The purpose of this study is to determine whether corneal transplantation by Descemet Membrane Endothelial Keratoplasty more favourable and cost-effective is compared to Descemet Stripping Automated Endothelial Keratoplasty for Fuchs Endothelium Corneal Dystrophy.
FECD is a progressive, multifactorial and irreversible disease characterized by accelerated loss of corneal endothelial cells in the innermost layer of the cornea that leads to vision impairment and potential blindness if left untreated. FECD is responsible for more than 50% of the 1.300 annual corneal transplantations in the Netherlands. Corneal transplantation improves vision and quality of life in patients with corneal disease. Currently, the standard of care for patients with Fuchs Endothelial Corneal Dystrophy (FECD) is Descemet Stripping Automated Endothelial Keratoplasty (DSAEK), in which only the posterior layers of the cornea are transplanted. However, visual recovery following DSAEK is suboptimal. Descemet Membrane Endothelial Keratoplasty (DMEK), the latest technique in corneal transplantation involves transplantation of only a monolayer of corneal endothelium and Descemet's membrane providing the thinnest endothelial graft possible. DMEK has been suggested to result in faster and better visual recovery compared to DSAEK. While the economic burden, both medical and social, from this disease has not been assessed to date, costs associated with corneal transplantation reach $ 110 million dollars yearly for the 47.000 transplantations in the USA. The objective of this project is to assess the effects and costs of DMEK vs. DSAEK in order to determine whether the new technique is effective and cost-effective over the standard technique. The primary outcome measure is best-corrected visual acuity. Secondary outcome measures are contrast acuity, astigmatism, quality of vision, endothelial cell loss, incidence of graft rejection, primary graft failure, cornea donor loss due to preparation, and generic and vision-related quality of life.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
54
Maastricht University Medical Centre
Maastricht, Limburg, Netherlands
Change in best-corrected visual acuity
Visual acuity will be measured by ETDRS letter charts
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Change in contrast sensitivity
Contrast sensitivity will be measured using the CSV-1000 chart by Vector Vision
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Change in astigmatism
Astigmatism will be measured using the The Pentacam HR (Oculus Inc., Lynnwood, USA)
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Change in corneal scatter
Corneal scatter will be measured using a confocal microscope
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Change in endothelial cell loss
Endothelial cell loss will be measured using specular microscopy photography.
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Incidence of graft rejection
Time frame: 3, 6, 12 months post-operatively
Incidence of primary graft failure
Primary Graft failure will be assessed during ophthalmic examination.
Time frame: 3, 6, 12 months post-operatively
Incidence of cornea donor loss due to preparation
The eye bank providing the donor cornea's will register cornea donor loss if a complication occurs during preparation that renders the cornea unusable.
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Time frame: Preoperatively
Change in generic quality of life
Generic quality of life will be measured using the HUI3 (Health Utility Index Mark 3), which test 8 dimensions: vision, hearing, speech, ambulation, dexterity, emotion, cognition and pain.
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Change in generic quality of life
Generic quality of life will be measured using the EQ-5D-5L questionnaire, which tests 5 dimensions: mobility, self-care, usual activities, pain/discomfort and anxiety/depression.
Time frame: Preoperatively and 3, 6, 12 months post-operatively
Change in vision-related quality of life
Vision-related quality of life will be measured using the National Eye Institute Visual Function Questionnaire (NEI VFQ-25), which is specified for vision-related quality of life.
Time frame: Preoperatively and 3, 6, 12 months post-operatively