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1. Neural Crest Cells
INDIAN DENTAL ACADEMY
Leader in continuing dental education
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2. “He who sees things grow from the beginning
will have the finest view of them”
-Aristotle
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3. Fertilization
It is sequence of events that begins with
contact between a sperm and a oocyte
and finally ends with the fusion of nuclei of
the sperm and ovum and the intermingling
of maternal and paternal chromosomes.
Zygote
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4. Cleavage
It is a process by which zygote
undergoes a series of rapid mitotic
division.
First the zygote divides into two cells
known as Blastomeres
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6. Time: The division starts 30 hours after
fertilization.
Site: This occurs as the zygote passes
along the uterine tube towards the uterus.
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8. Important point:
There is increase in the number of cell
without an increase in the cytoplasmic
mass as a result of which cells
progressively become smaller in size.
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9. Morula
This is so called when the number of
cells becomes 16
Time: 3-4 days after fertilizations
Site: Uterus
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11. BLASTOCYST
Space appear between the central
Blastomeres of Morula. This space gets
filled with the fluid from the uterine cavity.
Trophoblast
Inner cell mass
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13. BLASTOCYST
Following this fluid – filled spaces fuse to
form a single, large blastocyst cavity.
Blastocyst
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14. Implantation
Time: After six days
The blastocyst attaches itself to the
endometrial epithelium, adjacent t the
inner cell mass
Embryonic pole
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15. Implantation
As this occurs the trophoblast start
proliferating rapidly
cytotrophoblast
syncytiotrophoblast
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17. Implantation
Finger like processes of
syncytiotrophoblast extend through the
endometrial epithelium
Time:by the end of the first week
blastocyst superficially implants in the
endometrium.
Also a flattened layer of cells called
hypoblast appear on the surface of the
inner cell mass.
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18. Completion of implantation
Time: the process of implantation is
completed by the end of second week.
As the blastocyst slowly embeds itself in
the endometrium trophoblast goes on
differentiating into the two cell layer.
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19. Formation of the amniotic
cavity
As the implantation is progressing small
cavity appears at the embryonic pole
between embryoblast and trophoblast.
This space forms the primodium of the
amniotic cavity.
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21. Formation of Bilaminar plate
At the same time morphologic changes
occur in the embryoblast resulting in the
formation of circular,bilaminar plate of the
cells called embryonic disc
epiblast
hypoblast
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23. Formation of the primary yolk
sac
Few cells from the hypoblast migrate to
form a membrane called exocoelomic
membrane
This membrane surrounds the blastocyst
cavity called exocoelomic cavity.
Primary yolk cell
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25. Formation of the secondary
yolk cell
Some cells from the hypoblast gives rise
to a layer of loosely arranged tissue
called-extra embryonic mesoderm.
Extra embryonic coelom
yolk sac
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27. Development of chorionic sac
Extra embryonic coelom splits the extra
embryonic mesoderm into two layers
Extraembryonic
Somatic mesoderm
Extraembryonic
Splanchic mesoderm
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28. Development of chorionic sac
Extra embryonic Somatic mesoderm
+
Two layers of trophoblast
Chorion
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30. Prochodral plate
Time:around the 14th day
few hypoblastic cells change into
columnar shape and form a thickened
,circular area
Prochodral plate .
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33. Gastrulation
It is process by which the bilaminar
embryonic disc is converted into a
trilaminar embryonic disc resulting in the
formation of the three germ layers and the
primitive streak.
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34. Primitive streak
It is a thickened linear band of epiblast
which appears caudally in the median
plane and on the dorsal aspect of the
embryonic disc.
Primitive node
Primitive pit
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38. Notochordal process
Some mesenchymal cells migrate
cranially from the primitive node to form a
median cellular cord known as
notochordal process
notochordal canal
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40. Formation of the notochord
It is a cellular rod that develops by
transformation of notochordal process
- defines the primitive axis of embryo
- gives rigidity
- future site of vertebral column.
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41. Formation of the notochord
1. As notochordal process elongates
,notochordal canal extends cranially
from primitive node to prochordal plate .
2. Floor of the notochordal process fuses
with the underlying embryonic
endoderm.
3. Fused region gradually undergo
degeneration creating an opening.
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43. Formation of the notochord
4. The opening rapidly becomes confluent
and notochordal canal disappears .
5. Beginning at cranial end ,notochordal
plate infolds to form notochord.
6. The notochord finally detached from the
embryonic endoderm.
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45. Neuralation
It is process involved in the formation of
the neural plate and neural folds and the
closure of these folds to form the neural
tube.
Neurla
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46. Neural plate
As the notochord develops ,embryonic
ectoderm over it thickens to form the
neural plate-neuroectoderm.
Around the 18th day
Neural tube
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48. The neural crest
Some neuroectodermal cells lying along
the crest of each neural fold lose their
epithelial affinities and are called neural
crest cells.
These form a irregular flattened mass
called neural crest .
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51. Characteristics of the neural
crest cells
I.
II.
Pleuripotent capability –is the ability of
these cells to give rise to several
precursor cell.
Migratory property-Ncc break free from
neural folds by losing their lateral
connections to adjacent epidermal and
neuroectodermal cells.
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52. Characteristics of the neural
crest cells
Migration
Active
Passive
Without the
ectoderm
With the
ectoderm
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53. Factors affecting migration
1. Extra cellular molecules- such as
fibronectin are encountered along the
way of migration are used by Ncc to
govern their path(Rovasio et.al.1983).
2. Vitamin A –slows the migration
- acts as a teratogen
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54. Factors affecting migration
3) Drugs-isotretenion(13-cis-retinoic
acid)cause sever malformations by
affecting the neural crest cell migration.
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55. Characteristics of the neural
crest cells
III. Regulation- reffers to the ability of an
embryo to compensate for the loss of
cells .
migration of the Ncc across the
midline.
- by increase proliferation of the
remaining Ncc.
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56. Study done by BonnerFraser(1986)
CSAT antibody was used
Antibody was injected in embryonic chicks
just before the initiation of the Ncc
migration.
Results were observed after-24 hrs
-36-48 hrs
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57. Study done by BonnerFraser(1986)
24 hrs later-defective proliferation.
defective initiation of migration.
defective directionality of migration
36-48 hrs- Ncc developed normally
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58. Characteristics of the neural
crest cells
IV. Cessation-reffers to the property of the
Ncc to cease the process of migration
once they reach the site of future
craniofacial structure.
-type II collagen.
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59. Structure derived by the neural
crest cells
I.
Connective tissue- Ectomesenchyme of facial
prominences and brachial arches.
- Bones and cartilages of facial
visceral skeleton.
- Dermis of face and neck
- Stroma of salivary ,thymus ,thyroid,
parathyroid and pituitary gland.
- Corneal mesenchyme .
- Aortic arch arteries.
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60. Structure derived by the neural
crest cells
II.
-Dental papilla
-Portions of periodontal ligament
-Cementum
Muscle tissue-Ciliary muscles
-Covering connective tissue of
branchial arch muscles
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61. Structure derived by the neural
crest cells
III. Nervous tissue-
-Leptomeninges.
-Schwan sheath cells.
IV. Sensory ganglia-Autonomic ganglia.
-Spinal dorsal root ganglia.
-Sensory ganglia.
V. ANS-Sympathetic ganglia.
-Parasympathetic ganglia.
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62. Structure derived by the neural
crest cells
VI. Endocrine tissue-
-Adrenomedullary cells
-Calcitonin ‘c’ cells
-Carotid body
VII. Pigment cells-Melanocytes
-Melanophores
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63. Dental context
1. The initiation of the tooth formation.
2. The determination of the tooth's crown
3.
4.
5.
6.
pattern.
The initiation of dentinogenesis.
The initiation of amelogenesis.
The determination of the size,shape and
number of the tooth roots.
The determination of the anatomy of the
dentogingival junction.
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70. References
Contemporary OrthodonticsWilliam R Proffit
The Developing Human Moore and Persaud
Craniofacial Morphogenesis and
DysmorphogenesisKatherine and Alphonse
Craniofacial EmbryologyG.H.Sperber
Oral histologyTencate
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71. Thank you
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