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Embryology
Embryology and Histology
16 Questions
|
By Jlgarner1121 | Updated: Feb 28, 2013
| Attempts: 475
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1.
What factors lead to disturbances in prenatal development?
Drugs
Genetics
Alcohol
Infections
All of the above
Submit
Start Quiz
About This Quiz
2.
What first name or nickname would you like us to use?
You may optionally provide this to label your report, leaderboard, or certificate.
2.
Primary embryonic layers
Ectoderm(outer layer)
Select a Match
epithelial linings, glandular organs, digestive system
skin, brain, nervous system, nails, enamel, hair, lining of oral cavity
bones, muscles, circulatory system,dentin, cementum, and pulp
Mesoderm(middle layer)
Select a Match
epithelial linings, glandular organs, digestive system
skin, brain, nervous system, nails, enamel, hair, lining of oral cavity
bones, muscles, circulatory system,dentin, cementum, and pulp
Endoderm(inner layer)
Select a Match
epithelial linings, glandular organs, digestive system
skin, brain, nervous system, nails, enamel, hair, lining of oral cavity
bones, muscles, circulatory system,dentin, cementum, and pulp
Submit
3.
Most developmental disturbances form during what phase of pregnancy?
Zygote
Embryo
Fetus
Birth
Submit
4.
What stage of pregnancy does the facial structure start to develop?
Zygote
Fetus
Embryo
Egg
Submit
5.
Symptoms of Fetal Alcohol Syndrome (FAS) include (but are not limited to):
Paralysis, blindness, deafness, defects in the incisors and molars.
Small head circumference, low nasal bridge, indistinct philtrum, thin upper lip, and small mandible.
Heart, eye, hearing, and lung defects
Submit
6.
Embryonic layers
Ectoderm
Select a Match
includes epitheal lining of respiratory system, glanulear glands, digestive tract
includes lining of abdomen, bones, muscles, circulatory system, reproduction system, internal organs, dentin, cementin and pulp
includes skin, hair, brain, nails, nervous system, enamel of teeth, lining of oral cavity
Mesoderm
Select a Match
includes epitheal lining of respiratory system, glanulear glands, digestive tract
includes lining of abdomen, bones, muscles, circulatory system, reproduction system, internal organs, dentin, cementin and pulp
includes skin, hair, brain, nails, nervous system, enamel of teeth, lining of oral cavity
Endoderm
Select a Match
includes epitheal lining of respiratory system, glanulear glands, digestive tract
includes lining of abdomen, bones, muscles, circulatory system, reproduction system, internal organs, dentin, cementin and pulp
includes skin, hair, brain, nails, nervous system, enamel of teeth, lining of oral cavity
Submit
7.
Primitive facial development
Frontonasal process
Select a Match
middle portion of face
lower portion of face where mandibular arches are formed
upper portion of face
maxillary process
Select a Match
middle portion of face
lower portion of face where mandibular arches are formed
upper portion of face
mandibular process
Select a Match
middle portion of face
lower portion of face where mandibular arches are formed
upper portion of face
Submit
8.
Gingival fiber groups
dentogingival
Select a Match
anchor teeth to bone
found in lamina papralli. Help support gingaval tissues
aids in attachment to alveolar bone
circle and tighten around neck of tooth
circular ligament
Select a Match
anchor teeth to bone
found in lamina papralli. Help support gingaval tissues
aids in attachment to alveolar bone
circle and tighten around neck of tooth
alveologingival
Select a Match
anchor teeth to bone
found in lamina papralli. Help support gingaval tissues
aids in attachment to alveolar bone
circle and tighten around neck of tooth
dentoperiosteal
Select a Match
anchor teeth to bone
found in lamina papralli. Help support gingaval tissues
aids in attachment to alveolar bone
circle and tighten around neck of tooth
Submit
9.
Periodontal fiber groups
alveolar crest fibers
Select a Match
resist rotational forces & tilting of alveolar crest
only found in multirooted teeth. Resist rotational forces and to hold teeth interproximal.
resist rotational forces & tilting at alveolar bone. Insert into cementum horizontally
resist forces that try to pull tooth outward. Attach to apical of root and radiate outward to attach to alveolar bone
most abundant, resist forces from pushing tooth in. attached to alveolar bone and diagonal to cementum
horizontal fibers
Select a Match
resist rotational forces & tilting of alveolar crest
only found in multirooted teeth. Resist rotational forces and to hold teeth interproximal.
resist rotational forces & tilting at alveolar bone. Insert into cementum horizontally
resist forces that try to pull tooth outward. Attach to apical of root and radiate outward to attach to alveolar bone
most abundant, resist forces from pushing tooth in. attached to alveolar bone and diagonal to cementum
oblique fibers
Select a Match
resist rotational forces & tilting of alveolar crest
only found in multirooted teeth. Resist rotational forces and to hold teeth interproximal.
resist rotational forces & tilting at alveolar bone. Insert into cementum horizontally
resist forces that try to pull tooth outward. Attach to apical of root and radiate outward to attach to alveolar bone
most abundant, resist forces from pushing tooth in. attached to alveolar bone and diagonal to cementum
apical fibers
Select a Match
resist rotational forces & tilting of alveolar crest
only found in multirooted teeth. Resist rotational forces and to hold teeth interproximal.
resist rotational forces & tilting at alveolar bone. Insert into cementum horizontally
resist forces that try to pull tooth outward. Attach to apical of root and radiate outward to attach to alveolar bone
most abundant, resist forces from pushing tooth in. attached to alveolar bone and diagonal to cementum
interradicular fibers
Select a Match
resist rotational forces & tilting of alveolar crest
only found in multirooted teeth. Resist rotational forces and to hold teeth interproximal.
resist rotational forces & tilting at alveolar bone. Insert into cementum horizontally
resist forces that try to pull tooth outward. Attach to apical of root and radiate outward to attach to alveolar bone
most abundant, resist forces from pushing tooth in. attached to alveolar bone and diagonal to cementum
Submit
10.
Match
Cleft lip
Select a Match
mildest form because it does not hamper eating or speaking.
both sides are affected
One side is affected
failure of the maxillary processes fail to fuse with the primary palate or with each other.
failure of the palatal shelves to fuse with the primary palate or with each other
Cleft Uvula
Select a Match
mildest form because it does not hamper eating or speaking.
both sides are affected
One side is affected
failure of the maxillary processes fail to fuse with the primary palate or with each other.
failure of the palatal shelves to fuse with the primary palate or with each other
unilateral cleft lip
Select a Match
mildest form because it does not hamper eating or speaking.
both sides are affected
One side is affected
failure of the maxillary processes fail to fuse with the primary palate or with each other.
failure of the palatal shelves to fuse with the primary palate or with each other
bilateral cleft lip
Select a Match
mildest form because it does not hamper eating or speaking.
both sides are affected
One side is affected
failure of the maxillary processes fail to fuse with the primary palate or with each other.
failure of the palatal shelves to fuse with the primary palate or with each other
cleft palate
Select a Match
mildest form because it does not hamper eating or speaking.
both sides are affected
One side is affected
failure of the maxillary processes fail to fuse with the primary palate or with each other.
failure of the palatal shelves to fuse with the primary palate or with each other
Submit
11.
Match
Pulp stones
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
pulp
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
cementum
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
cortical bone
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
alveolar crest
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
Sharpey's fibers
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
interradicular septum
Select a Match
cortical plates coming together between each tooth, slightly below CEJ.
surrounds root of tooth. Feels grainy and is softer than dentin and enamel. Thicker at apex. Continues to develop and no regeneration
provides nourishment, support, and maintenance of dentin. Sends messages to brain.
compact bone plates on facial and lingual surfaces
bone that separates roots
calcified masses of dentin (white spots in tooth)
collagen fibers from periodontal ligaments within outer part of cementum that act as anchors between the alveolar bone and tooth
Submit
12.
Tooth development stages
odontogenesis(bud stage)
Select a Match
when cells begin to outline the future shape of the developing organ
proliferation, histodifferentiation, morphodifferentiation begins. Ectoderm matures into enamel
formation of tooth buds began. First signs of development in embryonic stage.
Apposition, calcification, eruption, attrition
Histodifferentiation begins-cells develop into different tissues. Mesoderm develops into connective tissue (dental sac) and further matures into dentin, cementum, pulp
Cap stage
Select a Match
when cells begin to outline the future shape of the developing organ
proliferation, histodifferentiation, morphodifferentiation begins. Ectoderm matures into enamel
formation of tooth buds began. First signs of development in embryonic stage.
Apposition, calcification, eruption, attrition
Histodifferentiation begins-cells develop into different tissues. Mesoderm develops into connective tissue (dental sac) and further matures into dentin, cementum, pulp
Bell stage
Select a Match
when cells begin to outline the future shape of the developing organ
proliferation, histodifferentiation, morphodifferentiation begins. Ectoderm matures into enamel
formation of tooth buds began. First signs of development in embryonic stage.
Apposition, calcification, eruption, attrition
Histodifferentiation begins-cells develop into different tissues. Mesoderm develops into connective tissue (dental sac) and further matures into dentin, cementum, pulp
Morphodifferentiation
Select a Match
when cells begin to outline the future shape of the developing organ
proliferation, histodifferentiation, morphodifferentiation begins. Ectoderm matures into enamel
formation of tooth buds began. First signs of development in embryonic stage.
Apposition, calcification, eruption, attrition
Histodifferentiation begins-cells develop into different tissues. Mesoderm develops into connective tissue (dental sac) and further matures into dentin, cementum, pulp
Maturation Stage
Select a Match
when cells begin to outline the future shape of the developing organ
proliferation, histodifferentiation, morphodifferentiation begins. Ectoderm matures into enamel
formation of tooth buds began. First signs of development in embryonic stage.
Apposition, calcification, eruption, attrition
Histodifferentiation begins-cells develop into different tissues. Mesoderm develops into connective tissue (dental sac) and further matures into dentin, cementum, pulp
Submit
13.
Maxillary teeth eruption times
max centrals
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max laterals
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max canines
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max 1st premolar
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max 2nd premolar
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max 1st molar
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max 2nd molar
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
max 3rd molar
Select a Match
11-13 years
6-7 years
11-12 years
7-8 years
17-22 years
8-9 years
10-11 years
10-12 years
Submit
14.
Types of Dentin
Peritubular
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
intertubular
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
mantle
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
circumpulpal
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
primary
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
secondary
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
tertiary
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
Select a Match
forms after the completion of the apical foramen and slowly throughout the life of the tooth
forms the bulk of the tooth
creates the wall of dentinal tubule
first predentin that is formed and matures within tooth
surrounds the pulp
dentin found in between the tubules
repairs and is reactive to irritations
Submit
15.
Match the term with the definition
ameloblasts
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
odontoblasts
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
cementoblasts
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
apposition
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
calcification
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
eruption
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
attrition
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
Tome's process
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
neonatal lines
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
lines of Retzius
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
imbrication lines
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
perikymata
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
enamel spindles
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
enamel dysplasia
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
Imbrication lines of Von Ebner
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
Contour lines of Owen
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
enamel rod
Select a Match
form dental papilla
grooved and pitted teeth due to malnutrition
contour lines in dentin that demonstrate a disturbance in body metabolism
development aided by ameloblasts and makes up the enamel matrix. Head of rod is surrounded by 2 other rod tails, shaped like a fish
layers of tooth become calcified
an accentuated incremental line, indicates trauma at birth.
process of depositing calcium salts and other minerals in the formed tooth. Tissues are formed in layers
slight ridges on the cervical third of certain teeth that extend mesiodistally
different layers of Tome's process (imbrication, neonatal, perikymata)
wearing away of incisal and occlusal edges during use
tooth emerges
secretory surface of the ameoblasts is responsible for laying down the enamel matrix (guiding it into place) in layers
stained growth rings or incremental lines in dentin
small grooves noted on some teeth
represent short dentinal tubules that seem to have crossed over into enamel and trapped there during mineralization (enamel tufts, enamel lamellae)
enamel forming cells
cementum forming cells
Submit
16.
Mandibular teeth eruption times
mand centrals
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand laterals
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand canines
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand 1st premolar
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand 2nd premolar
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand 1st molar
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand 2nd molar
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
mand 3rd molar
Select a Match
6 years
17-21 years
11-13 years
10-12 years
7-8 years
9-10 years
6-7 years
11-12 years
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What factors lead to disturbances in prenatal development?
Primary embryonic layers
Most developmental disturbances form during what phase of pregnancy?
What stage of pregnancy does the facial structure start to develop?
Symptoms of Fetal Alcohol Syndrome (FAS) include (but are not limited...
Embryonic layers
Primitive facial development
Gingival fiber groups
Periodontal fiber groups
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Match
Tooth development stages
Maxillary teeth eruption times
Types of Dentin
Match the term with the definition
Mandibular teeth eruption times
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