Professor Igor Aznauryan, the Head of the Crystal Vision Eye Clinic, has developed a unique method for individual calculation of strabismus correction, as well as modeling of surgical intervention using the STRABO program.
Mathematical modeling of strabismus surgery is one of the modern developments required for performing strabismus surgery.
Why is this an important and required step in the treatment of the disease in children?
The main task of modern ophthalmology is to bring technologies for treating various eye diseases of children to the perfect.
The effectiveness of individual mathematical modeling of strabismus surgery in comparison with other methods is 98%!
Thanks to StraboSoft program - simulation of strabismus surgery (mathematical modeling system) - we can now calculate the precision of the operation to a tenth of a millimeter, taking into account the individual anatomy of eyes.
Today, the latest, safest and most precise developments are used for the treatment of nystagmus.
They help to cure various types of nystagmus by reducing the frequency of oscillatory movements in the straight position of the eye. Thanks to these developments large scalpels and scissors are not used during the operation; the rehabilitation period is reduced; and mathematical modeling gives the highest precision of calculations.
In 75% of cases, we can block nystagmus after a single operation.
The purpose of surgical intervention in the case of nystagmus is to block oscillatory eye movements in a straight position of the eye. But it is important to keep the entire scope of movements of the eyeball in different directions.
Given the complexity of the predicted result in oculomotor muscle surgery to correct strabismus, we have developed a unique treatment method that has proved to be in demand even abroad. This is the StraboSoft mathematical modeling program for calculating strabismus surgery. The model allows calculating each stage of the operation individually and recovering the symmetrical position of the eyes.
Inaccuracy in strabismus surgery may lead to incomplete correction of the angle of strabismus and sometimes, to a hyper effect (secondary reverse strabismus).
Conventional methods of surgery have a large percentage of approximation, cause a number of postoperative complications, and give a not quite symmetrical position of the eyes.
Unfortunately, such an inaccurate calculation entails not just a cosmetic problem but difficulties with the recovery of the three-dimensional vision.
Common technology |
Innovative STRABO care system technology |
Preoperative examination and diagnostics |
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Only individual parameters of the strabismus angle are taken into account. |
Individual parameters of the strabismus angle are taken into account using Gazelab, as well as the structure of the eyeball and muscles. We use the mathematical model for calculating the operation, StraboSoft, which allows showing the planned result to parents before the operation. |
Surgery |
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The data on the dosage of the operation scope, which may be changed at the discretion of each doctor based on its experience, is given. |
StraboSoft provides individual dosing data for the operation scope by calculating each stage. |
Rehabilitation |
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Recovery after surgery takes place within a month. |
Minimizing tissue trauma rate and significantly reducing recovery time after surgery. |
Result |
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Under-correction (incomplete correction of the angle of strabismus) and hypercorrection (secondary reverse divergent strabismus). |
The predicted result is that the use of StraboSoft allows achieving high precision, up to 5 degrees, which is the highest precision indicator in the world today. |
