Your search keyword '"B. Selig"' showing total 14 results

1. A mathematical description of nerve fiber bundle trajectories and their variability in the human retina

Author

Linda M. Zangwill, J. B. Jonas, J. Paetzold, B. Selig, Wolf A. Lagrèze, Pamela A. Sample, Ulrich Schiefer, W. M. Budde, J. Nevalainen, Nomdo M. Jansonius, P. J. Airaksinen, Reinhard Vonthein, and Leonard A. Levin

Subjects

OPTICAL COHERENCE TOMOGRAPHY, genetic structures, media_common.quotation_subject, VISUAL-FIELD LOSS, Models, Neurological, Optic Disk, Optic disk, Nerve fiber layer, Nerve fiber, Fundus (eye), Optic nerve head, Article, Optics, Nerve Fibers, medicine, Humans, EYES, HEAD, Eccentricity (behavior), ELLIPSOMETRY, media_common, Retrospective Studies, Physics, Retina, Perimetry, medicine.diagnostic_test, business.industry, Glaucoma, Sensory Systems, LAYER THICKNESS, Ophthalmology, medicine.anatomical_structure, Visual field test, Optic nerve, Neuro-ophthalmology, Visual Field Tests, PHOTOGRAPHY, Visual Fields, business, Retinal Neurons

Abstract

We developed a mathematical model wherein retinal nerve fiber trajectories can be described and the corresponding inter-subject variability analyzed. The model was based on traced nerve fiber bundle trajectories extracted from 55 fundus photographs of 55 human subjects. The model resembled the typical retinal nerve fiber layer course within 20 degrees eccentricity. Depending on the location of the visual field test point, the standard deviation of the calculated corresponding angular location at the optic nerve head circumference ranged from less than 1 degrees to 18 degrees, with an average of 8.8 degrees. (C) 2009 Elsevier Ltd. All rights reserved.

2. Erratum to 'A mathematical description of nerve fiber bundle trajectories and their variability in the human retina' [Vision Research 49 (17) (2009) 2157–2163]

Author

J. B. Jonas, P. J. Airaksinen, Ulrich Schiefer, Reinhard Vonthein, W. M. Budde, Pamela A. Sample, Nomdo M. Jansonius, B. Selig, J. Paetzold, Linda M. Zangwill, Leonard A. Levin, J. Nevalainen, and Wolf A. Lagrèze

Subjects

Physics, Retina, Ophthalmology, medicine.anatomical_structure, Nerve fiber bundle, medicine, Neuroscience, Sensory Systems

3. Nurse Manager Interns:: A Proactive Approach to Developing Leadership Talent and Solidifying Succession Planning.

Author

Selig B

Abstract

Strong clinicians are often thrust into management roles without appropriate training, leading to burnout, frustration, and turnover. This article outlines how an academic health system developed a 24-month nurse manager internship to train and mentor promising future leaders and to also build a pipeline for this difficult-to-fill role., (2020 by Elsevier Inc. All rights reserved.)

Published

2020

4. The Kansas Nurse Leader Residency Program: Building Nurses' Capacity to Lead Change.

Author

Peltzer JN, Shen Q, Pierce J, Selig B, Hober C, Carlton E, and Teel C

Subjects

Humans, Interprofessional Relations, Kansas, Internship and Residency, Leadership, Nurse Administrators education, Nurse Administrators organization & administration, Organizational Innovation

Abstract

As nurses engage as partners in addressing complex healthcare issues, it is increasingly important to develop nurse leaders. Many nurses need expanded knowledge and training to lead change. The purpose of this article is to describe an innovative statewide nurse leadership residency program to prepare new nurse leaders in four specialty areas. Suggestions are offered for continued advancement of leadership training for RNs across specialty roles and settings.

Published

2018

5. Influence of applied corneal endothelium image segmentation techniques on the clinical parameters.

Author

Piorkowski A, Nurzynska K, Gronkowska-Serafin J, Selig B, Boldak C, and Reska D

Subjects

Cell Shape, Humans, Pattern Recognition, Automated, Stochastic Processes, Algorithms, Endothelium, Corneal cytology, Endothelium, Corneal diagnostic imaging, Image Processing, Computer-Assisted methods, Microscopy methods

Abstract

The corneal endothelium state is verified on the basis of an in vivo specular microscope image from which the shape and density of cells are exploited for data description. Due to the relatively low image quality resulting from a high magnification of the living, non-stained tissue, both manual and automatic analysis of the data is a challenging task. Although, many automatic or semi-automatic solutions have already been introduced, all of them are prone to inaccuracy. This work presents a comparison of four methods (fully-automated or semi-automated) for endothelial cell segmentation, all of which represent a different approach to cell segmentation; fast robust stochastic watershed (FRSW), KH method, active contours solution (SNAKE), and TOPCON ImageNET. Moreover, an improvement framework is introduced which aims to unify precise cell border location in images pre-processed with differing techniques. Finally, the influence of the selected methods on clinical parameters is examined, both with and without the improvement framework application. The experiments revealed that although the image segmentation approaches differ, the measures calculated for clinical parameters are in high accordance when CV (coefficient of variation), and CVSL (coefficient of variation of cell sides length) are considered. Higher variation was noticed for the H (hexagonality) metric. Utilisation of the improvement framework assured better repeatability of precise endothelial cell border location between the methods while diminishing the dispersion of clinical parameter values calculated for such images. Finally, it was proven statistically that the image processing method applied for endothelial cell analysis does not influence the ability to differentiate between the images using medical parameters., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

6. Fully automatic evaluation of the corneal endothelium from in vivo confocal microscopy.

Author

Selig B, Vermeer KA, Rieger B, Hillenaar T, and Luengo Hendriks CL

Subjects

Algorithms, Humans, Image Enhancement methods, Ophthalmoscopy methods, Reproducibility of Results, Sensitivity and Specificity, Corneal Endothelial Cell Loss pathology, Endothelium, Corneal pathology, Image Interpretation, Computer-Assisted methods, Intravital Microscopy methods, Microscopy, Confocal methods, Pattern Recognition, Automated methods

Abstract

Background: Manual and semi-automatic analyses of images, acquired in vivo by confocal microscopy, are often used to determine the quality of corneal endothelium in the human eye. These procedures are highly time consuming. Here, we present two fully automatic methods to analyze and quantify corneal endothelium imaged by in vivo white light slit-scanning confocal microscopy., Methods: In the first approach, endothelial cell density is estimated with the help of spatial frequency analysis. We evaluate published methods, and propose a new, parameter-free method. In the second approach, based on the stochastic watershed, cells are automatically segmented and the result is used to estimate cell density, polymegathism (cell size variability) and pleomorphism (cell shape variation). We show how to determine optimal values for the three parameters of this algorithm, and compare its results to a semi-automatic delineation by a trained observer., Results: The frequency analysis method proposed here is more precise than any published method. The segmentation method outperforms the fully automatic method in the NAVIS software (Nidek Technologies Srl, Padova, Italy), which significantly overestimates the number of cells for cell densities below approximately 1200 mm(-2), as well as previously published methods., Conclusions: The methods presented here provide a significant improvement over the state of the art, and make in vivo, automated assessment of corneal endothelium more accessible. The segmentation method proposed paves the way to many possible new morphometric parameters, which can quickly and precisely be determined from the segmented image.

Published

2015

7. Effect of weather on medical patient volume at Kansas Speedway mass gatherings.

Author

Selig B, Hastings M, Cannon C, Allin D, Klaus S, and Diaz FJ

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Female, Humans, Infant, Kansas, Male, Middle Aged, Retrospective Studies, Young Adult, Emergency Medical Services statistics & numerical data, First Aid statistics & numerical data, Health Planning methods, Sports, Weather

Abstract

Introduction: Provision for the safety and health care of persons attending mass-gathering events presents unique challenges to organizers. This study was designed to determine the factors that contribute to patients seeking medical care during these events., Methods: We performed a retrospective review of patient care records for visits that occurred during race weekends at the Kansas Speedway from April 2007 to October 2010. Data were collected regarding the overall gathering size of each event to calculate the number of patient encounters per 10,000 attendees. Patients' final disposition was determined to calculate the transfer-to-hospital rate per 10,000 attendees. Weather data, including temperature, humidity, and precipitation, were documented for each event. Negative binomial regression was used to test the relationship between weather factors and the rate of patient encounters., Results: Twenty-two event days over 6 race weekends were evaluated, with a total of 1305 patients (58% male; mean age: 37 years), a mean patient encounter rate of 13 per 10,000 attendees, and a mean transfer-to-hospital rate of 0.24 per 10,000 attendees. Our regression model demonstrated that each 0.55°C (1°F) increase in daily mean temperature was associated with a 4% increase in the rate of total complaints (P = .03) and a 6% increase in major trauma presentations (P = .019). Major trauma events were 2.4 times more frequent at ambient temperatures >17.2°C (63°F) (P = .03). Each inch of precipitation was associated with a 61% decrease in total patient volume (P = .05)., Conclusion: Weather factors significantly and predictably affect the use of medical services at the Kansas Speedway. Such data regarding mass-gathering events can be used for resource planning., (Copyright © 2013. Published by Mosby, Inc.)

Published

2013

8. Automatic measurement of compression wood cell attributes in fluorescence microscopy images.

Author

Selig B, Luengo Hendriks CL, Bardage S, Daniel G, and Borgefors G

Subjects

Image Processing, Computer-Assisted methods, Automation methods, Lignin analysis, Microscopy, Fluorescence methods, Plant Cells chemistry, Wood chemistry, Wood cytology

Abstract

This paper presents a new automated method for analyzing compression wood fibers in fluorescence microscopy. Abnormal wood known as compression wood is present in almost every softwood tree harvested. Compression wood fibers show a different cell wall morphology and chemistry compared to normal wood fibers, and their mechanical and physical characteristics are considered detrimental for both construction wood and pulp and paper purposes. Currently there is the need for improved methodologies for characterization of lignin distribution in wood cell walls, such as from compression wood fibers, that will allow for a better understanding of fiber mechanical properties. Traditionally, analysis of fluorescence microscopy images of fiber cross-sections has been done manually, which is time consuming and subjective. Here, we present an automatic method, using digital image analysis, that detects and delineates softwood fibers in fluorescence microscopy images, dividing them into cell lumen, normal and highly lignified areas. It also quantifies the different areas, as well as measures cell wall thickness. The method is evaluated by comparing the automatic with a manual delineation. While the boundaries between the various fiber wall regions are detected using the automatic method with precision similar to inter and intra expert variability, the position of the boundary between lumen and the cell wall has a systematic shift that can be corrected. Our method allows for transverse structural characterization of compression wood fibers, which may allow for improved understanding of the micro-mechanical modeling of wood and pulp fibers., (© 2012 The Authors Journal of Microscopy © 2012 Wadsworth Center, New York State Department of Health.)

Published

2012

9. Magnetized in Phoenix: a nurse manager's perspective on the National Magnet Conference.

Author

Selig B

Subjects

Accreditation, Attitude of Health Personnel, Humans, Nursing, Supervisory organization & administration, Nurse Administrators organization & administration, Nurse Administrators psychology, Nursing Services organization & administration, Standard of Care organization & administration

Published

2011

10. Spatial pattern of glaucomatous visual field loss obtained with regionally condensed stimulus arrangements.

Author

Schiefer U, Papageorgiou E, Sample PA, Pascual JP, Selig B, Krapp E, and Paetzold J

Subjects

Adult, Aged, Female, Glaucoma, Open-Angle classification, Glaucoma, Open-Angle physiopathology, Humans, Intraocular Pressure, Male, Middle Aged, Sensory Thresholds, Vision Disorders physiopathology, Visual Acuity, Visual Field Tests, Glaucoma, Open-Angle diagnosis, Vision Disorders diagnosis, Visual Fields

Abstract

Purpose: To assess the spatial distribution of glaucomatous visual field defects (VFDs) obtained with regionally condensed stimulus arrangements., Methods: Sixty-three eyes of 63 glaucoma subjects were examined with threshold-estimating automated static perimetry (full threshold 4-2-1 dB strategy with at least three reversals) on an automatic campimeter or a full-field perimeter. Stimuli were added by the examiner to regionally enhance spatial resolution in regions that were suspicious for a glaucomatous VFD. These regions were characterized by contiguous local VFDs, attributable to the retinal nerve fiber bundle course according to the impression of the examiner. The added stimulus locations were subsets of a predefined, dense perimetric grid. All VFD locations with P < 0.05 (total deviation plots) were assessed by superimposing the visual field records of all participants., Results: Glaucomatous VFD loss occurred more frequently in the upper than in the lower hemifield, with a typical retinal nerve fiber-related pattern and a preference of the nasal step region. More than 50% of the eyes with predominantly mild to moderate glaucomatous field loss showed defective locations in the immediate superior paracentral region within an eccentricity of 3°., Conclusions: Conventional thresholding white-on-white perimetry with regionally enhanced spatial resolution reveals that glaucomatous visual field loss affects the immediate paracentral area, especially the upper hemifield, in many eyes with only mild to moderate glaucomatous visual field loss. Detailed knowledge about the spatial pattern and the local frequency distribution of glaucomatous VFDs is an essential prerequisite for creating regionally condensed stimulus arrangements for adequate detection and follow-up of functional glaucomatous damage.

Published

2010

11. Specification of progression in glaucomatous visual field loss, applying locally condensed stimulus arrangements.

Author

Nevalainen J, Paetzold J, Papageorgiou E, Sample PA, Pascual JP, Krapp E, Selig B, Vonthein R, and Schiefer U

Subjects

Adult, Aged, Disease Progression, Female, Glaucoma, Open-Angle physiopathology, Humans, Intraocular Pressure, Low Tension Glaucoma physiopathology, Male, Middle Aged, Retrospective Studies, Scotoma physiopathology, Glaucoma, Open-Angle diagnosis, Low Tension Glaucoma diagnosis, Scotoma diagnosis, Visual Field Tests, Visual Fields

Abstract

Purpose: The goal of this work was to (i) determine patterns of progression in glaucomatous visual field loss, (ii) compare the detection rate of progression between locally condensed stimulus arrangements and conventional 6 degrees x 6 degrees grid, and (iii) assess the individual frequency distribution of test locations exhibiting a local event (i.e., an abrupt local deterioration of differential luminance sensitivity (DLS) by more than -10 dB between any two examinations)., Methods: The visual function of 41 glaucomatous eyes of 41 patients (16 females, 25 males, 37 to 75 years old) was examined with automated static perimetry (Tuebingen Computer Campimeter or Octopus 101-Perimeter). Stimuli were added to locally enhance the spatial resolution in suspicious regions of the visual field. The minimum follow-up was four subsequent sessions with a minimum of 2-month (median 6-month) intervals between each session. Progression was identified using a modified pointwise linear regression (PLR) method and a modified Katz criterion. The presence of events was assessed in all progressive visual fields., Results: Eleven eyes (27%) showed progression over the study period (median 2.5 years, range 1.3-8.6 years). Six (55%) of these had combined progression in depth and size and five eyes (45%) progressed in depth only. Progression in size conformed always to the nerve fiber course. Seven out of 11 (64%) of the progressive scotomata detected by spatially condensed grids would have been missed by the conventional 6 degrees x 6 degrees grid. At least one event occurred in 64% of all progressive eyes. Five of 11 (46%) progressive eyes showed a cluster of events., Conclusions: The most common pattern of progression in glaucomatous visual fields is combined progression in depth and size of an existing scotoma. Applying individually condensed test grids remarkably enhances the detection rate of glaucomatous visual field deterioration (at the expense of an increased examination time) compared to conventional stimulus arrangements.

Published

2009

12. A mathematical description of nerve fiber bundle trajectories and their variability in the human retina.

Author

Jansonius NM, Nevalainen J, Selig B, Zangwill LM, Sample PA, Budde WM, Jonas JB, Lagrèze WA, Airaksinen PJ, Vonthein R, Levin LA, Paetzold J, and Schiefer U

Subjects

Humans, Optic Disk pathology, Retrospective Studies, Visual Field Tests methods, Visual Fields, Glaucoma pathology, Models, Neurological, Nerve Fibers pathology, Retinal Neurons pathology

Abstract

We developed a mathematical model wherein retinal nerve fiber trajectories can be described and the corresponding inter-subject variability analyzed. The model was based on traced nerve fiber bundle trajectories extracted from 55 fundus photographs of 55 human subjects. The model resembled the typical retinal nerve fiber layer course within 20 degrees eccentricity. Depending on the location of the visual field test point, the standard deviation of the calculated corresponding angular location at the optic nerve head circumference ranged from less than 1 degrees to 18 degrees , with an average of 8.8 degrees .

Published

2009

13. An explicit no response instead of time-out in automated visual-field testing.

Author

Lutz S, Dietrich TJ, Benda N, Selig B, Strasburger H, and Schiefer U

Subjects

Adult, False Positive Reactions, Female, Humans, Male, Predictive Value of Tests, Psychometrics methods, Reproducibility of Results, Sensitivity and Specificity, Surveys and Questionnaires, Visual Field Tests methods, Visual Fields physiology

Abstract

Background: To evaluate the effect of response-acquisition technique on psychometric performance in visual-field testing, the conventional one-button yes/time-out method was compared with a two-button yes/no method for responding whether or not the stimulus was detected. There are a number of situations in which the single-button technique leads to ambiguous results. In this study, we thus expected the yes/no method to reduce tendencies towards habituation and automatic responding. Our hypothesis was that the two-button technique could reduce the rate of erroneous responses., Methods: Luminance-difference sensitivity for bright stimuli (32') on a photopic background was evaluated at 26 locations within the central visual field (30 degrees) using a specially equalised video display unit and a modified 4/2-dB staircase strategy (six reversals, maximum-likelihood threshold estimation). Sixty-one ophthalmologically normal subjects (aged 20-30 years) were examined twice with each method., Results: Mean sensitivities with the two-button yes/no method were found to be, on average, 0.13 dB above those measured with the one-button yes/time-out technique--a difference without clinical relevance. Within-subject variability did not differ between the two methods. However, the less intuitive two-button yes/no method had a slightly higher number of false responses in catch trials., Conclusion: Compared to the conventional one-button yes/time-out method, the two-button yes/no method in normal young subjects thus showed little difference in mean sensitivities and equivalent within-subject variabilities. Concerning our initial hypothesis, the yes/no method is of somewhat higher complexity and is not able to reduce the rate of erroneous responses. The one-button yes/time-out method fared a little better in error rate. In summary, the yes/no method is an alternative and additional possibility of response acquisition in visual-field testing, which is worthy of being tested in a clinical study with elderly subjects.

Published

2001

14. Angioscotoma detection with fundus-oriented perimetry. A study with dark and bright stimuli of different sizes.

Author

Schiefer U, Benda N, Dietrich TJ, Selig B, Hofmann C, and Schiller J

Subjects

Adult, Female, Fundus Oculi, Humans, Light, Male, Mathematics, Psychophysics, Sensory Thresholds physiology, Visual Field Tests, Retinal Vessels, Scotoma diagnosis

Abstract

Fundus-oriented perimetry (FOP) was used to evaluate the effectiveness of different-sized bright and dark stimuli in detecting and quantitatively measuring angioscotoma. The foveolas and optic disks of digitized fundus images were aligned with their psychophysical counterparts to construct individual grids of perimetric stimuli. Each grid included a linear set of test point locations crossing a retinal vessel. Angioscotomas immediately became visible in nine of 13 healthy normal volunteers tested with FOP. Additional mathematical processing of local loss of differential light sensitivity (dls) disclosed an angioscotoma for at least one stimulus condition in all persons tested. The angioscomas were usually deeper for small (12) targets than for large (32') ones. On the other hand, the overall noise at dls thresholds was generally higher for small than for large stimuli regardless of whether the stimuli were bright or dark. No noteworthy differences were found in detection rates or signal-to-noise ratios under different stimulus conditions (dark/bright/small/large). FOP permits the individual arrangement of stimuli for specific morphological conditions and is thus capable of detecting even minute visual field defects such as angioscotomas.

Published

1999