Emmetropization- The process of Achieving 6/6 or Normal Visual Acuity.

What is Emmetropization?

• In newborn visual acuity range between 6/360 to 6/120 that means an object that a normal person can see from 360 or 120 meters, the same objects can be seen by the newborn from 6 meters only.
• So, you can guess how less visual acuity a newborn has after birth and at the age of 5 years we reach 6/6 or normal Visual Acuity.

• The Process of reaching 6/6 visual acuity from 6/360 or 6/120 (that we have after birth) is called Emmetropization.
• At birth eyes have:
  • Corneal Power: 48 dioptres
  • Lens Power: 45 Dioptres
  • Axial Length: 17 mm

• To reach 6/6 visual acuity corneal power becomes 43, lens power becomes 17-20D & axial length becomes 24 mm.
• So, the actual definition of emmetropization is:

The coordination of the power of cornea, crystalline lens and axial length to process a sharp retinal image of a distant object is known as emmetropization.

Mechanism of Emmetropization:

• With age, the cornea, the lens, and axial length undergo coordinated changes.
• Essentially, the optical components (cornea and lens) must lose refractive power as the axial length increases so that a sharp image remains focused on the retina.

Coordinated Change with Cornea during Emmetropization:

• The cornea, which averages 48 dioptres of power at birth and has an increased elasticity, loses about 4 dioptres by the time the child is 2 years of age.
• With age increase eyeball size pulls the cornea into a flatter curvature.
• The average corneal diameter is 8.5 mm at 34 weeks of gestation, 9 mm at 36 weeks, 9.5 mm at term, and about 11 mm in the adult eye.

Coordinated Change with Crystalline Lens during Emmetropization:

• The crystalline lens with averages 45 dioptres during infancy, loses about 20 dioptres of power by age 6 years.
• To compensate for this loss of lens power, the axial length increases by 5-6 mm in that same time frame.
• In general, 1 mm of change in axial length correlates with a 3-diopter change in refractive power of the eye.

Coordinated Changes with Axial Length during Emmetropization:

• The axial length of the neonate’s eye is usually 17 mm and that it increases 25 percent (21.25 mm) by the time the child reaches adolescence.
• The size of the normal infant’s eye is about three-fourths that of the adult size.

Corneal and crystalline lens power decreases and axial length increases to achieve 6/6 or normal vision.

Check Our Courses: Ophthalmic Instrumentation, Clinical Refraction, Contact Lens, Binocular Vision, Dispensing Optics, MCQs in Optometry

Download our App “Optometry Notes & MCQs” from Google Play Store.