The Impact of Nutrition and Diet on Oral Health. Группа авторов

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Название The Impact of Nutrition and Diet on Oral Health
Автор произведения Группа авторов
Жанр Спорт, фитнес
Серия Monographs in Oral Science
Издательство Спорт, фитнес
Год выпуска 0
isbn 9783318065176



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unlike simple sugars, for dental caries. Carbohydrates are mainly digested in the small intestine where monosaccharides are absorbed into the blood stream. Insulin, glucagon, and epinephrine are hormones that control blood sugar concentrations. When blood glucose concentration is too high, insulin is secreted by the pancreas, which stimulates the transfer of glucose into the cells, especially in the liver and muscles. Almost 70% of the glucose entering the body through digestion is redistributed back into the blood, by the liver, to be used by cells and tissues or, in the case of excess, converted to glycogen and stored in muscles and the liver. In humans, the main functions of carbohydrates include the production and storage of energy. Many cells have a preference for using glucose as an energy source; in particular, the brain and white and red blood cells depend on glucose as their sole energy source.

      Glucose is also required to build some important macromolecules: it is converted to ribose and deoxyribose, which are essential building blocks of ribonucleic acid (RNA), deoxyribonucleic acid (DNA) and adenosine triphosphate (ATP). In addition, glucose is used to make nicotinamide adenine dinucleotide phosphate (NADPH), an important molecule for protection against oxidative stress.

      In a situation where there is insufficient carbohydrate or fat in the diet, protein is broken down to make glucose needed by the body. To spare protein for tissue synthesis, carbohydrates are therefore needed to prevent such protein breakdown for glucose production. Glucose is also required to prevent the development of ketosis, a metabolic condition resulting from a rise in the ketone bodies (acetoacetate, beta-hydroxybutyrate and acetone) in the blood, which are produced by the liver from fatty acids.

      Proteins

      Proteins are the most common nitrogen-containing compounds in the diet. While plant structures are mainly built on carbohydrates, proteins are vital structural and functional components within every cell of the body of humans and animals. Since most foods contain either animal or plant cells, they are natural sources of protein.

      Proteins are made up of long chains of amino acids, linked by peptide bonds. The proteins in the human body are made from 20 different amino acids. Based on nutritional requirements, amino acids are categorised into 3 groups as: essential, semi-essential and non-essential. Essential amino acids are those that cannot be synthesised in the human body and, therefore, must be consumed through the diet. They are: methionine, threonine, tryptophan, valine, isoleucine, leucine, phenylalanine and lysine. Semi-essential amino acids, which cannot be synthesised in adequate amounts in the body and therefore require augmentation through the diet, include histidine and arginine, which are essential for children but not adults. The remaining non-essential amino acids can be synthesised in the liver from other amino acids.

      All necessary amino acids should be available during the process of protein synthesis in the body. The sequence of amino acids governs the ultimate structure and function of any given protein and is regulated by a specific genetic code stored in the associated cell nucleus as deoxyribonucleic acid.

      The digestion of proteins begins in the stomach when hydrochloric acid denatures proteins within food and the pepsin enzyme breaks down proteins into smaller polypeptides and their constituent amino acids. The digestion of protein continues in the small intestine by first neutralising the food-gastric juice mixture (chyme) as a result of sodium bicarbonate released by the pancreas, which also helps to protect the lining of the intestine. The released digestive hormones, including secretin and cholecystokinin, in the small intestine, stimulate digestive processes to break down the proteins further. The pancreas releases most of the digestive enzymes, including the proteases trypsin, chymotrypsin and elastase, which break complex proteins into smaller individual amino acids. The amino acids are then transported across the intestinal mucosa to different tissues of the body where they are either used in replacing damaged tissues or in the synthesis of proteins. Excess amino acids may be converted by liver enzymes into keto acids, which are used as sources of energy via the citric acid cycle, or converted into glucose or fat for storage, and urea which is excreted in urine and sweat.

      All cells in the body contain proteins; certain hormones such as insulin and glucagon, as well as antibodies and almost all enzymes, are proteins. Proteins transport nutrients and oxygen in the blood and also help maintain the acid-base balance of blood and tissue fluids.

      Fats and Lipids

      In biology, lipids have been loosely defined as a group of organic compounds that are insoluble in water but soluble in non-polar solvents. Contrasting with carbohydrates, lipids are not polymers but smaller molecules extracted from the tissues of plants and animals [8]. Dietary fat includes all the lipids in plant and animal tissues that are eaten as food. Meats and dairy foods are the most obvious sources of fat, but most foods contain some fat. Vegetable sources rich in dietary fat are nuts and seeds, olives, peanuts and avocados.

      Fatty acids are the key constituents of lipids in food and the body and are categorised into 3 types: saturated, monounsaturated and polyunsaturated, according to the number of carbons, the number of double bonds and the position of double bonds in the molecular chain. Based on the nutritional need, fatty acids are also categorised as essential and non-essential. The essential fatty acids are a-linolenic (a type of omega-3) and linoleic (a type of omega-6),