It involves a series of advanced tests and evaluations to provide for more information about your vision and your eye health. A comprehensive exam begins with a review of your personal medical history, along with a review of any symptoms you may be having. It can detect vision problems at an early stage: To correct and detect vision conditions at an early stage, regular check-ups are one of the primary reasons. Several eye disorders such as myopia, hyperopia, and astigmatism can develop over time without showing any noticeable symptoms.

We are firmly committed to providing our patients with the best and most advanced technology. Not only are we able to practice at the highest level of our profession, but our patients are deserving of the best.We use the most sensitive instrumentation to detect eye problems at the earliest. We also set baselines for every patient against which later observations, images and calculations are compared. Minute changes are detected earlier and treatment can be implemented or adjusted sooner. We include parts of our advanced technology testing in our comprehensive examination with accuracy and a no zero error efficacy of results .

We offer a premium eye care , over 30 years surgical experience and having performed innumerable surgeries on state of the art equipment and using gamut of lens implants to give best and fast recovery and near normal visual rehabilitation. After cataract surgery with a seemless all distances vision spectacles free and under no anesthesia and suture less and patch less eye surgery using most modern technology including microincision surgery, Phacoemulsification, FEMTO LASER, Robotic Cataract Surgery. Patients are given options for different types of intraocular lenses including monofocal, multifocal, toric and accommodating lesnses.

At Dr Nangia’s Clinic expertise in this niche field of removal of glasses is offered .The latest advancements in refractive surgery continue to improve safety, accuracy, and patient satisfaction. Here are some of the recent developments in this field:

• 1. Femtosecond Laser-Assisted Surgery: Femtosecond lasers have revolutionized refractive surgery by allowing surgeons to create precise corneal incisions, flap creation in LASIK procedures, and lens fragmentation in cataract surgery. This technology enhances the predictability and safety of procedures while minimizing the risk of complications.

• 2. Customized Wavefront-Guided Treatments: Wavefront-guided refractive surgery utilizes advanced wavefront technology to create a personalized treatment plan based on the unique imperfections of each patient's eye. This approach improves visual outcomes and reduces the risk of postoperative complications such as glare and halos

• 3. Topography-Guided Treatments: Topography-guided refractive surgery uses corneal topography data to map irregularities in the corneal surface and tailor treatment to address specific aberrations. This technology is particularly beneficial for patients with irregular astigmatism, corneal scarring, or previous refractive surgery.

• 4. SMILE (Small Incision Lenticule Extraction): SMILE is a minimally invasive refractive surgery technique that corrects myopia (nearsightedness) and astigmatism by removing a small lenticule of tissue from within the cornea through a tiny incision. This procedure preserves corneal biomechanical stability and reduces the risk of dry eye compared to LASIK.

• 5. Presbyopia-Correcting Procedures: Refractive surgery options for presbyopia, the age-related loss of near vision, have expanded with the introduction of multifocal and extended depth of focus (EDOF) intraocular lenses (IOLs) for cataract surgery. These lenses provide a range of vision from near to distance, reducing the need for reading glasses after surgery.

• 6. Corneal Cross-Linking (CXL): While primarily used to treat keratoconus and corneal ectasia, corneal cross-linking is being investigated as a potential adjunctive therapy in refractive surgery to enhance corneal stability and reduce the risk of postoperative ectasia, particularly in patients with high myopia.

• 7. Artificial Intelligence (AI) Integration: AI algorithms are being developed to analyze patient data, optimize treatment parameters, and predict surgical outcomes in refractive surgery. AI-driven systems have the potential to enhance surgical planning, improve patient selection, and optimize visual outcomes.

These advancements in refractive surgery underscore the ongoing commitment of ophthalmic professionals to provide safe, effective, and personalized treatment options for patients seeking to reduce or eliminate their dependence on glasses or contact lenses. As technology continues to evolve, the future of refractive surgery holds promise for further improving visual outcomes and enhancing patient satisfaction.