Clinical Trials Logo

Clinical Trial Summary

The purpose of the study is to determine the effect of Natural View Multifocal lenses, a soft multifocal lens, on retardation of myopia in an optometric student population. Close up work (i.e. reading, computer work, etc.) is thought to play a factor in the progression of myopia in young adults. The progression should be slowed if not stopped through the use of peripheral defocus lenses (Natural View Multifocal) to change the optics of the eye in order to focus the image on the peripheral retina as opposed to behind it.


Clinical Trial Description

BACKGROUND AND SIGNIFICANCE Myopia is a common refractive error that has increased among young adults and has become more prevalent in the growing population across the globe (Fan, et al 2004). This has been more common in Eastern Asian countries with prevalence of myopia as high as 96.5% among 19 year old soldiers in South Korea. (Shimuzu, et al 2003) In the United States between the 1990's to the 2000's there was a sudden increase of >15% myopia progression (Vitale et al 2009). There has been a correlation between education and myopia progression in urban areas calling into question the amount of close up work and being indoors as opposed to being outside working as in the rural populations (Resnikoff, et al 2004). Children between the ages of 7 to 11 years that were forced to spend 80 minutes per day outside showed a significantly better outcome in regards to onset as well as progression of myopia. Those that were spending 80 minutes per day outside had an average onset of 8.4% and progression of 0.25 diopters whereas the children that were not forced to spend time outside had onset and progression at a rate of 17.7% and 0.38 diopters respectively. (Wu, et al 2013) Myopia progression has become a cause for concern due to the complications that arise from the elongation of the eye. Some of the complications include retinal detachment, choroidal thinning, glaucoma and myopic macular degeneration. In a study of the causes of visual impairment in an adult Chinese population, it was found that myopic macular degeneration was the leading cause of bilateral visual impairment in adults between the ages of 45 and 59 years old and the second highest major cause of bilateral blindness. (Tang Y, et al 2015) Pathological myopia is one of the leading causes of blindness that can be prevented (Kang et. al. 2017). Recent studies have promising conclusions that soft multifocal contact lenses are a viable option for slowing myopia progression. Many studies have been conducted on the topic of myopic control with soft multifocal contact lenses in young patients. Very little data exists on myopia control methods used in young adults. It is often thought that myopic progression will progress even through to young adults which could potentially necessitate a need for control. If the use of Dual-Focus soft contact lenses in young adults controls myopia, this could become a viable, cost effective method to increase productivity around the world. This is an important factor to consider as the direct and indirect cost of loss of productivity due to uncorrected refractive error is 202 billion dollars. (WHO bulletin 2004). Reducing the negative side effects of myopia and possible reduced vision loss in this specific population can open doors to future research in other populations. A common treatment for myopia progression is Orthokeratology, in which patients wear a rigid gas permeable contact lens overnight in the hope of reshaping their corneas. A major concern however, with this treatment is the increased risk of infection that comes with wearing a lens overnight. It is also not approved for use on patients with a refractive error of >6.00D of myopia, and is not effective in older adult patients (Cooper et al 2017). Another pitfall of Orthokeratology is that once treatment is stopped, the refractive error of the patient returns to normal. This treatment regimen is easily restricted due to the high cost to the patient. This in turn calls for a type of treatment that can be used during the day, is cost effective, and can be easily disposed of to decrease the risk of infection. If the daily multifocal soft contact lenses are used correctly, any risk of infection or major drawback is greatly reduced. Another method of treatment involves the use of Atropine, which has proven to be successful in controlling the advancement of myopia. This however has side effects including blurry vision, increased sensitivity to light, possible flushing, tachycardia, bradycardia and other undesirable side effects. As the dose of Atropine rises, the reported side effects also increase. (Huy et. al. 2017). LOCATION, FACULTY AND EQUIPMENT TO BE USED - University of Incarnate Word Rosenberg School of Optometry Eye and Vision Care Clinic - IOL Master 500 by Zeiss - Topography - Pentacam SUBJECTS AND INFORMED CONSENT Ideal subjects should: - Be first or second year Optometric students at RSO - Be non-presbyopic - Have at least -0.50 Diopters or more of myopia in one or both eyes - Have no systemic health issues - Have no previous history of Orthokeratology - Have no gas permeable contact use in the last 6 months - Not be enrolled in any other eye study - Be able to have a cycloplegic refraction - New and existing contact lens wearers An announcement will be made to the incoming and 2nd year classes in the classroom at the end of one of their lectures. Also a class wide email will be sent out to the 1st and 2nd years giving them the necessary information. A copy of the informers consent will be given for signature. Proper insertion and removal training will be given to new wearers. DURATION Recruitment will cease within the first 2 months of the study. Data collection and analysis will be ongoing throughout the course of the study. The participants of this study will be monitored at 6 month intervals until their 4t h year of Optometry school. TESTING Active time during each visit is about 30 minutes, potentially up to 60 minutes including inactive time. Through the use of the G-Power analysis we have decided that ideally 40 patients will be needed. All tasks will be provided by any available investigators or research staff, under necessary supervision. One year visit : is a comprehensive exam (uncorrected VA, retinoscopy, refraction, cover test at distance and near with prism neutralization, extraocular motility, near point of convergence , amplitude of accommodation, pupil testing in bright and dim lighting, confrontation field, slit lamp exam with dry eye testing - sodium fluorescein staining and tear break up time) pentacam, A scan, cycloplegic refraction (cyclopentolate 1%), dilated fundus exam yearly, OCT. Uncorrected VA, dry refraction, cyclo refraction, cover tests (Distance and near), amps, slit lamp exam with dry eye eval (TBUT, and sodium fluorescein test) , dilated eye exam, baseline macular OCT Six month Visit: Comprehensive exam, consider cycloplegic refractions if at least a -0.50D myopic shift or more is suspected. A-Scan, topography, pentacam, visual comfort questionnaire also performed. Risk Analysis: Bacterial keratitis, corneal neovascularization, dry eyes secondary to contact lens wear, ocular discomfort, potential allergic reactions contact lens solution. All subjects will be given a contact number should they experience any complications during the study. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04334369
Study type Interventional
Source University of the Incarnate Word
Contact
Status Withdrawn
Phase N/A
Start date December 12, 2018
Completion date July 3, 2022

See also
  Status Clinical Trial Phase
Active, not recruiting NCT05919654 - Clinical Evaluation of MyoCare in Europe (CEME) N/A
Recruiting NCT03402100 - Eye Drops Study for Myopia Control in Schoolchildren N/A
Recruiting NCT03865160 - Low-dose Atropine for Myopia Control in Children Phase 2/Phase 3
Recruiting NCT06088225 - Myopia Preventing With Distance-image Screen N/A
Not yet recruiting NCT06085430 - Kubota Glass Parameter Refinement Study N/A
Not yet recruiting NCT06405711 - To Evaluate the Efficacy and Safety of an Defocus Lens in Slowing the Progression of Myopia N/A
Recruiting NCT05881655 - Slow Myopia Progression With Different Irradiance Light N/A
Recruiting NCT05761379 - Clinical Study of Light Therapy to Control Myopia Progression in Children N/A
Not yet recruiting NCT05760911 - Myopia Prevention Through Monitoring and Motivating Outdoor Activities With Smartwatches N/A
Recruiting NCT04722874 - Repeated Low-Level Red-Light Therapy and Orthokeratology in Fast-progressing Myopia Control N/A
Not yet recruiting NCT06221592 - Differences and Wearing Safety and Comfort of New Defocus Incorporated Multiple Segments Spectacle Lenses N/A
Completed NCT04806763 - Myopia Control With Orthokeratology Contact Lenses in Spain N/A
Completed NCT04806711 - Eleven Years of Menicon Z Night Contact Lens Wear in Reducing Myopia Progression in Children N/A
Completed NCT04806698 - Long-term Efficacy of Orthokeratology Contact Lens Wear in Controlling the Progression of Childhood Myopia N/A
Recruiting NCT05894382 - Double Helix Design Defocus Lens Spectacle (RACE) for Myopia Control N/A
Completed NCT05683535 - Adverse Events Related to Low Dose Atropine
Completed NCT05300321 - DIMS-myopia Progression ADN Axial Length Growth N/A
Withdrawn NCT03519490 - Can Distance Center and Near Center Multifocal Contact Lenses Control Myopia Progression in Children? N/A
Completed NCT05372991 - Safety, Tolerability and Pharmacodynamics Evaluation of CBT-009 Eye Drop Phase 1/Phase 2
Active, not recruiting NCT05373693 - Myopia-control Efficacy by Peripheral Defocus Lens (PDL) N/A