Handheld optical coherence tomography (OCT) has become an important imaging modality to evaluate the pediatric retina. The objective of this pilot study is to compare a new contact OCT system (Theia Imaging) with an investigational noncontact OCT system (Duke Biomedical Engineering) to assess their ability to image the pediatric retina. The investigators hypothesize that the contact OCT system is superior in imaging larger areas of the retina (larger field-of-view), while it has similar resolution to image the retina substructures (non-inferior image quality).
Handheld optical coherence tomography (OCT) has become an important imaging modality to evaluate the pediatric retina. The objective of this pilot study is to compare a new contact OCT system (Theia Imaging) with an investigational noncontact OCT system (Duke Biomedical Engineering) to assess their ability to image the pediatric retina. The investigators plan to enroll 10 healthy adult volunteers and 20 pediatric patients in clinic or undergoing examination under anesthesia. This is an observational study. There are no known risks associated with handheld OCT imaging and no adverse events identified imaging with our prior investigational imaging with the same system. There is a risk of corneal abrasion with the contact imaging system (Theia imaging), however, this system is used in the setting of other contact imaging systems (such as RetCam fundus photography). Imaging data will be downloaded to a secure server for protocol image processing, segmentation, and analysis per protocol in the Duke Advanced Research in SD/SSOCT Imaging (DARSI) Laboratory.
Study Type
OBSERVATIONAL
Enrollment
30
Theia imaging is developing handheld OCT systems bring state of the art OCT to the infant bedside. The Theia 1 widefield imaging system is a light weight, high speed (300 kHz), wide field of view (110°) OCT system that address the limitations of current commercial OCT systems. The system is cart mounted, enabling portable, bedside imaging. The system uses a 300 kHz swept source laser operating in 1060nm regime. The Theia system follows the same safety standards as all applicable laser safety standards (ANSI z80.36 or ISO 15004) as the currently approved prior OCT devices. This nearly 10-fold increase in acquisition speed dramatically reduces imaging time and enables acquisition of full retinal volumes in infants. The 110° field of view is provided via a re-usable contact lens that can be sterilized between imaging sessions.
The investigational noncontact handheld OCT systems in this study is developed at Duke University as the result of collaboration between the Departments of Ophthalmology (Cynthia Toth, MD) and Biomedical Engineering (Joseph Izatt, PhD). This investigational device was previously reviewed and approved for use in adults, children, and neonates in nursery by: * Intraoperative OCT Guidance of Intraocular Surgery study's (Pro00016827) Data Safety and Monitoring Board Plus (DSMB+) (PI: Toth and Izatt) * The Analyzing Retinal Microanatomy in Retinopathy of Prematurity to Improve Care study (Pro00069721) Data Safety and Monitoring Committee (DSMC) (PI: Toth) The systems were declared non-significant risk by the Duke University Health System (DUHS) Institutional Review Board under Pro00016827. Staff from the DUHS Clinical Engineering Department evaluated the systems and found that they meet the accepted hospital standards for electrical safety.
Duke University Eye Center
Durham, North Carolina, United States
RECRUITINGPresence of abnormal retinal microanatomy as measured by OCT reading
Time frame: Single imaging session (day 1)
Severity of abnormal retinal microanatomy as measured by OCT reading
Time frame: Single imaging session (day 1)
Retinal thickness at the fovea and surrounding optic nerve as measured by OCT analysis
Retinal thickness (microns) at the fovea and surrounding optic nerve.
Time frame: Single imaging session (day 1)
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