Skip to Main Content

Author Details

Larry Kagemann
University of Pittsburgh
1996
139
42
PMIDPaper TitleJournal TitlePublished Year
36778255In vivo Modulation of Intraocular and Intracranial Pressures Causes Nonlinear and Non-monotonic Deformations of the Lamina Cribrosa and Scleral Canal.bioRxiv2023
31106969The future of canine glaucoma therapy.Vet Ophthalmol2019
31674351Tear film imager for dynamic mapping of the human tear film.Appl Opt2019
30883441Precision medicine to prevent glaucoma-related blindness.Curr Opin Ophthalmol2019
29740064Tortuous Pore Path Through the Glaucomatous Lamina Cribrosa.Sci Rep2018
29718942Perilimbal sclera mechanical properties: Impact on intraocular pressure in porcine eyes.PLoS One2018
28855629Location of the Central Retinal Vessel Trunk in the Laminar and Prelaminar Tissue of Healthy and Glaucomatous Eyes.Sci Rep2017
28275528Signal Normalization Reduces Image Appearance Disparity Among Multiple Optical Coherence Tomography Devices.Transl Vis Sci Technol2017
28324116Thick Prelaminar Tissue Decreases Lamina Cribrosa Visibility.Invest Ophthalmol Vis Sci2017
29338062An imaged-based inverse finite element method to determine <i>in-vivo</i> mechanical properties of the human trabecular meshwork.J Model Ophthalmol2017
29161320In-vivo effects of intraocular and intracranial pressures on the lamina cribrosa microstructure.PLoS One2017
26868751A Problem of Proportions in OCT-Based Morphometry and a Proposed Solution.Invest Ophthalmol Vis Sci2016
27286366Decreased Lamina Cribrosa Beam Thickness and Pore Diameter Relative to Distance From the Central Retinal Vessel Trunk.Invest Ophthalmol Vis Sci2016
27339747What is a typical optic nerve head?Exp Eye Res2016
26835180Virtual Averaging Making Nonframe-Averaged Optical Coherence Tomography Images Comparable to Frame-Averaged Images.Transl Vis Sci Technol2016
26778345Glaucoma Structural and Functional Progression in American and Korean Cohorts.Ophthalmology2016
25336573Agreement among graders on Heidelberg retina tomograph (HRT) topographic change analysis (TCA) glaucoma progression interpretation.Br J Ophthalmol2015
26713188Polarization microscopy for characterizing fiber orientation of ocular tissues.Biomed Opt Express2015
26132890Trabecular Meshwork Response to Pressure Elevation in the Living Human Eye.J Vis Exp2015
26066749Histogram Matching Extends Acceptable Signal Strength Range on Optical Coherence Tomography Images.Invest Ophthalmol Vis Sci2015
24691117A method to estimate biomechanics and mechanical properties of optic nerve head tissues from parameters measurable using optical coherence tomography.IEEE Trans Med Imaging2014
25228539In vivo three-dimensional characterization of the healthy human lamina cribrosa with adaptive optics spectral-domain optical coherence tomography.Invest Ophthalmol Vis Sci2014
25216052A laser-induced mouse model with long-term intraocular pressure elevation.PLoS One2014
24747957Reproducibility of in-vivo OCT measured three-dimensional human lamina cribrosa microarchitecture.PLoS One2014
24761293Repeatability of in vivo 3D lamina cribrosa microarchitecture using adaptive optics spectral domain optical coherence tomography.Biomed Opt Express2014
24595044Gold nanorods as a contrast agent for Doppler optical coherence tomography.PLoS One2014
24526436IOP elevation reduces Schlemm's canal cross-sectional area.Invest Ophthalmol Vis Sci2014
24590558Characterisation of Schlemm's canal cross-sectional area.Br J Ophthalmol2014
23299477High dynamic range imaging concept-based signal enhancement method reduced the optical coherence tomography measurement variability.Invest Ophthalmol Vis Sci2013
24302585In vivo lamina cribrosa micro-architecture in healthy and glaucomatous eyes as assessed by optical coherence tomography.Invest Ophthalmol Vis Sci2013
24298418Automated lamina cribrosa microstructural segmentation in optical coherence tomography scans of healthy and glaucomatous eyes.Biomed Opt Express2013
24114534Signal normalization reduces systematic measurement differences between spectral-domain optical coherence tomography devices.Invest Ophthalmol Vis Sci2013
23611992Individual A-scan signal normalization between two spectral domain optical coherence tomography devices.Invest Ophthalmol Vis Sci2013
23768229Imaging of the lamina cribrosa in glaucoma: perspectives of pathogenesis and clinical applications.Curr Eye Res2013
23408988Three-dimensional spectral-domain optical coherence tomography data analysis for glaucoma detection.PLoS One2013
23203702Detection of glaucoma progression by population and individual derived variability criteria.Br J Ophthalmol2013
21478200Retinal nerve fibre layer and visual function loss in glaucoma: the tipping point.Br J Ophthalmol2012
23093132Spectral-domain optical coherence tomography as a noninvasive method to assess damaged and regenerating adult zebrafish retinas.Invest Ophthalmol Vis Sci2012
23087415Inflammatory response to intravitreal injection of gold nanorods.Br J Ophthalmol2012
22894458Volumetric quantification of in vitro sonothrombolysis with microbubbles using high-resolution optical coherence tomography.J Biomed Opt2012
22914498Glaucoma discrimination of segmented cirrus spectral domain optical coherence tomography (SD-OCT) macular scans.Br J Ophthalmol2012
22538423Comparison of retinal nerve fiber layer thickness measurement bias and imprecision across three spectral-domain optical coherence tomography devices.Invest Ophthalmol Vis Sci2012
22499987Morphometric analysis of aqueous humor outflow structures with spectral-domain optical coherence tomography.Invest Ophthalmol Vis Sci2012
22658308Evaluating objective and subjective quantitative parameters at the initial visit to predict future glaucomatous visual field progression.Ophthalmic Surg Lasers Imaging2012
22683063Visualization of the conventional outflow pathway in the living human eye.Ophthalmology2012
22266521Optical coherence tomography as a rapid, accurate, noncontact method of visualizing the palisades of Vogt.Invest Ophthalmol Vis Sci2012
22231171Alignment of 3-D optical coherence tomography scans to correct eye movement using a particle filtering.IEEE Trans Med Imaging2012
22427598The optic nerve head as a robust biomechanical system.Invest Ophthalmol Vis Sci2012
21900227Variation in optical coherence tomography signal quality as an indicator of retinal nerve fibre layer segmentation error.Br J Ophthalmol2012
21398282Optic nerve crush mice followed longitudinally with spectral domain optical coherence tomography.Invest Ophthalmol Vis Sci2011
  • 1 - 50 of 139

Recommended Authors

Shiley Eye Institute, University of California
Career Start Year 2017
Number of shared co-authors 0
New York University Langone Health
Career Start Year 2017
Number of shared co-authors 5
Shiley Eye Institute, University of California
Career Start Year 2016
Number of shared co-authors 0
University of Washington
Career Start Year 2014
Number of shared co-authors 2
Harvard Medical School
Career Start Year 2011
Number of shared co-authors 1
Duke University
Career Start Year 2009
Number of shared co-authors 2
University of Washington.
Career Start Year 2009
Number of shared co-authors 1
Casey Eye Institute, Oregon Health & Science University
Career Start Year 2009
Number of shared co-authors 8
Shiley Eye Institute, University of California San Diego
Career Start Year 2005
Number of shared co-authors 2
University of Washington
Career Start Year 2005
Number of shared co-authors 1
Carl Zeiss Meditec Inc.
Career Start Year 2005
Number of shared co-authors 6
Lions Eye Institute
Career Start Year 2004
Number of shared co-authors 2
University Hospital Basel
Career Start Year 2002
Number of shared co-authors 1
Casey Eye Institute, Oregon Health & Science University
Career Start Year 2002
Number of shared co-authors 8
Tufts University School of Medicine
Career Start Year 2001
Number of shared co-authors 11
Institute of Molecular and Clinical Ophthalmology Basel (IOB)
Career Start Year 2000
Number of shared co-authors 0
Heersink School of Medicine, University of Alabama-Birmingham
Career Start Year 1997
Number of shared co-authors 6
New York Ear and Eye Infirmary of Mount Sinai
Career Start Year 1996
Number of shared co-authors 4
Doheny Eye Center university of california los angeles
Career Start Year 1994
Number of shared co-authors 4
University of Washington
Career Start Year 1994
Number of shared co-authors 3
Doheny Eye Institute, University of California Los Angeles
Career Start Year 1993
Number of shared co-authors 6
Donald and Barbara Zucker School of Medicine at Hofstra/Northwell
Career Start Year 1993
Number of shared co-authors 4
Casey Eye Institute, Oregon Health & Science University
Career Start Year 1991
Number of shared co-authors 13
Shiley Eye Institute, University of California San Diego
Career Start Year 1989
Number of shared co-authors 3
Bascom Palmer Eye Institute, University of Miami Miller School of Medicine
Career Start Year 1989
Number of shared co-authors 6
Edward S. Harkness Eye Institute, Columbia University Medical Center
Career Start Year 1989
Number of shared co-authors 8
Lions Eye Institute
Career Start Year 1986
Number of shared co-authors 0
Shiley Eye Institute, University of California San Diego
Career Start Year 1984
Number of shared co-authors 6
Shiley Eye Institute, University of California San Diego
Career Start Year 1979
Number of shared co-authors 12
Center for Medical Physics and Biomedical Engineering, Medical University of Vienna
Career Start Year 1974
Number of shared co-authors 10

Collaborators

NYU Grossman School of Medicine
Co-authored papers 80
NYU College of Arts and Sciences
Co-authored papers 75
Mie University School of Medicine, NYU School of Medicine, New York Medical College, New York University School of Medicine, Oregon Health & Science University, Tufts University School of Medicine, University of Pittsburgh School of Medicine, University of Pittsburgh School of Mediine
Co-authored papers 74
University of Pittsburgh School of Public Health
Co-authored papers 49
University of Pittsburgh
Co-authored papers 28
University of Pittsburgh, Eye & Ear Institute
Co-authored papers 26
Massachusetts Institute of Technology
Co-authored papers 25
Co-authored papers 14
Institute of Biophysics, Chinese Academy of Sciences
Co-authored papers 14
Eye and Ear Institute, University of Pittsburgh School of Medicine
Co-authored papers 12
Eye and Ear Institute, University of Pittsburgh School of Medicine
Co-authored papers 12
Eye and Ear Institute, University of Pittsburgh School of Medicine
Co-authored papers 11
University of Pittsburgh School of Medicine
Co-authored papers 11
Tufts Medical Center
Co-authored papers 10
College of Medicine, University of Ulsan, Asan Medical Center (J.K.
Co-authored papers 10
University of Pittsburgh School of Medicine, Eye and Ear Institute
Co-authored papers 8
International Centre for Translational Eye Research
Co-authored papers 7
University of California Davis
Co-authored papers 7
Institute of Physics, Nicolaus Copernicus University in Torun
Co-authored papers 6
National Cheng Kung University
Co-authored papers 6
Hawaii Macula and Retina Institute
Co-authored papers 6
University of California San Diego
Co-authored papers 6
Co-authored papers 6
Yale School of Medicine
Co-authored papers 5
NYU Grossman School of Medicine
Co-authored papers 5
University of Pittsburgh
Co-authored papers 5
University of Wisconsin, Wisconsin EyeKor Inc.
Co-authored papers 4
Physical Sciences Inc.
Co-authored papers 4
Ankara Guven Hospital
Co-authored papers 4
University of Pittsburgh
Co-authored papers 4