MedPath

A Unified Index to Predict the Success Probability of Myopia Control

Not Applicable
Withdrawn
Conditions
Myopia, Progressive
Interventions
Device: orthokeratology lens
Device: multifocal soft contact lens
Device: Single vision spectacles
Registration Number
NCT05773118
Lead Sponsor
Nova Southeastern University
Brief Summary

Orthokeratology lenses (OK-lens) and multifocal contact lenses (MFCL) are optical devices designed to slow down the progression of myopia. Both treatments a long-term commitment from doctors and patients. This study aims to develop a unified index to predict the success probability of myopia control at the early stage of treatment.

Detailed Description

An Orthokeratology lens (OK-lens) is a rigid contact lens with a reverse geometry on its back surface. Overnight OK-lens wearing flattens the central cornea (creating minus power) and steepens the mid-peripheral cornea (creating plus power). During the day, this inverted pattern of peripheral corneal refraction induces relative peripheral myopic defocus on the retina to slow down the axial growth. The central portion of an MFCL is designed with minus powers to correct for distance vision, and plus power is directly added to the peripheral part of the lens. Daytime MFCL wear imposes peripheral retinal myopic defocus when the lenses are worn. An MFCL can also reduce axial growth by 52% compared to a single vision spectacle or contact lens.

Myopia control with OK-lens or MFCL requires a long-term commitment from doctors and patients to see the effect become apparent. It is paramount to estimate the probability that a patient would achieve effective control in myopic progression ideally before treatment begins or early during the course of treatment. To this end, efforts have been made to investigate the correlations between axial growth and possible contributing factors. Early research works have covered a variety of parameters at the baseline, including age, spherical equivalent (SE), corneal eccentricity, and corneal thickness. These measurements are nonspecific, indirect, and based on the assumption that their relationships to axial growth are linear, which often leads to contradictory findings and results that are hard to interpret by physicians. Therefore, in this study, we proposed a new index that takes pupil size into consideration by determining the summed relative myopic defocus dosage within the pupillary area (PMDD) to predict myopia control's success rate. This index will be determined for each eye, will be quantified one month after the lens dispensing, and will be used as the predictive variable.

Recruitment & Eligibility

Status
WITHDRAWN
Sex
All
Target Recruitment
Not specified
Inclusion Criteria
  • Older than 7 years of age or younger than 12 years of age,
  • Spherical equivalent (SE) greater -1.00 D and less than-5.00 D,
  • Corneal astigmatism ≤ 1.50 D,
  • best-corrected visual acuity better than 20/25,
  • No binocular vision dysfunction,
  • No obvious angle kappa,
  • No history of an OK-lens or MFCL wear or any other myopia control treatments such as atropine, application of atropine for cycloplegia during the past 30 days,
  • No contact lens contraindications,
  • No related ocular or systemic disease.
Exclusion Criteria
  • Younger than 7 years of age or older than 12 years of age,
  • Spherical equivalent (SE) less than -1.00 D or greater than-5.00 D,
  • Corneal astigmatism > 1.50 D,
  • Best-corrected visual acuity less than 20/25,
  • Binocular vision dysfunction,
  • Obvious angle kappa,
  • History of an OK-lens or MFCL wear or any other myopia control treatments such as atropine, application of atropine for cycloplegia during the past 30 days,
  • Contact lens contraindications,
  • Related ocular or systemic disease.

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
orthokeratology lensorthokeratology lensThe subjects will wear an orthokeratology lens with 3-zone reverse geometry design. The subjects are instructed to wear the lenses for at least eight hours every night and are removed during daytime hours.
multifocal soft contact lensmultifocal soft contact lensThe subjects will wear a multifocal soft contact lens during daytime hours and remove the lens at night
single vision spectacleSingle vision spectaclesThe subjects will wear single vision spectacle lens as control.
Primary Outcome Measures
NameTimeMethod
axial length elongationover 12 months

The changes in axial length at the end of 12-month treatment will be computed.

Secondary Outcome Measures
NameTimeMethod
pupillary myopia defocus dosageover 12 months

The myopia defocus dosage accumulated within the pupillary area

Related Trials

Testing two new methods to detect differences between contact lens materials

CompletedNot Applicable
Ocular Technology Group-International (OTG-i)
Updated 7/15/2024

An evaluation test of Orthokeratology lenses(MCOK-01)

Phase 3
Hiraoka Takahiro
Updated 10/17/2023

Myopia Control With Orthokeratology Contact Lenses in Spain

CompletedNot Applicable
Menicon Co., Ltd.
Posted 3/19/2021
Updated 3/26/2021

Euclid Phoenix Lens Design Trial

Active, Not RecruitingNot Applicable
Euclid Systems Corporation
Posted 4/29/2024

Orthokeratology for Keratoconus

Unknown StatusNot Applicable
Hadassah Medical Organization
Posted 1/1/2009

Clinical Trial of Orthokeratology Lens (MCOK-01)

CompletedNot Applicable
Menicon Co., Ltd.
Posted 9/14/2023
Updated 2/7/2025

Visual Outcomes for Toric Efficacy Study

CompletedNot Applicable
University of Houston
Posted 11/2/2018
Updated 7/14/2020
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy