FDA Radiology AI Devices

The Tomey Cornea/Anterior Segment OCT (CASIA2) is a medical imaging device that uses optical coherence tomography technology to capture detailed images of the cornea and anterior segment of the eye. It helps clinicians assess eye health and diagnose ocular conditions more accurately by providing high-resolution images of the eye structures.

The SPECTRALIS HRA+OCT and variants by Heidelberg Engineering GmbH are non-contact ophthalmic imaging devices combining confocal laser-scanning ophthalmoscopy and spectral-domain optical coherence tomography (SD-OCT). They capture detailed cross-sectional and angiographic images of the eye, aiding clinicians in diagnosing and managing various ocular diseases such as macular degeneration, diabetic retinopathy, and glaucoma. These devices enhance visualization of ocular anatomy and vascular structures, improving clinical evaluation and patient care.

The Resolve Fundus Camera by Optain Health, Inc. is an automatic eye-fundus camera designed to take high-quality digital images of the retina with or without pupil dilation. It uses infrared tracking and autofocus to capture clear images that aid clinicians in evaluating ocular health. The device enhances diagnosis and monitoring of eye conditions by providing precise, easily accessible retinal images.

The OcuMet Beacon is a scanning LED-based ophthalmoscope that captures detailed black and white infrared and autofluorescence images of the human retina. It helps eye care clinicians by providing high-quality retinal images to assist in diagnosis and management of eye conditions, supporting clinical decisions as an adjunctive imaging modality.

The CLARUS 700 is an advanced ophthalmic imaging device designed to capture high-resolution images of the retina and ocular structures to aid clinicians in diagnosing and monitoring eye diseases. It supports true color, autofluorescence, fluorescein angiography, and indocyanine green angiography imaging modes over wide fields of view. The device incorporates AI algorithms for optic nerve head detection to improve image alignment and provides tools for image annotation and measurement, facilitating comprehensive eye health analysis.

MAIA is a medical imaging device used to take detailed digital images of the human retina without the need for pharmacological dilation. It uses confocal imaging and white light illumination to capture sharp, naturally colored retinal images, aiding clinicians in retina examination. The device also features pupil tracking and automatic perimetry for measuring retinal sensitivity and fixation analysis, improving accuracy in eye diagnostics.

Anterion is a non-contact ophthalmic imaging device that uses swept-source optical coherence tomography (SS-OCT) to visualize and measure the anterior segment of the eye, including corneal thickness, anterior chamber parameters, lens thickness, and axial length. It helps clinicians by providing detailed tomographic images and quantitative metrics critical for diagnosis and surgical planning, such as cataract surgery. The device includes multiple software applications for imaging and analysis and uses AI-powered processing for precise measurements, improving clinical decision-making and patient management.

The Verily Numetric Retinal Camera is a non-contact, high resolution digital imaging device designed to photograph, display, and store images of the retina under non-mydriatic conditions. It aids clinicians in the evaluation, diagnosis, and documentation of ocular health by providing high quality retinal images.

The SPECTRALIS with Flex Module is an advanced eye imaging device designed for non-contact visualization of the posterior segment and vasculature of the retina and choroid in adults and pediatric patients, including those in supine (lying down) position. It helps ophthalmologists detect and monitor various eye conditions by providing high-quality images of eye structures, enabling improved diagnosis and management.

The Notal Vision Home OCT System is an AI-based home use device that enables patients with neovascular age-related macular degeneration (NV-AMD) to self-image their eyes at home using Optical Coherence Tomography (OCT). It captures detailed images of the retina, segments and quantifies hypo-reflective spaces associated with fluid build-up, and securely transmits data for physician review between scheduled clinic visits. This allows more frequent monitoring of eye disease progression without replacing standard clinical examinations.