Mirror Field Method

The mirror field method is an eye biomicroscopy method that is used to diagnose and treat various eye diseases. It is based on the use of a beam of light, which is directed onto the cornea or lens of the eye so that its reflection coincides with the axis of the microscope. This method produces clearer images of the cornea and lens, making it more effective for diagnosing and treating eye diseases.

The mirror field method is one of the most accurate methods for diagnosing eye diseases, as it allows you to see the smallest details of the cornea and lens. Moreover, this method can also be used to treat eye diseases such as cataracts and glaucoma.

However, the mirror field method has some limitations. For example, it cannot be used if you have cataracts or other damage to the cornea. Also, this method requires special equipment and a qualified specialist.

The mirror field method is one of the biomicroscopy methods for studying the internal structure of the eye, which is based on the reflection of a beam of light from a mirror field. This method allows you to see detailed structures in the cornea and lens of the eye without the use of a magnifying glass or microscope, which can be useful in diagnosing eye diseases and identifying pathologies.

The mirror field method was developed in 1960 and was the first biomicroscopy method to use the reflection of a light beam to produce high-resolution images. The principle of operation of the method is that a beam of light is directed onto a mirror field, which reflects it in the direct direction to the eye. The reflected beam hits the microscope eyepiece, allowing you to see an image of the eye at a distance from it.

This method is used in modern ophthalmology to diagnose many eye diseases, such as glaucoma, cataracts, macular degeneration and other pathologies. It can also be used to evaluate ocular function, determine the area of ​​eye damage, and monitor the progress of treatment.

When using the mirror field method, a special microscope is usually used, equipped with a mirror field and illumination adjustment for more accurate results. The procedure usually requires a trained ophthalmologist. The method itself is also non-invasive, which makes it safe for the patient.

However, despite its safety and accuracy, the mirror field method also has its limitations and risks. First, the accuracy of the results depends on the angle of reflection and the orientation of the beam relative to the eye. In addition, this method may cause discomfort to the patient, especially if the patient is experiencing problems