The influence of intraocular pressure on the damping of a coupled speaker–air–eye system
Although glaucoma is currently the world's most common cause of irreversible blindness, there is no curative therapy available to date. The major risk factor that can be influenced in order to stop disease progression is the eye pressure (IOP). Therefore early diagnosis of an altered IOP is...
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Copernicus Publications
2018-03-01
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| Series: | Journal of Sensors and Sensor Systems |
| Online Access: | https://www.j-sens-sens-syst.net/7/123/2018/jsss-7-123-2018.pdf |
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doaj-197a4f3e2409465683907eaa199ba14e2020-11-24T23:27:23ZengCopernicus PublicationsJournal of Sensors and Sensor Systems2194-87712194-878X2018-03-01712313010.5194/jsss-7-123-2018The influence of intraocular pressure on the damping of a coupled speaker–air–eye systemJ. Osmers0Á. Patzkó1O. Hoppe2M. Sorg3A. von Freyberg4A. Fischer5Bremer Institut für Messtechnik, Automatisierung und Qualitätswissenschaft (BIMAQ), Linzer Str. 13, 28359 Bremen, GermanyAugenklinik und Poliklinik, Universitätsklinikum Würzburg, Josef Schneider Str. 11, 97080 Würzburg, GermanyBremer Institut für Messtechnik, Automatisierung und Qualitätswissenschaft (BIMAQ), Linzer Str. 13, 28359 Bremen, GermanyBremer Institut für Messtechnik, Automatisierung und Qualitätswissenschaft (BIMAQ), Linzer Str. 13, 28359 Bremen, GermanyBremer Institut für Messtechnik, Automatisierung und Qualitätswissenschaft (BIMAQ), Linzer Str. 13, 28359 Bremen, GermanyBremer Institut für Messtechnik, Automatisierung und Qualitätswissenschaft (BIMAQ), Linzer Str. 13, 28359 Bremen, GermanyAlthough glaucoma is currently the world's most common cause of irreversible blindness, there is no curative therapy available to date. The major risk factor that can be influenced in order to stop disease progression is the eye pressure (IOP). Therefore early diagnosis of an altered IOP is essential for the goal of preserving vision. A novel IOP measurement principle for a handheld noncontact self-tonometer shall be validated.<br><br>The measurement principle uses a pressure pulse generated by a loudspeaker to cause vibrations of the eye. In order to reach the required sound pressure, a closed pressure chamber is placed on the human orbit. With a microphone and a displacement sensor the dynamic behavior of the entire system is detected. In this article the abovementioned principle is being analyzed on porcine eyes under laboratory conditions.<br><br>The combination of the loudspeaker, the pressure chamber, and the eye to be measured can be described as a coupled spring–mass–damper system. It is demonstrated for enucleated porcine eyes that a defined IOP variation leads to a change in the system's damping ratio. Considering only stochastic deviations, the derived standard uncertainty for the determination of the IOP amounts to < 1 mmHg in the physiological range.<br><br>The in vitro measurements on porcine eyes help the understanding of the underlying physics and demand for further research on the influence of biometric parameters on eye vibrations. However, the laboratory results provide the basis for a gentle noncontact tonometry method with great applicational prospects. Data is currently being collected on human subjects in a clinical trial, to corroborate the measurement principle in vivo.https://www.j-sens-sens-syst.net/7/123/2018/jsss-7-123-2018.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
J. Osmers Á. Patzkó O. Hoppe M. Sorg A. von Freyberg A. Fischer |
| spellingShingle |
J. Osmers Á. Patzkó O. Hoppe M. Sorg A. von Freyberg A. Fischer The influence of intraocular pressure on the damping of a coupled speaker–air–eye system Journal of Sensors and Sensor Systems |
| author_facet |
J. Osmers Á. Patzkó O. Hoppe M. Sorg A. von Freyberg A. Fischer |
| author_sort |
J. Osmers |
| title |
The influence of intraocular pressure on the damping of a coupled speaker–air–eye system |
| title_short |
The influence of intraocular pressure on the damping of a coupled speaker–air–eye system |
| title_full |
The influence of intraocular pressure on the damping of a coupled speaker–air–eye system |
| title_fullStr |
The influence of intraocular pressure on the damping of a coupled speaker–air–eye system |
| title_full_unstemmed |
The influence of intraocular pressure on the damping of a coupled speaker–air–eye system |
| title_sort |
influence of intraocular pressure on the damping of a coupled speaker–air–eye system |
| publisher |
Copernicus Publications |
| series |
Journal of Sensors and Sensor Systems |
| issn |
2194-8771 2194-878X |
| publishDate |
2018-03-01 |
| description |
Although glaucoma is currently the world's most common cause of irreversible
blindness, there is no curative therapy available to date. The major risk
factor that can be influenced in order to stop disease progression is the eye
pressure (IOP). Therefore early diagnosis of an altered IOP is essential for
the goal of preserving vision. A novel IOP measurement principle for
a handheld noncontact self-tonometer shall be validated.<br><br>The measurement principle uses a pressure pulse generated by a loudspeaker to
cause vibrations of the eye. In order to reach the required sound pressure,
a closed pressure chamber is placed on the human orbit. With a microphone and
a displacement sensor the dynamic behavior of the entire system is detected.
In this article the abovementioned principle is being analyzed on porcine
eyes under laboratory conditions.<br><br>The combination of the loudspeaker, the pressure chamber, and the eye to be
measured can be described as a coupled spring–mass–damper system. It is
demonstrated for enucleated porcine eyes that a defined IOP variation leads
to a change in the system's damping ratio. Considering only stochastic
deviations, the derived standard uncertainty for the determination of the IOP
amounts to < 1 mmHg in the physiological range.<br><br>The in vitro measurements on porcine eyes help the understanding of the
underlying physics and demand for further research on the influence of
biometric parameters on eye vibrations. However, the laboratory results
provide the basis for a gentle noncontact tonometry method with great
applicational prospects. Data is currently being collected on human subjects
in a clinical trial, to corroborate the measurement principle in vivo. |
| url |
https://www.j-sens-sens-syst.net/7/123/2018/jsss-7-123-2018.pdf |
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