Intense pulsed light (IPL) has been reported to improve signs and symptoms of dry eye (DE). Additionally, meibomian gland secretion of lipids has been observed to improve through the use of IPL. Diquafosol ophthalmic solution (DQS) stimulates P2Y2 receptors on the ocular surface, which enhances mucin secretion from goblet cells. Therefore, tear film stability and hydration of the ocular surface can be achieved independent from lacrimal glands function. The purpose of this prospective study was to evaluate and compare the effects of IPL (IPL group), DQS (DQS group) and IPL in combination with DQS (IPL+ group) in participants with persistent DE. Tear film lipid layer (TFLL), non-invasive breakup time (NITBUT), tear meniscus height (TMH), corneoconjunctival staining score (CS), meibum gland (MG) function, conjunctival hyperemia (RS score), ocular surface disease index (OSDI) will be assessed and compared at baseline, day-14, and day-28.
Evaporative dry eye (EDE) has been reported to be the most prevalent form of dry eye disease (DED), which is primarily caused by meibomian gland hypofunction or meibomian gland dysfunction (MGD). MGD is defined as ''a chronic, diffuse anomaly of the meibomian glands, often characterized by terminal duct blockage and/or qualitative/quantitative alterations in glandular secretion'' by the International Workshop on MGD.These glands are modified sebaceous glands that release meibum directly onto the ocular surface. Signs and symptoms of EDE and MGD can be addressed by improving the quality and quantity of meibum secretion. Intense pulsed light (IPL) is widely used to treat dermatological conditions, and its noncoherent polychromatic light source with wide wavelength range of 500-1200 nm has been reported to stimulate facial sebaceous glands. The photothermal effect of IPL is postulated to relieve inflammation by removing aberrant surface microvasculature and enhances meibomian gland function. Furthermore, an increase in fibroblast proliferation, collagen formation and local blood flow has been associated with the application of IPL on the skin. Several studies have documented the benefits of IPL in alleviating signs and symptoms of DED on the periocular skin. Diquafosol ophthalmic solution (DQS) is a dinucleotide polyphosphate which a purinoceptor agonist, when administered to the ocular surface, it binds to P2Y2 receptors and stimulates mucin and tear secretion. The corneal epithelium, conjunctival epithelium, lacrimal gland ductal epithelium, meibomian gland sebaceous cells, and meibomian gland ductal cells all express the P2Y2 receptor. Subsequently, enhanced secretion of mucin and tear secretion due to DQS ophthalmic solution leads to stabilization of the tear film, minimizes tear evaporation, and reduces mechanical friction thereby protecting the corneal epithelium. The purpose of this study is to assess the management of DE by combining IPL and DQS eye drops.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
360
IPL treatment intensity was chosen based on the Fitzpatrick scale as follows: Fitzpatrick scale I, II, III, 10-15 J/cm2 with a 570-nm filter.
3% Diquafosol tetrasodium eye drops will be used to assess its usefulness in dry eye signs and symptoms
He Eye Hospital
Shenyang, Liaoning, China
Non-invasive tear break-up time (NIBUT)
Non-invasive initial tear film breaking time will be assessed using the Keratograph 5M (Oculus, Germany) topographer. Three sequentially readings will be captured, and the median value will be included in the final analysis. The median value will be recorded. * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined.
Time frame: Day-0 (baseline), day-14 and day-28
Ocular Surface Disease Index (OSDI)
OSDI, which is a questionnaire consisting of 12 questions for evaluating the effects of dry eye syndrome on vision, ocular symptoms and any condition associated with DED. The patient will answer each question on a scale ranging from 0 to 4, with 0 indicating 'none of the time' and 4 indicating 'all of the time'. If a certain question is deemed irrelevant, it will be marked as 'not applicable (N/A)' and excluded from the analysis. The OSDI total score is calculated according to the following formula. The scale ranges from 0 to 100, with higher scores representing more severe cases of dry eye syndrome. * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined
Time frame: Day-0 (baseline), day-14 and day-28
Fluorescein and lissamine conjunctival and cornea staining (CFS)
Fluorescein and lissamine staining of the ocular surface will be divided into three zones comprising nasal conjunctival, corneal, and temporal conjunctival areas. The staining score ranged from 0 to 3 for each zone, yielding a total score of 0-9 for the ocular surface. * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined.
Time frame: Day-0 (baseline), day-14 and day-28
Meibomian gland function and secretion quality
Meibum quality will be assessed under a slit-lamp: Five meibomian gland in the middle parts of the eyelid will be assessed using a scale of 0 to 3 for each gland (0 represented clear meibum; 1 represented cloudy meibum; 2 represented cloudy and granular meibum; and 3 represented thick, toothpaste like consistency meibum) * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined.
Time frame: Day-0 (baseline), day-14 and day-28
Tear Film Lipid Layer Score (TFLL)
Tear Film Lipid Layer interferometry will be assessed using DR-1 (Kowa, Nagoya, Japan). The results will be graded as follows: grade 1, somewhat gray color, uniform distribution; grade 2, somewhat gray color, nonuniform distribution; grade 3, a few colors, nonuniform distribution; grade 4, many colors, nonuniform distribution; grade 5, corneal surface partially exposed. * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined.
Time frame: Day-0 (baseline), day-14 and day-28
Tear meniscus height (TMH)
Non-invasive first tear film breakup time using the Keratograph 5M (Oculus, Germany) topographer will be measured three times consecutively and the median value was recorded. * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined.
Time frame: Day-0 (baseline), day-14 and day-28
Conjunctival hyperemia (RS score)
Conjunctival hyperemia (RS score) will be assessed by Keratograph image (Oculus, Germany) of 1156\*873 pixels, redness score (RS) (accurate to 0.1 U) was displayed on the computer screen that ranged from 0.0 (normal) to 4.0 (severe). * Changes at day-14 and day-28 will be compare with baseline measurements. * Comparison between groups at baseline, day-14 and day-28 will also be examined.
Time frame: Day-0 (baseline), day-14 and day-28
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.