Evidence-Based Consensus Guidelines Series for MicroPulse Transscleral Laser Therapy: Dosimetry and Patient Selection

Overview

Journal Clin Ophthalmol

Publisher Dove Medical Press

Specialty Ophthalmology

Date 2022 Jun 14

PMID 35698599

Authors

Tomas M Grippo

Ronald M P C de Crom

Michael Giovingo

Marc Toteberg-Harms

Brian A Francis

Brian Jerkins

Jacob W Brubaker

Nathan Radcliffe

Jella An

Robert Noecker

Affiliations

Soon will be listed here.

Abstract

Purpose: To provide consensus-based current guidelines on optimal dosimetry and patient selection for MicroPulse Transscleral Laser Therapy (TLT) based on a review of the literature and a Delphi method.

Methods: A comprehensive search of Pub Med led to the identification and analysis of 61 studies on MicroPulse TLT that contained information on laser settings and patient selection. To determine consensus in areas where there was not enough available literature, a three-round Delphi method was conducted.

Results: The response rate was 90% in the first round, 90% in the second round, and 80% in the third round of the Delphi technique. Once all responses were aggregated, a live meeting was held with 80% attendance, and consensus was achieved on each of the findings detailed in this manuscript.

Conclusion: Micropulse TLT is a useful addition to the glaucoma armamentarium. When used with proper surgical technique at energy settings within the boundaries described in this manuscript, MicroPulse TLT is a safe and effective treatment for many types and stages of glaucoma. Based on current knowledge and experience, the consensus recommendation of this expert panel is that the standard MicroPulse TLT settings using the revised MicroPulse P3 Probe should be 2500 mW, 31.3% duty cycle, and 4 sweeps at a sweep velocity of 20 seconds each per hemisphere. Both hemispheres avoiding the 3 and 9 clock hours should be treated. The panel also reached consensus on patient selection for MicroPulse TLT providing guidance for the use of the procedure.

Citing Articles

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References

Radhakrishnan S, Wan J, Tran B, Thai A, Hernandez-Siman J, Chen K . Micropulse Cyclophotocoagulation: A Multicenter Study of Efficacy, Safety, and Factors Associated With Increased Risk of Complications. J Glaucoma. 2020; 29(12):1126-1131. DOI: 10.1097/IJG.0000000000001644. View

de Crom R, Slangen C, Kujovic-Aleksov S, Webers C, Berendschot T, Beckers H . Micropulse Trans-scleral Cyclophotocoagulation in Patients With Glaucoma: 1- and 2-Year Treatment Outcomes. J Glaucoma. 2020; 29(9):794-798. DOI: 10.1097/IJG.0000000000001552. View

Elhefney E, Mokbel T, Hagras S, AlNagdy A, Ellayeh A, Mohsen T . Micropulsed diode laser cyclophotocoagulation in recurrent pediatric glaucoma. Eur J Ophthalmol. 2019; 30(5):1149-1155. DOI: 10.1177/1120672119858226. View

Sanchez F, Lerner F, Sampaolesi J, Noecker R, Becerra N, Iribarren G . Efficacy and Safety of Micropulse® Transscleral Cyclophotocoagulation in Glaucoma. Arch Soc Esp Oftalmol (Engl Ed). 2018; 93(12):573-579. DOI: 10.1016/j.oftal.2018.08.003. View

Menon I, Basu P, Persad S, Avaria M, Felix C, Kalyanaraman B . Is there any difference in the photobiological properties of melanins isolated from human blue and brown eyes?. Br J Ophthalmol. 1987; 71(7):549-52. PMC: 1041224. DOI: 10.1136/bjo.71.7.549. View

A Garcia G, Nguyen C, Yelenskiy A, Akiyama G, McKnight B, Chopra V . Micropulse Transscleral Diode Laser Cyclophotocoagulation in Refractory Glaucoma: Short-Term Efficacy, Safety, and Impact of Surgical History on Outcomes. Ophthalmol Glaucoma. 2020; 2(6):402-412. DOI: 10.1016/j.ogla.2019.08.009. View

Williams A, Moster M, Rahmatnejad K, Resende A, Horan T, Reynolds M . Clinical Efficacy and Safety Profile of Micropulse Transscleral Cyclophotocoagulation in Refractory Glaucoma. J Glaucoma. 2018; 27(5):445-449. DOI: 10.1097/IJG.0000000000000934. View

Kaba Q, Somani S, Tam E, Yuen D . The Effectiveness and Safety of Micropulse Cyclophotocoagulation in the Treatment of Ocular Hypertension and Glaucoma. Ophthalmol Glaucoma. 2020; 3(3):181-189. DOI: 10.1016/j.ogla.2020.02.005. View

Yelenskiy A, Gillette T, Arosemena A, Stern A, Garris W, Young C . Patient Outcomes Following Micropulse Transscleral Cyclophotocoagulation: Intermediate-term Results. J Glaucoma. 2018; 27(10):920-925. DOI: 10.1097/IJG.0000000000001023. View

10.

Zaarour K, Abdelmassih Y, Arej N, Cherfan G, Tomey K, Khoueir Z . Outcomes of Micropulse Transscleral Cyclophotocoagulation in Uncontrolled Glaucoma Patients. J Glaucoma. 2019; 28(3):270-275. DOI: 10.1097/IJG.0000000000001174. View

11.

Sanchez F, Peirano-Bonomi J, Grippo T . Micropulse Transscleral Cyclophotocoagulation: A Hypothesis for the Ideal Parameters. Med Hypothesis Discov Innov Ophthalmol. 2018; 7(3):94-100. PMC: 6205680. View

12.

Lim E, Aquino C, Lun K, Lim D, Sng C, Loon S . Efficacy and Safety of Repeated Micropulse Transscleral Diode Cyclophotocoagulation in Advanced Glaucoma. J Glaucoma. 2021; 30(7):566-574. DOI: 10.1097/IJG.0000000000001862. View

13.

Varikuti V, Shah P, Rai O, Chaves A, Miranda A, Lim B . Outcomes of Micropulse Transscleral Cyclophotocoagulation in Eyes With Good Central Vision. J Glaucoma. 2019; 28(10):901-905. DOI: 10.1097/IJG.0000000000001339. View

14.

Al Habash A, Alahmadi A . Outcome Of MicroPulse Transscleral Photocoagulation In Different Types Of Glaucoma. Clin Ophthalmol. 2019; 13:2353-2360. PMC: 6896923. DOI: 10.2147/OPTH.S226554. View

15.

Logioco C, Perrone L, Caruso D, Albertazzi R, Valvecchia G, Zanutigh V . Assessment of efficacy and safety of micropulse diode laser treatment in glaucoma: One year follow-up. Arch Soc Esp Oftalmol (Engl Ed). 2020; 95(7):327-333. DOI: 10.1016/j.oftal.2020.03.002. View

16.

Nguyen A, Maslin J, Noecker R . Early results of micropulse transscleral cyclophotocoagulation for the treatment of glaucoma. Eur J Ophthalmol. 2019; 30(4):700-705. DOI: 10.1177/1120672119839303. View

17.

Marchand M, Singh H, Agoumi Y . Micropulse trans-scleral laser therapy outcomes for uncontrolled glaucoma: a prospective 18-month study. Can J Ophthalmol. 2021; 56(6):371-378. DOI: 10.1016/j.jcjo.2021.01.015. View

18.

Lee J, Shi Y, Amoozgar B, Aderman C, de Alba Campomanes A, Lin S . Outcome of Micropulse Laser Transscleral Cyclophotocoagulation on Pediatric Versus Adult Glaucoma Patients. J Glaucoma. 2017; 26(10):936-939. DOI: 10.1097/IJG.0000000000000757. View

19.

Aquino M, Barton K, Tan A, Sng C, Li X, Loon S . Micropulse versus continuous wave transscleral diode cyclophotocoagulation in refractory glaucoma: a randomized exploratory study. Clin Exp Ophthalmol. 2014; 43(1):40-6. DOI: 10.1111/ceo.12360. View

20.

Grippo T, Sanchez F, Stauffer J, Marcellino G . MicroPulse Transscleral Laser Therapy - Fluence May Explain Variability in Clinical Outcomes: A Literature Review and Analysis. Clin Ophthalmol. 2021; 15:2411-2419. PMC: 8200176. DOI: 10.2147/OPTH.S313875. View