardin, Ralf P. Tornow, Joachim Hornegger, and Markus A. Mayer

Subjects

medicine.medical_specialty, genetic structures, medicine.diagnostic_test, Image quality, business.industry, Nerve fiber layer, Glaucoma, Retinal, ocis:(110.4500) Optical coherence tomography, medicine.disease, eye diseases, Atomic and Molecular Physics, and Optics, Edge detection, chemistry.chemical_compound, medicine.anatomical_structure, Optical coherence tomography, chemistry, Ophthalmology Applications, Ophthalmology, medicine, Optic nerve, Segmentation, business, Biotechnology

Abstract

Automated measurements of the retinal nerve fiber layer thickness on circular OCT B-Scans provide physicians additional parameters for glaucoma diagnosis. We propose a novel retinal nerve fiber layer segmentation algorithm for frequency domain data that can be applied on scans from both normal healthy subjects, as well as glaucoma patients, using the same set of parameters. In addition, the algorithm remains almost unaffected by image quality. The main part of the segmentation process is based on the minimization of an energy function consisting of gradient and local smoothing terms. A quantitative evaluation comparing the automated segmentation results to manually corrected segmentations from three reviewers is performed. A total of 72 scans from glaucoma patients and 132 scans from normal subjects, all from different persons, composed the database for the evaluation of the segmentation algorithm. A mean absolute error per A-Scan of 2.9 µm was achieved on glaucomatous eyes, and 3.6 µm on healthy eyes. The mean absolute segmentation error over all A-Scans lies below 10 µm on 95.1% of the images. Thus our approach provides a reliable tool for extracting diagnostic relevant parameters from OCT B-Scans for glaucoma diagnosis.

Published

2010

30. Correlation between Local Glaucomatous Visual Field Defects and Loss of Nerve Fiber Layer Thickness Measured with Polarimetry and Spectral Domain OCT

Author

Christian Y. Mardin, Robert Laemmer, A. M. Juenemann, D. Baleanu, Ralf P. Tornow, Folkert K. Horn, and Friedrich E. Kruse

Subjects

Male, Retinal Ganglion Cells, medicine.medical_specialty, Materials science, genetic structures, Gonioscopy, Nerve fiber layer, Optic disk, Glaucoma, Scanning laser polarimetry, Ocular hypertension, Nerve fiber, Diagnostic Techniques, Ophthalmological, Tonometry, Ocular, Nerve Fibers, Optical coherence tomography, Ophthalmology, Optic Nerve Diseases, medicine, Humans, Scotoma, Intraocular Pressure, medicine.diagnostic_test, Middle Aged, Models, Theoretical, medicine.disease, eye diseases, Visual field, medicine.anatomical_structure, Visual Field Tests, Female, Ocular Hypertension, sense organs, Visual Fields, Glaucoma, Open-Angle, Tomography, Optical Coherence

Abstract

Purpose To study the correlation between local perimetric field defects and glaucoma-induced thickness reduction of the nerve layer measured in the peripapillary area with scanning laser polarimetry (SLP) and spectral domain optical coherence tomography (SOCT) and to compare the results with those of a theoretical model. Methods The thickness of the retinal nerve fiber layer was determined in 32 sectors (11.25 degrees each) by using SLP with variable cornea compensation (GDxVCC; Laser Diagnostics, San Diego, CA) and the newly introduced high-resolution SOCT (Spectralis; Heidelberg Engineering, Heidelberg, Germany). Eighty-eight healthy subjects served as control subjects, to determine the thickness deviation in patients with glaucoma. The relationship between glaucomatous nerve fiber reduction and visual field losses was calculated in six nerve fiber bundle-related areas. Sixty-four patients at different stages of open-angle glaucoma and 26 patients with ocular hypertension underwent perimetry (Octopus G1; Haag-Streit, Koniz, Switzerland) and measurements with the two morphometric techniques. Results Sector-shaped analyses between local perimetric losses and reduction of the retinal nerve fiber layer thickness showed a significant association for corresponding areas except for the central visual field in SLP. Correlation coefficients were highest in the area of the nasal inferior visual field (SOCT, -0.81; SLP, -0.57). A linear model describes the association between structural and functional damage. Conclusions Localized perimetric defects can be explained by reduced nerve fiber layer thickness. The data indicate that the present SOCT is useful for determining the functional-structural relationship in peripapillary areas and that association between perimetric defects and corresponding nerve fiber losses is stronger for SOCT than for the present SLP. (ClinicalTrials.gov number, NCT00494923.).

Published

2009