Tooth development

Question 1

When do deciduous teeth start to develop?

Answer 1

Between 6-8 weeks in utero

Question 2

When do successional teeth begin to develop?

Answer 2

20 weeks in utero to 10 months after birth

Question 3

Which teeth are not successional?

Answer 3

Permanent molars

Question 4

When does the 1st molar begin to develop?

Answer 4

20 weeks in utero

Question 5

When does the 2nd molar begin to develop?

Answer 5

After birth

Question 6

When does the 3rd molar begin to develop?

Answer 6

4-5 y/o

Question 7

What are the 3 phases of tooth development?

Answer 7

1. initiation
2. morphogenesis
3. histogenesis

Question 8

What is initiation?

Answer 8

The first initial events of tooth development

Question 9

What is morphogenesis?

Answer 9

The change in shape of the tooth as the tooth develops (how become an incisor or molar etc.)

Question 10

What is histogenesis?

Answer 10

Differentiation of the cells responsible for making the tissue of the tooth e.g. into ameloblasts

Question 11

Interactions between which two types of cells does tooth development heavily rely upon?

Answer 11

Epithelial cells and ectomesenchymal (derived from neural crest) cells

Question 12

What type of cells are neural crest cells?

Answer 12

Pluripotent

Question 13

Where are ameloblasts derived from?

Answer 13

Epithelial derived

Question 14

What is the fate of an individual cells determined by?

Answer 14

The environment into which it migrates and a combination of homeobox gene expression

Question 15

What is the role of epithelium and mesenchyme in tooth development?

Answer 15

Epithelium is instructive in very early events (type of tissue), then mesenchyme takes over (tooth specificity)

Question 16

Skin mesenchyme + dental epithelium forms:

Answer 16

skin

Question 17

Dental mesenchyme + skin epithelium forms:

Answer 17

tooth

Question 18

Incisor germ mesenchyme + molar epithelium forms:

Answer 18

incisor

Question 19

Molar germ mesenchyme + incisors epithelium forms:

Answer 19

molar

Question 20

What does the dental follicle become in a fully developed tooth?

Answer 20

The periodontal ligament

Question 21

What does the dental papilla become in a fully developed tooth?

Answer 21

The dental pulp

Question 22

Which transcription factors/ signalling molecules are involved in tooth development?

Answer 22

Pitx-2 = initiates tooth development, Sonic hedgehog (Wnt) = increases cell proliferation, Pax9 & Msx1 = needed for the early tooth genre ti progress from the bud stage

Question 23

What are the homeobox genes?

Answer 23

The different gene expressions needed to form different types of teeth

Question 24

What are the homeobox genes for incisors?

Answer 24

Msx1, Msx2 & Alx3

Question 25

What are the homeobox genes for molars?

Answer 25

Dlx1, Dlx2 & Barx 1

Question 26

What was shown by experiments removing 1 or other of the genes Dlx1 or Dlx2?

Answer 26

Absence of maxillary molars

Question 27

What happens by the 6-7th week of development?

Answer 27

A thickening of the oral epithelium occurs = invaginate into mesenchyme and divides into the buccal vestibular lamina (hollows out to form buccal vestibule) and the lingual dental lamina (tooth)

Question 28

What is a placode?

Answer 28

A swelling within which teeth develop

Question 29

Where are successional placodes placed?

Answer 29

Lingual to developing tooth buds (except tooth that dont have predecessors = molars)

Question 30

What are the 3 tooth germ stages of development?

Answer 30

Bud, Cap and Bell (early and late)

n.b. = a continuum

Question 31

At what time is the tooth in cap stage?

Answer 31

By 11th-12th week

Question 32

By what time is the tooth in early bell stage?

Answer 32

By the 14th week

Question 33

What does the inner epithelial layer do in the early bell stage?

Answer 33

Maps out the occlusal pattern of the tooth crown

Question 34

How do we protect the tooth germ?

Answer 34

The stellate reticulum produces glycosaminoglycans = jelly like ECM in the cap stage = protects against pressure which would change the shape of the tooth

Question 35

What are remnants of the dental lamina in the early bell stage called and what can they cause?

Answer 35

Epithelial pearls of serres -> may be involved in aetiology of cysts and tumours

Question 36

Which occurs first, dentine or enamel formation?

Answer 36

Dentine formation always just precedes enamel formation

Question 37

Where does dentine and enamel formation start?

Answer 37

Future cusp tip or incisal edge (proceeds apically)

Question 38

What is an enamel knot?

Answer 38

A little accumulation of cells usually in the centre of where an incisal tip or cusp is developing (may have >1 in a tooth germ) = thought to be a centre for production of signalling molecules (disappears in early bell stage)

Question 39

What is an enamel cord?

Answer 39

A line of cells appearing to divide the stellate reticulum into two, not know where they come from or function (may be remnants of enamel knot)

Question 40

When an enamel cord stretches from stratum intermedium out to the outer enamel what is it called?

Answer 40

An enamel septum

Question 41

Which end of the ameloblasts is the secretory end?

Answer 41

The distal end

Question 42

At what stage does formation of enamel and dentine start?

Answer 42

Late bell stage

Question 43

What is the early sequence of events for formation of dentine and enamel?

Answer 43

Cells of internal epithelium begin to differentiate (pre-ameloblasts), dental papilla cells induced by ameloblasts = osteoblasts, basal lamina breaks down, odontoblasts produce first layer of dentine matrix and then ameloblasts are initiated to produce enamel

Question 44

Where does enamel and dentine formations start?

Answer 44

At the ADJ then moves outwards

Question 45

What are the 5 stages of amelogenesis?

Answer 45

1. pre-secretory stage
2. secretory stage
3. transition stage
4. maturation stage
5. post-maturation stage

Question 46

What is the pre-secretory stage?

Answer 46

Anything up to when the amelogenins (all lost) and non-amelogenins (e.g. enamelling, ameloblastin, tuftelin, amelotin) are secreted by the ameloblasts

Question 47

What is the secretory stage?

Answer 47

Laying down of amelogenins and non-amelogenis (proteins) which are immediately mineralised to form enamel

Question 48

How does the enamel from the secretory stage differ to mature enamel?

Answer 48

Very thin and ribbon like hydroxyapatite with lots of protein and water in between

Question 49

What is the maturation stage?

Answer 49

Ameloblast controlling the mineralisation of the enamel matrix itself (majority of proteins removed and full mineralisation occurs)

Question 50

What is the post-maturation stage?

Answer 50

Forms protective lining over newly formed lining of tooth -> cells are either lost or some are involved in forming the junctional epithelium

Question 51

What % of proteins secreted in the secretory stage are amelogenins?

Answer 51

90-95%

Question 52

What type of enamel is the initial layer formed?

Answer 52

A-prismatic (randomly formed)

Question 53

What is responsible for the formation of prismatic structures?

Answer 53

Tomes process

Question 54

What are the consequences of distal webs forming?

Answer 54

Controls the environment where mineralisation occurs

Question 55

The central core of a prism is produced by how many tomes processes?

Answer 55

1

Question 56

The prism boundary is produced by how many tomes processes

Answer 56

Multiple

Question 57

What % of weight of early developing enamel do enamel proteins make up?

Answer 57

25%

Question 58

What % of weight of mature enamel do enamel proteins make up?

Question 59

What are the roles of enamel proteins thought to be>

Answer 59

Initiating and controlling development of enamel (individual roles unknown but mutations in their genes associated with disturbances of enamel structure)

Question 60

What is the striae of retzius?

Answer 60

Weekly incremental lines

Question 61

What is the neonatal line?

Answer 61

A line that forms within dentine and enamel at birth (disruption causing exaggerated striae of retzius)

Question 62

What is different between prisms?

Answer 62

The angles of hydroxyapatite crystals only

Question 63

What happens to ameloblasts during the transition stage?

Answer 63

Shorten (become less columnar) and 50% die

Question 64

During maturation stage which forms do ameloblasts switch between?

Answer 64

“ruffle ended” borer (moves ions in) and “smooth ended” border (removing degrade proteins and water)
n.b. switches approx 7 times during maturation stage

Question 65

What is the dentine matrix composed of?

Answer 65

Collagens (type 1), proteoglycans, glycoproteins (e.g. dentine sialoproteins), phosphoprotein (dentine phosphoprotein DPP)

Question 66

What happens if we dont have dentine phosphoprotein (DPP)?

Answer 66

We dont get accurate dentinogenesis occuring

Question 67

What is mantle dentine?

Answer 67

The first dentine laid down (in crown of tooth), has a different structure and compsotiiton to bulk of the matrix (type 1 collagen fibres laid down at right angles to future ADJ)

Question 68

What is circumpulpal dentine?

Answer 68

The majority of the dentine, laid down in a regular incremental pattern with collagen fibres parallel to dentine-pulp border

Question 69

What is pre-dentine layer?

Answer 69

Non mineralised layer = adjacent to pulp

Question 70

What is intertubular dentine?

Answer 70

Between he tubules, all the dentine laid down initially

Question 71

What is intratubular dentine?

Answer 71

Begins almost immediately and is continuous with intertubular dentine but different composition (other plasma proteins mineralised), physiological (happens with age) = translucent dentine

Question 72

What is translucent dentine?

Answer 72

When the tubule is occluded (can be used to age teeth)

Question 73

When is tertiary dentine laid down?

Answer 73

In response to injury

Question 74

When does root formation begin?

Answer 74

Once tooth starts to erupt

Question 75

Which interactions are involved in root formation?

Answer 75

Dental follicle, hertwigs epithelial root sheath and dental papilla/pulp

Question 76

What is the role of hertwigs epithelial root sheath (HERS)?

Answer 76

To map out the root shape and induces odontoblasts (dentine formation), then breaks foes allowqing contact with dental follicle cells = cementogenesis

Question 77

What is hertwigs epithelial root sheath (HERS) developed from?

Answer 77

Layers of inner and outer enamel epithelium from the cervical loop

Question 78

What are the remnants of hertwigs epithelial root sheath (HERS) called? and what can they cause?

Answer 78

Rests of mallassez = potential to develop into cysts or tumours at a later stage

Question 79

What is the consequence of having a stellate reticulum or stratum intermedium in the root (n.b. we normally don’t!)?

Answer 79

Forms enamel pearls = spherical mineralised spheres with no clinical significance but if become exposed i.e. due to recession can be difficult for pt. to keep clean

Question 80

What is acellular cementum?

Answer 80

Contains the collagen fibres from the principle bundles of the PDL and embeds them in the cementum

Question 81

What is the granular layer of tomes?

Answer 81

A layer of dark granules in root dentine = transverse sections of highly coiled dentinal tubules

Question 82

What is the hyaline layer?

Answer 82

A hybrid layer between cementum and granular layer of tomes = layer of dentine/cementum/intermingled layer of both (not mineralised immediately, waits until cementum laid down = type 1 collagen of cementum is intermingled = bonds to cementum to dentine)

Question 83

What is secondary dentine?

Answer 83

Dentine formed after root formation is complete (slows down and slight change of direction but continuous with primary tubules)
= physiological and age related

Question 84

What is tertiary dentine?

Answer 84

Dentine laid down in response to injury (inc. dental caries)

Question 85

What are the two structures of tertiary dentine?

Answer 85

Reactionary dentine (for mild stimulus) and reparative dentine (for strong stimulus)

Question 86

What is the structure of reparative dentine?

Answer 86

Tubular, laid down by new odontoblasts served from pulpal stem cells

Question 87

What determines the length of a tooth root?

Answer 87

Genetics

Question 88

When does cementogenesis occur in comparison to dentinogenesis in the root?

Answer 88

Simultaneous

Question 89

When does cementinogenesis of the root start?

Answer 89

When HERS breaks down

Question 90

What is acellular cementum?

Answer 90

Thin layer immediately adjacent to dentine of root (laid down slower so cementoblast not trapped and become cementocytes)

Question 91

What is cellular cementum?

Answer 91

Found apically and inter-raddicular areas (laid down faster = embedded cementoblasts and incremental lines of salter farther apart ), thought it could cause the extra eruption to maintain occlusion after tooth loss but doesn’t explain why its present between the roots

Question 92

What is acellular extrinsic fibre cementum?

Answer 92

Contains no cementocytes and contains extrinsic fibres (collage from the PDL = continuity)

Question 93

What is cellular intrinsic fibre cementum?

Answer 93

Contains cementocytes and contains collagen fibres derived from cementoblasts, has a precementum layer

Question 94

What are the different congenital abnormalities of teeth?

Answer 94

• disturbance of epithelial-mesenchymal interactions
• splitting/joining of tooth germs
• trauma/infection of deciduous tooth causing malformations in permanent tooth (turner tooth)
• Variations in number/size/shape of tooth crown and or roots (e.g. root dilacerations -> bends in root forming)
• Odontoma formation

Question 95

What is germination?

Answer 95

Splitting of a tooth germ

Question 96

What is fusion?

Answer 96

Joining of two tooth germs

Question 97

What are the two types of odontoma (benign tumour) formation?

Answer 97

Compound - made up of lots of little tiny teeth;

Complex - mineralised tissues you get within teeth but no real tooth like structure