Refractory Meibomian Gland Dysfunction and Plasma Jet

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INTRODUCTION Dry eye disease (DED) is one of the most prevalent conditions at an ophthalmology office that may reach 15 to 40% of prevalence in the population. It is didactically classified as two forms that exist as a continuum: aqueous deficient dry eye (ADDE) and evaporative dry eye (EDE). In EDE...

INTRODUCTION Dry eye disease (DED) is one of the most prevalent conditions at an ophthalmology office that may reach 15 to 40% of prevalence in the population. It is didactically classified as two forms that exist as a continuum: aqueous deficient dry eye (ADDE) and evaporative dry eye (EDE). In EDE patients Meibomian Gland Dysfunction (MGD) is the major etiology in which the insufficient meibum secretion can be decreased by cicatricial (trachoma, ocular pemphigoid, erythema multiforme) and non-cicatricial causes (skin disorders such as acne rosacea and atopic dermatitis, blepharitis). MGD pathophysiology can be explained by hyposecretion or ducts obstruction, resulting in low delivery of phospholipids and cholesterol that grant stability to the tear film. Hyposecretion of the sebaceous glands can result from intrinsic (age, ethnicity, hormonal profile) and extrinsic factors (chronic blepharitis, Demodex folliculorum infestation, contact lens wear, topical drops). Furthermore, the duct obstruction occurs in a consequence to cicatricial rearrangement of the terminal ducts or by non-cicatricial hyperkeratinization of the lid margins, leading to increased duct pressure, dilatation, and disuse atrophy of the glands. Questionnaires such as Ocular Surface Disease Index (OSDI) and Dry Eye Questionnaire-5 (DEQ-5) that evaluate the grade of severity of DED and assessment of MGD by noninvasive tear breakup time (BUT) evaluation that measures tear film stability and by meibography under infrared light that analyses gland vitality are central when dealing with any EDE patient. The treatment of MGD can be very challenging in cases where a clinical approach with non-preserved ocular lubricants, lid hygiene, and warm compresses are not sufficient. Oral tetracyclines can be a good alternative in cases of evident lid inflammation to reduce bacterial colonization and inhibit collagenase action although long-term use intolerance limits its use. Thermodynamic treatment with a device that performs controlled local heating and massage of the ducts showed clinical improvement and symptoms reduction whereas multiple sessions are necessary. Mechanical debridement of gland ducts terminals with scalpel blade also improved ocular symptoms and gland function of patients with EDE with MGD. A combination of intense pulsed light (IPL) therapy and gland expression has been shown to be an effective treatment to MGD with increases in BUT and improvement of ocular symptoms related to DED. Plasma jet has been successfully used in Dermatology and is an increasingly popular method for smoothing wrinkles, blunt blepharoplasty, as well as performing thermal ablation for superficial skin layers. The investigators propose a new treatment for refractory MGD patients with plasma jet with a device used in Dermatology to remove the hyperkeratinization layer from the lid margin to unblock terminal gland ducts and use thermal stimulation to enhance meibum delivery. METHODS A prospective, interventional clinical safety and efficacy trial to determine the efficacy and safety of the treatment of refractory MGD patients with plasma jet will be conducted at Ophthalmology Department at Escola Paulista de Medicina (UNIFESP) with 25 Caucasian patients. All patients will be instructed about the study design and will be given full access to the results at any time of the protocol. All will sign an informed consent form and have their identity protected in accordance with patient medical confidentiality. This case series is in accordance with Good Clinical Practices and the Declaration of Helsinki. Patients will be submitted to an ophthalmology workup with best-corrected visual acuity (BCVA) (ETDRS chart), dry eye questionnaires (DEQ-5 and OSDI), corneal topography, bulbar redness, tear meniscus height, noninvasive breakup time (NBUT), tear film osmolarity, meibography under infrared light, meibomian gland expression and Marx line assessment. All exams will be performed before and 30 days after the plasma jet application. Patients will be instructed about the procedure by the ophthalmologist and a nurse and the procedure will be performed after topical anesthesia with lidocaine 2.0%. The plasma jet will be applied 3 times on both superior and inferior terminal gland ducts in the lid margins with a 14.4mm tip and intensity of 5 on the device (0,9W) reaching only the superficial epidermis. Patients will receive topical antibiotics and corticosteroids after the procedure. During all periods (90 days) patients will use sodium hyaluronate 0,15% and actinoquinol at the recommended dosage of twice a day. The software program GraphPad Prism version 7.0 will be used to conduct the statistical analyses. Continuous data distribution will be verified by the Kolmogorov-Smirnov normality test. Data will be analyzed by the Kruskal-Wallis test with the Wilcoxon test considering 2-time points for nonparametric variables and paired t-test for parametric variables. All p values of < 0.05 will indicate statistically significant differences.

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