Basic Guide to Oral Health Education and Promotion. Alison Chapman
rel="nofollow" href="#ulink_53acfba3-35d7-50ae-ac80-083c41c1f61e">Figure 1.8 Secondary dentition.
Source: From [1]. Reproduced with permission of Elsevier.
Table 1.3 Secondary dentition (notation, approximate exfoliation/eruption dates, and functions).
| Tooth | Notation | Approximate exfoliation/eruption dates | Function |
|---|---|---|---|
| First molars | (6) | 6–7 years | Chewing |
| Lower central incisors | (1) | 6–7 years | Biting |
| Upper central incisors | (1) | 6–7 years | Biting |
| Lower lateral incisors | (2) | 7–8 years | Biting |
| Upper lateral incisors | (2) | 7–8 years | Biting |
| Lower canines | (3) | 9–10 years | Tearing |
| First premolars | (4) | 10–11 years | Chewing |
| Second premolars | (5) | 11–12 years | Chewing |
| Upper canines | (3) | 11–12 years | Tearing |
| Second molars | (7) | 12–13 years | Chewing |
| Third molars | (8) | 17–24 years | Chewing |
Table 1.4 FDI World Dental Federation notation for permanent (secondary) dentition.
| Patient’s upper right (1) | Patient’s upper left (2) |
|---|---|
| 18 17 16 15 14 13 12 11 | 21 22 23 24 25 26 27 28 |
| 48 47 46 45 44 43 42 41 | 31 32 33 34 35 36 37 38 |
| Patient’s lower right (4) | Patient’s lower left (3) |
Structure of the tooth
Tooth structure (Figure 1.9) is complex and comprises several different hard layers that protect a soft, inner pulp (nerves and blood vessels).
Organic and inorganic tooth matter
The terms organic and inorganic are often mentioned in connection with tooth structure. Educators must know what these terms mean and their percentages in hard tooth structures.
Organic means living and describes the matrix (framework) of water, cells, fibres and proteins, which make the tooth a living structure.
Inorganic means non‐living and describes the mineral content of the tooth, which gives it its strength. These minerals are complex calcium salts.
Table 1.5 shows the percentages of organic and inorganic matter in hard tooth structures.
It is also important to know the basic details about these three hard tooth substances, and also pulp.
Enamel
Enamel (Figure 1.9) is made up of prisms (crystals of hydroxyapatite) arranged vertically in a wavy pattern, which give it great strength. The prisms, which resemble fish scales, are supported by a matrix of organic material including keratinised (horn‐like) cells, which can be seen under an electron microscope.
Figure 1.9 Structure of the tooth.
Source: From [1]. Reproduced with permission of Elsevier.
Table 1.5 Percentages of organic and inorganic matter in hard tooth structures.
| Structure | Inorganic | Organic |
|---|---|---|
| Enamel | 96% | 4% |
| Dentine | 70% | 30% |
| Cementum | 45% | 55% |
Properties of enamel
Enamel is:
The hardest substance in the human body.
Brittle – it fractures when the underlying dentine is weakened by decay (caries).
Insensitive to stimuli (e.g. hot, cold, and sweet substances).
Darkens slightly with age – as secondary dentine is laid down and stains from proteins in the diet, tannin‐rich food and drinks, and smoking are absorbed.
Enamel is also subject to three types of wear and tear (see Chapter 6). The educator
needs to be aware of these and able to differentiate between them:
1 Erosion – usually seen on palatal and lingual (next to palate and tongue) surfaces.
2 Abrasion – usually seen on cervical (outer neck of tooth) surfaces.
3 Attrition – natural wear often seen on occlusal (biting) surfaces.
Dentine