Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy

Jochen Kandulla; Hanno Elsner; Markus Hilmes; Carolin Hartert; Reginald Birngruber; Ralf Brinkmann

doi:10.1117/12.608406

Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy

Jochen Kandulla^*, Hanno Elsner, Markus Hilmes, Carolin Hartert, Reginald Birngruber, Ralf Brinkmann

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Biomedizinische Optik

Abstract

Transpupillary Thermotherapy (TTT) is a retinal laser treatment targeting on occult neovascular membranes. However, the induced temperature increase during irradiation is not exactly known. Model calculations show that differences in pigmentation and vascular perfusion should lead to a different temperature rise under same treatment parameters. In order to evaluate the temperature profiles during TTT, we developed a non-invasive optoacoustic method. The experiments were carried out on enucleated porcine eyes (ex-vivo) and rabbits (in-vivo). Simultaneously to the irradiation with a TTT-laser (λ=810nm, P≤3W) through a slit lamp, pulses from a pulsed dye laser (λ=500nm, τ≈3ns, E≈5μJ) were applied onto the irradiated area. This probe irradiation induces an ultrasonic pressure wave, its amplitude depends on the temperature of the absorbing media. We measured this pressure wave by an ultrasonic transducer integrated into a contact lens. The induced pressure maximum for porcine RPE samples was found to raise by 14.6% between 37°C and 50°C. Using this relation we determined optoacoustically the temperature increase during TTT. A comparison of the acoustic data with simultaneous temperature measurements by a thermo couple positioned in the choroid showed accordance within ±1.2°C. Differences in pigmentation led to a 1.8 fold induced temperature increase between weak and heavy pigmented eyes. First results in the in-vivo animal study showed an average temperature increase of (2.45 ±±0.16)°C for an irradiation of 1W/cm ² . In conclusion the developed optoacoustic method seems adequate for real-time temperature determination during retinal laser treatments and might serve as a dosimetry control for TTT.

Originalsprache	Englisch
Titel	Ophthalmic Technologies XV
Redakteure/-innen	Fabrice Manns, Per G. Söderberg, Arthur Ho, Bruce E. Stuck, Michael Belkin
Seitenumfang	7
Band	5688
Herausgeber (Verlag)	SPIE
Erscheinungsdatum	18.04.2005
Seiten	208-214
Aufsatznummer	78
DOIs	https://doi.org/10.1117/12.608406
Publikationsstatus	Veröffentlicht - 18.04.2005
Veranstaltung	Ophtalmic Technologies XV - San Jose, USA / Vereinigte Staaten Dauer: 22.01.2005 → 25.01.2005 Konferenznummer: 65195

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Kandulla, J., Elsner, H., Hilmes, M., Hartert, C., Birngruber, R., & Brinkmann, R. (2005). Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy. in F. Manns, P. G. Söderberg, A. Ho, B. E. Stuck, & M. Belkin (Hrsg.), Ophthalmic Technologies XV (Band 5688, S. 208-214). Artikel 78 (Progress in Biomedical Optics and Imaging - Proceedings of SPIE; Band 5688). SPIE. https://doi.org/10.1117/12.608406

Kandulla, Jochen ; Elsner, Hanno ; Hilmes, Markus et al. / Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy. Ophthalmic Technologies XV. Hrsg. / Fabrice Manns ; Per G. Söderberg ; Arthur Ho ; Bruce E. Stuck ; Michael Belkin . Band 5688 SPIE, 2005. S. 208-214 (Progress in Biomedical Optics and Imaging - Proceedings of SPIE).

@inproceedings{1dae1b3eebf24fd4897258cebb832671,

title = "Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy",

abstract = "Transpupillary Thermotherapy (TTT) is a retinal laser treatment targeting on occult neovascular membranes. However, the induced temperature increase during irradiation is not exactly known. Model calculations show that differences in pigmentation and vascular perfusion should lead to a different temperature rise under same treatment parameters. In order to evaluate the temperature profiles during TTT, we developed a non-invasive optoacoustic method. The experiments were carried out on enucleated porcine eyes (ex-vivo) and rabbits (in-vivo). Simultaneously to the irradiation with a TTT-laser (λ=810nm, P≤3W) through a slit lamp, pulses from a pulsed dye laser (λ=500nm, τ≈3ns, E≈5μJ) were applied onto the irradiated area. This probe irradiation induces an ultrasonic pressure wave, its amplitude depends on the temperature of the absorbing media. We measured this pressure wave by an ultrasonic transducer integrated into a contact lens. The induced pressure maximum for porcine RPE samples was found to raise by 14.6% between 37°C and 50°C. Using this relation we determined optoacoustically the temperature increase during TTT. A comparison of the acoustic data with simultaneous temperature measurements by a thermo couple positioned in the choroid showed accordance within ±1.2°C. Differences in pigmentation led to a 1.8 fold induced temperature increase between weak and heavy pigmented eyes. First results in the in-vivo animal study showed an average temperature increase of (2.45 ±±0.16)°C for an irradiation of 1W/cm 2 . In conclusion the developed optoacoustic method seems adequate for real-time temperature determination during retinal laser treatments and might serve as a dosimetry control for TTT.",

author = "Jochen Kandulla and Hanno Elsner and Markus Hilmes and Carolin Hartert and Reginald Birngruber and Ralf Brinkmann",

year = "2005",

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doi = "10.1117/12.608406",

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publisher = "SPIE",

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editor = "Manns, {Fabrice } and {G. S{\"o}derberg}, {Per } and Ho, {Arthur } and {E. Stuck}, {Bruce } and {Belkin }, {Michael }",

booktitle = "Ophthalmic Technologies XV",

}

Kandulla, J, Elsner, H, Hilmes, M, Hartert, C, Birngruber, R & Brinkmann, R 2005, Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy. in F Manns, P G. Söderberg, A Ho, B E. Stuck & M Belkin (Hrsg.), Ophthalmic Technologies XV. Bd. 5688, 78, Progress in Biomedical Optics and Imaging - Proceedings of SPIE, Bd. 5688, SPIE, S. 208-214, Ophtalmic Technologies XV, San Jose, California, USA / Vereinigte Staaten, 22.01.05. https://doi.org/10.1117/12.608406

Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy. / Kandulla, Jochen; Elsner, Hanno; Hilmes, Markus et al.
Ophthalmic Technologies XV. Hrsg. / Fabrice Manns; Per G. Söderberg; Arthur Ho; Bruce E. Stuck; Michael Belkin . Band 5688 SPIE, 2005. S. 208-214 78 (Progress in Biomedical Optics and Imaging - Proceedings of SPIE; Band 5688).

Publikation: Kapitel in Büchern/Berichten/Konferenzbänden › Konferenzbeitrag › Begutachtung

TY - GEN

T1 - Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy

AU - Kandulla, Jochen

AU - Elsner, Hanno

AU - Hilmes, Markus

AU - Hartert, Carolin

AU - Birngruber, Reginald

AU - Brinkmann, Ralf

N1 - Conference code: 65195

PY - 2005/4/18

Y1 - 2005/4/18

N2 - Transpupillary Thermotherapy (TTT) is a retinal laser treatment targeting on occult neovascular membranes. However, the induced temperature increase during irradiation is not exactly known. Model calculations show that differences in pigmentation and vascular perfusion should lead to a different temperature rise under same treatment parameters. In order to evaluate the temperature profiles during TTT, we developed a non-invasive optoacoustic method. The experiments were carried out on enucleated porcine eyes (ex-vivo) and rabbits (in-vivo). Simultaneously to the irradiation with a TTT-laser (λ=810nm, P≤3W) through a slit lamp, pulses from a pulsed dye laser (λ=500nm, τ≈3ns, E≈5μJ) were applied onto the irradiated area. This probe irradiation induces an ultrasonic pressure wave, its amplitude depends on the temperature of the absorbing media. We measured this pressure wave by an ultrasonic transducer integrated into a contact lens. The induced pressure maximum for porcine RPE samples was found to raise by 14.6% between 37°C and 50°C. Using this relation we determined optoacoustically the temperature increase during TTT. A comparison of the acoustic data with simultaneous temperature measurements by a thermo couple positioned in the choroid showed accordance within ±1.2°C. Differences in pigmentation led to a 1.8 fold induced temperature increase between weak and heavy pigmented eyes. First results in the in-vivo animal study showed an average temperature increase of (2.45 ±±0.16)°C for an irradiation of 1W/cm 2 . In conclusion the developed optoacoustic method seems adequate for real-time temperature determination during retinal laser treatments and might serve as a dosimetry control for TTT.

AB - Transpupillary Thermotherapy (TTT) is a retinal laser treatment targeting on occult neovascular membranes. However, the induced temperature increase during irradiation is not exactly known. Model calculations show that differences in pigmentation and vascular perfusion should lead to a different temperature rise under same treatment parameters. In order to evaluate the temperature profiles during TTT, we developed a non-invasive optoacoustic method. The experiments were carried out on enucleated porcine eyes (ex-vivo) and rabbits (in-vivo). Simultaneously to the irradiation with a TTT-laser (λ=810nm, P≤3W) through a slit lamp, pulses from a pulsed dye laser (λ=500nm, τ≈3ns, E≈5μJ) were applied onto the irradiated area. This probe irradiation induces an ultrasonic pressure wave, its amplitude depends on the temperature of the absorbing media. We measured this pressure wave by an ultrasonic transducer integrated into a contact lens. The induced pressure maximum for porcine RPE samples was found to raise by 14.6% between 37°C and 50°C. Using this relation we determined optoacoustically the temperature increase during TTT. A comparison of the acoustic data with simultaneous temperature measurements by a thermo couple positioned in the choroid showed accordance within ±1.2°C. Differences in pigmentation led to a 1.8 fold induced temperature increase between weak and heavy pigmented eyes. First results in the in-vivo animal study showed an average temperature increase of (2.45 ±±0.16)°C for an irradiation of 1W/cm 2 . In conclusion the developed optoacoustic method seems adequate for real-time temperature determination during retinal laser treatments and might serve as a dosimetry control for TTT.

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-21844455524&origin=inward&txGid=1317fcc2cd86e3c5663e10587cc52783

U2 - 10.1117/12.608406

DO - 10.1117/12.608406

M3 - Conference contribution

VL - 5688

T3 - Progress in Biomedical Optics and Imaging - Proceedings of SPIE

SP - 208

EP - 214

BT - Ophthalmic Technologies XV

A2 - Manns, Fabrice

A2 - G. Söderberg, Per

A2 - Ho, Arthur

A2 - E. Stuck, Bruce

A2 - Belkin , Michael

PB - SPIE

T2 - Ophtalmic Technologies XV

Y2 - 22 January 2005 through 25 January 2005

ER -

Kandulla J, Elsner H, Hilmes M, Hartert C, Birngruber R, Brinkmann R. Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy. in Manns F, G. Söderberg P, Ho A, E. Stuck B, Belkin M, Hrsg., Ophthalmic Technologies XV. Band 5688. SPIE. 2005. S. 208-214. 78. (Progress in Biomedical Optics and Imaging - Proceedings of SPIE). doi: 10.1117/12.608406

Optoacoustic temperature determination at the fundus of the eye during transpupillary thermotherapy

Abstract

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