Developments and Progress in Non-contact Eye Tonometer Calibration

Pavlásek Peter; Rybář Jan; Ďuriš Stanislav; Hučko Branislav; Chytil Miroslav; Furdová Alena; Ferková Sylvia Lea; Sekáč Juraj; Suchý Vítězslav; Grosinger Patrik

doi:10.2478/msr-2020-0021

Measurement Science Review (Aug 2020)

Developments and Progress in Non-contact Eye Tonometer Calibration

Pavlásek Peter,
Rybář Jan,
Ďuriš Stanislav,
Hučko Branislav,
Chytil Miroslav,
Furdová Alena,
Ferková Sylvia Lea,
Sekáč Juraj,
Suchý Vítězslav,
Grosinger Patrik

Affiliations

Pavlásek Peter: Faculty of Mechanical Engineering, Slovak university of Technology, Námestie slobody 17, 812 31, Bratislava 1, Slovakia, and Slovak Institute of Metrology, Karloveská 63, 842 55, Bratislava 4, Slovakia
Rybář Jan: Faculty of Mechanical Engineering, Slovak university of Technology, Námestie slobody 17, 812 31, Bratislava 1, Slovakia
Ďuriš Stanislav: Faculty of Mechanical Engineering, Slovak university of Technology, Námestie slobody 17, 812 31, Bratislava 1, Slovakia
Hučko Branislav: Faculty of Mechanical Engineering, Slovak university of Technology, Námestie slobody 17, 812 31, Bratislava 1, Slovakia
Chytil Miroslav: Slovak Institute of Metrology, Karloveská 63, 842 55, Bratislava 4, Slovakia
Furdová Alena: Department of Ophthalmology, Faculty of Medicine, Comenius University in Bratislava, Hospital Ružinov, Ružinovská 6, 826 06, Bratislava, Slovakia
Ferková Sylvia Lea: Department of Ophthalmology, Faculty of Medicine, Comenius University in Bratislava, Hospital Ružinov, Ružinovská 6, 826 06, Bratislava, Slovakia
Sekáč Juraj: Department of Ophthalmology, Faculty of Medicine, Comenius University in Bratislava, Hospital Ružinov, Ružinovská 6, 826 06, Bratislava, Slovakia
Suchý Vítězslav: Regional Inspectorate Most, Czech Metrology Institute, Vladislava Vančury 1428/7, 434 01, Most, Czech Republic
Grosinger Patrik: Faculty of Mechanical Engineering, Slovak university of Technology, Námestie slobody 17, 812 31, Bratislava 1, Slovakia

DOI: https://doi.org/10.2478/msr-2020-0021
Journal volume & issue: Vol. 20, no. 4
pp. 171 – 177

Abstract

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This paper focuses on the problematic of intraocular pressure (IOP) measurements, performed by non-invasive methods. More specifically, the devices that are connected with the presented finding are non-contact tonometers that use concentrated air stream and optical sensors to determine the IOP within a human’s eye. The paper analyzes various influential factors that have an effect on the determination of the IOP values originating from the patients themselves and from the non-contact tonometer devices. The paper furthermore elaborates on the lack of independent methods of calibration and control of these devices. In order to fill this gap a measurement standard device that is capable of calibrating and testing these devices with traceability to the basic SI unit is presented. A detailed characterization and the determination of the expected uncertainty of the device are provided. By introducing an independent and traceable calibration method and control of non-contact tonometers into the clinical practice, the reliability of the measured IOP that is the primary indicator of glaucoma can be improved.

Published in Measurement Science Review

ISSN: 1335-8871 (Online)
Publisher: Sciendo
Country of publisher: Poland
LCC subjects: Science: Mathematics
Website: https://sciendo.com/journal/MSR

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