Week 1 .pdf

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Week 1
Monday, 8 July 2024 12:27 pm

Lecture
Oral Histology: General Embryology Prenatal
development, face/neck
Embryology
Embryology is the branch of biology that studies
the prenatal development of gametes,
fertilization, and development of embryos and
foetuses
Embryology encompasses the study of
congenital disorders that occur before
birth, known as teratology.
For the Dental Practitioner, it is important
to have an foundational understanding of
typical embryonic development and
developmental anomalies.

Common terms
Induction: To start an embryonic phenomenon (formation of something).
Inducer: The molecular or cellular element that starts the induction.
Primitive streak is the inducer of notochord
Differentiation: The process by which cells, tissues, and organs acquire specialized featu
during development.
Gamete: a mature male or female germ cell; a sperm or ovum
Haploid: the single chromosome set carried by the sperm and egg cells which are recom
after fertilisation to create the diploid chromosome set present in every cell of the body
except sperm and eggs
Diploid: a cell such as a somatic cell having two chromosome sets, as opposed to the ha
situation of eggs and sperm which have only one chromosome set
Oocyte: the mature female germ cell; the egg
Stem cell: an undifferentiated cell which is a precursor to a number of differentiated
(specialised) cell types.
- Stem cells may be totipotent, pluripotent, or committed to a particular cell lineage (eg.
 Tutorial
Embryology order
1. Fertilisation
Fusion of haploid gametes (sex cells)
Forms a diploid zygote
Nuclear membrane breaks down, DNA replication commences (Mitosi
2. Zygote Formation
Occurs at the distal end of the fallopian tube (Ovi duct).
The newly formed Zygote then travels via motions generated by micro
contractions towards the uterus

3. Cleavage
rapid cell division without cell growth
Total cytoplasm remains constant
Cell size rapidly decreases as number of cells increased
4. Morula is formed
Now a ball of 16-20 cells flattened against the zona pellucida

5. Blastocyst
ures
A cavity forms within the morula, and the ball of cells is now termed th
6. Implantation occurs
mbined Motility slows, Adhesion to uterine epithelium, as the cells of the blast
y endometrium, permitting deeper penetration and attachment
7. Bilaminar embryonic disk is formed
aploid Epiblast: gives rise to future germ cell layers
Hypoblast: transient - gives rise to some umbilical tissues
8. Trilaminar embryo
Gastrulation Begins with Emergence of the Primitive streak (caudal) &
neural induction and migration of cells into 3 layers to become the trilaminar
is)

oscopic cilia and

he blastocyt

tocyst digest the uterine

& node formation
r (3 layered) embryonic
 Diploid: a cell such as a somatic cell having two chromosome sets, as opposed to the ha
situation of eggs and sperm which have only one chromosome set
Oocyte: the mature female germ cell; the egg
Stem cell: an undifferentiated cell which is a precursor to a number of differentiated
(specialised) cell types.
- Stem cells may be totipotent, pluripotent, or committed to a particular cell lineage (eg.
stem cell)

Overview of Human Development
The total human gestation is approx 40-weeks
There are 3 key periods

Critical periods exist where development and differentiation are primarily taking place
Disruption to this critical period (e.g teratogen) can result in abnormality.

Before anything
In the Male:
Spermatogenesis has taken place (Meiotic process).
In the Female:
Oogenesis has taken place (Meiotic process)
Ovulation has occurred: release of an egg (ovum) from the ovaries
aploid Epiblast: gives rise to future germ cell layers
Hypoblast: transient - gives rise to some umbilical tissues
8. Trilaminar embryo
Gastrulation Begins with Emergence of the Primitive streak (caudal) &
neural induction and migration of cells into 3 layers to become the trilaminar
disc
LAYER LATER GIVES RISE TO…
Ectoderm CNS, PNS, parts of sensory system, epithelium of
mucosa of nasal and sinus cavities, teeth enamel.
Mesoderm Blood, bone, muscles, some organs, remainder of
Endoderm Epithelial lining of pharynx, stomach, intestines, lu
organs of the urogenital tract.

9. Embryonic folding begins
On the establishment of the trialaminar embryonic disc, the embryo th
Embryonic Folding to establish the bodies axis.
This allows for the formation of body cavities as a series of tubes.
This is a very complex and dynamic process.
10. Stomadeum is formed
e. Formed by an invagination ectoderm tissues (noticeable by the end o

11. 5 pharyngeal arches appear
Pouches of endoderm extend into the surface ectoderm, which divid
arches and clefts
Establishes 5 pharyngeal arches (aka Branchial arches).
Each contains an artery, cartilage, cranial nerve and mesodermal tiss
Arches I-IV are involved in the development of structures in the face
& node formation
r (3 layered) embryonic

skin, oral mucosa,.
f tooth structures.
ungs, bladder and

hen undergoes

of the third week).

des mesoderm into

sue
and oral cavity.
In the Male:
Spermatogenesis has taken place (Meiotic process).
In the Female:
Oogenesis has taken place (Meiotic process)
Ovulation has occurred: release of an egg (ovum) from the ovaries

Didn’t watch this ^

Fertilisation
1. Fusion of haploid gametes (sex cells)
2. Forms a diploid zygote
3. Nuclear membrane breaks down, DNA replication commences (Mitosis)

Sperm head enters zone pellucide enters the periphery
Sperm head enters zone pellucide enters the periphery

Occurs at the distal end of the
fallopian tube (Ovi duct).
The newly formed Zygote then tr
via motions generated by micros
cilia and contractions towards th
uterus

Germinal Period
Day Name Events
Day 0 Fertilisation Zygote Formation
Day 0-3 Cleavage Cleavage: rapid cell division without cell growth

Total cytoplasm remains constant
Cell size rapidly decreases as number of cells increased
Day 4 Morula Now a ball of 16-20 cells flattened against the zona pellucida
The Morula is now located at the proximal end of the oviduct
- 32 cells (tutorial)
 ravels
scopic
he
Day Name Events
Day 5 Blastocyst A cavity forms within the morula, and the ball of cells is now terme
blastocyst

Day 7 Implantation Motility slows, Adhesion to uterine epithelium, as the cells of the
blastocyst digest the uterine endometrium, permitting deeper
penetration and attachment
ed the
Formation of a Bilaminar Embryo
Day 8-9 Epiblast Gives rise to future germ cell layers
Hypoblast Transient – gives rise to some umbilical tissues
FOUR embryonic membranes develop
1. Amniotic sac/Amnion
2. Yolk sac
Nourishment for disc
3. Chorion (Not displayed)
this will eventually become the chorionic sac, which will, along
with the uterine wall, will become the placenta
4. Allantois (Connecting stalk)
contributes blood vessels from the embryo to the placenta;
eventually becoming the umbilical cord

Weeks 2-3 Gastrulation
Gastrulation Begins:
Emergence of the Primitive streak
(caudal) & node formation
induction and migration of cells into 3
layers to become the trilaminar (3
layered) embryonic disc

- Trilaminar embryonic disk
 - Trilaminar embryonic disk

Trilaminar embryonic disk
LAYER LATER GIVES RISE TO…
Ectoderm CNS, PNS, parts of sensory system, epithelium of skin, oral mucosa, m
of nasal and sinus cavities, teeth enamel.
Mesoderm Blood, bone, cartilage, muscles, some organs, remainder of tooth
structures (pulp and dentine)
Endoderm Epithelial lining of pharynx, stomach, intestines, lungs, bladder and or
of the urogenital tract.

Though the level of detail is not required for this subject.
It is important to know that also taking place is:
Neuralation: The formation of the primitive nervous system.
Somitogenesis – Mesoderm differentiates into specific sections that will later give rise t
particular body tissues (e.g. splanchnic mesoderm – Heart & GI tract tissues).
Early organogenesis has also commenced.
mucosa

rgans

to
Embryonic Folding
On the establishment of the trilaminar embryonic disc, the embryo then undergoes
Embryonic Folding to establish the bodies axis.
This allows for the formation of body cavities as a series of tubes.
This is a very complex and dynamic process.