We use ZEISS Optical Coherence Tomography (OCT) for high-resolution, non-invasive imaging of the retina and optic nerve.

This allows:

Early detection of retinal diseases

Precise monitoring of diabetic retinopathy & macular disorders

Accurate treatment planning for injections and lasers

This technology ensures pin-point diagnosis and timely intervention.

OCTA (Optical Coherence Tomography Angiography)

We offer advanced OCTA imaging, a non-invasive technology that visualizes retinal blood flow without the need for dye injection.

This helps in:

Early detection of Proliferative Diabetic Retinopathy (PDR)

Evaluating macular ischemia

Monitoring retinal vascular disorders

Assessing treatment response after injections

OCTA provides high-resolution, layer-by-layer imaging of retinal vasculature, enabling accurate diagnosis and better treatment planning.

Our FFA system allows detailed evaluation of retinal blood flow, helping in the diagnosis and management of:

Diabetic retinopathy

Retinal vascular occlusions

Macular ischemia

Inflammatory retinal diseases

This enables evidence-based, personalized retinal treatment.

We use the Remidio Fundus Camera, a portable and advanced retinal imaging system designed for quick and efficient screening.

This enables:

High-quality retinal imaging in OPD and outreach settings

Early detection of diabetic retinopathy and other retinal diseases

Easy screening in rural areas and eye camps

AI-supported analysis for faster decision-making

Its portability and smart technology help deliver accessible, accurate, and early eye care to all sections of the community.

We use the Goldmann Applanation Tonometer, the gold standard for accurate measurement of intraocular pressure (IOP).

This helps in:

Early detection of glaucoma

Precise measurement of eye pressure

Monitoring glaucoma progression

Guiding effective medical management

This technique ensures high accuracy and reliability, which is essential for protecting patients from glaucoma-related vision loss.

We use ZEISS OCT-based RNFL (Retinal Nerve Fiber Layer) analysis for detailed evaluation of the optic nerve.

This helps in:

Early detection of glaucoma damage

Measuring nerve fiber layer thickness

Identifying subtle optic nerve changes before vision loss

Monitoring glaucoma progression over time

RNFL analysis provides high-precision, objective assessment of optic nerve health, enabling timely and effective glaucoma management.

We are equipped with an advanced Visual Field Analyzer, an essential tool for evaluating peripheral (side) vision.

This helps in:

Early detection of glaucoma-related vision loss

Assessing peripheral vision defects

Monitoring progression of glaucoma over time

Supporting accurate diagnosis and treatment planning

Visual field testing plays a crucial role in detecting functional vision loss before patients notice symptoms, helping preserve long-term vision.

We use Anterior Segment OCT (AS-OCT) for detailed, non-contact imaging of the anterior chamber angle.

This helps in:

Assessing angle anatomy in glaucoma patients

Detecting angle closure and narrow angles

Evaluating anterior segment structures with high precision

Guiding accurate diagnosis and management of glaucoma

AS-OCT provides high-resolution cross-sectional imaging, enabling early detection and better understanding of angle-related glaucoma.

We use a Keratometer to accurately measure the curvature of the cornea, an essential step in cataract evaluation.

This helps in:

Precise intraocular lens (IOL) power calculation

Detection of corneal astigmatism

Planning for toric IOLs in astigmatism correction

Improving post-operative visual quality

Keratometry plays a vital role in achieving clear, sharp, and spectacle-independent vision after cataract surgery.

We use ZEISS Corneal Topography for detailed mapping of the corneal surface curvature.

This helps in:

Detecting corneal irregularities and early keratoconus

Assessing corneal astigmatism

Pre-operative evaluation for cataract and other procedures

Planning for toric intraocular lenses (IOLs)

Monitoring corneal changes over time

Corneal topography provides a color-coded map of the cornea, enabling precise diagnosis and customized treatment planning.