Trials / Enrolling By Invitation

Enrolling By InvitationNCT06751615

Enhancing Scleral Lens Fit With Advanced Imaging

Scleral Insight: Enhancing the Predictability of ICD Scleral Lens Fitting Using Pentacam Corneal Scleral Profile Analysis in Madrid, Spain

Summary

The goal of this experimental clinical trial is to enhance the predictability and precision of scleral lens fitting in patients with complex corneal conditions such as keratoconus, post-surgical irregularities, and severe dry eye syndrome. The main questions it aims to answer are: Can detailed sagittal height measurements obtained from the Oculus Pentacam Corneal Scleral Profile (CSP) predict the necessary adjustments for optimal scleral lens fit? Will the use of these measurements reduce the number of trial-and-error adjustments needed to achieve an ideal fit, thereby reducing chair time and improving patient satisfaction? Participants will: Undergo detailed corneal and scleral tomography using the Oculus Pentacam with the CSP strategy. Receive customized ICD 16.5 mm scleral lenses based on precise measurements of their ocular surface. Participate in follow-up assessments to evaluate the fit of the lenses and provide feedback on comfort and visual outcomes. This study focuses on a specific participant population of adults aged 18 and older who have not had success with other types of contact lenses. By leveraging advanced imaging technologies, the research aims to streamline the fitting process for scleral lenses, potentially setting new standards for treatment efficacy in specialty contact lens practices.

Detailed description

This prospective, single-center clinical trial aims to refine the process of fitting scleral lenses by utilizing advanced imaging technologies to enhance the precision and predictability of lens adaptations for individuals with complex corneal conditions. Conducted at Centro Fernández in Madrid, Spain, the study focuses on patients who have historically struggled with standard contact lens solutions due to conditions such as keratoconus, post-surgical corneal irregularities, and severe dry eye syndrome. Study Objectives: The primary objective of the study is to determine if detailed sagittal height measurements obtained from the Oculus Pentacam CSP can predict the necessary adjustments required for an optimal scleral lens fit. The secondary objective is to assess whether the use of these precise measurements can reduce the number of adjustments and follow-up visits typically required, thus improving overall patient satisfaction and clinical efficiency. Methods and Procedures: Participants will be enrolled based on specific inclusion criteria, including a history of intolerance or incompatibility with other forms of contact lenses. The study will include the following steps: Initial Evaluation: Comprehensive ocular surface assessment using the Oculus Pentacam, which provides detailed corneal and scleral topography. Lens Fitting: Custom scleral lenses will be fitted based on the Pentacam CSP measurements, with a focus on achieving a central vault of approximately 300 microns over the cornea. Follow-Up Assessments: Participants will return for follow-up visits to assess the fit of the lenses, comfort, and visual outcomes. Adjustments to the lenses will be made based on these assessments. Imaging and Technology: The Oculus Pentacam CSP is a pivotal tool in this study, offering high-resolution imaging that captures detailed topographical data of both the cornea and sclera. This data is crucial for customizing each scleral lens to the unique contours of the patient's ocular surface, potentially reducing the iterative nature of traditional scleral lens fittings. Expected Outcomes: The study is expected to produce several key outcomes: Validation of Predictive Models: Establishing reliable predictive models correlating sagittal height measurements with lens fitting parameters. Clinical Efficiency: Reduction in the total number of fitting sessions required, as well as decreased chair time during each visit. Patient Satisfaction: Improvement in patient comfort and visual acuity, leading to higher satisfaction rates. Impact on Clinical Practice: By demonstrating the effectiveness of integrating advanced imaging technologies into the scleral lens fitting process, this study aims to influence current practices significantly. It is anticipated that the results will provide evidence-based guidelines that can be adopted widely, leading to more predictable and efficient scleral lens fittings across various clinical settings.

Conditions

• Keratoconus
• Astigmatism High

Timeline

Start date

2024-12-01

Primary completion

2024-12-31

Completion

2024-12-31

First posted

2024-12-30

Last updated

2024-12-30

Locations

1 site across 1 country: Spain

Source: ClinicalTrials.gov record NCT06751615. Inclusion in this directory is not an endorsement.