Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties

Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties

OBJECTIVE: To describe a novel technique for clinical characterization of corneal biomechanics using non-invasive dynamic imaging. METHODS: Corneal deformation response during non contact tonometry (NCT) is monitored by ultra-high-speed (UHS) photography. The Oculus Corvis ST (Scheimpflug Technology; Wetzlar, Germany) has a UHS Scheimpflug camera, taking over 4,300 frames per second and of a single 8mm horizontal slit, for monitoring corneal deformation response to NCT. The metered collimated air pulse or puff has a symmetrical configuration and fixed maximal internal pump pressure of 25 kPa. The bidirectional movement of the cornea in response to the air puff is monitored. RESULTS: Measurement time is 30ms, with 140 frames acquired. Advanced algorithms for edge detection of the front and back corneal contours are applied for every frame. IOP is calculated based on the first applanation moment. Deformation amplitude (DA) is determined as the highest displacement of the apex in the highest concavity (HC) moment. Applanation length (AL) and corneal velocity (CVel) are recorded during ingoing and outgoing phases. CONCLUSION: Corneal deformation can be monitored during non contact tonometry. The parameters generated provide clinical in vivo characterization of corneal biomechanical properties in two dimensions, which is relevant for different applications in Ophthalmology.

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Main Authors: Ambrósio Jr,Renato, Ramos,Isaac, Luz,Allan, Faria,Fernando Correa, Steinmueller,Andreas, Krug,Matthias, Belin,Michael W., Roberts,Cynthia Jane
Format: Digital revista
Language:English
Published: Sociedade Brasileira de Oftalmologia 2013
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0034-72802013000200005
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spelling oai:scielo:S0034-728020130002000052013-06-28Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical propertiesAmbrósio Jr,RenatoRamos,IsaacLuz,AllanFaria,Fernando CorreaSteinmueller,AndreasKrug,MatthiasBelin,Michael W.Roberts,Cynthia Jane Biomechanics Cornea/physiology Corneal topography/methods Tonometry ocular/methods OBJECTIVE: To describe a novel technique for clinical characterization of corneal biomechanics using non-invasive dynamic imaging. METHODS: Corneal deformation response during non contact tonometry (NCT) is monitored by ultra-high-speed (UHS) photography. The Oculus Corvis ST (Scheimpflug Technology; Wetzlar, Germany) has a UHS Scheimpflug camera, taking over 4,300 frames per second and of a single 8mm horizontal slit, for monitoring corneal deformation response to NCT. The metered collimated air pulse or puff has a symmetrical configuration and fixed maximal internal pump pressure of 25 kPa. The bidirectional movement of the cornea in response to the air puff is monitored. RESULTS: Measurement time is 30ms, with 140 frames acquired. Advanced algorithms for edge detection of the front and back corneal contours are applied for every frame. IOP is calculated based on the first applanation moment. Deformation amplitude (DA) is determined as the highest displacement of the apex in the highest concavity (HC) moment. Applanation length (AL) and corneal velocity (CVel) are recorded during ingoing and outgoing phases. CONCLUSION: Corneal deformation can be monitored during non contact tonometry. The parameters generated provide clinical in vivo characterization of corneal biomechanical properties in two dimensions, which is relevant for different applications in Ophthalmology.info:eu-repo/semantics/openAccessSociedade Brasileira de OftalmologiaRevista Brasileira de Oftalmologia v.72 n.2 20132013-04-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0034-72802013000200005en10.1590/S0034-72802013000200005
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author Ambrósio Jr,Renato
Ramos,Isaac
Luz,Allan
Faria,Fernando Correa
Steinmueller,Andreas
Krug,Matthias
Belin,Michael W.
Roberts,Cynthia Jane
spellingShingle Ambrósio Jr,Renato
Ramos,Isaac
Luz,Allan
Faria,Fernando Correa
Steinmueller,Andreas
Krug,Matthias
Belin,Michael W.
Roberts,Cynthia Jane
Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties
author_facet Ambrósio Jr,Renato
Ramos,Isaac
Luz,Allan
Faria,Fernando Correa
Steinmueller,Andreas
Krug,Matthias
Belin,Michael W.
Roberts,Cynthia Jane
author_sort Ambrósio Jr,Renato
title Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties
title_short Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties
title_full Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties
title_fullStr Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties
title_full_unstemmed Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties
title_sort dynamic ultra high speed scheimpflug imaging for assessing corneal biomechanical properties
description OBJECTIVE: To describe a novel technique for clinical characterization of corneal biomechanics using non-invasive dynamic imaging. METHODS: Corneal deformation response during non contact tonometry (NCT) is monitored by ultra-high-speed (UHS) photography. The Oculus Corvis ST (Scheimpflug Technology; Wetzlar, Germany) has a UHS Scheimpflug camera, taking over 4,300 frames per second and of a single 8mm horizontal slit, for monitoring corneal deformation response to NCT. The metered collimated air pulse or puff has a symmetrical configuration and fixed maximal internal pump pressure of 25 kPa. The bidirectional movement of the cornea in response to the air puff is monitored. RESULTS: Measurement time is 30ms, with 140 frames acquired. Advanced algorithms for edge detection of the front and back corneal contours are applied for every frame. IOP is calculated based on the first applanation moment. Deformation amplitude (DA) is determined as the highest displacement of the apex in the highest concavity (HC) moment. Applanation length (AL) and corneal velocity (CVel) are recorded during ingoing and outgoing phases. CONCLUSION: Corneal deformation can be monitored during non contact tonometry. The parameters generated provide clinical in vivo characterization of corneal biomechanical properties in two dimensions, which is relevant for different applications in Ophthalmology.
publisher Sociedade Brasileira de Oftalmologia
publishDate 2013
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0034-72802013000200005
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