Vision vitamins are the nutritional elements that enhance eye sight. These include vitamin A, B6, C, selenium, trace elements such as magnesium and zinc among other nutrients. A variety of food containing vitamins include, among others oranges, carrots, pumpkin and leafy vegetables. Having enough of these food sources in the diet protects one from getting certain eye diseases such as cataracts and macular degeneration.
We will look at vitamin A in detail and understand what it is that it does at cellular level. Research has revealed to us that this vitamin is very important in the synthesis of a pigment known as rhodopsin. This pigment is found in high amounts on the retina which acts as a screen on which images from the environment are formed. Adequate levels of rhodopsin are needed to help one see better in dim light.
The A vitamin is not a single unit as such but is composed of a group of hydrocarbons which are not saturated. These include retinoic acid, retinal, retinol and a number of vitamin A precursors (carotenoids). The most important among the pro vitamin A carotenoids is beta carotene. Retinal component combines with the protein opsin to form rhodopsin. The so formed light absorbing molecule is vital for both colour and low light (scotopic) vision.
Deficiency of vitamin A results in a number of eye conditions that vary in severity depending on the extent of involvement. It often occurs when there is reduced intake of provitamin A carotenoid containing foods such as vegetables, dairy and animals products and fruits. This is the commonest scenario and is also referred to as primary vitamin A deficiency.
The secondary form of deficiency is as a result of malabsorption of lipids and deficient bile production and release. This is explained by the fact that the A vitamin is a fat soluble vitamin and therefore requires dissolution in fat in fat for it become functional in the body. As such, a low fat diet can predispose one to disease states related to deficiency of respective vitamins. Long term exposure to oxidants including cigarette smoke and alcohol intake can also lead to secondary insufficiency of vitamin A.
Night blindness is one of the commonest and earliest symptoms of deficiency. One of the causes of reduced vision is drying of the conjunctiva which takes place as the condition progresses. The normal secretory system is progressively replaced with hardened keratinised tissue. As keratin plaques are eroded progressively, more keratinisation takes place.
The antioxidant properties of vitamin C help protect the eye from damage due to radiation. This nutrient also helps in maintaining normal pressure, collagen and capillary integrity. Vitamin B6 helps maintain the structure and function of red blood cells found within the retina. A trace element such as zinc plays a key role in ensuring good vision. It is responsible for converting beta carotene to vitamin A.
While it may not be possible to have all these vision vitamins in the diet at all times, it is wise to have them as many times as possible. The factors that determine intake include, among others, pregnancy, lactation, sex and age. It is important to take just enough in each serving to avoid toxicity.
We will look at vitamin A in detail and understand what it is that it does at cellular level. Research has revealed to us that this vitamin is very important in the synthesis of a pigment known as rhodopsin. This pigment is found in high amounts on the retina which acts as a screen on which images from the environment are formed. Adequate levels of rhodopsin are needed to help one see better in dim light.
The A vitamin is not a single unit as such but is composed of a group of hydrocarbons which are not saturated. These include retinoic acid, retinal, retinol and a number of vitamin A precursors (carotenoids). The most important among the pro vitamin A carotenoids is beta carotene. Retinal component combines with the protein opsin to form rhodopsin. The so formed light absorbing molecule is vital for both colour and low light (scotopic) vision.
Deficiency of vitamin A results in a number of eye conditions that vary in severity depending on the extent of involvement. It often occurs when there is reduced intake of provitamin A carotenoid containing foods such as vegetables, dairy and animals products and fruits. This is the commonest scenario and is also referred to as primary vitamin A deficiency.
The secondary form of deficiency is as a result of malabsorption of lipids and deficient bile production and release. This is explained by the fact that the A vitamin is a fat soluble vitamin and therefore requires dissolution in fat in fat for it become functional in the body. As such, a low fat diet can predispose one to disease states related to deficiency of respective vitamins. Long term exposure to oxidants including cigarette smoke and alcohol intake can also lead to secondary insufficiency of vitamin A.
Night blindness is one of the commonest and earliest symptoms of deficiency. One of the causes of reduced vision is drying of the conjunctiva which takes place as the condition progresses. The normal secretory system is progressively replaced with hardened keratinised tissue. As keratin plaques are eroded progressively, more keratinisation takes place.
The antioxidant properties of vitamin C help protect the eye from damage due to radiation. This nutrient also helps in maintaining normal pressure, collagen and capillary integrity. Vitamin B6 helps maintain the structure and function of red blood cells found within the retina. A trace element such as zinc plays a key role in ensuring good vision. It is responsible for converting beta carotene to vitamin A.
While it may not be possible to have all these vision vitamins in the diet at all times, it is wise to have them as many times as possible. The factors that determine intake include, among others, pregnancy, lactation, sex and age. It is important to take just enough in each serving to avoid toxicity.
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