Real-Time Optical Coherence Tomography Controlled Microsecond Laser Retinal Microsurgery: First In-vivo Results

Burri, Christian; Al-Nawaiseh, Sami; Schulz, André; Wakili, Philip; Farese, Gerardo; Szurzmann, Peter; Salzmann, Simon Adrian; Brinkmann, Ralph; Povazay, Boris; Meier, Christoph; Frenz, Martin; Stanzel, Boris V. (June 2022). Real-Time Optical Coherence Tomography Controlled Microsecond Laser Retinal Microsurgery: First In-vivo Results Investigative Ophthalmology & Visual Science, 63(7), pp. 1-2. Rockville, Maryland: Association for Research in Vision and Ophthalmology

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Reliable mild photocoagulation and selective retina therapy (SRT) selectively damaging the retinal pigment epithelium (RPE) while sparing the neuroretina, the photoreceptors as well as the choroid are highly demanded. However, due to the inter- and intraindividual variability of RPE and choroidal absorption, optical microsurgery requires reliable real-time laser dosing to prevent unwanted overexposure and extended damage of the neuroretina. In this experiment optical coherence tomography (OCT) was implemented to detect minimal damage, and a laser feedback control algorithm was used for real-time dosing. For the first time in-vivo experiments on rabbits were performed with microsecond laser pulses of varying duration. Pigment rabbit eyes (n=6) were exposed to laser pulses of 4, 8, 12, and 20 μs in duration (wavelength, 532 nm; ramp-mode, maximum 15 pulses; repetition rate, 100 Hz). Therefore, a system with a scanning laser ophthalmoscope and spectral-domain OCT (Heidelberg Engineering) extended with a prototype laser (Meridian Medical) was used. For each laser lesion, the increasing ramp’s end energy was individually controlled in real-time using OCT dosimetry (central wavelength, 870 nm; scan rate, 80 kHz). Within 1 hour after irradiation, retinal changes were assessed with fluorescein angiography (FA), indocyanine green angiography (ICGA), color fundus photography (CFP) and OCT. OCT dosimetry utilizing the control algorithm can interrupt the ramp-mode in real-time for each lesion individually. The preconditioned algorithm enabled treatment with a clearly visible breakdown of the blood-retinal barrier (BRB) according to FA and ICGA imaging and barely visible treatment lesions according to CFP. OCT B-scans through the treated areas provided a first indication of the morphological tissue impact. Preliminary evaluation shows that the algorithm stopped the laser at 4 μs at a ramp end energy of 53 μJ (corresponds to 13/15 pulses), at 8 μs at 68 μJ (5/15 pulses), at 12 μs at 74 μJ (7/15 pulses), and at 20 μs at 100 μJ (1/15 pulses). The novel system with OCT based laser dosing proved to induce minimal visible damage and BRB breakdown in a wide range of pulse durations. The new irradiation scheme and algorithm are being optimized and tested in multiple subjects to further limit unwanted damage and enable pure RPE selective laser microsurgery in real-time. This abstract was presented at the 2022 ARVO Annual Meeting, held in Denver, CO, May 1-4, 2022, and virtually.

Item Type:

Conference or Workshop Item (Abstract)

Division/Institute:

School of Engineering and Computer Science > Institute for Human Centered Engineering (HUCE)
School of Engineering and Computer Science > Institute for Human Centered Engineering (HUCE) > HUCE / Laboratory for Optics
School of Engineering and Computer Science
BFH Centres > BFH centre for Health technologies

Name:

Burri, Christian0000-0003-2690-7527;
Al-Nawaiseh, Sami;
Schulz, André;
Wakili, Philip;
Farese, Gerardo;
Szurzmann, Peter;
Salzmann, Simon Adrian0000-0001-5453-8808;
Brinkmann, Ralph;
Povazay, Boris0000-0001-5571-5116;
Meier, Christoph;
Frenz, Martin and
Stanzel, Boris V.

Subjects:

Q Science > Q Science (General)
Q Science > QC Physics
R Medicine > RE Ophthalmology

ISSN:

0146-0404

Publisher:

Association for Research in Vision and Ophthalmology

Language:

English

Submitter:

Christian Burri

Date Deposited:

27 Jul 2022 09:34

Last Modified:

12 Aug 2022 11:33

ARBOR DOI:

10.24451/arbor.17207

URI:

https://arbor.bfh.ch/id/eprint/17207

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