The document summarizes the development of the face, nose, and palate from embryonic weeks 4-12. It discusses how the facial prominences (frontonasal, maxillary, mandibular) form and fuse to develop different structures. It also describes nasal cavity and paranasal sinus development, as well as primary and secondary palate formation. Common anomalies like cleft lip and cleft palate are briefly explained as failures of fusion between prominences.
Early in embryonic development, during the 3rd week post-fertilization, the embryo is a flat, disc-shaped organism made up of three layers of pluripotent cells called germ layers, which give rise to all the organs and tissues in the body: an inner layer, called endoderm, a central layer, called mesoderm, and an outer layer, called ectoderm.
Central face begins to develop by 4th week, when olfactory placodes appear on both sides of the frontonasal process.
Gradually both placodes develop to form the median and lateral nasal process.
Upper lip is formed by 6th week by fusion of two median nasal processes in midline and the maxilllary process of the 1st branchial arch.
PRE-NATAL GROWTH AND DEVELOPMENT OF PALATEFormation of primary and secondary palate
Elevation of palatal shelves
Fusion of palatal shelves
Early in embryonic development, during the 3rd week post-fertilization, the embryo is a flat, disc-shaped organism made up of three layers of pluripotent cells called germ layers, which give rise to all the organs and tissues in the body: an inner layer, called endoderm, a central layer, called mesoderm, and an outer layer, called ectoderm.
Central face begins to develop by 4th week, when olfactory placodes appear on both sides of the frontonasal process.
Gradually both placodes develop to form the median and lateral nasal process.
Upper lip is formed by 6th week by fusion of two median nasal processes in midline and the maxilllary process of the 1st branchial arch.
PRE-NATAL GROWTH AND DEVELOPMENT OF PALATEFormation of primary and secondary palate
Elevation of palatal shelves
Fusion of palatal shelves
Craniofacial growth is a complex and a beautiful phenomenon.
It all begins when a sperm cell fuses with an egg cell, a process called fertilization.
Human fertilization is the union of a human egg and sperm, usually occurring in the ampulla of the fallopian tube. The result of this union is the production of a ’Zygote’ cell, or fertilized egg, initiating prenatal development
Prenatal growth can be divided into 3 main stages:
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Fetal stage: 9th week till birth.
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Craniofacial growth is a complex and a beautiful phenomenon.
It all begins when a sperm cell fuses with an egg cell, a process called fertilization.
Human fertilization is the union of a human egg and sperm, usually occurring in the ampulla of the fallopian tube. The result of this union is the production of a ’Zygote’ cell, or fertilized egg, initiating prenatal development
Prenatal growth can be divided into 3 main stages:
Germinal stage: From ovulation to implantation(0-2 weeks).
Embryonic stage : 3rd week to 8th week.
Fetal stage: 9th week till birth.
Development of Oral structures and its applied aspectsDr. Taruni Voora
Explore the fascinating journey of oral structure development and its real-world applications. From early growth stages to its impact on speech, eating, and more, uncover the practical implications in dentistry. Join us for a concise yet insightful exploration of oral structure evolution and its applied aspects!
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The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
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http://sandymillin.wordpress.com/iateflwebinar2024
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4. • The development of the face occurs mainly
between 5 – 8 weeks
• The lower jaw (mandible) is the first to form (4th
week)
• The facial proportions develop during the fetal
period (9th week to birth)
• During infancy & childhood, following the
development of teeth and paranasal sinuses, the
facial skeleton increases in size and contribute to
the definitive shape of the face
6. Early in the 4th week, five primordial swellings
consisting primarily of neural crest-derived
mesenchyme appear around the stomodeum and play
an important role in the development of face
Stomodeum
1 Frontonasal prominence
2 Maxillary prominences
2 Mandibular prominences
7. • The single frontonasal
prominence ventral to
the forebrain
• The paired maxillary
prominences develop
from the cranial part of
first branchial arch
• The paired mandibular
prominences develop
from the caudal part of
first branchial arch
Lateral view
8. • The mesoderm of the
five prominences is
continuous with each
other
• There is no internal
division
corresponding to the
grooves demarcating
the prominences
externally
9. Stomodeum
• An ectoderm lined depression
• Separated from the primitive pharynx by the
buccopharyngeal (oropharyngeal) membrane
• The membrane later breaks down and stomodeum
opens into the pharynx
Forms the
vestibule of the
oral cavity
10. • By the end of 4th week,
bilateral oval-shaped
ectodermal thickenings
called ‘nasal placodes’
appear on each side of
the lower part of the
frontonasal prominence
• Nasal placodes are
primordia of the nose
and nasal cavities.
Frontonasal
prominence
11. • Mesenchymal cells
proliferate at the margin of
the placodes and produce
horse-shoe shaped
swellings around these.
• The sides of these swellings
are called ‘medial’ and
‘lateral’ nasal prominences
• The placodes now lie in the
floor of a depression called
‘nasal pits’
Each lateral nasal prominence is separated from
the maxillary swelling by nasolacrimal groove
13. • The maxillary prominences
continue to increase in size
and:
• Laterally, merge with the
mandibular prominences to
form the cheek
• Medially, compress the
medial nasal prominences
toward the midline and
finally fuses with these to
form the upper lip.
The upper lip is formed by the two medial nasal
prominences & the two maxillary prominences
14. The medial nasal swellings
enlarge, grow medially and
merge with each other in
the midline to form the
intermaxillary segment
Human embryo: 7 weeks
15. Intermaxillary Segment
Gives rise to the:
• Philtrum of lip
• Premaxillary part of
the maxilla, that
bears the upper 4
incisors and the
associated gums
• Primary palate
(region of hard palate
just posterior to the
upper incisors)
16. Besides the fleshy derivatives, the facial
prominences also give rise to bones of the
facial skeleton
The mesenchyme from
the 1st & 2nd pairs of
pharyngeal arches
invade the facial
prominences and give
rise to the muscles of
mastication and muscles
of facial expression
respectively
17. The frontonasal
prominence forms the:
Forehead and the bridge
of the nose
Frontal and nasal bones
The maxillary prominences form the:
Upper cheek regions and most of the upper lip
Maxilla, zygomatic bone, secondary palate
Derivatives of Facial Components
18. The mandibular
prominences fuse and
form the:
Chin, lower lip, and
lower cheek regions
Mandible
The lateral nasal prominences form the alae of
the nose
The medial nasal prominences fuse and form the
intermaxillary segment
20. • With the formation of
the medial and lateral
nasal prominences, the
nasal placodes lie in the
floor of depressions
called the nasal pits
• By the end of 6th week,
nasal pits deepen and
form nasal sacs
• Each nasal sac grows
dorsocaudally, ventral to
the developing brain
21. • Initially the nasal
sacs are separated
from the oral cavity
by oronasal
membrane.
• The oronasal
membrane ruptures
by the 7th week,
communicating the
primitive nasal
cavities with the oral
cavity
22. • These communications
are called the primitive
choanae and are
located posterior to the
primary palate
• After the development
of the secondary palate,
the choanae change
their position and
become located at the
junction of nasal cavity
and the pharynx
23. • The nasal septum
develops as a
downgrowth from the
internal parts of
merged medial nasal
prominences
• Fuses with the
palatine process in 9-
12 weeks, superior to
the hard palate
primordium
24. • The superior, middle
and inferior conchae
develop on the lateral
wall of each nasal
cavity
• The ectodermal
epithelium in the roof
of each nasal cavity
becomes specialized
as the olfactory
epithelium
25. • The olfactory cells
of the olfactory
epithelium give
origin to olfactory
nerve fibers that
grow into the
olfactory bulb
26. • The paranasal sinuses
develop as diverticulae
of the walls of the nasal
cavity
• Maxillary sinuses and
few anterior & posterior
ethmoidal air cells
develop in fetal life
• Frontal and sphenoidal
sinuses develop after
birth
E
M
From a 3 months old fetus, showing
ethmoid & maxillary sinuses
27. Nasolacrimal duct
• Develops from a rod-like thickening of the ectoderm in the
floor of the nasolacrimal groove
• This solid cord of cells separates from the surface ectoderm
and lies in the underlying mesenchyme
• The cord gets canalized to form the nasolacrimal duct
• The cranial end of the duct expands to form the lacrimal sac
• The caudal end opens into the inferior meatus of the nasal
cavity
• The duct is usually becomes completely patent only after
birth
• Failure of complete canalization of the duct leads to atresia
of the duct (seen in about 6% of newborn infants)
29. The palate develops from two primordia:
• The Primary palate
• The Secondary palate
• Begins at the end of the 5th week
• Gets completed by the end of the 12th week
• The most critical period for the development
of palate is from the end of 6th week to the
beginning of 9th week
Palatogenesis
30. The Primary Palate
• Begins to develop:
Early in the 6th week
From the deep part of
the intermaxillary
segment, as median
palatine process
• Lies behind the
premaxillary part of the
maxilla
• Fuses with the developing
secondary palate
31. The primary palate represents only a small
part lying anterior to the incisive fossa, of the
adult hard palate
Hard palate
Primary
palate
Soft palate
Secondary
palate
32. The Secondary Palate
• Is the primordia of hard
and soft palate posterior
to the incisive fossa
• Begins to develop:
Early in the 6th week
From the internal
aspect of the
maxillary processes,
as lateral palatine
process
33. • In the beginning, the
lateral palatine
processes project
inferomedially on each
side of the tongue
• With the development
of the jaws, the tongue
moves inferiorly.
• During 7th & 8th weeks,
the lateral palatine
processes elongate and
ascend to a horizontal
position above the
tongue
Tongue
34. • Gradually the lateral
palatine processes:
Grow medially and
fuse in the median
plane
Also fuse with the:
• Posterior part of
the primary palate
&
• The nasal septum
35. • Fusion with the nasal
septum begins
anteriorly during 9th
week, extends
posteriorly and is
completed by 12th week
Bone develops in the
anterior part to form the
hard palate. The posterior
part develops as muscular
soft palate
36. Changes in Face during Fetal period
• Mainly result from changes in the
proportion & relative positioning of
facial structures
• In early fetal period the nose is flat and
mandible underdeveloped. They attain
their characteristic form during fetal
period
• The enlargement of brain results in the
formation of a prominent forehead
• Eyes initially appear on each side of
frontonasal prominence move medially
• Ears first appear on lower portion of
lower jaw, grow in upper direction to
the level of the eyes
38. Facial clefts
Failure of the embryonic facial
prominences to fuse properly
• May be unilateral or bilateral
• May involve:
Lips only: Cleft lip
Palate only: Cleft palate
Lip & palate: Cleft lip & palate
Region of nasolacrimal
groove: Facial clefts
Lead to
difficulty in
breathing
feeding
sucking
swallowing
&
speech
39. • Median cleft lip: results from
failure of the medial nasal
prominences to merge and form
the intermaxillary segments
• Unilateral cleft lip: result from
failure of the maxillary
prominence to merge with the
medial nasal prominence on the
affected side
• Bilateral cleft lip: results due to
failure of maxillary prominences
to meet and unite with the medial
nasal prominences on both sides
Median Cleft lip
Unilateral cleft lip
Bilateral cleft lip
40. 2. Oblique facial cleft: results
from failure of the maxillary
prominence to fuse with the
lateral nasal prominence
3. Cleft palate leaves the nasal
and oral cavities connected &
results in nursing problem for
the new born
May be:
Anterior/posterior to incisive
foramen
Unilateral/bilateral
Isolated/associated with cleft
lips
Cleft lip, cleft jaw &
cleft palate
Oblique facial cleft
41. Cleft lip coupled with clefts of the anterior
palate or entire palate.