Meibomian Gland Dysfunction Clinical Trial
Official title:
Vectored Thermal Pulsation, Intense Pulsed Light, and Eyelid Warm Compress (VIEW) Therapies for Meibomian Gland Dysfunction- A Randomized, Assessor-masked, Active-controlled Clinical Trial
Meibomian gland dysfunction (MGD), closely associated with Dry Eye Disease (DED), is a chronic condition where terminal ducts are obstructed and/or glandular secretion changes. The efficacy of traditional treatment options, e.g. eyelid warm compress therapy (EW) is limited with low compliance. This study aims to (1)compare the efficacy and safety of two emerging alternatives- vectored thermal pulsation(VTP) or intense pulsed light and meibomian gland expression(IPL + MGX) with EW therapy; (2)identify factors predicting outcome. This is a prospective, randomized, assessor-masked, active-controlled clinical study. 360 participants (360 study eyes) with mild-to-moderate MGD will be randomized by minimization into three arms equally, receiving either VTP by TearScience-LipiFlow® Thermal Pulsation System (month 0), IPL by Lumenis®️M22 with MGX (month 0, 1, 2, 3) or EW (twice daily). Lubricating eye drops (3% Hypromellose) will be provided for all subjects throughout the study period(15 months). Tear film breakup time will be assessed as primary outcome at month 6, 15. Serial measurements of MG, tear-film, DED-related parameters, intraocular pressure, compliance to EW, factors associated with outcomes and treatment-related complications will be conducted at baseline and each follow-up visit by masked observers at baseline and eight follow-up evaluation (month 0, 1, 2, 3, 4, 6, 9, 12, 15).
Dry eye disease (DED) is an emerging, under-recognized and under-treated epidemic of the 21st century. It is one of the commonest reasons seeking eye consultation worldwide. Depending on the diagnostic criteria, geographic location and population concerned, prevalence of DED ranges from 30 to over 50% in the Asia Pacific regions compared to around 5-10% in the United States. Up to 90% of DED is closely associated with meibomian gland dysfunction (MGD), a chronic and progressive condition characterized by terminal duct obstruction, qualitative and/or quantitative changes in the glandular secretions (meibum) which causes tear instability by increasing tear evaporation and subsequently increased tear osmolarity, ocular surface inflammation, epithelial damage and ocular surface disease. Studies suggest that MGD affects between 5-20 % of Caucasians and over 60% of Asians populations. Conventional treatments for MGD including self-administered eyelid hygiene, eyelid warm compress therapy (EW), artificial tears, including lipid-containing lubricants are limited in their efficacies for moderate to advanced disease. Prescription medications (topical steroids, topical and oral antibiotics, topical immunomodulatory agents e.g. cyclosporine and oral omega-3 essential fatty acids) have demonstrated efficacies in improving symptoms and signs of MGD; however side-effects including preservative-related adverse events, development of antibiotic resistance, cost, accessibility, off-label use, and the need for ongoing treatments often limit their long-term use. Despite the described range of available options, management for MGDs is often considered unsatisfactory and frustrating by clinicians and patients. Compliance to long-term, home-based self-administered therapies is known to be suboptimal while practitioner-administered treatment including meibomian gland expression (MGX) provides transient relief. Intense pulsed light (IPL) therapy is widely used in cosmetic dermatology as well as therapeutically for a wide range of skin conditions with favourable efficacy and tolerability. Concurrent MGD improvements were observed serendipitously in patients undergoing IPL for rosacea. With growing interest in combining IPL+MGX as practitioner-administered physical therapy for MGD, recent review and meta-analysis showed its effectiveness and safety while calling to investigate its effect beyond 6 months after the last IPL treatment. Vectored thermal pulsation (VTP) is approved by FDA as another practitioner-administered physical therapy for MGD. The device covers both the cutaneous and mucosal surfaces of the eyelids; the rear portion of the device provides heat to the MG, and the front portion gives mechanical stimulation to the eyelid skin. It evacuates the MG of the upper and lower eyelids simultaneously with minimal discomfort while protecting the cornea, rendering the experience for patients generally favorable. Recent meta-analysis showed that a single 12-minute VTP was more efficacious than EW in treating MGD. Knowledge gaps: Level I evidence comparing efficacies between two promising practitioner-administered therapies VTP and multi-session IPL+MGX with standard self-administered twice-daily EW for MGD is currently lacking. The onset and offset of therapeutic effects, time course of multi-session IPL+MGX, single-session VTP or twice-daily EW on MGD up to 15-month post-treatment initiation or 12-month post last session of IPL have not been studied either in an RCT setting. These important gaps will be addressed in this application. Primary Objective: To compare the efficacy and safety of 1-session vectored thermal pulsation (VTP) or 4-session intense pulsed light and meibomian gland expression (IPL+MGX) with twice-daily eyelid warm compress (EW) therapy for meibomian gland dysfunction (MGD). Secondary Objectives: 1. To compare the course of MGD among groups over 15 months (12-month after final IPL+MGX); 2. To identify factors predicting responses and compliance to therapies. Hypotheses: 1. Both 1-session VTP and 4-session IPL+MGX are more efficacious than twice-daily EW in improving MGD; 2. MGD improves earlier after VTP; 3. MGD improvement lasts longer after 4-session IPL+MGX. Study design: This is a prospective, randomized, assessor-masked, 3-arm (1:1:1), active-controlled trial of 360 subjects with meibomian gland dysfunction contributing one study eye. For subjects with both eyes eligible, the eye with the fewest quality of expressed meibum, thinnest lipid layer, or the lowest TFBUT values (in this order) will be selected as the study eye. A total of 360 patients with symptomatic MGD will be recruited from the participating hospitals coordinated by the Chinese University of Hong Kong (CUHK) Research Clinic, the CUHK Eye Centre (CUHKEC), Department of Ophthalmology and Visual Science, Faculty of Medicine, The CUHK. Randomization will be carried out by a computer-generated minimization program. Minimization is a dynamic process to reduce the imbalance between trial arms with respect to a range of predefined prognostic variables, and a randomization schedule is therefore not drawn up in advance. A form describing the baseline characteristics of each subject according to these minimization criteria: gender, age, and quality of expressed meibum from the study eye. Treatment allocation will be sent to the unmasked trial coordinator for arrangement at baseline (month 0). Enrolled patients will be randomized into one of the following groups, 1 month after recruitment during the 15-month study period receiving bilateral treatment of: Group A: 1-session VTP at month 0; Group B: 4-session IPL+MGX at month 0,1,2,3; Group C: twice daily EW for 15 months. All patients will be given one single topical lubricant (Hypromellose, 3mg/ml) to be used as frequently as needed from recruitment to study exit (total 16 months). IPL or VTP is given by unmasked treating investigators not involved in data collection. Follow-up investigators collecting the data are masked to participants' treatment assignment. This information can be disclosed upon request after the completion of the study. Unmasked trial coordinators will ensure masking by reminding and accompanying each patient before and during visit. Treatment-related complications will be evaluated by all participants in a standard datasheet regardless of group assignment. Follow-up investigators will be asked if they know each participant's group assignment at each visit and why. Tear film breakup time will be assessed as the primary outcome (month 6 and 15). Serial measurements of MG, tear-film, DED-related parameters, intraocular pressure, compliance to EW, factors associated with outcomes, and treatment-related complications will be conducted by masked investigators at baseline and eight follow-up evaluations (month 0, 1, 2, 3, 4, 6, 9, 12, 15). ;
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