embryology - first lecture - student (1).pdf

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Faculty Of Dental Medicine
Oral Biology Department

Lecture: (Embryology I)

Ass. Prof (Fatma Adel Saad)
 By

Dr. Fatma Adel Saad

Associate professor
of
Oral Biology
 Embryology

It is the study of origin &
development of an organism
 Phases
of intra-uterine
life
 I- Proliferation Period
Formation of two germ layers
Fertilization--------end of 2nd week IU
II-The embryonic period
3rd week IU-------8th week IU
 III-The fetal period
8th week IU----------birth
8th week Birth
 I- Proliferation Period
Formation of two germ layers
Fertilization--------end of 2nd week IU
Fertilization occurs at distal part of fallopian

tube→ formation of zygote
Zygote undergoes rapid proliferation →
Blastocyst
*Blastocyst (1st week IU) → gives
*Bilaminar disc (2nd week IU)→Ectoderm & Endoderm germ layers
will transform into →
*Trilaminar disc (3rd week IU) → Ectoderm, Mesoderm & Endoderm
germ layers
Blastocyst at 1st w IU

Trilaminar disc
at 3rd w IU

Amniotic
Amniotic

Yolk sac Yolk sac

Bilaminar disc
at 2nd w IU
Embryo is formed of pear shaped bi-laminar disc
(ectoderm and endoderm germ layers);
From above → Amniotic cavity
From below → Yolk sac

Amniotic cavity
II-The embryonic period
3rd week-------8th week
(Intrauterine life)
 II-The embryonic period
3rd week IU-------8th week IU

*Trilaminar disc embryo is formed.

*All organs & external features of embryo
are developed.

*This period → first trimester of pregnancy.
*Any maternal illness and drug therapy
cause congenital deformities.
Now, the embryo (pear shaped bi-laminar disc) will
transform into tri-laminar disc.

Amniotic cavity
*In third week IU,
Embryonic bilaminar Yolk Sac
Yolk Sac
circular disc transform into

Trilaminar disc;
A mesodermal third layer
is formed in between
ectoderm & endoderm
except for prochordal
plate in head end.
 Cardiac
region
Thus, mesoderm spread
progressively between
ectoderm and endoderm:

*Along sides prochordal
plate (in head region)

*Anterior to prochordal plate
forming cardiac region
*Now, the embryo is a pear

shaped disc formed of 3 germ
layers:
Ectoderm: Skin & its appendages,
nails, oral mucous membrane,
teeth enamel, peripheral and central nervous system
Mesoderm: Cardiovascular system, blood vessels,
lymphatic system, connective tissues, muscles,
cartilage, bone, dental tissues except enamel.

Endoderm: epithelial lining of respiratory and alimentary
tract, secretory cells of liver & pancreas
 III-The fetal period
8th week IU----------birth
8th week Birth

Rapid growth, maturation &
increase in the overall size of fetus
Underlying mesoderm induce the overlying surface
ectoderm to form neural plate, groove & finally Neural tube

N.B: Neural plate, groove & tube are formed of neural
ectoderm

mesoderm mesoderm
non - neural ectoderm

( neural ectoderm)
At 4th week IU; Neural tube with their neural crest
cells separate from overlying ectoderm (non neural
surface ectoderm) → Neural tube its self enlarges
giving brain in head region & spinal cord caudally

Neural plate
 non - neural ectoderm

( neural ectoderm)

Neural crest cells → separate from the crest of the
neural fold to migrate to head & neck region
Neural crest cells → migrate to the mesenchyme of the
head & neck region→ giving ectomesenchymal
structures such as bone, cartilage, muscles , connective
tissues and ectomesenchymal dental tissues.

Neural tube
/rostral
During 4th week IU: Lateral folding
The trilaminar disc embryo
enlarges & folds in
two axes :

1- Lateral folding

Thus, the folded embryo
is now encapsulated by
Ectoderm.
Antero-posterior folding

2- Antero-posteriorly →
at both cranial & caudal
ends.

-Thus, the folded embryo
is now encapsulated by
Yolk Sac Ectoderm.

-Organization of the
embryonic structures in
their places
During the 4th week of intrauterine life Midbrain
forebrain
*Cranial end of the embryo shows three
rounded prominences of the brain
(forebrain, midbrain and hindbrain).

*There is a deep groove called primitive Foregut

oral cavity or stomodeum below the
brain prominences & above developing stomodeum

heart.
Developing
The stomodeum is separated from the heart

foregut by the bi-layered
buccopharyngeal membrane, which is
formed of ectoderm (stomodeum side) &
endoderm (pharynx side). It is originated
from prochordal plate.
3 weeks IUL. embryo

Brain prominences
At end of 4th week IU :

Buccopharyngeal membrane
soon breakdown →
stomodeum communicates
with foregut why????.

(It is formed of only
ecto & endo , so no mesoderm
for nutrition)
Rathke's pouch: it is an upward ectodermal invagination
from the roof of the stomodeum at end of 4th W IU. It will
give rise to the anterior lobe of the pituitary glands
Rathke’s
Pouch

Stomodeum Gut
*1st week intra-uterine→ Blastocyst

*2nd week intra-uterine→ bilaminar disc

*3rd week intra-uterine→ trilaminar disc

*4th week intra-uterine →
-Formation of neural tube
-Folding of embryo
-Rupture of bucco-pharyngeal membrane
-Development of Rathke’s pouch
-Branchial arches
During the 4th week IU life, the embryo is 3 mm length in average.
 The branchial (pharyngeal) arches contribute
extensively to the formation of the face & neck
At the 4th week IU,
Branchial arches: are six
bilateral mesodermal thickenings
on the ventral aspect of the
embryo

-The first four arches are clearly
seen on ventro-lateral aspect of
the embryo while the 5th & 6th
arches are rudimentary.
N.B: 5th arch disappears soon after its
development
-The arches expand in the

lateral wall of :

*Stomodeum → first arch.

*Pharynx → remaining arches
-For first mandibular & second

hyoid branchial arches, the
arches extend ventrally to merge
with its opposite counterpart at
the midline.

-The remaining four arches do
not meet at midline due to
presence of a median swelling
called copula of His or
hypobranchial eminence arise
from the pharynx floor
Structure of branchial arches:
Remember:
*Stomodeum is lined by ectoderm.
*Pharynx is lined by endoderm.

Each branchial arch is a mesodermal
condensation covered from outer surface by
ectoderm.

For each arch, It is covered or lined from
(inside) inner surface → by endoderm
(Pharynx side) except 1st arch is lined by
ectoderm from inside.
For each arch,

-Outer surface →
is covered by
ectoderm.

- Inner surface →
is lined by
endoderm
(Pharynx side) N.B: 5th arch
disappear soon
except 1st arch after its development
But, only first mandibular arch is covered from
outside & inside by ectoderm WHY????
*As 1st branchial arch develops at the level & just
lateral to the stomodium
 T.S in Branchial Arches

Ectoderm

Mesoderm

Endoderm
-In between ectoderm and endoderm, there is
mesoderm which gives rise to striated muscles.
&
Within the mesoderm there are:
-Central hyaline cartilagenous bar surrounded by fibrous tissue.
-Motor & sensory nerves, artery and vein.
-Mesoderm of 1st arch gives rise to muscles of mastication
-Mesoderm of 2nd arch gives rise to muscles of facial expression

- Cartilagneous bar of 1st arch → called Meckel’s cartilage.
- Cartilagenous bar of 2nd arch → called Reichert cartilage
 Each branchial arch is supplied by double
sensory innervation

Post-trematic :The nerve of the arch itself (supply cranial side of
each arch).

Pre-trematic: Each arch also receives a branch from the nerve of
the succeeding arch (supply caudal side of arch)..
Each branchial arch is supplied by double
sensory innervation
The Branchial Arches

His
 First
branchial Arch
(pharyngeal Arch)

Called mandibular arch
1st Mandibular branchial arch
-It is the first & largest pair of branchial arches.
-Bilateral 1st arches meet & merge at midline & ventrally.

-It is covered by ectoderm from
outside and inside
Max.P Max.P
-It has central cartilage called 1st Mand arch

Meckel’s cartilage.

-It is supplied by
*Mandibular nerve (post-trematic)
& chorda tempani of facial nerve
(pre-trematic)
* Maxillary & external carotid arteries
 Maxillary process

Mandibular process

Mandibular arch divides into :
1- Maxillary process (dorso-laterally)
2- Mandibular process
*The central cartilaginous
bar of 1st mandibular arch
called (Meckel’s cartilage)

Function:
Meckel’s cartilage mould
the shape of the mandible.
 Meckel’s cartilage mould the shape of the
mandible and its remnants will give.

Sphenomandibular ligament
 Remnants of Meckel’s cartilagee:

Incus and malleus

Spheno-mandibular
ligament

Mental ossicles

Lingula of the mandible
Derivatives of first branchial arch
Derivatives of the first arch:
1-The mandible and lower lip
2- Maxilla, lateral parts of upper lip & cheek.
3-All the teeth
4-All salivary glands
5-All muscles of mastication
6-Anterior 2/3 of tongue

Note:
muscles of
facial
expression
arise from
the second
arch.
Branchial clefts(grooves)

&
pharyngeal pouches
T.S in Branchial
Arches
*Branchial arches are separated
externally by shallow depression
→ branchial cleft (groove)
→ lined by ectoderm

*Branchial arches are separated
internally on pharyngeal side by
deep depression
→ pharyngeal pouches
→ lined by endoderm
 Branchial arch

Branchial cleft

Pharyngeal
pouch
The branchial arches contribute extensively to
the formation of the face & neck
Both first branchial cleft & pharyngeal pouch due to the deepening
of the 1st cleft → give rise to → External auditory meatus, tympanic
membrane, tympanic antrum and Eustachian tube
Derivatives of Branchial clefts & pharyngeal pouches

1st cleft & External auditory meatus, tympanic membrane,
1st pouch tympanic antrum and Eustachian tube

2nd pouch Tonsillar fossa & epithelial covering of palatine
tonsils

3rd pouch Inferior parathyroid and thymus gland

4th pouch Superior parathyroid gland
 Foramen ceacum

Thymus gland