Health Benefits Of Vitamin B2 ( Riboflavin )
Other Names: B Complex Vitamin, Complexe de Vitamines B, Flavin, Flavine, Lactoflavin, Lactoflavine, Riboflavina, Riboflavine, Vitamin B-2, Vitamin G, Vitamina B2, Vitamine B2, Vitamine G.
Health Benefits Of Vitamin B2 ( Riboflavin )
Riboflavin is a B vitamin. Riboflavin is frequently used in combination with other B vitamins in vitamin B complex products. Vitamin B complex generally includes vitamin B1 (thiamine), vitamin B2 (riboflavin), vitamin B3 (niacin/niacinamide), vitamin B5 (pantothenic acid), vitamin B6 (pyridoxine), vitamin B12 (cyanocobalamin), and folic acid. However, some products do not contain all of these ingredients and some may include others, such as biotin, para-aminobenzoic acid (PABA), choline bitartrate, and inositol.
The compound riboflavin or vitamin B2 as it is known is vital for the formation of two substances involved in the efficient utilization and biochemical conversion of the calories derived from the proteins, the fats and carbohydrates in food into a form that can be used by cells: riboflavin is found in flavin adenine dinucleotide (FAD) and in flavin mononucleotide (FMN); both compounds are part of the electron transport chain in the mitochondria. The energy levels in the body are reduced by a lack of riboflavin in the body. The formation of skin, nails and hair requires the presence of riboflavin.
Significant effects on the metabolism of the carbohydrates, fats and protein result from the existence of a riboflavin deficiency in the body. To be properly utilized in the human body, all these three basic food elements will require riboflavin for their bio-chemical conversion into usable metabolic energy. The utilization of carbohydrate decreases when there is insufficient riboflavin in the body, this may result in an increase in the consumption of carbohydrates as the human body tells itself to increase the intake of carbohydrates correct the diminished efficiency in carbohydrate metabolism.
The utilization of proteins also falls away in the even on a deficiency in the vitamin B2. A deficiency of riboflavin can lead to the greater excretion of proteins in the urine. The increased urinary output may also lead to the excretion of riboflavin along with the proteins in the urine, a vicious cycle begins as more protein has to be excreted and more riboflavin is released from the body - increasing the state of deficiency.
The human body's requirement for riboflavin is also increased by high consumption of dietary fats. The fat will be deposited in the liver, in the kidneys, in the adrenal glands and along the arterial walls if insufficient riboflavin is supplied to handle the fat component of the diet.
A deficiency of riboflavin in the human body leads to a disruption in the activity of the thyroid gland and can induce birth defects in babies - defects that affect the nervous system, the skin, the skeletal system and the vascular system in general. The capacity to learn diminishes in young animals that suffer from a riboflavin deficiency during the developmental stages. A riboflavin deficiency in young developing animals have lasting effects as supplying adequate levels of riboflavin to older animals does not restore the capacity to learn to normal levels.
Physical symptoms such as inflammation in the tongue, in the lips or in the mouth can start to affect a person whose riboflavin demands in the metabolic process of the body exceeds the supply of the vitamin in the diet. Physical symptoms can also include eyes that become extremely sensitive to light and which burn or itch all the time, appearing bloodshot and teary at all times. Symptoms such as seborrheic - greasy scaling - dermatitis, begins to be apparent in the areas around the lips and the nose, in the skin around the eyes, in the skin behind the ears and in the scrotal sack. Many other factors can cause any of these physical symptoms. A riboflavin deficiency is indicated when all these symptoms affect a person at one time and the diet of the person is poor in nutrients.
The greatest importance must be paid to the changes in the skin that occur in and around the eyes. The eyes of animals can be affected by opacities as a result of riboflavin deficiency; these changes in the eyes are similar to the problems caused by cataracts in people. A riboflavin deficiency leads to the development of corneal opacity in some people. A test was conducted by doctors on twenty two people affected by cataracts, during these tests the doctors found that eight of these patients suffered from deficiencies of riboflavin at the cellular level.
Psychiatric disturbances can also be induced by a riboflavin (vitamin B2) deficiency. Six young men were maintained on a riboflavin deficient diet during a riboflavin deficiency study carried out under 24 hour medical supervision - the men were given whole sets of psychological tests during the trial. The young men experienced very significant levels of psychological change as soon as the deficiency started to manifest itself in the body. The young men became depressed and suffered from an increase in lethargy. Some of them complained about suffering from imaginary pains and illnesses - a medical condition called hypochondriasis. When measured on hysteria and psychopathic deviate scales - their scores were all high, and some of them underwent measurable personality shifts that were very significant. However, none of the classic symptoms seen during riboflavin deficiency - including problems like dermatitis and inflammation in the eyes affected the young men before the experiment ended. The men were again supplemented with riboflavin following the period of testing -which lasted about two months - the psychiatric symptoms took longer than two weeks to completely dissipate and the young men were restored to normal.
High levels of riboflavin in the blood was studied by another group of researchers in another scientific study that measured the psychological effects of vitamins on people - the researchers associated high levels of riboflavin with greater extroversion, an ability to concentrate and general contentment with life.
The ability of the muscles to perform is beneficially affected by supplements of riboflavin (vitamin B2). This vitamin given as supplements in moderate amounts to young athletes resulted in an eleven per cent boost in their ability to resist fatigue. The neuromuscular irritability of several young athletes who were given 10 mg of vitamin B2 in another study was lowered -this irritability is a biochemical measurement connected to physical fatigue. Before the experiments began, at least eight of the athletes were deficient in riboflavin and this could have played a part in the results witnessed. A riboflavin supplementation regimen could benefit athletes as the results from the tests suggest an increased requirement for riboflavin during heavy physical training and exercise. Vitamin B2 may in particular be of benefit to athletes who are required to exercise in the cold, the results from some animal experiments suggests that riboflavin given in high doses actually enabled rats to swim in cold water for longer periods of time - this could be true of humans as well.
One of the ways in which riboflavin helps protect the body is by maintaining the functioning of the immune response and by helping in the detoxification of noxious chemicals in the body. People affected by a riboflavin (vitamin B2) deficiency also experience general decrease in cellular antibody production and a lowering of general cell level activity. The detoxification process in the liver is also actively aided by riboflavin, the vitamin helps detoxify hormonal chemicals like the estrogens and various other carcinogenic substances in the body, it also eliminates other harmful natural and synthetic chemicals that have found their way into the human body. There is general consensus among doctors that this vitamin may also be involved in the detoxification of the common poison, boric acid, this is based on the discovery that boric acid poisoning causes excessive levels of riboflavin to be found in the urine.
Carcinogens or cancer causing chemicals found in the human body are also actively detoxified by riboflavin. During one experiment, rats given such carcinogens were spared from developing liver tumors by giving them riboflavin in high doses. At the same time, a deficiency of the vitamin riboflavin can result in the stimulation of the growth of tumors in the body. One example of an increase in utilization and need of riboflavin is show in the fact that less amounts of riboflavin than normal is excreted if a person suffers from cancer of the stomach, breast cancer, uterine cancer, or caners of the skin and the lungs. This connection between tumors and riboflavin excretion has been demonstrated in one study involving a thousand adults with various cancers, in eighty per cent of such people there was virtually no riboflavin excreted in the urine, notwithstanding the type of tumor they suffered from at the time.
The level of riboflavin (vitamin B2) required by active people is much more than the RDA for people who are less than active. Women who jogged twenty five to fifty minutes daily were placed on a controlled diet that included measurable amounts of riboflavin during on clinical investigation. The body of the women was subsequently tested for levels of the vitamin after the doses were varied during the study. A minimum of twice the RDA of riboflavin was required in the diet intake to raise the blood levels of riboflavin to levels that doctors considered an acceptable range for women. Therefore, it can be said that the body's requirement for riboflavin is increased by physical exercise and metabolic requirements; this same requirement for riboflavin was increased in a weight loss diet as well.
Foods items such as organ meats, sea foods and fishes, all dairy products and eggs, green leafy vegetables, wheat germ, whole grains and legumes form rich sources for riboflavin (vitamin B2). Heat does not degrade riboflavin in foods, however, soaking foods for long periods of time or cooking them in water can lead to substantial losses of the vitamin, as the vitamin is soluble in water and can leach away. Riboflavin is also degraded if it is exposed to strong light. There are a wide range of dosages of supplementary riboflavin, with tablets starting from one mg going up to hundreds of milligrams. There are no toxic side effects associated with riboflavin. The repeated failures experienced in many attempts to produce toxic reactions in the body of experimental animals using riboflavin has convinced researcher that no toxicity is connected to this compound. The absorption of this vitamin is increased and its rate of uptake in the body is hastened when it is consumed along with foods such as fiber rich vegetables.
Long term alcoholics are more likely to suffer from a deficiency of the vitamin B2. People who suffer from cataracts or sickle cell anemia are also much more likely to be affected by a deficiency of riboflavin. Most healthy people who eat a well-balanced diet get enough riboflavin. However, elderly people and alcoholics may be at risk for riboflavin deficiency because of poor diet. Symptoms of riboflavin deficiency include fatigue; slowed growth; digestive problems; cracks and sores around the corners of the mouth; swollen magenta-colored tongue; eye fatigue; swelling and soreness of the throat; and sensitivity to light.
Other uses include increasing energy levels; boosting immune system function; maintaining healthy hair, skin, mucous membranes, and nails; slowing aging; boosting athletic performance; promoting healthy reproductive function; canker sores; memory loss, including Alzheimer's disease; ulcers; burns; alcoholism; liver disease; sickle cell anemia; and treating lactic acidosis brought on by treatment with a class of AIDS medications called NRTI drugs.
What is the most important information I should know about riboflavin (Vitamin B2)?
Use riboflavin as directed on the label, or as your healthcare provider has prescribed. Do not use this product in larger amounts or for longer than recommended.
What happens if I miss a dose (Vitamin B2)?
Skip the missed dose if it is almost time for your next scheduled dose. Do not use extra medicine to make up the missed dose.
What should I avoid while taking riboflavin (Vitamin B2)?
Follow your healthcare provider's instructions about any restrictions on food, beverages, or activity.
Vitamin B2 ( Riboflavin ) Side effects and cautions
There are no toxic side effects connected to the vitamin B2 when it is used at supplemental or dietary levels in doses recommended by doctors. Riboflavin functions in the body in concert with other B complex vitamins including the vitamin B1, the vitamin B3 and the vitamin B6. As a result, using a B-complex supplement is the best way to get enough B2 in the body.
In some people, riboflavin can cause the urine to turn a yellow-orange color. When taken in high doses, riboflavin might cause diarrhea, an increase in urine, and other side effects.
Riboflavin is generally considered safe, even at high doses. However, because doses above 10 mg per day may cause eye damage from the sun, people who take high doses should wear sunglasses that protect their eyes from ultraviolet light.
Taking any one of the B vitamins for a long period of time can result in an imbalance of other important B vitamins. For this reason, you may want to take a B complex vitamin, which includes all the B vitamins.
Because of the potential for side effects and interactions with medications, you should take dietary supplements only under the supervision of a knowledgeable health care provider.