Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03926975 |
| Other study ID # |
STUDY00000747 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
June 1, 2018 |
| Est. completion date |
August 30, 2019 |
Study information
| Verified date |
January 2021 |
| Source |
University of Houston |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The purpose of this study is to evaluate the use of two instruments to measure changes in two
ocular structures: 1) the anterior chamber depth (ACD) - measured using low coherence optical
biometry, and 2) minimum rim width of the optic nerve head (MRW) - measured using optical
coherence tomography. Changes in these ocular structures indicate fluctuations in intraocular
pressure (IOP) and will be measured during scleral contact lens (SGP) wear to determine if
SGP wear influences IOP. We hypothesize that a scleral lens increases the intraocular
pressure (IOP) during active wear and that the ACD and MRW will also change.
Description:
Contact lenses are often used to correct vision blur. The most common types of contact lenses
include those referred to as 'soft' and 'rigid'. Visual acuity through rigid lenses often
surpasses that of soft lenses. Historically, these lenses have been small in diameter, and
hence patients also felt discomfort when wearing the lenses. Scleral lenses are relatively
new, customized devices that have gained popularity with patients and practitioners in the
past 5-10 years, because they are more comfortable and provide more stable vision than the
small diameter rigid contact lenses. However, relatively little is known about the
physiologic response of the eye to the scleral lens, or the long-term effects of their use,
since they are such a new modality.
Maintaining the IOP within the eye is imperative to prevent damage to ocular tissue, which
can occur in glaucoma. Given the landing of scleral lens overlying the sclera and ciliary
body, which assist in modulating the transport of fluid in the eye, there is a potential for
these lenses to impinge on fluid drainage which could lead to increases of IOP during scleral
lens wear. The placement of the lens creates an obstacle in evaluating IOP while the lens is
actually on the eye (covering the cornea), and since increases in IOP may only occur during
lens wear, which is removed when determining clinical IOP measurements, it is difficult to
monitor IOP during scleral lens wear with traditional IOP instrumentation (ie. iCare,
Goldman, etc).
Optical coherence tomography is a non-invasive imaging technology that has revolutionized how
the retina and optic nerve are clinically evaluated. The optic nerve head is typically
assessed using radial scans, from which the minimal distance from the Bruch's membrane
opening to the inner limiting lamina is quantified as the minimum rim width (MRW). With
changes in IOP, the MRW is known to also change in thickness. Many studies are investigating
the MRW changes during IOP fluctuations, with studies finding a decrease in MRW during acute
IOP increase. In this project, MRW will be used to indirectly assess changes in IOP by
measuring the MRW periodically during active scleral lens wear.
In addition, we are incorporating low coherence optical biometry (Lenstar) to evaluate the
effect of the scleral lens pressure on the anterior chamber. Using the Lenstar, corneal
thickness, anterior chamber depth (ACD), lens thickness and vitreous chamber depth can be
quantified. In this project, ACD will be used to indirectly evaluate changes in the pressure
within the anterior chamber. The assumption is that the ACD will change based on changes in
pressure in the scleral lens tear reservoir.
This study will add to the knowledge of how the scleral lens affects the dynamic pressure
system of the eye. Based on the implications for disease with chronic increases and
fluctuations in IOP, this is important information to understand with the scleral lens, a
relatively new refractive treatment modality.
