Beta Products

Products under development

DryEye Scan

TeleMedC is proud to introduce the World’s first AI powered IOT device for monitoring dry eye. Highly portable and cost effective, the device can be used by dry eye sufferers in the comfort of their own home. Using ground breaking AI algorithms, User data is collected across 5 clinical dry eye parameters within minutes. Dry Eye Scan syncs with the My DryEye App to provide easily accessible results, providing insight into the User’s dry eye journey.

My DryEye Practioner Dashboard

Designed to connect the Eye Health Professional with real time data collected from the My DryEye app via DryEye Scan. Clinical workflow is made simple as dry eye patients can be provided with a framework for the monitoring and treatment of their condition. Supports clinical diagnosis of dry eye conditions by Eye Health Professionals, while optimizing patient compliance to treatment plans.

Cataract Scan

Powered by AI algorithms soon to be available, Cataract Scan intuitively determines cataract type and severity. Cataract Scan is a powerful AI grading tool for use in the field to determine cataract presence and urgency of extraction.


The Red Reflex is an IOT device powered by an AI algorithm to detect the presence of cataract via “yes” or “no” solution. Applied with great success in the maternity wards of hospitals, The Red Reflex can detect cataract presence in newborn infants and does not have to be operated by ophthalmologically trained personnel.

Keratoconus Scanner

Keratoconus Scanner is soon to be available on an IOT device that uses sophisticated AI algorithms to detect keratoconus in sufferers with distortions in placido ring projections. Providing a disease severity solution within a couple of minutes, Keratoconus Scanner is a useful tool for mass screening.    

Visual Field VR

Unlike any visual field device on the market, TeleMedC’s Visual Field VR measures a patient’s scope of vision via revolutionary AI Algorithms embedded within a VR headset. Effectively measuring a patient’s peripheral vision, Visual Field VR detects latent defects and enables the swift diagnosis of disease processes that affect the visual pathways.