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Literatuurverwijzingen
*G-PROBE
1.
Gaasterland DE. Diode Laser Cyclophotocoagulation. Glaucoma Today 2009 Mar:35–39.
2.
Gaasterland DE, Radcliffe NM, Vold SD, Kammer JA. Reconsidering Transscleral
Cyclophotocoagulation. Supplement to Glaucoma Today 2012 Jan-Feb:1–11
3.
Kraus CL, Tychsen L, Lueder GT, Culican SM. Comparison of the Effectiveness and Safety of
Transscleral Cyclophotocoagulation and Endoscopic Cyclophotocoagulation in Pediatric Glaucoma.
J Pediatr Ophthalmol Strabismus 2014;51(2):120–127.
4.
Lin SC. Endoscopic and Transscleral Cyclophotocoagulation for the Treatment of Refractory
Glaucoma. J Glaucoma 2008;17:238–247.
5.
Olivier MM. Current Options for Cyclophotocoagulation: An overview of transscleral diode
photocoagulation and endocyclophotocoagulation. Glaucoma Today 2012 Mar-Apr:30–34.
6.
Schlote T, Derse M, Rassmann K, Nicaeus T, Dietz K, Thiel H. Efficacy and Safety of Contact
Transscleral Diode Laser Cyclophotocoagulation for Advanced Glaucoma. J Glaucoma 2001;10:294–301.
7.
Wilensky JT, Kammer J. Long-term Visual Outcome of Transscleral Laser Cyclotherapy in Eyes with
Ambulatory Vision. Ophthalmology 2004;111:1389–1392.
*G-PROBE ILLUMINATE: (inclusief literatuurverwijzingen voor G-Probe en ook de twee
literatuurverwijzingen hieronder)
1.
Agrawal P, Martin KR. Ciliary body position variability in glaucoma patients assessed by scleral
transillumination. Eye 2008;22:1499–1503.
2.
Agrawal P, Dulku S, Nolan W, Sung V. The UK National Cyclodiode Laser Survey. Eye 2010:1–6.
**MICROPULSE P3
1.
Radcliffe N, Vold S, Kammer J, Ahmed I, Parekh P, Noecker R, Khatana A. MicroPulse Trans-scleral
Cyclophotocoagulation (mTSCPC) for the Treatment of Glaucoma Using the MicroPulse P3 Device.
AGS, San Diego February 26 – March 1, 2015.
2.
Aquino MC, Tan AM, Loon SC, Chew PT. Transscleral Micropulse Diode Laser
Cyclophotocoagulation as Effective Adjunctive Treatment prior to Glaucoma Surgery. ARVO 2012
May.
3.
Aquino MC, Tan AM, Loon SC, See J, Chew PT. A Randomized Comparative Study of the Safety
and Efficacy of Conventional Versus Micropulse Diode Laser Transscleral Cyclophotocoagulation in
Refractory Glaucoma. ARVO 2011 May.
4.
Liu GJ, Mizukawa A, Okisaka S. Mechanism of Intraocular Pressure Decrease after Contact
Transscleral Continuous-Wave Nd:YAG Laser Cyclophotocoagulation. Ophthalmic Res 1994;26:65–79.
5.
Schubert HD, Agarwala A. Quantitative CW Nd:YAG Pars Plana Transscleral Photocoagulation in
Postmortem Eyes. Ophthalmic Surgery 1990;21(12):835–39.
6.
Aquino MC, Tan AM, Chan YH, Chew PT. Initial Experience with MicroPulse Diode Laser
Transscleral Cyclophotocoagulation for Severe Glaucoma. World Glaucoma Congress 2007 July;P428.
7.
Tan AM, Chockalingam M, Aquino MC, Lim ZI, See JL, Chew PT. Micropulse Transscleral Diode
Laser Cyclophotocoagulation in the Treatment of Refractory Glaucoma. Clin Experiment Ophthalmol
2010 Apr;38(3):266–72
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