A-scan ultrasound in ophthalmology: A simulation tool

•The developed tool allows simulating ophthalmological applications of A-scan ultrasounds.•The tool allows evaluating diverse error sources associated to A-scan biometry.•Ultrasound speed assumptions induce substantial errors in the estimate of the eye axial length.•Axial resolution and low reflexio...

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Published inMedical engineering & physics Vol. 97; pp. 18 - 24
Main Authors Petrella, Lorena, Perdigão, Fernando, Caixinha, Miguel, Santos, Mário, Lopes, Maria, Gomes, Marco, Santos, Jaime
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.11.2021
Subjects
A-scan ultrasound
Biometry
Cataract
Cataract Extraction
Eye axial length
Intraocular lenses
Lenses, Intraocular
Ophthalmology
Refraction, Ocular
Simulation
Cataract
A-scan ultrasound
Eye axial length
Simulation
Biometry
Intraocular lenses
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Abstract •The developed tool allows simulating ophthalmological applications of A-scan ultrasounds.•The tool allows evaluating diverse error sources associated to A-scan biometry.•Ultrasound speed assumptions induce substantial errors in the estimate of the eye axial length.•Axial resolution and low reflexion coefficient limit the identification of the retina/choroid interface. In the present study, we developed a computational tool for simulating the ophthalmological applications of A-scan ultrasound, including cataract characterisation and biometry. A-scan biometry is used to measure the axial length (AL) of the eye before cataract surgery to calculate the refractive power of the intraocular lens to be implanted. Errors in the measurement of the AL lead to post-surgical refractive errors. The simulation tool was developed using the k-Wave Matlab toolbox, together with a user-friendly interface developed in Matlab. Diverse error sources were evaluated. Constant ultrasound speed assumptions may introduce refractive errors of up to 0.6 D; by contrast, probe positioning errors had a lower impact, of up to 0.11 D. The correct identification of the Bruch's membrane is limited not only by axial resolution constraints but also by the low reflection coefficient at the retina/choroid interface. Regarding cataract characterisation, the amplitudes of the echoes reflected at the lens interfaces are sensitive to diverse cataract types and severities, and a more realistic representation could be obtained by using a higher resolution in the eye grid; however, the required computational times would make simulations impracticable when using personal computers. The simulation tool shows good versatility for evaluating diverse aspects of A-scan biometry.
AbstractList In the present study, we developed a computational tool for simulating the ophthalmological applications of A-scan ultrasound, including cataract characterisation and biometry. A-scan biometry is used to measure the axial length (AL) of the eye before cataract surgery to calculate the refractive power of the intraocular lens to be implanted. Errors in the measurement of the AL lead to post-surgical refractive errors. The simulation tool was developed using the k-Wave Matlab toolbox, together with a user-friendly interface developed in Matlab. Diverse error sources were evaluated. Constant ultrasound speed assumptions may introduce refractive errors of up to 0.6 D; by contrast, probe positioning errors had a lower impact, of up to 0.11 D. The correct identification of the Bruch's membrane is limited not only by axial resolution constraints but also by the low reflection coefficient at the retina/choroid interface. Regarding cataract characterisation, the amplitudes of the echoes reflected at the lens interfaces are sensitive to diverse cataract types and severities, and a more realistic representation could be obtained by using a higher resolution in the eye grid; however, the required computational times would make simulations impracticable when using personal computers. The simulation tool shows good versatility for evaluating diverse aspects of A-scan biometry.
•The developed tool allows simulating ophthalmological applications of A-scan ultrasounds.•The tool allows evaluating diverse error sources associated to A-scan biometry.•Ultrasound speed assumptions induce substantial errors in the estimate of the eye axial length.•Axial resolution and low reflexion coefficient limit the identification of the retina/choroid interface. In the present study, we developed a computational tool for simulating the ophthalmological applications of A-scan ultrasound, including cataract characterisation and biometry. A-scan biometry is used to measure the axial length (AL) of the eye before cataract surgery to calculate the refractive power of the intraocular lens to be implanted. Errors in the measurement of the AL lead to post-surgical refractive errors. The simulation tool was developed using the k-Wave Matlab toolbox, together with a user-friendly interface developed in Matlab. Diverse error sources were evaluated. Constant ultrasound speed assumptions may introduce refractive errors of up to 0.6 D; by contrast, probe positioning errors had a lower impact, of up to 0.11 D. The correct identification of the Bruch's membrane is limited not only by axial resolution constraints but also by the low reflection coefficient at the retina/choroid interface. Regarding cataract characterisation, the amplitudes of the echoes reflected at the lens interfaces are sensitive to diverse cataract types and severities, and a more realistic representation could be obtained by using a higher resolution in the eye grid; however, the required computational times would make simulations impracticable when using personal computers. The simulation tool shows good versatility for evaluating diverse aspects of A-scan biometry.
Author Lopes, Maria
Caixinha, Miguel
Gomes, Marco
Santos, Mário
Perdigão, Fernando
Santos, Jaime
Petrella, Lorena
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CitedBy_id crossref_primary_10_3390_electronics11182836
crossref_primary_10_22159_ajpcr_2024_v17i2_50443
crossref_primary_10_3390_app13116523
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Keywords Cataract
A-scan ultrasound
Eye axial length
Simulation
Biometry
Intraocular lenses
Language English
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Snippet •The developed tool allows simulating ophthalmological applications of A-scan ultrasounds.•The tool allows evaluating diverse error sources associated to...
In the present study, we developed a computational tool for simulating the ophthalmological applications of A-scan ultrasound, including cataract...
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StartPage 18
SubjectTerms A-scan ultrasound
Biometry
Cataract
Cataract Extraction
Eye axial length
Intraocular lenses
Lenses, Intraocular
Ophthalmology
Refraction, Ocular
Simulation
Title A-scan ultrasound in ophthalmology: A simulation tool
URI https://dx.doi.org/10.1016/j.medengphy.2021.09.005
https://www.ncbi.nlm.nih.gov/pubmed/34756334
https://search.proquest.com/docview/2596015107
Volume 97
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