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Oleg Zadorozhnyy, Andrii Korol, Taras Kustryn, et al. Intraocular tumours imaging with transpalpebral near-infrared LED transillumination: Pilot study. [J]. AOPR 2(2):100052(2022)
Oleg Zadorozhnyy, Andrii Korol, Taras Kustryn, et al. Intraocular tumours imaging with transpalpebral near-infrared LED transillumination: Pilot study. [J]. AOPR 2(2):100052(2022) DOI: 10.1016/j.aopr.2022.100052.
Purpose,To determine the possible use of near-infrared(NIR) light-emitting-diode (LED) radiation for imaging intraocular tumours by transpalpebral transillumination.,Methods,This study was a pilot, open-label, prospective and non-interventional. Thirty patients (30 eyes; age 30–72 years) with uveal melanomas located in the iris, ciliary body, or choroid were under our observation. A biomicroscopy, ophthalmoscopy, transpalpebral NIR transillumination, and ultrasound examination were performed in all cases.,Results,In all cases, NIR transillumination with transpalpebral approach enables visualization of the ciliary body and accurately estimates the projection of the pars plicata and ora serrata onto the sclera. In all patients, transpalpebral NIR transillumination made it possible to image the shadow of intraocular melanoma, estimate its dimensions and location concerning the ciliary body structures.,Conclusions,We recommend the non-invasive transpalpebral NIR transillumination technique, together with traditional ultrasound imaging, to improve the accuracy of assessing the size and location of intraocular tumours.
Purpose,To determine the possible use of near-infrared(NIR) light-emitting-diode (LED) radiation for imaging intraocular tumours by transpalpebral transillumination.,Methods,This study was a pilot, open-label, prospective and non-interventional. Thirty patients (30 eyes; age 30–72 years) with uveal melanomas located in the iris, ciliary body, or choroid were under our observation. A biomicroscopy, ophthalmoscopy, transpalpebral NIR transillumination, and ultrasound examination were performed in all cases.,Results,In all cases, NIR transillumination with transpalpebral approach enables visualization of the ciliary body and accurately estimates the projection of the pars plicata and ora serrata onto the sclera. In all patients, transpalpebral NIR transillumination made it possible to image the shadow of intraocular melanoma, estimate its dimensions and location concerning the ciliary body structures.,Conclusions,We recommend the non-invasive transpalpebral NIR transillumination technique, together with traditional ultrasound imaging, to improve the accuracy of assessing the size and location of intraocular tumours.
Near-infrared lightCiliary bodyIntraocular tumourTransillumination
1 F.H.J. Koch, S. Deuchler, P. Singh, M. Hessling Diaphanoskopie am Auge, Ophthalmologe., 114 (2017), pp. 857-864, 10.1007/s00347-017-0470-6
2 N. Pasyechnikova, V. Naumenko, A. Korol, O. ZadorozhnyyDigital imaging of the fundus with long-wave illumination Klin. Oczna., 111 (2009), pp. 18-20 PMID: 19517839
3 A. Zadorozhnyy, A. Korol, T. Nevska, N. Kustryn, PasyechnikovaСiliary body imaging with transpalpebral near-infrared transillumination (Pilot study) Klin. Oczna., 118 (2016), pp. 184-186 PMID: 30088380
4 Y. Zadorozhnyy, A. Alibet, G. Kryvoruchko, N. Levytska, PasyechnikovaDimensions of ciliary body structures in various axial lengths in patients with rhegmatogenous retinal detachment J. ophthalmol. (Ukraine), 6 (2017), pp. 32-35, 10.31288/oftalmolzh201763236
5 O. Zadorozhnyy, T. Guzun, I. Kustryn, P. Nasinnyk, A. Chechin, KorolTargeted transscleral laser photocoagulation of the ciliary body in patients with neovascular glaucoma J. Ophthalmol. (Ukraine), 4 (2019), pp. 3-7, 10.31288/oftalmolzh2019437
6 M. Kogan, O. Zadorozhnyy, A. Korol, O. Petretskaya, T. Krasnovid, N. PasyechnikovaVisualisierung von intraokularen Fremdkörpern im Ziliarkörperbereich mittels infraroter Transillumination (Pilotstudie), Klin. Monbl Augenheilkd, 237 (2020), pp. 889-893, 10.1055/a-1142-6502
7 J.M. Saari, K. NummelinDigital infrared transillumination imaging of iris J. Ophthalmic Photogr., 27 (2005), pp. 20-24
8 J.M. Saari, T. Kivelä, P. Summanen, K. Nummelin, K.M. SaariInfrared transillumination imaging and fluorescein angiography of iris nevus and melanoma J. Ophthalmic Photogr., 29 (2007), pp. 17-20
9 J. Krohn, E. Ulltang, B. KjersemNear-infrared transillumination photography of intraocular tumours Br. J. Ophthalmol., 97 (2013), pp. 1244-1246, 10.1136/bjophthalmol-2013-303090
10 N. Sieber, P. Kölbl, C. Lingenfelder, K. Stucke-Straub, S. Kupferschmid, M. HesslingMeasurement of the retinal irradiation exposure during diaphanoscopic illumination Curr. Dir. Biomed. Eng., 6 (2020), pp. 276-279, 10.1515/cdbme-2020-3070
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