The Role of Vitamin D in Retinal Physiology.
Ana-Maria Stoica, Sanda Jurja, Nejla Dervis
Abstract
Open AccessVitamin D plays a crucial role in ocular health, particularly in the function and protection of the retina. This fat-soluble vitamin is synthesized in the skin in response to UVB radiation and can also be obtained from dietary sources. Research indicates that vitamin D has neuroprotective properties, which are essential for retinal cell survival and function. The active form of vitamin D, calcitriol, has been shown to modulate inflammation and oxidative stress in retinal tissues, thus potentially preventing retinal degeneration diseases such as age-related macular degeneration (AMD) and diabetic retinopathy. Furthermore, vitamin D receptors are expressed in various retinal cells, suggesting that vitamin D directly influences retinal physiology. Deficiency in vitamin D has been associated with an increased risk of chronic eye diseases, emphasizing the importance of maintaining adequate vitamin D levels for preserving retinal health. Ongoing studies are needed to elucidate further the molecular mechanisms underlying the protective effects of vitamin D on the retina and to explore its therapeutic potential in retinal disorders.