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Pupil Anomaly clinical trials

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NCT ID: NCT03144596 Completed - Clinical trials for Benign Prostatic Hyperplasia

The Effects of α-adrenergic Receptor Antagonists on Choroid and Pupil

Start date: October 29, 2015
Phase: Phase 4
Study type: Interventional

It was aimed to evaluate and investigate the effects of tamsulosin hydrochloride, has preferential selectivity for the α1A receptor in the prostat versus the α1B receptor in the blood vessels, and alfuzosin hydrochloride on choroidal thickness (CT), pupil diameter sizes evaluated by using enhanced depth imaging spectral-domain optical coherence tomography (EDI-OCT) and scheimpflug/placido photography-based topoghraphy system in this study. 63 men patients with newly diagnosis of benign prostatic hyperplasia were randomly assigned to either alfuzosin hydrochloride or to tamsulosin hydrochloride groups in this prospective, randomized, parallel-group clinical trial. Enhanced depth imaging spectral-domain optical coherence tomography, pupillography were obtained at baseline, 1st and 3rd month, and choroidal thicknesses and pupil diameter sizes were compared between the 2 groups.

NCT ID: NCT03081468 Completed - Healthy Volunteers Clinical Trials

The PUPIL Study - Automated, Quantitative Pupil Assessment Using Binocular OCT

Start date: May 18, 2017
Phase:
Study type: Observational

In current, clinical ophthalmology, a range of specialised testing allows comprehensive evaluation of ocular health. These tests have typically evolved over many years to ensure their clinical validity. For example, the assessment of visual acuity has traditionally been measured with Snellen letter charts from a distance of six metres (20 feet), leading to the phrase "20/20 vision". Despite this, the limitations of Snellen testing are well established and more sophisticated testing is now available (e.g., logMAR testing using ETDRS (Early Treatment Diabetic Retinopathy Study) charts). Many other diagnostic tests have undergone similar cycles of refinement, often over extended time periods. Therefore, it should be incumbent on any new device to undergo detailed evaluation of its validity (how its measurements agree with other testing) and its repeatability (the variability when a further measurement is obtained in short time period, by the same operator and under the same conditions). Binocular OCT extends the application of OCT devices beyond that of simple, cross- sectional imaging to a diverse array of diagnostic tests. The binocular design also removes the need for additional personnel to perform testing (i.e., the device can be self-operated in an automated manner), and allows for novel testing to be performed that is not possible with monocular imaging. In particular, binocular OCT devices have the potential to perform automated, quantitative pupillary measurements - an entirely novel application for this imaging modality. This study will assess the validity and repeatability of pupil measurements using binocular OCT.