MedPath

Morphological Changes of Ciliary Body and Trabecular Meshwork

Not Applicable
Conditions
Myopia
Glaucoma
Interventions
Drug: 0.5% pilocarpine eye drops
Registration Number
NCT05352854
Lead Sponsor
Yune Zhao
Brief Summary

Glaucoma is the leading cause of irreversible blindness worldwide. Although the pathogenesis remains unclear, pathologic increase in intraocular pressure (IOP) due to blocked aqueous outflow through the trabecular-Schlemm canal is known to be an important risk factor, and reduction of IOP is the only clinically validated way to retard the progression of OAG. Ciliary muscle plays a central role in the trabecular meshwork-Schlemm canal outflow pathway. Clinical evidence suggests that ciliary muscle contraction stimulated by cholinergic receptor agonist and retraction of ciliary body position after cataract surgery can dilate the lumen of Schlemm canal and reduce IOP. Currently, Ultrasound biomicroscopy (UBM) can obtain two-dimensional images of the anterior segment using high-frequency Ultrasound transducers in medical imaging studies of the ciliary body - trabecular meshwork -Schlemm canal complex. UBM has better tissue penetration than Optical coherence tomography (OCT) and can image the ciliary body better, but it has a lower resolution (30um to 50um) and is poor at imaging tiny tissues such as trabecular meshwork and Schlemm canal. The latest swept-source OCT (SS-OCT) has faster image capture rate (1000000 A scans/SEC), stronger penetration and higher resolution (8um axial resolution and 20um transverse resolution). The structure and morphology of ciliary body-trabecular meshwork-Schlemm canal complex can be clearly photographed. The investigators intend to use CASIA2 to image the ciliary body-trabecular meshwork-Schlemm canal complex before and after administration of pilocarpine in healthy individuals and patients with glaucoma to assess the effect of pilocarpine on the anatomy of the ciliary body-trabecular meshwork-Schlemm canal complex.

Detailed Description

Glaucoma is the leading cause of irreversible blindness worldwide. Although the pathogenesis remains unclear, pathologic increase in intraocular pressure (IOP) due to blocked aqueous outflow through the trabecular-Schlemm canal is known to be an important risk factor, and reduction of IOP is the only clinically validated way to retard the progression of OAG. Ciliary muscle plays a central role in the trabecular meshwork-Schlemm canal outflow pathway. When the ciliary muscle contraction, the elastic fiber network will pull trabecular meshwork away from Schlemm canal direction, trabecular meshwork and adjacent tissue gap increases, increasing aqueous outflow. Clinical evidence suggests that ciliary muscle contraction stimulated by cholinergic receptor agonist and retraction of ciliary body position after cataract surgery can dilate the lumen of Schlemm canal and reduce IOP. Currently, Ultrasound biomicroscopy (UBM) can obtain two-dimensional images of the anterior segment using high-frequency Ultrasound transducers in medical imaging studies of the ciliary body - trabecular meshwork -Schlemm canal complex. UBM has better tissue penetration than Optical coherence tomography (OCT) and can image the ciliary body better, but it has a lower resolution (30um to 50um) and is poor at imaging tiny tissues such as trabecular meshwork and Schlemm canal. The latest swept-source OCT (SS-OCT) has faster image capture rate (1000000 A scans/SEC), stronger penetration and higher resolution (8um axial resolution and 20um transverse resolution). The structure and morphology of ciliary body-trabecular meshwork-Schlemm canal complex can be clearly photographed. The novel anterior segment optical coherence tomography (AS-OCT) device, CASIA2 can accurately image the ciliary body-trabecular meshwork-Schlemm canal complex. The investigators intend to use CASIA2 to image the ciliary body-trabecular meshwork-Schlemm canal complex before and after administration of pilocarpine in healthy individuals and patients with glaucoma to assess the effect of pilocarpine on the anatomy of the ciliary body-trabecular meshwork-Schlemm canal complex.

Recruitment & Eligibility

Status
UNKNOWN
Sex
All
Target Recruitment
120
Inclusion Criteria
  • Emmetropia/low myopia,high myopia, primary open-angle glaucoma without high myopia, and high myopia with primary open-angle glaucoma
  • have a good gaze to complete the test required inspection;
Exclusion Criteria
  • hypersensitivity to pilocarpine
  • History of eye surgery, including cataract surgery, anti-glaucoma surgery, corneal surgery, retinal surgery, and eye trauma
  • history of systemic diseases that may affect the eyes (such as diabetes, hypertension, etc.)
  • intraocular chronic inflammatory diseases (uveitis, etc.), retinal diseases (retinal detachment, diabetic retinopathy, retinitis pigmentosa, etc.)
  • Corneal scars and severe cataracts affect OCT imaging
  • Eye diseases (angle-closure glaucoma, abnormal anterior segment development, neovascularization, etc.) that can affect trabecular meshwork and Schlemm canal structure.

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
High myopia0.5% pilocarpine eye dropsEquivalent spherical lens ≤-6.00D or axial length ≥26.5mm
Primary open angle glaucoma0.5% pilocarpine eye dropsemmetropia/low myopia (equivalent spherical lens \> -3.00d, astigmatism ≤ 1.5d), diagnosed as POAG
Health control0.5% pilocarpine eye dropsemmetropia/low myopia (equivalent spherical lens \> -3.00d, astigmatism ≤ 1.5d), best corrected visual acuity ≥1.0
HM-POAG0.5% pilocarpine eye dropsEquivalent spherical lens ≤-6.00D or axial length ≥26.5mm,diagnosed as POAG
Primary Outcome Measures
NameTimeMethod
Morphology of ciliary body40 minutes after the intervention(local application of pilocarpine eye drops)

measurement of Morphology of ciliary body using CAISA2(The novel anterior segment optical coherence tomography (AS-OCT) device) and Image J software

Morphology of trabecular meshwork40 minutes after the intervention(local application of pilocarpine eye drops)

measurement of Morphology of trabecular meshwork using CAISA2(The novel anterior segment optical coherence tomography (AS-OCT) device) and Image J software

Secondary Outcome Measures
NameTimeMethod

Related Trials

High Resolution, High-speed Multimodal Ophthalmic Imaging

RecruitingNot Applicable
Centre Hospitalier National d'Ophtalmologie des Quinze-Vingts
Posted 10/16/2019
Updated 10/15/2024

Cellular Proteome From Leukocytes of Glaucoma Patients in Comparison With Patients With Alzheimer's Disease

Withdrawn
University Hospital, Basel, Switzerland
Posted 6/5/2008
Updated 3/10/2015

Cellular Proteome From Leukocytes of Glaucoma Patients in Comparison With Patients With Parkinson's Disease

Withdrawn
University Hospital, Basel, Switzerland
Posted 5/18/2006
Updated 3/10/2015

Bimodal and Coaxial High Resolution Ophtalmic Imaging

RecruitingNot Applicable
Centre Hospitalier National d'Ophtalmologie des Quinze-Vingts
Posted 11/9/2020

Matching Glaucoma With Impaired Cognition

Recruiting
Sun Yat-sen University
Posted 10/4/2018
Updated 5/10/2022

The change of ocular biometry in ophthalmic patients who received anti-VEGF therapy

RecruitingNot Applicable
Department of Ophthalmology, Faculty of Medicine, University of Tsukuba
Updated 10/17/2023

A Phase I Clinical Trial of DARC

Unknown StatusPhase 1
University College, London
Posted 3/20/2015
Updated 5/26/2016
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy