Central corneal thickness measurements in normal dogs: a comparison between ultrasound pachymetry and optical coherence tomography

OBJECTIVE: To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device (SD‐OCT) and an ultrasonic pachymeter. ANIMALS: Fifteen clinically normal dogs. PROCEDURES: Dogs were briefly anesthetized with propofol. Centra...

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Published in	Veterinary ophthalmology Vol. 17; no. 3; pp. 207 - 211
Main Authors	Alario, Anthony F, Pirie, Christopher G
Format	Journal Article
Language	English
Published	England Blackwell Pub 01.05.2014 Blackwell Publishing Ltd
Subjects	Animals canine central corneal thickness cornea Cornea - anatomy & histology Cornea - diagnostic imaging correlation dogs Dogs - anatomy & histology Female Male optical coherence tomography spaying tomography Tomography, Optical Coherence - veterinary ultrasonic pachymetry ultrasonics Ultrasonography canine ultrasonic pachymetry optical coherence tomography central corneal thickness
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Abstract	OBJECTIVE: To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device (SD‐OCT) and an ultrasonic pachymeter. ANIMALS: Fifteen clinically normal dogs. PROCEDURES: Dogs were briefly anesthetized with propofol. Central corneal thickness measurements were obtained from both eyes of each animal four times by one operator using a SD‐OCT system. The CCT was automatically calculated using the pachymetry software generated from eight radial scans, 6 mm in length. Ultrasonic pachymetry was then performed in both eyes of each animal by one operator five times in succession. The CCT was recorded for each modality and compared statistically for agreement and bias. RESULTS: Fifteen dogs (seven castrated male, eight spayed female) with a mean age of 2.3 ± 1.3 years were examined. The mean CCT for all eyes examined via SD‐OCT and ultrasonic pachymetry (velocity set at 1636 m/s) was 587.72 ± 32.44 μm and 598.54 ± 32.28 μm, respectively. Ultrasonic pachymetry consistently overestimated CCT as compared to OCT by a mean value of 10.82 μm (P < 0.0001). No significant difference in CCT was found based on the age or sex of the animal. There was no significant difference in CCT measurements between replicates performed by the same operator for each modality. The coefficient of variation within and between imaging modalities was low (range 0.63–2.5%). The intraclass correlation coefficient comparing methods was 0.92. CONCLUSIONS: Correlation between modalities was excellent; however, ultrasonic pachymetry set at a standard velocity of 1636 m/s overestimates CCT as compared to OCT.
AbstractList	OBJECTIVETo compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral-domain optical coherence tomography device (SD-OCT) and an ultrasonic pachymeter.ANIMALSFifteen clinically normal dogs.PROCEDURESDogs were briefly anesthetized with propofol. Central corneal thickness measurements were obtained from both eyes of each animal four times by one operator using a SD-OCT system. The CCT was automatically calculated using the pachymetry software generated from eight radial scans, 6 mm in length. Ultrasonic pachymetry was then performed in both eyes of each animal by one operator five times in succession. The CCT was recorded for each modality and compared statistically for agreement and bias.RESULTSFifteen dogs (seven castrated male, eight spayed female) with a mean age of 2.3 ± 1.3 years were examined. The mean CCT for all eyes examined via SD-OCT and ultrasonic pachymetry (velocity set at 1636 m/s) was 587.72 ± 32.44 μm and 598.54 ± 32.28 μm, respectively. Ultrasonic pachymetry consistently overestimated CCT as compared to OCT by a mean value of 10.82 μm (P < 0.0001). No significant difference in CCT was found based on the age or sex of the animal. There was no significant difference in CCT measurements between replicates performed by the same operator for each modality. The coefficient of variation within and between imaging modalities was low (range 0.63-2.5%). The intraclass correlation coefficient comparing methods was 0.92.CONCLUSIONSCorrelation between modalities was excellent; however, ultrasonic pachymetry set at a standard velocity of 1636 m/s overestimates CCT as compared to OCT. To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral-domain optical coherence tomography device (SD-OCT) and an ultrasonic pachymeter. Fifteen clinically normal dogs. Dogs were briefly anesthetized with propofol. Central corneal thickness measurements were obtained from both eyes of each animal four times by one operator using a SD-OCT system. The CCT was automatically calculated using the pachymetry software generated from eight radial scans, 6 mm in length. Ultrasonic pachymetry was then performed in both eyes of each animal by one operator five times in succession. The CCT was recorded for each modality and compared statistically for agreement and bias. Fifteen dogs (seven castrated male, eight spayed female) with a mean age of 2.3 ± 1.3 years were examined. The mean CCT for all eyes examined via SD-OCT and ultrasonic pachymetry (velocity set at 1636 m/s) was 587.72 ± 32.44 μm and 598.54 ± 32.28 μm, respectively. Ultrasonic pachymetry consistently overestimated CCT as compared to OCT by a mean value of 10.82 μm (P < 0.0001). No significant difference in CCT was found based on the age or sex of the animal. There was no significant difference in CCT measurements between replicates performed by the same operator for each modality. The coefficient of variation within and between imaging modalities was low (range 0.63-2.5%). The intraclass correlation coefficient comparing methods was 0.92. Correlation between modalities was excellent; however, ultrasonic pachymetry set at a standard velocity of 1636 m/s overestimates CCT as compared to OCT. Objective To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device (SD‐OCT) and an ultrasonic pachymeter. Animals Fifteen clinically normal dogs. Procedures Dogs were briefly anesthetized with propofol. Central corneal thickness measurements were obtained from both eyes of each animal four times by one operator using a SD‐OCT system. The CCT was automatically calculated using the pachymetry software generated from eight radial scans, 6 mm in length. Ultrasonic pachymetry was then performed in both eyes of each animal by one operator five times in succession. The CCT was recorded for each modality and compared statistically for agreement and bias. Results Fifteen dogs (seven castrated male, eight spayed female) with a mean age of 2.3 ± 1.3 years were examined. The mean CCT for all eyes examined via SD‐OCT and ultrasonic pachymetry (velocity set at 1636 m/s) was 587.72 ± 32.44 μm and 598.54 ± 32.28 μm, respectively. Ultrasonic pachymetry consistently overestimated CCT as compared to OCT by a mean value of 10.82 μm (P < 0.0001). No significant difference in CCT was found based on the age or sex of the animal. There was no significant difference in CCT measurements between replicates performed by the same operator for each modality. The coefficient of variation within and between imaging modalities was low (range 0.63–2.5%). The intraclass correlation coefficient comparing methods was 0.92. Conclusions Correlation between modalities was excellent; however, ultrasonic pachymetry set at a standard velocity of 1636 m/s overestimates CCT as compared to OCT. OBJECTIVE: To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device (SD‐OCT) and an ultrasonic pachymeter. ANIMALS: Fifteen clinically normal dogs. PROCEDURES: Dogs were briefly anesthetized with propofol. Central corneal thickness measurements were obtained from both eyes of each animal four times by one operator using a SD‐OCT system. The CCT was automatically calculated using the pachymetry software generated from eight radial scans, 6 mm in length. Ultrasonic pachymetry was then performed in both eyes of each animal by one operator five times in succession. The CCT was recorded for each modality and compared statistically for agreement and bias. RESULTS: Fifteen dogs (seven castrated male, eight spayed female) with a mean age of 2.3 ± 1.3 years were examined. The mean CCT for all eyes examined via SD‐OCT and ultrasonic pachymetry (velocity set at 1636 m/s) was 587.72 ± 32.44 μm and 598.54 ± 32.28 μm, respectively. Ultrasonic pachymetry consistently overestimated CCT as compared to OCT by a mean value of 10.82 μm (P < 0.0001). No significant difference in CCT was found based on the age or sex of the animal. There was no significant difference in CCT measurements between replicates performed by the same operator for each modality. The coefficient of variation within and between imaging modalities was low (range 0.63–2.5%). The intraclass correlation coefficient comparing methods was 0.92. CONCLUSIONS: Correlation between modalities was excellent; however, ultrasonic pachymetry set at a standard velocity of 1636 m/s overestimates CCT as compared to OCT. Abstract Objective To compare central corneal thickness ( CCT ) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device ( SD ‐ OCT ) and an ultrasonic pachymeter. Animals Fifteen clinically normal dogs. Procedures Dogs were briefly anesthetized with propofol. Central corneal thickness measurements were obtained from both eyes of each animal four times by one operator using a SD ‐ OCT system. The CCT was automatically calculated using the pachymetry software generated from eight radial scans, 6 mm in length. Ultrasonic pachymetry was then performed in both eyes of each animal by one operator five times in succession. The CCT was recorded for each modality and compared statistically for agreement and bias. Results Fifteen dogs (seven castrated male, eight spayed female) with a mean age of 2.3 ± 1.3 years were examined. The mean CCT for all eyes examined via SD ‐ OCT and ultrasonic pachymetry (velocity set at 1636 m/s) was 587.72 ± 32.44 μm and 598.54 ± 32.28 μm, respectively. Ultrasonic pachymetry consistently overestimated CCT as compared to OCT by a mean value of 10.82 μm ( P < 0.0001). No significant difference in CCT was found based on the age or sex of the animal. There was no significant difference in CCT measurements between replicates performed by the same operator for each modality. The coefficient of variation within and between imaging modalities was low (range 0.63–2.5%). The intraclass correlation coefficient comparing methods was 0.92. Conclusions Correlation between modalities was excellent; however , ultrasonic pachymetry set at a standard velocity of 1636 m/s overestimates CCT as compared to OCT .
Author	Alario, Anthony F. Pirie, Christopher G.
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Snippet	OBJECTIVE: To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device... Objective To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral‐domain optical coherence tomography device... To compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral-domain optical coherence tomography device (SD-OCT) and... Abstract Objective To compare central corneal thickness ( CCT ) measurements obtained from normal canines using a spectral‐domain optical coherence tomography... OBJECTIVETo compare central corneal thickness (CCT) measurements obtained from normal canines using a spectral-domain optical coherence tomography device...
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SubjectTerms	Animals canine central corneal thickness cornea Cornea - anatomy & histology Cornea - diagnostic imaging correlation dogs Dogs - anatomy & histology Female Male optical coherence tomography spaying tomography Tomography, Optical Coherence - veterinary ultrasonic pachymetry ultrasonics Ultrasonography
Title	Central corneal thickness measurements in normal dogs: a comparison between ultrasound pachymetry and optical coherence tomography
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