Basic Guide to Oral Health Education and Promotion. Alison Chapman
main functions of the tongue are:
Taste.
Mastication (chewing).
Deglutition (swallowing).
Speech.
Cleansing.
Protection.
Taste
The tongue (and other parts of the oral cavity) is covered with taste buds that allow us to distinguish between sweet, sour, salt, bitter, and umami (savoury) tastes. An adult has approximately 9000 taste buds, which are mainly situated on the upper surface of the tongue (there are also some on the palate and even on the throat) [7].
Mastication
The tongue helps pass a soft mass of chewed food (bolus) along its dorsal surface and presses it against the hard palate.
Deglutition
The tongue helps pass the bolus towards the entrance of the oesophagus.
Speech
Tongue movement plays a major part in the production of different sounds.
Natural cleansing
Tongue muscles allow for tremendous movement, and the tongue can help remove food particles from all areas of the mouth (mainly using the tip).
Protection
The tongue moves saliva (which has an antibacterial property) around the oral cavity.
Conditions affecting the tongue
The following conditions affect the tongue (see Chapter 8 for more detail/images):
Glossitis (inflammation of the tongue) – a symptom of conditions such as dry mouth, infections, injury from a burn, irritants, vitamin B complex deficiency, skin conditions (e.g. lichen planus), or an allergic reaction. The underlying cause needs to be treated.
Soreness of the tongue, which may be due to a variety of reasons, including anaemia, vitamin B complex deficiency, and hormonal imbalance.
Black hairy tongue – due to overgrowth of tongue papillae, stained by chromogenic bacteria, mouthwash (e.g. chlorhexidine gluconate), or smoking. Looks alarming, but is not serious.
Geographic tongue (also called benign migratory glossitis) – smooth map‐like irregular areas on the dorsal surface (where the papillae are missing), which come and go. It can be harmless, but is sometimes sore and often runs in families. It can also be an indication of other systemic conditions [7].
Piercing of the tongue can also cause problems and the educator should be able to advise patients on this matter (see Chapter 22).
The floor of the mouth
The educator must know that the floor of the mouth consists of a muscle called the mylohyoid and associated structures.
SALIVA
Incredible stuff, saliva! It is often taken for granted, and patients only realise how vital it is to the wellbeing of the oral cavity and the whole body, when its flow is diminished (see Chapter 7). Saliva is secreted by three major and numerous minor salivary glands. The minor glands are found in the lining of the oral cavity, on the inside of the lips, the cheeks, the palate, and even the pharynx.
Major salivary glands
The three major salivary glands (Figure 1.12) are as follows:
1 Parotid gland – situated in front of the ear. It is the largest salivary gland and produces 25% of the total volume of saliva [7]. It makes serous (watery) saliva, which is transported into the oral cavity by the parotid duct that opens adjacent to the upper molars. The parotid gland swells during mumps (parotitis).
2 Submandibular gland – situated beneath the mylohyoid muscle towards the base of the mandible. It is the middle of the three glands, in both size and position, and produces a mixture of serous and mucous saliva. It accounts for around 70% of total saliva and opens via the submandibular duct on the floor of the mouth [7].When dental nurses assist the dentist, they may occasionally notice a small fountain as the saliva appears from this duct (which can also happen when yawning).Figure 1.12 Major salivary glands.Source: From [8]. Reproduced with permission of Blackwell.
3 Sublingual gland – is also situated beneath the anterior floor of the mouth under the front of the tongue. It produces 5% of total saliva [7], mainly in the form of mucous, which drains through numerous small ducts on the ridge of the sublingual fold (the area next to the frenulum beneath the anterior of tongue).
Composition of saliva
Saliva is made up of 99.5% water and 0.5% dissolved substances, although the composition varies between individuals [7].
Dissolved substances include:
Mucins – these are glycoproteins that give saliva its viscosity (stickiness), lubricate the oral tissues, and are the origin of the salivary pellicle (the sticky film which forms on teeth within minutes of cleaning).
Enzymes – there are many, but the OHE needs only to remember the main ones:Salivary amylase (ptyalin), which converts starch into maltose.Lysozyme, which attacks the cell walls of bacteria, thus protecting the oral cavity from invading pathogens.
Serum proteins – albumin and globulin (saliva is formed from serum; the watery basis of blood).
Waste products – urea and uric acid.
Gases – oxygen, nitrogen, and carbon dioxide in solution. The latter vaporises when it enters the mouth and is given off as a gas.
Inorganic ions – including sodium, sulphate, potassium, calcium, phosphate, and chloride. The important ones to remember are calcium and phosphate ions, which are concerned with remineralisation of the teeth after an acid attack (see Chapter 5) and the development of calculus (see Chapter 2).
Saliva also contains large numbers of microorganisms and remnants of food substances.
Functions of saliva
There are eight main functions of saliva:
1 Aids mastication and deglutition – mucous helps form the food bolus.
2 Oral hygiene – washing and antibacterial action helps control disease of the oral cavity. Lysozyme controls bacterial growth. This is why saliva is said to have antibacterial properties, and why animals instinctively lick their wounds.
3 Speech – a lubricant. For example, nervousness = production of adrenaline = reduction in saliva = dry mouth.
4 Taste – saliva dissolves substances and allows the taste buds to recognise taste.
5 Helps maintain water balance (of body) – when water balance is low, saliva is reduced, producing thirst.
6 Excretion –