Comparison of safety and effectiveness of micropulse transscleral cyclophotocoagulation and “slow cook” diode laser transscleral cyclophotocoagulation in patients with refractory open-angle glaucoma

Russ, Heloisa Helena Abil; Seixas, Regina Cele Silveira; Maestrini, Heloisa Andrade; Balbino, Marcos; Fernandes, Thatiana Almeida Pereira; Lima, Núbia Vanessa dos Anjos; Lopes, Nara Lídia Vieira; Neto, Taurino dos Santos Rodrigues

doi:10.5935/0004-2749.2023-0103

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Comparison of safety and effectiveness of micropulse transscleral cyclophotocoagulation and “slow cook” diode laser transscleral cyclophotocoagulation in patients with refractory open-angle glaucoma

Heloisa Helena Abil Russ¹; Regina Cele Silveira Seixas²; Heloisa Andrade Maestrini³; Marcos Balbino⁴; Thatiana Almeida Pereira Fernandes³; Núbia Vanessa dos Anjos Lima⁵; Nara Lídia Vieira Lopes⁵; Taurino dos Santos Rodrigues Neto⁶

DOI: 10.5935/0004-2749.2023-0103

ABSTRACT

PURPOSE: This study aimed to compare the safety and effectiveness of intraocular pressure reduction between micropulse transscleral cyclophotocoagulation and “slow cook” transscleral cyclophotocoagulation in patients with refractory primary open-angle glaucoma.
METHODS: We included patients with primary open angle glaucoma with at least 12 months of follow-up. We collected and analyzed data on the preoperative characteristics and postoperative outcomes. The primary outcomes were a reduction of ≥20% of the baseline value (criterion A) and/or intraocular pressure between 6 and 21 mmHg (criterion B).
RESULTS: We included 128 eyes with primary open-angle glaucoma. The preoperative mean intraocular pressure was 25.53 ± 6.40 and 35.02 ± 12.57 mmHg in the micropulse- and “slow cook” transscleral cyclophotocoagulation groups, respectively (p<0.001). The mean intraocular pressure was reduced significantly to 14.33 ± 3.40 and 15.37 ± 5.85 mmHg in the micropulse- and “slow cook” transscleral cyclophotocoagulation groups at the last follow-up, respectively (p=0.110). The mean intraocular pressure reduction at 12 months was 11.20 ± 11.46 and 19.65 ± 13.22 mmHg in the micropulse- and “slow cook” transscleral cyclophotocoagulation groups, respectively (p<0.001). The median preoperative logMAR visual acuity was 0.52 ± 0.69 and 1.75 ± 1.04 in the micropulse- and “slow cook” transscleral cyclophotocoagulation groups, respectively (p<0.001). The mean visual acuity variation was -0.10 ± 0.35 and -0.074 ± 0.16 in the micropulse- and “slow cook” transscleral cyclophotocoagulation, respectively (p=0.510). Preoperatively, the mean eye drops were 3.44 ± 1.38 and 2.89 ± 0.68 drugs in the micropulse- and “slow cook” transscleral cyclophotocoagulation groups, respectively (p=0.017), but those were 2.06 ± 1.42 and 1.02 ± 1.46 at the end of the study in the slow cook” and micropulse transscleral cyclophotocoagulation groups, respectively (p<0.001). The success of criterion A was not significant between both groups. Compared with 11 eyes (17.74%) in the slow cook” transscleral cyclophotocoagulation group, 19 eyes (28.78%) in the micropulse transscleral cyclophotocoagulation group showed complete success (p=0.171). For criterion B, 28 (42.42%) and 2 eyes (3.22%) showed complete success after micropulse- and slow cook” transscleral cyclophotocoagulation, respectively (p<0.001).
CONCLUSION: Both techniques reduced intraocular pressure effectively.

Keywords: Sclera/surgery; Glaucoma, open-angle/surgery; Ciliary body/surgery; Intraocular pressure; Laser coagulation/methods; Lasers, semiconductor; Comparative study; Effectiveness

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