The Role of Transscleral Cyclophotocoagulation in Patients Undergoing a Boston Keratoprosthesis

Glaucoma Clinical Trial

Official title:

The Role of Transscleral Cyclophotocoagulation in Patients Undergoing a Boston Keratoprosthesis

Clinical Trial Details — Status: Recruiting

Administrative data

• NCT number: NCT04232982
• Other study ID #: CE19.253
• Status: Recruiting
• Phase: N/A
• Start date: January 30, 2020
• Est. completion date: December 1, 2036

Study information

• Verified date: April 2024
• Source: Centre hospitalier de l'Université de Montréal (CHUM)
• Contact: Marie-Catherine Thessier, MSc
• Phone: 514 890-8000
• Email: marie-catherine.tessier.chum[@]ssss.gouv.qc.ca
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The Boston keratoprosthesis (KPro) is a special plastic device that is used to replace a sick cornea (transparent part of the eye, in front of the iris) in order to restore vision in patients who have failed traditional corneal transplants or have a very poor prognosis of success. Glaucoma is a chronic disease which causes optic nerve damage secondary to high pressure inside the eye and could lead to vision loss in the long term. Glaucoma is highly prevalent in patients who require a KPro and even more after their procedure. In order to decrease the intra-ocular pressure, surgeons can use multiple eyedrops. Unfortunately, following the KPro surgery, eyedrops lose their efficiency because they are less absorbed by the eye. The transscleral cyclophotocoagulation (TS-CPC) is a laser treatment used in advanced refractory glaucoma. This laser helps decrease the intra-ocular pressure and have a better control of the disease. There are different methods of laser transmission, including the continuous transmission (G-Probe) and the micro-pulsation method (Micopulse). Given the high prevalence of glaucoma in patients receiving a KPro, the investigators are studying the effect of giving the TS-CPC treatment prophylactically to patients before their Boston keratoprosthesis. Our hypothesis is that prophylactic TS-CPC will decrease glaucoma progression as well as the risks of developing glaucoma following the Boston keratoprosthesis . METHOD The investigators aim to recruit twenty (20) patients who are scheduled to receive Boston KPro. Participants will be randomized into two groups: 1) Groupe 1 will receive a prophylactic treatment of transscleral cyclophotocoagulation a G-Probe. 2) Groupe 2 will receive a prophylactic treatment of transscleral cyclophotocoagulation with a micropulse transmission (MicroPulse). The patients will receive their laser treatment by a glaucoma specialist 4 to 8 weeks before their KPro surgery. One week following their laser treatment, the participants will be examined by their glaucoma specialist. Following their KPro surgery, patients will have a follow-up at day-1, weeks 1 and 2, months 1 and 3, then every 4 to 6 months for 5 years. Additional non-invasive glaucoma tests will be performed twice during the first 3 months following the surgery and will be repeated every 4-6 months. Visual acuity results, the visual field tests and rates of post-operative complications will be compared between the different groups.

Description:

RATIONAL OF THE STUDY The Boston keratoprosthesis (KPro) type is an artificial cornea used to restore vision in patients who have failed traditional corneal transplants or have a poor prognosis of success. A number of innovations have improved the postoperative prognosis since its first creation. However, glaucoma is still one of the leading causes of significant vision loss following the surgery, despite the clarity of the anterior segment. The prevalence of glaucoma in KPro candidates is highly elevated (36-76%). Indeed, pathologies requiring a Boston keratoprosthesis and history of previous ocular surgeries are themselves risk factors for glaucoma. Furthermore, the corneal opacity and irregularities lead to poor visualization of the optic nerve and incorrect intra-ocular pressure (IOP) measurements. Thus, the prevalence of glaucoma preoperatively is most likely underestimated. Following the KPro, the increase of IOP or the new diagnosis of glaucoma is estimated between 8 and 35% per year. Additionally, the IOP cannot be determined by the traditional tonometry and is estimated by digital palpation. This leads to treatment follow-up being difficult and limited. For those reasons, it is suggested by experts to insert a glaucoma drainage device during the Boston keratoprosthesis surgery for all patients. In perspective, the transscleral cyclophotocoagulation (TS-CPC) is one of the cyclodestructive procedures used for severe glaucoma. It leads to destruction of the ciliary body epithelium and reduction of aqueous humour production which can reduce the IOP. Different transmission techniques are available and include the Micropulse diode laser (MP-TSCPC, IRIDEX IQ810 Laser systems, Mountain View, CA) and the semiconductor system with the G-Probe (IRIS Oculight SLx, IRIS Medical Inc., Mountain View, CA). These two systems differ by their transmission method, which is via pulsation waves (Micropulse) or continuous transmission (G-Probe). In the literature, there are limited studies who have examined the role and the impact in the long term of the transscleral cyclophotocoagulation in patients receiving a Boston keratoprosthesis. HYPOTHESIS Our hypothesis is that prophylactic transscleral cyclophotocoagulation will decrease glaucoma progression as well as the risks of developing glaucoma following the Boston keratoprothesis. OBJECTIFS Our primary objective in this study is to examine if the use of prophylactic transscleral cyclophotocoagulation treatment with the G-Probe or the Micropulse (MP-TSCPC) methods prophylactically has a positive impact in the diagnosis of the progression of glaucoma in patients receiving a keratoprosthesis, without additional glaucoma surgery. For more information on our primary and secondary criteria, please see in the below sections. METHODS Study design: This is a prospective, randomized, single blinded trial of patients receiving a KPro at the CHUM, with a historical cohort as a control group. Recruitment: Patients will be recruited by their cornea surgeons, risks and benefits of the studies will be explained. An informed consent form will be obtained. Prospective Branch of the Study The study will include twenty (20) patients in the prospective branch of this study in the spam of two (2) years. Patients will receive a cyclophotocoagulation treatment 4-6 weeks before their Boston Keratoprosthesis surgery. Patients will be randomly assigned to either one of the TS-CPC treatment (Micro-Pulse or G-Probe). Following the KPro surgery, if any additional glaucoma surgery is necessary (including the insertion of a glaucoma drainage device), these treatment options will be offered to the participants, as per standard of care. For more information regarding the intervention's arms, see the section below. Control group- cohort study A control group composed of a historical cohort of ten (10) patients who did not receive any glaucoma surgery or TS-CPC 3 months before their Boston keratoprosthesis will be included in the historical cohort. Indeed, when reviewing the literature, given the high prevalence of glaucoma in this population and the current recommendation of inserting a glaucoma drainage device (GDD) in patients receiving a KPro, it would be ethically non-acceptable to have a prospective group without any prophylactic treatment. Moreover, given the fact that we are going to compare between the different groups the need of additional glaucoma surgery, we cannot include a control group in which patients will receive a tube before or during their KPro surgery. Follow-up Patients will be followed by a glaucoma specialist 1 week following the TS-CPC treatment, as per standard of care. After the Boston KPro, postoperative follow-up will be organized as per standard of care and will be similar across the three groups. Patients will be seen at postoperative day-1, weeks 1 and 2, months 1 and 3, then every 4 to 6 months for 5 years. During those visits, visual acuity as well as IOP and a complete slit-lamp exam will be performed. Furthermore, an optic nerve optical coherence tomography (OCT) will be performed and two visual fields test (SITA-Fast and Goldman) will be performed during the first and third month post-KPro. These particular tests will be repeated every 4-6 months, for a period of 5 years. STATISTICAL ANALYSIS Sample size The investigators used the G-Power software to determine our sample size. Given that our primary endpoint is a continuous variable, the investigators used a student t-test with a power of 90%, an alpha of 0,05 and an effect size of 2,6. For the effect size, it was determined based of a difference clinically significant of 20% with the progression of the cup-to-disc ratio in KPro patients. Of note, this study only included the average and not the standard of deviation. The investigators assumed that the standard of deviation increases proportionally to the mean. Statistical analysis Binary variable will be compared across the three groups using a chi square test. For continuous variable, such as the cup-to-disc ratio progression and the thinning of the Retinal Nerve Fiber Layer (RNFL), an ANOVA test will be performed. A test using an alpha parameter of 0,05 will be judged as clinically significant. The visual acuity will be expressed in LogMar and its evolution will be compared across the three groups. The investigators will compare the rate of no light perception (NLP) between the three groups. Given that a previous study showed a 16% rate of NLP after 5 years. The investigators will consider a difference of 5% as clinically significant. A Kaplan-Meir survival curve will be performed for: (1) the loss of light perception and (2) the need of a second intervention for glaucoma control. A Log-rank test will be performed to determine if those variables are statistically different across the groups.

Recruitment information / eligibility

• Status: Recruiting
• Enrollment: 20
• Est. completion date: December 1, 2036
• Est. primary completion date: December 1, 2034
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years to 80 Years

Eligibility

Inclusion Criteria:

• Adults patients
• Able to give an informed consent
• Capable of being followed during the study
• Candidate for the Boston keratoprosthesis type I

Exclusion Criteria:

• Patients younger than 18 years old or older than 80 years old
• Unable to give an informed consent
• Participating to another interventional glaucoma study
• Patients who received a glaucoma surgery or procedure (glaucoma drainage device or TS-CPC treatment) 3 months before their initial visit.
• Unable to wear a therapeutic contact lens secondary to eyelid malformation
• Severe Ocular surface Disease with keratinization
• Intra-ocular tumor
• Terminal Glaucoma
• Phthisis bulbi
• Ocular albinism

Related Conditions & MeSH terms

• Cornea Disease
• Eye Diseases
• Glaucoma

Intervention

Procedure:
• Transscleral cyclphophotocoagulation using the Micropulse system ( IRIDEX IQ810 Laser systems, Mountain View, CA).
Treatment will be applied over the limbal area to treat the ciliary body. The treatment will be delivered with an energy of 2000mW, a cycle of 31,33% and an on/off time of 0,5ms and 1,1ms. It will be delivered around a 360° surface with avoidance of the 3 and 9 o'clock areas. The treatment will be delivered during 80 secondes in each hemisphere and will be repeated twice, for a total of 320 secondes.
• G-Probe transscleral cyclphophotocoagulation (Iris Medical Instruments, Montain View, CA)
Treatment will be applied over the limbal area to treat the ciliary body. Sixteen (16) shots in total, which is four (4) shorts per quadrants, will be transmitted with a power from 1750 to 2000mV (titrating according to an audible "pop") for a length of 2,0 secondes per shots. Treatment will be delivered around a 360° surface and avoiding the 3 and 9 o'clock areas.

Locations

Country	Name	City	State
Canada	Centre Hospitalier de l'Université de Montréal (CHUM)	Montreal	Quebec

Sponsors (2)

Lead Sponsor	Collaborator
Centre hospitalier de l'Université de Montréal (CHUM)	Fonds de recherche en ophtalmologie de l'Université de Montréal

Country where clinical trial is conducted

Canada, 

References & Publications (6)

Crnej A, Paschalis EI, Salvador-Culla B, Tauber A, Drnovsek-Olup B, Shen LQ, Dohlman CH. Glaucoma progression and role of glaucoma surgery in patients with Boston keratoprosthesis. Cornea. 2014 Apr;33(4):349-54. doi: 10.1097/ICO.0000000000000067. — View Citation

Jabbour S, Harissi-Dagher M, Agoumi Y, Singh H, Robert MC. Cyclophotocoagulation in the Control of Glaucoma in Patients With the Boston Keratoprosthesis Type 1. Cornea. 2020 Feb;39(2):181-185. doi: 10.1097/ICO.0000000000002064. — View Citation

Patel S, Takusagawa H, Shen L, Dohlman C, Grosskreutz C. Long-term complications associated with glaucoma drainage devices and Boston keratoprosthesis. Am J Ophthalmol. 2012 Jul;154(1):207-8; author reply 208-9. doi: 10.1016/j.ajo.2012.02.033. No abstract available. — View Citation

Rivier D, Paula JS, Kim E, Dohlman CH, Grosskreutz CL. Glaucoma and keratoprosthesis surgery: role of adjunctive cyclophotocoagulation. J Glaucoma. 2009 Apr-May;18(4):321-4. doi: 10.1097/IJG.0b013e3181815485. — View Citation

Robert MC, Pomerleau V, Harissi-Dagher M. Complications associated with Boston keratoprosthesis type 1 and glaucoma drainage devices. Br J Ophthalmol. 2013 May;97(5):573-7. doi: 10.1136/bjophthalmol-2012-302770. Epub 2013 Feb 23. — View Citation

Vajaranant TS, Liu J, Wilensky J, Cortina MS, Aref AA. Innovative approaches to glaucoma management of Boston keratoprosthesis type 1. Curr Ophthalmol Rep. 2016 Sep;4(3):147-153. doi: 10.1007/s40135-016-0102-3. Epub 2016 Jul 26. — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Other	Complications related to transscleral cyclophotocoagulation treatment	Rate of known complications of transscleral cyclophotocoagulation treatment (hypotony, phthisis bulbi)	5 years
Other	Complications related to the Boston keratoprosthesis	Rate of known complications of the Boston keratoprosthesis (corneal melt, retroprosthetic membrane, retinal or choroid detachment)	5 years
Primary	Cup-to-disc ratio	Rate of progression of the optic nerve cup-to-disc ratio	5 years
Secondary	No light perception	Rate of patients with no light perception	5 years
Secondary	Need of additional glaucoma intervention	Number of patients requiring any additional glaucoma surgery or procedure ( glaucoma drainage device, transscleral cyclophotocoagulation treatment etc.)	5 years
Secondary	Goldman visual field loss of 30% or more.	Number of patients who lose more than 30% or more of their Goldman visual field during their follow-up. The first first two visual fields will be used at baseline as a baseline reference for comparaison.	5 years
Secondary	Retinal Nerve Fiber Layer thinning	Percentage of patients with Retinal Nerve Fiber Layer thinning on Optical Coherence Tomography.	5 years