Diagnostic’s

It is a Non-Invasive Imaging Technique widely used in Eye Care;
It provides High-Resolution Cross-Sectional Images of Tissues by using light waves to capture detailed structures of Cornea, Retina and Optic Nerve Head;
OCT is instrumental in Diagnosing and Monitoring Retinal Disorders, Glaucoma, and Macular Degeneration;
Its Quick, Precise, and Painless Application has made it a Cornerstone in Modern Eye Care.
Comparison with Prior Scans to Track Changes Over Time and Assess Response to Treatment;
Printed Report given to Patient’s.

Is an advanced, Non-Invasive imaging technique that Visualizes Blood Flow within the Microvasculature of Tissues, particularly in the Retina and Choroid;
Using Motion Contrast, it captures Detailed Maps of Blood Vessels Without the need for Dye Injections;
Making it Safer and More Convenient than Traditional Angiography methods;
OCTA is invaluable for diagnosing and monitoring conditions like Diabetic Retinopathy, Age-Related Macular Degeneration, and Retinal Vascular Diseases.

Comparison with Prior Scans to Track Changes Over Time and Assess Response to Treatment;
Printed Report given to Patient’s.

Fundus Fluorescein Angiography (FFA) is a Specialized Diagnostic Imaging Technique used to evaluate the Blood Circulation in the retina and choroid;
By Injecting Fluorescein Dye into a vein and capturing a sequence of images as the dye passes through the ocular vasculature, FFA provides Critical Information about Retinal Health and Vascular Integrity.
FFA is instrumental in Diagnosing a Variety of Retinal Conditions, including diabetic retinopathy, age-related macular degeneration (AMD), retinal vein occlusions, and choroidal neovascularization;
It helps identify areas of Leakage, Non-Perfusion, or Ischemia. It allows Peripheral Imaging also.
Fundus Fluorescein Angiography is a Cornerstone in the diagnosis, management, and monitoring of retinal and choroidal diseases, providing detailed insights that enhance patient care and treatment outcomes;
Printed Report given to Patient’s.

B-Scan Ultrasonography is a Diagnostic Imaging Technique used in eye care to Visualize the Internal Structures of the Eye and Around it;
It employs high-frequency sound waves to create a two-dimensional Cross-Sectional Image;
Making it particularly useful when the View of the retina or vitreous is Obscured by Media Opacities such as cataracts or vitreous hemorrhage;
B-scan is Instrumental in Diagnosing Retinal Detachment, Tumors, and other Intraocular or Orbital Abnormalities;
Printed Report given to Patient’s.

Automated Visual Field Analysis is a crucial tool in eye care for assessing the Functional Integrity of a Patient’s Visual Field;
It provides Precise, Repeatable, and Quantifiable measurements of the Central Vision;
Helping Detect and Monitor conditions like Glaucoma, Retinal Diseases, and Neurological Disorders;
By Automating the process, it reduces Variability in results, improves Diagnostic Accuracy;
Allows for Early Detection of Subtle Visual Field Defects, leading to More Effective disease Management and Treatment

Comparison with Previous Tests to Track Changes Over Time and Assess Response to Treatment;
Printed Report given to Patient’s.

The integration of digitized anterior segment imaging into routine practice Enhances Diagnostic Accuracy;
Enables early detection of ocular pathologies, and facilitates Personalized Treatment Strategies;
These technologies also play a pivotal role in ensuring optimal outcomes by Minimizing Complications;
In conclusion, the digitization of anterior segment imaging, coupled with corneal tomography and anterior chamber angle assessment, represents a Cornerstone of Comprehensive Eye Care;
These technologies enhance diagnostic precision, improve surgical planning, and support early intervention, ultimately leading to Better Patient Outcomes;
Printed Report given to Patient’s.

Corneal Abberometry is a diagnostic tool that measures Optical Aberrations providing a detailed understanding of how the cornea is affecting Visual Quality;
Corneal Abberometry identifies Higher-Order Aberrations (HOAs), such as Coma and Spherical Aberration, that cannot be corrected with traditional glasses or contact lenses;
These aberrations often contribute to Visual Disturbances like Glare, Halos, and Reduced Contrast Sensitivity, which are significant in conditions like Keratoconus and Post-Surgical Complications;
Corneal Abberometry is a vital tool for Enhancing both the Precision of Care and the Quality of Life for Patients;

Optical biometry is a highly accurate and non-invasive method used to measure key ocular parameters critical for IOL Power Calculation;
It has revolutionized pre-operative assessments, providing Exceptional Precision and Reliability.
By providing detailed ocular data, optical biometry Facilitates Customized surgical planning;
It ensures Accurate Selection of IOLs, including Monofocal, Toric and Trifocal Lenses, and helps minimize postoperative refractive errors, reducing the need for additional corrective measures;
Optical biometry is Indispensable in modern ophthalmology, ensuring precision, efficiency, particularly in cataract and refractive surgery planning;
Printed Report can be given to Patient’s.

Immersion biometry is a method of measuring axial length and other ocular parameters using ultrasound, where a fluid interface is used to eliminate direct contact with the cornea;
This technique offers several advantages, particularly in cases where optical methods may be challenging;
Immersion biometry eliminates corneal compression artifacts that can occur with contact biometry, resulting in more accurate and consistent measurements of the axial length;
This is critical for Precise Intraocular Lens (IOL) Power Calculations in cases of dense cataracts, corneal opacities, or other conditions that hinder light transmission;
Printed Report can be given to Patient’s.

Dr.Aggarwal Eye Hospital