Introduction: The purpose of this study was to evaluate whether vital blue dyes could enhance the contrast of intraoperative optical coherence tomography (OCT) during macular surgery. Methods: Consecutive patients undergoing elective pars plana vitrectomy for vitreomacular interface disorders were enrolled. Intraoperative OCT was performed with the Artevo 800 microscope (Carl Zeiss Meditec AG, Jena, Germany) before and after injection of 0.2 mL of Trypan Blue and Brilliant Blue G Ophthalmic Solution. The OCT contrast ratio was measured with ImageJ, while the overall scan quality was subjectively classified using a 4-point scale. Results: Ten eyes of 10 patients were enrolled in the study. The OCT contrast ratio was 9.39 ± 5.35 without blue dye and significantly improved to 14.31 ± 10.50 after blue dye injection (p = 0.027). The percentage of patients with a grade 4 scan quality also significantly improved (from 40% without blue dye to 90% with blue dye injection; p = 0.012). Conclusion: The use of blue dyes during intraoperative OCT is an effective strategy for improving contrast and scan quality without affecting the surgical time and workflow.

1.
Fercher
AF
,
Hitzenberger
CK
,
Drexler
W
,
Kamp
G
,
Sattmann
H
.
In vivo optical coherence tomography
.
Am J Ophthalmol
.
1993
;
116
(
1
):
113
4
.
2.
Ciarmatori
N
,
Pellegrini
M
,
Nasini
F
,
Talli
PM
,
Sarti
L
,
Mura
M
.
The state of intraoperative OCT in vitreoretinal surgery: recent advances and future challenges
.
Tomography
.
2023
;
9
(
5
):
1649
59
.
3.
Ehlers
JP
,
Modi
YS
,
Pecen
PE
,
Goshe
J
,
Dupps
WJ
,
Rachitskaya
A
, et al
.
The DISCOVER study 3-year results: feasibility and usefulness of microscope-integrated intraoperative OCT during ophthalmic surgery
.
Ophthalmology
.
2018
;
125
(
7
):
1014
27
.
4.
Tuifua
TS
,
Sood
AB
,
Abraham
JR
,
Srivastava
SK
,
Kaiser
PK
,
Sharma
S
, et al
.
Epiretinal membrane surgery using intraoperative OCT-guided membrane removal in the DISCOVER study versus conventional membrane removal
.
Ophthalmol Retina
.
2021
;
5
(
12
):
1254
62
.
5.
Falkner-Radler
CI
,
Glittenberg
C
,
Gabriel
M
,
Binder
S
.
Intrasurgical microscope-integrated spectral domain optical coherence tomography-assisted membrane peeling
.
Retina
.
2015
;
35
(
10
):
2100
6
.
6.
Ehlers
JP
,
McNutt
S
,
Dar
S
,
Tao
YK
,
Srivastava
SK
.
Visualisation of contrast-enhanced intraoperative optical coherence tomography with indocyanine green
.
Br J Ophthalmol
.
2014
;
98
(
11
):
1588
91
.
7.
Gandorfer
A
,
Haritoglou
C
,
Kampik
A
.
Toxicity of indocyanine green in vitreoretinal surgery
.
Dev Ophthalmol
.
2008
;
42
:
69
81
.
8.
Pellegrini
M
,
Mura
M
,
Zauli
G
,
Busin
M
.
Therapeutic contact lens-assisted optical coherence tomography for detection of posterior segment diseases in patients with corneal oedema
.
Clin Exp Ophthalmol
.
2022
;
50
(
9
):
1105
7
.
9.
Carrasco-Zevallos
OM
,
Keller
B
,
Viehland
C
,
Shen
L
,
Waterman
G
,
Todorich
B
, et al
.
Live volumetric (4D) visualization and guidance of in vivo human ophthalmic surgery with intraoperative optical coherence tomography
.
Sci Rep
.
2016
;
6
:
31689
.
10.
Leisser
C
,
Hirnschall
N
,
Palkovits
S
,
Doeller
B
,
Kefer
K
,
Findl
O
.
Intraoperative optical coherence tomography-guided membrane peeling for surgery of macular pucker: advantages and limitations
.
Ophthalmologica
.
2019
;
241
(
4
):
234
40
.
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