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Pressure dependent direct transtissue transmission of eyewall, sclera and vitreous body in the range of 350-1050nm.

Authors :
Koelbl PS
Sieber N
Lingenfelder C
Koch FHJ
Deuchler S
Hessling M
Source :
Zeitschrift fur medizinische Physik [Z Med Phys] 2020 Aug; Vol. 30 (3), pp. 201-210. Date of Electronic Publication: 2020 Mar 04.
Publication Year :
2020

Abstract

Purpose: For transscleral application of optical radiation or light to the eye, it is important to know the transmission and absorbance of the tissue layers of the eyewall. The impact of photochemical energy to the retina located directly at the point of contact with the radiation emitter must be considered as well as the absorbance in choroid and retina. Therefore, the direct transmission of ex vivo porcine eyewalls and vitreous body were measured in this study.<br />Methods: At ex vivo porcine eyes (N=221) pressure dependent transmission measurements were performed with a pressure inducing setup. Pressure and wavelength dependent direct transmission of eyewall and vitreous body of porcine eyes were described for different applied pressures (23mmHg, 78mmHg and 132mmHg). The transmissions were investigated within the spectral range of 350-1050nm. In addition to the complete eyewall transmission measurements, the transmission of sclera, vitreous body and water was measured individually and the transmission of retina and choroid was calculated.<br />Results: With increasing wavelength and pressure, a significant transmission increase of the eyewall could be achieved (p<0.05). At 400nm and 132mmHg the transmission raised to 0.10%. At 1050nm it increased up to a value of 12.22%. In the visible spectrum, the direct transmission was always below 3.17%. The differences in eyewall transmission of eyes with different iris colors were significant at low pressure. With increasing pressure, the effect strength decreased and the differences lost their significance.<br />Conclusions: The pressure and wavelength dependent direct transmission of the eyewall and the vitreous body significantly increased with increasing pressure. This results are benefical for technical and clinical safety, research and development of illumination devices. It is necessary to know the intraocular brightness in the eye during diaphanoscopy, photocoagulation application to determine hazards.<br /> (Copyright © 2020. Published by Elsevier GmbH.)

Details

Language :
English
ISSN :
1876-4436
Volume :
30
Issue :
3
Database :
MEDLINE
Journal :
Zeitschrift fur medizinische Physik
Publication Type :
Academic Journal
Accession number :
32143979
Full Text :
https://doi.org/10.1016/j.zemedi.2020.02.003