Noninvasive and Noncontact Sequential Imaging of the Iridocorneal Angle and the Cornea of the Eye.
Hong Xun Jie Jeesmond, Suchand Sandeep C S, Shinoj V K, Aung Tin, Barathi Veluchamy Amutha, Baskaran Mani, Murukeshan Vadakke Matham
AI Summary
A new non-contact Bessel beam imaging system offers high-resolution visualization of the trabecular meshwork and cornea, potentially improving glaucoma and corneal disease diagnosis.
Abstract
Purpose
High-resolution imaging of the critical anatomic structures of the eye, especially of the anterior chamber, in vivo, remains a challenge, even with currently available state-of-the-art medical imaging techniques. This study aims for the noninvasive and noncontact sequential imaging of the iridocorneal angle, especially the trabecular meshwork (TM) and the cornea of the eye in high-resolution using a newly developed imaging platform.
Methods
Bessel beam scanned light sheet fluorescence microscopy is used to attain high-resolution images of the TM. The ability of the Bessel beam to self-reconstruct around obstacles increases the image contrast at the TM region inside eye by reducing scattering and shadow artifacts. With minimal modifications, the excitation arm of the developed imaging system is adapted for noncontact, high-resolution corneal imaging.
Results
High-resolution images of the TM structures and cellular-level corneal structures are obtained in ex vivo porcine eyes, and subsequently in New Zealand white rabbit, in vivo. The spatial resolution of the developed system is 2.19 µm and has a noncontact working distance of 20 mm.
Conclusions
A high-resolution imaging platform for noncontact sequential imaging of the TM and the cornea of the eye is developed. This imaging system is expected to be of potential interest in the evaluation and diagnosis of glaucoma and corneal diseases.
Translational relevance: The developed prototype offers the plausibility of in vivo, noncontact, and high-resolution imaging of the iridocorneal angle and cornea of the eye that will aid clinicians in diagnosing open-angle glaucoma and corneal diseases better.
MeSH Terms
Shields Classification
Key Concepts4
The developed imaging system, utilizing Bessel beam scanned light sheet fluorescence microscopy, has a spatial resolution of 2.19 µm and a noncontact working distance of 20 mm.
High-resolution images of the trabecular meshwork (TM) structures and cellular-level corneal structures were obtained using the developed imaging system in ex vivo porcine eyes and subsequently in vivo in New Zealand white rabbits.
The developed high-resolution imaging platform for noncontact sequential imaging of the trabecular meshwork (TM) and the cornea is expected to be of potential interest in the evaluation and diagnosis of glaucoma and corneal diseases.
A newly developed imaging platform using Bessel beam scanned light sheet fluorescence microscopy can attain high-resolution images of the trabecular meshwork (TM) and cellular-level corneal structures.
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