Refractive development I: Biometric changes during emmetropisation

Abstract

AbstractPurposeAlthough there are many reports on ocular growth, these data are often fragmented into separate parameters or for limited age ranges. This work intends to create an overview of normal eye growth (i.e., in absence of myopisation) for the period before birth until 18 years of age.MethodsThe data for this analysis were taken from a search of six literature databases using keywords such as “[Parameter] & [age group]”, with [Parameter] the ocular parameter under study and [age group] an indication of age. This yielded 34,409 references that, after screening of title, abstract and text, left 294 references with usable data. Where possible, additional parameters were calculated, such as the Bennett crystalline lens power, whole eye power and axial power.ResultsThere were 3422 average values for 17 parameters, calculated over a combined total of 679,398 individually measured or calculated values. The age‐related change in refractive error was best fitted by a sum of four exponentials (r2 = 0.58), while all other biometric parameters could be fitted well by a sum of two exponentials and a linear term (‘bi‐exponential function’;r2range: 0.64–0.99). The first exponential of the bi‐exponential fits typically reached 95% of its end value before 18 months, suggesting that these reached genetically pre‐programmed passive growth. The second exponentials reached this point between 4 years of age for the anterior curvature and well past adulthood for most lenticular dimensions, suggesting that this part represents the active control underlying emmetropisation. The ocular components each have different growth rates, but growth rate changes occur simultaneously at first and then act independently after birth.ConclusionsMost biometric parameters grow according to a bi‐exponential pattern associated with passive and actively modulated eye growth. This may form an interesting reference to understand myopisation.