Myopia (near-sightedness) has become a massive eye health problem in industrialized countries, and not just because of its high prevalence. Traditional treatments, such as single-vision glasses and contact lenses, treat the symptoms of myopia but do not reduce the risk of vision loss associated with the excessive elongation of the near-sighted eye. Since any degree of myopia increases the risk of developing serious eye diseases, innovative research into new therapies is urgently required. Diagnostic methods and treatment options for myopia need to be improved. To this end, several projects within the MyoTreat doctoral network will identify new molecules and signalling pathways that are important for the physiology and pathophysiology of the retina. This will address the unmet need to establish biomarkers that contribute to the early detection of the disease and enable the monitoring of various strategies for treating myopia using non-invasive measurement methods. Therefore, two projects aim to improve measurement methods in order to visualise structural changes in the myopic eye, particularly in the outer periphery of the retina and choroid. It is known that susceptibility to myopia is influenced by both genetic factors and lifestyle factors such as time spent outdoors and educational level. This suggests an interaction between specific genetic variants associated with myopia and certain lifestyle risk factors. Three MyoTreat projects are investigating this topic using state-of-the-art biostatistical analysis methods for large data sets. There is growing evidence that the choroid, a vascular layer of tissue located between the retina and the sclera, plays an important role in regulating eye growth and the development of refractive errors. Choroidal thinning has been found to precede the development and progression of myopia, while choroidal thickening has been found to occur in response to existing treatments for slowing myopia progression. As the mechanisms and biochemical pathways that trigger changes in the response of the choroid are still largely unknown, they are being investigated from a variety of perspectives in MyoTreat.