Teeth (W6b) Flashcards
Tooth anatomy? (6)
• Enamel.
• Dentin.
• Pulp chamber.
• Cementum.
• Alveolus.
• Periodontal ligaments.
Tooth primary anatomy? (2)
• Crown.
• Root.
Enamel?
= hardest, outer covering of the tooth.
Enamel function?
Protects the tooth.
Dentin?
= soft covering that makes up the bulk of the tooth.
Dentin function?
Protects the pulp chamber.
Pulp chamber?
= cavity containing nerves & blood vessels.
Pulp chamber function?
Formation & nutrition of the dentin.
Cementum?
= outer layer covering the dentin in the root area.
Cementum function?
Tooth anchorage.
Alveolus?
= tooth socket.
Alveolus function?
Secures the tooth.
Periodontal ligament?
= soft connective tissue within the alveolus.
Periodontal ligament function?
Attaches the tooth to the alveolar bone.
How are teeth structurally heterogenous?
They contain enamel (96% hydroxyapatite) & dentin (45% hydroxyapatite, 33% collagen, 20% water).
What does Young’s modulus indicate?
= how bouncy a material is.
Enamel attributes? (3)
• 96% Hydroxyapatite.
• Young’s modulus = glass.
• Harder than steel (Mohns hardness=5).
Dentin attributes? (3)
• 45% Hydroxyapatite, 33% collagen, 20% water.
• Young’s modulus = wood.
• Soft as gold (Mohns hardness = 3).
Why are teeth structured heterogenously with dentin being behind enamel?
With enamel being like glass it is the first strong layer preventing cracks & with dentin following the enamel being soft and spongy it acts as a shock absorber. Together, they stop cracks through them being structured & functioning differently but serving the same purpose of tooth protection.
Analogy of structural heterogeneity of teeth?
Safety glass.
Explain analogue of the structural heterogeneity of teeth?
With safety glass being layered with glass-plastic interlayer-glass, it ensures maximum protection. Therefore, teeth are designed in a way similar to safety glass with enamel being the glass & dentin being the plastic interlayer to act as the shock absorber.
Tooth development steps? (5)
● Mesoderm from 1st visceral arch forms dental papillae in developing jaw.
● These differentiate into odontoblasts, which form dentin & pulp cavity.
● Odontoblasts remain inside the tooth & constantly secrete dentin.
● Ectoderm from the 1st visceral arch & associated neural crest cells differentiate into ameloblasts (lay down enamel).
● Ameloblasts die after laying down enamel & the tooth crown erupts.
Organisms associated with evolutionary origins of teeth? (2)
• Sharks.
• Rays.
Evolutionary origins of teeth?
Seen in sharks & rays through them having placoid scales, which have a pulp cavity, dentin & an enamel-like coating.
Placoid scales components? (3)
• Enamel-like coating.
• Dentin.
• Pulp cavity.
Origin of teeth hypotheses? (2)
• “Outside-in” hypothesis.
• “Inside-out” hypothesis.
“Outside-in” hypothesis?
= states that dermal scales on the earliest gnathostome jaws were co-opted as teeth.
“Inside-out” hypothesis?
= states that tooth-like features on the internal portions of gills move towards the mouth to become teeth.
Dental pattern types? (2)
• Homodont teeth.
• Heterodont teeth.
Homodont teeth?
= teeth that are similar in shape along the tooth row.
Heterodont teeth?
= teeth that differ in size & shape along the tooth row.
Heterodont teeth types? (4)
• Incisors.
• Canines.
• Premolars.
• Molars.
Incisors?
= the anteriormost teeth.
Incisors function?
Nipping.
Canine function?
Piercing.
Premolars function?
Processing food.
Molars function?
Processing food.
Mammalian dental formula?
= formula of the number of incisors, canines, premolars & molars on the upper & lower sides of the mouth.
Human dental formula?
2123/2123
Elephant dental formula?
1033/0033
