Unit 1

Question 1

Develop similarly to tooth:

Answer 1

Hair, salivary gland, sebaceous gland, sublingual gland, and mammary gland:

Question 2

the dental pulp is made of:

Answer 2

Fibrous Connective Tissue (fibroblasts and stem cells)

Question 3

Where in the tooth are stem cells located?

Answer 3

dental pulp and PDL

Question 4

Pulp is formed by these cells:

Answer 4

fibroblasts

Question 5

Dental Epithelial Cells:

Answer 5

Ameloblasts

Question 6

Ectomesenchymal cells are derived from what?

Answer 6

Neural crest cells

Question 7

Tooth cell types that are derived from neural crest cells:

Answer 7

odontoblasts, pulp fibroblasts, cementoblasts

Question 8

What tooth structure do dental epithelial cells form?

Answer 8

enamel

Question 9

Origin of neural crest cells:

Answer 9

dorsal neural tube

Question 10

Neural tube derivatives:

Answer 10

ectodermal origin (brain, CNS, etc.)

Question 11

Neural crest derivatives:

Answer 11

ectodermal original (face, teeth, head, maxilla, mandible)

Question 12

TF? The neural tube and the neural crest both produce s structures of ectodermal origin.

Answer 12

T

Question 13

Migration of NC cells:

Answer 13

down side of face to developing head and bronchial arches

Question 14

The enamel organ is found in:

Answer 14

the lower mesenchyme

Question 15

Issue arising form completely undifferentiated NC cells:

Answer 15

craniofacial malformations

Question 16

Stomodeum:

Answer 16

primitive oral cavity

Question 17

Stomodeum is lined by:

Answer 17

oral epithelium

Question 18

The stomodeum is present at this wk of development:

Answer 18

3-wk

Question 19

How many layers of oral epi are there in the 6-7 wk old embryo?

Answer 19

3-4 cell layers

Question 20

Where is cell proliferation taking place in the oral epithelium of the 6-7 wk embryo?

Answer 20

the areas where teeth develop, thickening the tissue

Question 21

The dental epi is comprised of:

Answer 21

enamel organ and enamel formation

Question 22

This lines the gut of the 3-wk old embryo:

Answer 22

Buccopharyngeal membrane

Question 23

To where do NC cells migrate in the tooth forming areas?

Answer 23

close to dental epi

Question 24

NC’s bc this in the tooth forming areas:

Answer 24

ectomesenchymal cells (undif CT cells)

Question 25

Are the NC cells involved in tooth development?

Answer 25

yes

Question 26

These cells create CT:

Answer 26

odontoblasts, and pulp fibroblasts

Question 27

Origin and function of ectomesenchymal cells:

Answer 27

Origin: Ectodermal, Function: mesenchyme

Question 28

What can happen if there is a failure of NC cell migration?

Answer 28

adontia (absence of teeth) or micrognathia (undeveloped jaw bone)

Question 29

4 stages of tooth development:

Answer 29

dental lamina, bud, cap, bell

Question 30

Formation of what tooth structure occurs first?

Answer 30

crown, then root

Question 31

What dermal layer is associated with the mesenchyme?

Answer 31

ectoderm

Question 32

Stages of tooth development:

Answer 32

dental lamina, (ectoderm), bud, cap, bell, late bell, (crown/eruption)

Question 33

When do neural crest cells become ectomesenchymal cells?

Answer 33

after they migrate close to/ into the dental epithelium

Question 34

What can cause the failure of neural crest cells to migrate?

Answer 34

signallling molecules not expressed or turned on at the right time

Question 35

Initiation of tooth development begins at day:

Answer 35

37

Question 36

Initiation of tooth development begins with the formation of:

Answer 36

primary epithelial band, horse-hoe band of epi in upper and lower

Question 37

2 subdivisions of each primary epi band:

Answer 37

dental and vestibular lamina

Question 38

When, in utero, do both lamina appear?

Answer 38

7 wks

Question 39

Vestibular lamina forms:

Answer 39

oral vestibule

Question 40

Ectomesenchymal cells are located around this in the dental lamina stage:

Answer 40

dental lamina

Question 41

Bud stage:

Answer 41

dental Lamina: proliferates and eLongates, eCtomesenCymal cells: proliferate and Condense (future dental papilla)

Question 42

Function of tooth buds:

Answer 42

form enamel organ, control fate of ectomesencymal cells (future dental papilla)

Question 43

Function of ectomesencymal cell in the bud stage:

Answer 43

form dental papilla

Question 44

Cap stage:

Answer 44

Tooth bud cells proliferate, enamel organ forms (outer, inner, stellate reticulum), ectomesencymal cells proliferate and condense to form dental papilla

Question 45

Morphogenesis stage:

Answer 45

cap stage

Question 46

In what stage does the developing tooth resemble the tooth crown?

Answer 46

cap stage

Question 47

Enamel formation begins in this stage:

Answer 47

cap stage

Question 48

Cells of this layer are involved in enamel formation:

Answer 48

enamel organ

Question 49

What cell type forms the dental papilla?

Answer 49

ectomesencymal cells

Question 50

Bell stage:

Answer 50

Crown shape outlined, differentiation

Question 51

These form odontoblasts:

Answer 51

detnal papilla cells in contact with IEE

Question 52

These form pulp fibroblasts:

Answer 52

all dental papilla cells that are not in contact with the IEE

Question 53

Function of dental papilla:

Answer 53

nutrients to tooth

Question 54

Structures found in dental papilla:

Answer 54

bv’s and nn.

Question 55

Shape of OEE cells:

Answer 55

cuboidal

Question 56

layer of enamel organ with capillaries for oxygen and nutrient delivery:

Answer 56

OEE

Question 57

Parts of the enamel organ:

Answer 57

OEE, IEE, Stratum intermedium, Stellate reticulum

Question 58

Cell type of stratum intermedium:

Answer 58

epi cells

Question 59

The stratum intermedium is adjacent to:

Answer 59

IEE cells

Question 60

Function of stratum intermedium:

Answer 60

enamel mineralization

Question 61

Function of stellate reticulum:

Answer 61

protection and hydration

Question 62

Major component of stellate reticulum:

Answer 62

glycosoaminoglycans

Question 63

Function of glycosoaminoglycans:

Answer 63

hydration

Question 64

DP cells in contact with the IEE form:

Answer 64

odonoblasts

Question 65

dental follicle is aka:

Answer 65

dental sac

Question 66

Cells of the dental sac:

Answer 66

cementoblasts, fibroblasts, and osteoblasts

Question 67

the PDL is made from this cell type:

Answer 67

fibroblasts

Question 68

Enamel knots:

Answer 68

aggregated epi cells near the IEE

Question 69

When do enamel knots appear?

Answer 69

cap and bell stage, transiently

Question 70

Function of enamel knots:

Answer 70

synthesize and secrete FGF-4

Question 71

Function of FGF-4:

Answer 71

stimulates epi cell proliferation

Question 72

This is the regulation center for crown formation:

Answer 72

enamel knot

Question 73

Type of interaction between E-M:

Answer 73

inductive interaction

Question 74

E-M interaction takes places during these stages:

Answer 74

Bud and cap

Question 75

Tooth bud governs:

Answer 75

location of ectomesenchymal cells around bud

Question 76

ectomesenchymal cells will develop into:

Answer 76

dental papilla

Question 77

How do ectomesenchymal cells influence the tooth bud?

Answer 77

no influence

Question 78

The tooth bud secretes:

Answer 78

FGF-8 and 9 and bone morphogenetic protein-4

Question 79

Function of FGF 8 and 9:

Answer 79

induce Pax-9

Question 80

Function of BMP-4:

Answer 80

induces msx1/2

Question 81

Function of Pax-9:

Answer 81

proliferation of dental papilla cells

Question 82

Function of msx 1 and 2:

Answer 82

formation of dental papilla and CT

Question 83

Pax-9, Msx 1 or Msx 2 knockout mice:

Answer 83

stops at bud stage

Question 84

What shape do enamel organs resemble?

Answer 84

crown shape they will become

Question 85

Tx of incisor or molar bud with trysin/ collagenase:

Answer 85

separation of enamel organ from dental papilla

Question 86

What determines the shape of enamel organ and crown?

Answer 86

dental papilla

Question 87

TF? The enamel organ determines the shape of enamel organ and crown.

Answer 87

F. dental papilla does

Question 88

In what stage does the bud determine the fate of the ectomesenchymal cells to form the dental papilla?

Answer 88

bud stage

Question 89

In what stage does the dental papilla determine the shape of the enamel organ and crown?

Answer 89

cap stage

Question 90

Bioengineering teeth in mice:

Answer 90

separate epi cells from mesenchymal cells of tooth germ in CAP stage E14.5, reconstitute, culture to proliferate, transplant

Question 91

Cell origin of oral epi:

Answer 91

dental epi (reverse right)

Question 92

Cell origin of ameloblasts:

Answer 92

IEE

Question 93

Cell origin of ectomesenchymal cells:

Answer 93

neural crest cells

Question 94

TF? The dental papilla is formed from the neural crest.

Answer 94

T

Question 95

These stages are involved in morphogneis:

Answer 95

bud and cap

Question 96

This stage is involved in cell differentiation:

Answer 96

bell

Question 97

Initiation is during:

Answer 97

dental lamina stage

Question 98

Stage when elongating DL cells move down into lower mesenchyme to make space for the tooth:

Answer 98

bud stage

Question 99

Dental lamina cells migrate here to make space for the tooth:

Answer 99

lower mesenchyme

Question 100

What happens to DL cells in the bud stage?

Answer 100

proliferate, elongate, and migrate to lower mesenchyme

Question 101

Parts of enamel organ:

Answer 101

IEE, OEE, stellate reticulum

Question 102

The crown is outlined in this stage:

Answer 102

bell stage

Question 103

This controls which cell type they will become:

Answer 103

signalling molecules (regulate gene expression)

Question 104

These cells house osteoblasts:

Answer 104

dental follicle/ sac cells

Question 105

Responsible for tooth morphogenesis, makes and secretes GF’s:

Answer 105

Enamel knots (morphogenesis is bud and cap stage, but enamel knots are only transiently present in cap and bell stages)

Question 106

How can tooth morphogenesis be completely blocked?

Answer 106

Remove GF

Question 107

TF? 1 tooth, 1 enamel knot.

Answer 107

F. some have multiple

Question 108

Mesenchyme sits below:

Answer 108

the oral epi

Question 109

Mesenchymal cells:

Answer 109

stromal cells, fat cells

Question 110

Organ won’t develop if you block:

Answer 110

cross-talk

Question 111

Signalling molecule in tooth morphogenesis:

Answer 111

FGF

Question 112

Pax-9 is found in:

Answer 112

mesenchymal cell

Question 113

Cross talk is especially important in this part of tooth morphogenesis:

Answer 113

the early stages

Question 114

The pulp is a core of:

Answer 114

soft tissue

Question 115

Morphological differentiation is related to:

Answer 115

polarity

Question 116

Functional differentiation is related to:

Answer 116

formation of organic matrix and mineralization

Question 117

what dermal layer makes up the dental lamina?

Answer 117

ectoderm

Question 118

The dental __ is in the bud stage and the dental __ is in the cap stage:

Answer 118

lamina, papilla

Question 119

Cell type associated with the dental lamina:

Answer 119

ectomesenchymal cells

Question 120

Cell type associated with the dental papilla:

Answer 120

odontoblasts

Question 121

cell types involved in condensation:

Answer 121

Nc + em cells

Question 122

These cells synthesize glycosaminoglycans:

Answer 122

stellate reticulum

Question 123

IEE interacts with the underlying:

Answer 123

ectomesenchyme

Question 124

What leads to odontoblasts formation?

Answer 124

Epithelial-mesenchymal interaction

Question 125

Are pulpal cells specialized or un?

Answer 125

unspecialized

Question 126

Pulp is made of:

Answer 126

pulp fibroblasts, nn, and bv’s

Question 127

dentinogenesis begins during this stage:

Answer 127

late bell stage

Question 128

TF? There is sequential functional differentiation of odontoblasts.

Answer 128

T

Question 129

What separates the OEE from the IEE in the bell stage?

Answer 129

stellate reticulum

Question 130

These cells get polarized in the bell stage:

Answer 130

preodontoblasts

Question 131

Changes in preodontoblasts to become secretory odontoblasts:

Answer 131

polarization, development of secretory machinery and dentinal tubules, elongation

Question 132

Undifferentiated dental papilla cells are found here:

Answer 132

cervical loop

Question 133

Shape of dental papilla cells:

Answer 133

polygonal

Question 134

Are preodontoblasts polarized?

Answer 134

yes

Question 135

What is predentin?

Answer 135

non-mineralized organic matrix

Question 136

Differentiation of odontoblasts and. ameloblasts starts in this stage:

Answer 136

bell stage

Question 137

the IEE contacts this on the inside and this on the outside:

Answer 137

DP cells, ameloblasts

Question 138

In which direction to odontoblasts migrate as they secrete?

Answer 138

inward, toward pulp

Question 139

What happens as dentin moves in?

Answer 139

odontoblastic processes extend

Question 140

This allows talking and promotes e-m interaction

Answer 140

Break in bm

Question 141

What initiates polarization of ameloblasts, then enamel?

Answer 141

preodontoblasts secreting enzyme to break membrane

Question 142

Cell type responsible for breaking of bm:

Answer 142

preodontoblasts, secrete enzyme

Question 143

mineralized core structure:

Answer 143

dentinal tubule

Question 144

Epithelial-mesenchymal inductive interaction:

Answer 144

IEE-> Preameloblasts –> Dp cells -> preodontoblasts -> odotoblasts -> predentin -> preameloblasts -> ameloblasts -> enamel

Question 145

What induce preameloblasts?

Answer 145

both IEE and predentin

Question 146

Secretion of complexes is due to either:

Answer 146

ex or intrinsic signals

Question 147

Cells with polarity:

Answer 147

preodontoblasts and preameloblasts (check)

Question 148

Basal space is aka:

Answer 148

abluminal space

Question 149

Degradation of the bm happens in this stage:

Answer 149

bell stage

Question 150

What cells secrete the enzymes that degrade the bm?

Answer 150

preodontoblasts

Question 151

Location of the preodontolbasts that secrete the enzymes that degrade the bm:

Answer 151

DEJ

Question 152

3 events in bell stage:

Answer 152

degradation of bm, odontoblastic processes form in dentinal tubules, mantle dentin forms at DEJ

Question 153

Odontoblastic process form here:

Answer 153

within dentinal tubules

Question 154

When does mantle dentin formation start?

Answer 154

Prior to enamel formation

Question 155

Post-mitotic cells:

Answer 155

odontoblasts

Question 156

Elongated, tubular, and polarized cells:

Answer 156

odontoblasts

Question 157

Dentin matrix proteins are synthesized by:

Answer 157

odontoblasts

Question 158

Function of polarization:

Answer 158

transport and secrete dentin matrix proteins

Question 159

Shape of pre-ondontoblasts and pre-ameloblasts:

Answer 159

short columnar

Question 160

The bm is intact for these cells:

Answer 160

DP cells

Question 161

The bm is broken in these cells:

Answer 161

pre-odontoblasts

Question 162

Type 1 Collagen 1 is found in:

Answer 162

bone

Question 163

Dentin regeneration/ formation:

Answer 163

DSPP and DMP (need either one of these, or preferentially both)

Question 164

Path of cell:

Answer 164

start at cervical loop, migrate up cusp, then in

Question 165

Major dentin matrix protein:

Answer 165

Type 1 collagen

Question 166

Minor, non-collagenous proteins:

Answer 166

ostepontin, dentin matix proteins (DMP), dentin sialophosphoprotein (DSPP)

Question 167

DSPP:

Answer 167

marker protein for dentin, mineralization

Question 168

Defects in DSPP:

Answer 168

dentinogenesis imperfecta, hypomineralized dentin

Question 169

Dentin matrix proteins are secreted into:

Answer 169

extracellular secretion

Question 170

These extend past the terminal bar apparatus at the apical end of the odontoblast:

Answer 170

odontoblastic processes

Question 171

Function of mantle dentin:

Answer 171

hold dentin/ enamel together

Question 172

TF? Circumpulpal dentin is formed before mantle dentin.

Answer 172

F. after

Question 173

Circumpulpal dentin is formed by:

Answer 173

differentiated odontoblasts

Question 174

Mantle dentin is formed by:

Answer 174

NEWLY differentiaTING odontoblasts

Question 175

Odontoblastic processes with the largest diameter are found:

Answer 175

close to cell body

Question 176

Intratubular dentin is found here:

Answer 176

inner wall of dentinal tubule

Question 177

Mineralization level of intratubular dentin:

Answer 177

highly

Question 178

Mineralization level of intertubular dentin:

Answer 178

less mineralized

Question 179

Which is more mineralized, inter or intra-tubular dentin?

Answer 179

intra

Question 180

Which is more mineralized, globular or interglobular dentin?

Answer 180

globular ?

Question 181

Hardness of Dentin:

Answer 181

Intra(peri)tubular (most mineralized/ hardest) > intertubular > Interglobular > Globular (least mineralized, softest) ?

Question 182

2 steps of dentin mineralization:

Answer 182

secretion/deposition proteins & mineralization

Question 183

calcium binds with high affinity to:

Answer 183

non-collagenous proteins (osteopomtin, DMP, DSPP)

Question 184

Acts as scaffold for dentin

Answer 184

Type 1 collagen

Question 185

How does crystalization occur?

Answer 185

non-random manner

Question 186

TF? Mantle dentin is hypermineralized.

Answer 186

F. HYPO

Question 187

Mantle dentin lacks:

Answer 187

DSPP

Question 188

Collagen type found in dentin:

Answer 188

1

Question 189

Regulators of mineralization:

Answer 189

DMP, DSPP, osteopomtin (non-collagenous proteins)

Question 190

Calcium binds with high affinity to:

Answer 190

non-collagenous proteins (DMP, DSPP)

Question 191

dental stem cells are aka:

Answer 191

odontoblast progenitor cells

Question 192

Parts of the pulp-dentin complex:

Answer 192

odontoblastic layer, cell-free and rich zones

Question 193

Found in cell free zone:

Answer 193

nerve plexus & capillaries

Question 194

Found in cell rich zone:

Answer 194

odontoblast progenitor cells, reparative dentin formation

Question 195

Reparative dentin is __’ dentin:

Answer 195

3’

Question 196

Pulp is made of:

Answer 196

bv’s, fibroblasts, dendritic cells, and matrix (collagens, proteoglycans, glycoprotiens)

Question 197

Components of pulp matrix:

Answer 197

collagens, proteoglycans, glycoprotiens

Question 198

Dendritic cells are found in these areas of the tooth:

Answer 198

pulp and odontoblastic layer

Question 199

Is the NB my or nonmy nn.?

Answer 199

both

Question 200

immune effector cells in pulp:

Answer 200

dendritic cells

Question 201

name of nerve plexus in cell free zone

Answer 201

Raschow nerve plexus

Question 202

Nerve free endings extend as far as:

Answer 202

the dentinal tubule

Question 203

Pulp is innervated with about __ nerves:

Answer 203

900

Question 204

Most prominent nerve configuration in pulp:

Answer 204

bundles

Question 205

Raschow nerve plexus is aka:

Answer 205

Subodontoblastic nerve plexus

Question 206

Plexus below the cell rich zone:

Answer 206

Parietal neural plexus

Question 207

Are odontoblastic processes associated with nerves?

Answer 207

yes

Question 208

How could immunohistochemistry be used to identify nerves of the odontoblastic processes?

Answer 208

Membranes of nerve cell body, fibers and terminals have Nerve Growth Factor receptors

Question 209

Antibody against the nerve:

Answer 209

parafin (red)

Question 210

Marker for odontoblasts:

Answer 210

nestin (green)

Question 211

Do nn. exted to the DEJ.

Answer 211

no

Question 212

3 dental pain theories:

Answer 212

neural, hydrodynamic, odontoblastic transduction

Question 213

What is the receptor in the Odontoblastic Transduction Theory?

Answer 213

the odontoblast (acting as a nerve ending/ pain receptor), synaptic junction w nerve

Question 214

What is the receptor in the Neural Theory?

Answer 214

free nerve endings in dentinal tubules, directly stimulated, receptors at the DEJ cause excitation

Question 215

What is the receptor in the Hydrodynamic Theory?

Answer 215

Fluid transmits signal to nerve free endings around odontoblast, mechano-sensitive nocioceptors

Question 216

Hydrodynamic theory, fluid moves within these:

Answer 216

dentinal microtubules

Question 217

Science pointing toward Odontoblastic Thransuction Theory:

Answer 217

they transduce signals, have Na pumps that induce AP from resting potential, synapses bw them and nerve fibers

Question 218

NT’s invovled in odontoblast-nerve synaptic communication:

Answer 218

anykyrin (and Beta2)

Question 219

What initiates transduction in the odontoblast transduction theory?

Answer 219

Fluid movement disturbs OP

Question 220

Stimuli for hydrodynamic theory:

Answer 220

mechanical/ chemical

Question 221

Cause of mechanical stimulation in hydrodynamic theory:

Answer 221

drilling exposes dentinal tubule, fluid leaks out

Question 222

How are chemicals involved in stimulation in the hydrodynamic theory

Answer 222

penetrate dentinal tubules, change osmotic pressure leading to fluid movement

Question 223

Odontoblastic processes are encased in:

Answer 223

dentinal tubule

Question 224

Most accepted theory of dentinal pain transmission:

Answer 224

hydrodynamic

Question 225

What causes the dull lasting pain created by hot drink/food?

Answer 225

more displacement of the odontoblastic process

Question 226

In which direction does fluid flow in response to hot food/drink?

Answer 226

down, from infront of the furthest extent of the odontoblastic process

Question 227

In which direction does fluid flow in response to cold food/drink?

Answer 227

up, from behind the odontoblastic process

Question 228

Age changes of pulp:

Answer 228

Less cells, blood vessels and nerves, more collagen, dentin, and pulp stones (at IEE, right?), smaller pulp chamber

Question 229

What is deposited in granulation tissue in response to a bacteria?

Answer 229

osteodentin (reparative dentin)

Question 230

TF? Bacteria is too large to enter dentinal tubules.

Answer 230

F.

Question 231

Proliferation of precursor cells in pulp happens here:

Answer 231

cell-rich zone

Question 232

Reparative dentin is aka:

Answer 232

osteodentin

Question 233

How does osetodentin resemble bone?

Answer 233

no dentinal tubules, trapped cells

Question 234

Which zone responds to inflammation of the dentin?

Answer 234

Cell rich zone

Question 235

Steps in reparative dentin formation:

Answer 235

cell-rich zone cells proliferate and differentiate into odontoblasts-LIKE cells, lay down matrix, tertiary/ reparative/ osteodentin

Question 236

Why are there no tubules in reparative dentin?

Answer 236

bc there are no odontoblastic processses

Question 237

The stratum intermedium lays bw:

Answer 237

stellate reticulum and the IEE

Question 238

Enamel mineralization pattern seen in seen in tumors:

Answer 238

fish scale

Question 239

Abnormal dentin mineralization pattern:

Answer 239

tubular

Question 240

This disorder is common to supernumerary pts:

Answer 240

Ameloblastic Fibro-Odontoma

Question 241

Pulp capping:

Answer 241

initiate reparative dentin formation to create a layer of nerve free tissue

Question 242

REVIEW IMAGES!!!!!

Answer 242

ok

Question 243

Fxns of ameloblasts:

Answer 243

synthesis, secretion, mineralization and resorption of enamel matrix proteins

Question 244

4 stages of differentiaiton of IEE cells into ameloblasts:

Answer 244

presecretory, secretory, maturation, protection

Question 245

At what tooth structure is the protection stage taking place?

Answer 245

cusp tip

Question 246

At what tooth structure is the secretory stage taking place?

Answer 246

midway bw cervical loop and cusp tip

Question 247

At what tooth structure is the presecretory stage taking place?

Answer 247

cervical loop

Question 248

In what stage do IEE cells differentiat into preameloblastst?

Answer 248

pre-secretory stage

Question 249

Pre-ameloblasts have increased numbers of these organelles:

Answer 249

RER, mitochondria, Golgi

Question 250

Alignment of pre-ameloblasts:

Answer 250

in parallel

Question 251

How are adjacent pre-ameloblasts connected?

Answer 251

desmosomes, tight and adhesion junctions (TAD)

Question 252

TF? Ameloblasts are differentiating during the presecretory stage.

Answer 252

T

Question 253

The basement membrane is being boken down during this stage:

Answer 253

presecretory stage (bell stage(

Question 254

Ameloblast are tallest during this stage:

Answer 254

secretory stage

Question 255

Function of ameloblasts in the secretory stage:

Answer 255

transport and secrete enamel matrix proteins

Question 256

In which stage are Tome’s processes seen?

Answer 256

secretory stage

Question 257

On which end of the ameloblast is the Tomes process located?

Answer 257

apical

Question 258

Where is enamel matrix secreted through?

Answer 258

Tomes process

Question 259

What type of extension is Tome’s process:

Answer 259

pyramidal, cytoplasmic

Question 260

What determines the architecture of the enamel rods?

Answer 260

Tomes’ prcess

Question 261

Where are secretory products synthesized in ameloblast?

Answer 261

RER

Question 262

TF? 1 ameloblast, 1 enamel rod.

Answer 262

T

Question 263

TF? Tomes’ process is located at the secretory end of the ameloblast.

Answer 263

T, apical end

Question 264

How to id Tomes’ processes in slides:

Answer 264

Little triangle at apical end of ameloblasts, nuclei along basolateral end

Question 265

This is just apical to the Tomes’ process:

Answer 265

enamel matric

Question 266

Secretion from ameloblasts occurs here:

Answer 266

Tomes’ processes

Question 267

Configuration of the developing enamel rod:

Answer 267

rod/ interrod configuration

Question 268

Basic structural unit of enamel:

Answer 268

enamel rods (prisms)

Question 269

This has a key hole-like structure:

Answer 269

enamel / enamel rod

Question 270

Shape of Tomes’ processes:

Answer 270

pyramidal

Question 271

Diameter of enamel rod:

Answer 271

5um

Question 272

The head of the key hole is:

Answer 272

rod enamel

Question 273

Physical properties of enamel:

Answer 273

strong, brittle

Question 274

The forming face is the rod/interrod enamel:

Answer 274

rod/ head

Question 275

Which faces secrete enamel?

Answer 275

forming faces

Question 276

Orientation of proximal formative face:

Answer 276

perpendicular to membrane, interrod enamel

Question 277

Distal formative face:

Answer 277

apical, enamel rod

Question 278

This is adjacent ot the ameloblast body on the basolateral end, where the nucleus is positioned:

Answer 278

startum intermedium

Question 279

How many Tome’s processes make up the interrod?

Answer 279

4, the one that laid the rod also contributes to the interrod

Question 280

Rod sheath is made from:

Answer 280

edge of Tomes’ process

Question 281

How many Tomes’ processes make up each rod?

Answer 281

1

Question 282

Is rod made from the distal or proximal part of Tomes’ process?

Answer 282

distal

Question 283

Is interrod made from the distal or proximal part of Tomes’ process?

Answer 283

proximal

Question 284

The lateral aspect of this looks like an uprooted tree:

Answer 284

Secretory stage ameloblast

Question 285

Each successive layer of secreteory stage ameloblasts fit here:

Answer 285

Tail region of Tomes process fits into apical end of ameloblast

Question 286

This makes up 90% of enamel matrix protein:

Answer 286

amelogenin

Question 287

Amelogenin is rich in these AA’s

Answer 287

proline, leucine and glutamic acid

Question 288

Amelogenins bind this with high affinity:

Answer 288

Ca2+

Question 289

Structural unit of the enamel rod:

Answer 289

hydroxyapetite

Question 290

Genes encoding amelogenin:

Answer 290

both X and Y, different manifestations in the sexes

Question 291

Defective ameiogenin gene can lead to:

Answer 291

amelogenesis imperfecta (hypoplastic/ hypomineralized/ hypocalcified)

Question 292

Amelogenesis imperfecta results in enamel that is:

Answer 292

hypoplastic/ hypomineralized/ hypocalcified

Question 293

This makes up 10% of enamel matrix protein:

Answer 293

Non-amelogenins

Question 294

List non-amelogenins:

Answer 294

Tufteline, enamelin, ameloblastin, proteases (TAPE)

Question 295

Tufteline is involved in the formation of:

Answer 295

enamel tuft

Question 296

enamelin is involved in the formation of:

Answer 296

rod, interrod enamel

Question 297

ameloblastin is involved in the formation of:

Answer 297

sheath

Question 298

Function of protease during secretory stage:

Answer 298

degrade enamel matrix proteins (MMP-20, enamelysin and KLK-4)

Question 299

KLK-4 sf:

Answer 299

Kalikrein-4

Question 300

MMP-20 sf:

Answer 300

Matrix metalloproteinase-20

Question 301

When is MMP-20 secreted?

Answer 301

secretory phase

Question 302

When do we degrade MMP-20’s?

Answer 302

once we have established crystal orientation

Question 303

When is KLK-4 secreted?

Answer 303

Maturation phase

Question 304

This is secreted during secretory phase and serves to break down its own protein:

Answer 304

enamelysin

Question 305

Ameloblasts are shorter in this stage:

Answer 305

maturation

Question 306

Maturation stage:

Answer 306

not synthesizing, degradation of organelles, Tomes disapprar, R or S-ended ameloblasts appear

Question 307

Ruffle-ended or smooth-ended ameloblasts appear in this stage:

Answer 307

maturation

Question 308

Main functions of maturation stage:

Answer 308

protein absorption and mineralization

Question 309

What are enamel matrix proteins replaced with?

Answer 309

Ca/PO4 (99% replaced)

Question 310

Proteases degrade theses in the enamel matrix:

Answer 310

amelogenins

Question 311

TF? The maturation stage is a terminal differentiation stage.

Answer 311

F. modulation bw S and R

Question 312

How is mineralized enamel formed in the maturation stage?

Answer 312

absorption of degraded enamel matrix proteins

Question 313

Amelogenins are involved in this process:

Answer 313

mineralization

Question 314

Calcium hydroxyapetite:

Answer 314

Ca10(PO4)6OH2

Question 315

Function of ruffle-ended ameloblasts:

Answer 315

to strengthen the matrix

Question 316

These promote pumping Ca into mature enamel:

Answer 316

lysosomes, Ca binding proteins and Ca ATPases

Question 317

1% of enamel is made of:

Answer 317

protein

Question 318

Function of smooth-ended ameloblasts;

Answer 318

remove water and proteins

Question 319

TF? Smooth ended ameloblasts have leaky distal junctions.

Answer 319

T

Question 320

Smooth-ended proximal junctions:

Answer 320

tight

Question 321

Ruffle-ended proximal junctions:

Answer 321

leaky

Question 322

Ruffle-ended distal junctions:

Answer 322

tight

Question 323

TF? Active resorption of intact proteins by ameloblasts is the main mechanism for loss of organic matrix during maturation.

Answer 323

F

Question 324

TF? Intracellular enzymes digest matrix proteins into fragments small enough to leave leave enamel layer.

Answer 324

F. extracellular

Question 325

How do fragments leave enamel?

Answer 325

pass bw leaky distal junctions of smooth ended cells

Question 326

Where are fragments leaving enamel taken up?

Answer 326

along basolateral surface

Question 327

Importance of distal leaky junctions of smooth ended ameloblasts:

Answer 327

Fragments of matrix proteins pass thru and diffuse laterally to be taken up at the basolateral surface of the ameloblast

Question 328

Longitudinal enamel crystal growth occurs in this stage:

Answer 328

secretory

Question 329

Widening of the enamel crystal occurs in this stage:

Answer 329

maturation

Question 330

Enzyme for amelogeninn degradation in the secretory phase:

Answer 330

MMP-20

Question 331

Enzyme for amelogeninn degradation in the maturation phase:

Answer 331

KLK-4 (Kalikrein-4)

Question 332

MMP-20 is aka:

Answer 332

enamel lysin

Question 333

Which is a stronger protease, MMP-20 or KLKK-4?

Answer 333

KLK-4

Question 334

TF? Some MMP-20 is still active during the maturation phase.

Answer 334

T

Question 335

Shape of enamel crystals in X-section:

Answer 335

hexagonal

Question 336

Shape of dentin bone in X-section:

Answer 336

hexagonal

Question 337

Ameloblast differentiation occurs in this stage:

Answer 337

protection stage (bell)

Question 338

Ameloblasts at protection stage;

Answer 338

shutting things down, crystals completed, cells die off, short cells, not secreting, not modifying, not active, minimal organelles, reduction of enamel epi

Question 339

What covers the enamel surface during the protection stage?

Answer 339

ameloblasts (check)

Question 340

Is the reduction of the enamel epithelium at the beginning or end of protection stage?

Answer 340

End

Question 341

Components of enamel organ in the protection stage:

Answer 341

OEE, stellate and stratum intermedium

Question 342

Function of reduced dental epi:

Answer 342

protect enamel

Question 343

The reduced dental epi will become:

Answer 343

junctional epi

Question 344

What makes the reduced dental epi?

Answer 344

condensation of OEE, stellate and stratum intermedium

Question 345

Is polarization decreasing or increasing as we proceed through maturation and protection?

Answer 345

decreasing

Question 346

Function of pre-secretory ameloblast:

Answer 346

differentiating

Question 347

Function of secretory ameloblast:

Answer 347

synthesis and secretion

Question 348

Functions of ameloblast during maturation:

Answer 348

mineralization, resorption, Ca2+ transport

Question 349

Enamel rod is first present in the stage of ameloblast differentiation:

Answer 349

Secretory

Question 350

What cause Striae of Retzius?

Answer 350

developmental disturbances

Question 351

These lines reflect activity of ameloblasts on a daily period:

Answer 351

cross striations/ cross lines

Question 352

From where do the Straie of Retzius run?

Answer 352

obliquely rom DEJ to enamel surface

Question 353

Perikymata:

Answer 353

furrows (depressed lines) on enamel surface, manifestation of S. Retzius on enamle surface

Question 354

This is a manifestation of S. Retzius on enamel surface:

Answer 354

perikymata

Question 355

TF? Perikymata and Straie of Retzius are both part of the enamel

Answer 355

T

Question 356

TF? Enamel prism is visible in a cross section of enamel showing the Straie of Retzius.

Answer 356

T (I don’t think they are visible on the outer surface where the perikymata are visible)

Question 357

Enamel tufts:

Answer 357

incomplete resorption of enamel proteins

Question 358

If an enamel protein persists that was incompletely resorbed, this can form:

Answer 358

tuftline

Question 359

Are enamel tufts hypo or hyper mineralized?

Answer 359

hypo

Question 360

How far do enamel tufts extend?

Answer 360

Up to 1/2 of enamel thickness

Question 361

TF? Tufts reach the tooth surface.

Answer 361

F

Question 362

TF? Tufts are associated with decay.

Answer 362

F. Can be a trap if the lesion gets to the tuft

Question 363

TF? Tufts are regularly spaced.

Answer 363

T

Question 364

Where are enamel spindles found?

Answer 364

DEJ

Question 365

What forms enamel spindles?

Answer 365

odontoblastic processes trapped during early enamel formation, short, thin, cyclindrical

Question 366

TF? enamel spindles are regularly spaced.

Answer 366

F

Question 367

TF? Enamel lamellae play a potential pathoogic role.

Answer 367

T. in contact with oral cavity

Question 368

Enamel lamellae:

Answer 368

group of hypomineralized rods with incomplete resorption, sheet-like structure, DEJ to enamel surface, susceptible to caries and fracture

Question 369

Hunter-Schreger Bands:

Answer 369

seen only with reflected light, light and dark bands, DEJ to 2/3 of enamel, commonly in incisal or occlusal region

Question 370

What does the direction of the Hunter-Schreger Bands reflect?

Answer 370

alternating direction taken by groups of enamel rods as they move away from the DEJ

Question 371

TF? Hunter-Schreger Bands can be visualized with transmitted light.

Answer 371

F, polarized light

Question 372

TF? Hunter-Schreger Bands are found in the dentin.

Answer 372

F. enamel only

Question 373

Which bands are broader in Hunter-Schreger Bands?

Answer 373

bright bands

Question 374

Orientation of broad, bright bands of Hunter-Schreger Bands:

Answer 374

longitudinally-oriented enamel rods

Question 375

Rodless enamel is aka:

Answer 375

prismless enamel

Question 376

Prismless enamel is found here:

Answer 376

DEJ and enamel surface

Question 377

prismless enamel is formed by:

Answer 377

ameloblasts w/o Tomes’ processes

Question 378

Prismless enamel is common in:

Answer 378

deciduous teeth

Question 379

Arrangement of enamel crystals in rodless enamel:

Answer 379

parallel to DEJ or enamel surface

Question 380

TF? Tetracycline will stain all dentition, even unerupted, if given in excess to a child.

Answer 380

F. Does not stain unerupted teeth, ie 3rd molars

Question 381

What color banding is seen in enamel due to Tetracycline staining?

Answer 381

greyish, yellow -> brown/ grey

Question 382

This can occur with F concentrations that are too high:

Answer 382

modeling ?

Question 383

What color discoloration is associated with fluoride:

Answer 383

white/brown

Question 384

What color discoloration is associated with minocycline:

Answer 384

green-gray/ blue-grey (braod specrum tetracycline antibiotic)

Question 385

What color discoloration is associated with ciprofloxacin:

Answer 385

greenish (antibiotic)

Question 386

Does tetracycline stain dentin, enamel, or both?

Answer 386

both, dentin more heavily

Question 387

Why does staining occur with tetracycline?

Answer 387

forms complexes with Ca2+ ions on surface of hydroxyapetite crystals

Question 388

Tetracycline should not be given to pregnant women from this wk of pregnancy on:

Answer 388

29th wk, crosses placental barrier (or breast feeding mothers)

Question 389

Don’t give tetracycline to children until they reach this age:

Answer 389

12 yo, because permanent teeth are still developing

Question 390

Most critical time to avoid tetracycline use for deciduous dentition:

Answer 390

4 mo in utero to 5 mo post-partum (incisors and canines)

Question 391

Most critical time to avoid tetracycline use for permanent dentition:

Answer 391

4 mo post-partum to about 7yo (incisors and canines)

Question 392

Reparative dentin is formed in this zone:

Answer 392

Cell-rich zone

Question 393

When does the dental lamina form?

Answer 393

when cells in the dental epithelium actively proliferate and grow (bud stage)

Question 394

Odontoblast formation occurs during this stage:

Answer 394

late bell stage