Histology Class Embryology - First Three Weeks PDF

Summary

This document provides a detailed summary of the first three weeks of human embryonic development. It outlines the critical stages such as gastrulation, the formation of germ layers, and the development of the notochord. This is an excellent resource for students studying prenatal development and embryology.

Full Transcript

The third week marks the beginning of
gastrulation, a process that converts the
bilaminar embryonic disc into a trilaminar disc

The primitive streak appears as a thickened linear band of
epiblast cells on the dorsal surface of the embryonic disc

It establishes the embryo's craniocaudal axis and symmetry **Primitive Streak**

Epiblast cells migrate toward the streak,
initiating the formation of germ layers

Migrating epiblast cells displace hypoblast cells
to form the definitive endoderm, which will
Definitive Endoderm:
contribute to the lining of the gastrointestinal
and respiratory systems Development of the Embryonic Disc the result of fertilization, a single diploid cell

Some epiblast cells migrate between the epiblast and newly formed Diploid cell with 46 chromosomes
endoderm to create the intraembryonic mesoderm, which differentiates Mesoblast Formation:
into various structures like muscles, bones, and blood vessels Surrounded by the **zona pellucida**
**Zygote**
The ectoderm thickens to form the neural plate, Undergoes **syngamy**: merging of male and
the precursor to the central nervous system female pronuclei
Neural Plate and Groove Formation:
The neural groove forms as the neural plate Surrounded by the zona pellucida, a glycoprotein layer that
begins to fold inward prevents premature implantation and protects the zygote
**Gastrulation** Structure of the Zygote:
The primitive line is the early phase of the Inside is the cytoplasm, where the pronuclei
primitive streak (male and female) merge during syngamy
Primitive Line and Endoderm
Epiblast cells migrate through the primitive line to form the Cleavage ensures an increased number of cells
definitive endoderm, displacing the original hypoblast for future differentiation
Cleavage begins approximately 24 hours post-fertilization
Cells migrating from the epiblast between the It occurs as the zygote travels through the
ectoderm and endoderm differentiate into fallopian tube toward the uterus
mesoblast cells.
Mesoblast Formation: **Cleavage**
Mitotic divisions occur without an increase in
These cells will later form the mesodermal cytoplasmic volume (cells become progressively
structures (e.g., connective tissue, smaller)
cardiovascular system) Mesoblast Formation and Cloacal Membrane Series of mitotic divisions
Blastomeres are totipotent, meaning each cell
Located at the caudal end of the embryonic has the potential to develop into a complete
disc, this area lacks mesoderm and will form the Cloacal Membrane: embryo
future anal membrane.
By the third day, a 16-cell stage is reached, forming the morula
A small, elevated region at the cranial end of the
primitive streak. **Inner cell mass (embryoblast)**: future embryo
Primitive Node (Hensen’s Node):
First Week of Development
Structure:
It serves as an organizing center for notochord **Outer cell mass (trophoblast)**: contributes to
and axial structure formation. **Morula** placenta

Located at the cranial end of the embryonic disc, this Blastomeres maximize contact with each other, forming tight junctions in the outer
membrane is a region without mesoderm and will develop Oropharyngeal Membrane: Primitive Node and Oropharyngeal Membrane Compaction
layer. This process is essential for the structural integrity of the developing embryo
into the mouth opening
The morula is still surrounded by the zona pellucida
Mesodermal cells migrating cranially from the primitive streak form
Cardiogenic Zone:
the cardiogenic zone, where the heart primordium develops
Around day 4–5, fluid begins to accumulate
between the blastomeres
The primitive node extends a cellular structure called
the chordal process cranially along the midline
A central cavity called the blastocoel forms
Primitive Node and Chordal Process
The chordal process eventually develops into the notochord,
a structure critical for neural tube formation and signaling for **Blastocyst Formation** Key Features: The morula transitions into the blastocyst
surrounding tissue differentiation.
The embryoblast clusters to one side (pole),
The chordal canal forms as a lumen within the chordal process while the trophoblast forms a thin outer layer
Chordal Canal
This canal facilitates communication between the amniotic cavity Thins but remains intact, preventing the blastocyst from implanting prematurely
Zona pellucida
and the yolk sac during early development in the fallopian tube (which would result in an ectopic pregnancy)

The neurenteric duct is a temporary connection between the By the end of the first week, the blastocyst is ready for implantation
amniotic cavity and the yolk sac at the level of the notochord
Neurenteric Duct The zona pellucida disintegrates, allowing the
**Late Blastocyst**
Its function is primarily transient and part of embryonic blastocyst to interact with the uterine lining
structural rearrangements
Cytotrophoblast: The inner cellular layer
The dorsal chord (notochord) is a rod-like Trophoblast differentiates:
structure that forms along the midline. Syncytiotrophoblast: A multinucleated outer layer that

It acts as a signaling center to direct the
Dorsal Chord: Histology Class: invades the uterine endometrium during implantation.
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development of the neural tube and somites. Embryology - First
Ectoderm: Forms the nervous system and
epidermis
Dorsal Chord and Tridermal Disc Formation Three Weeks of Implantation in the col of the uterus begins
around day 6–7 and is completed by day 12

Third Week of Development
Development **Cytotrophoblast**: Cellular layer
Mesoderm: Forms muscles, bones, blood vessels, The embryo transitions into a trilaminar disc,
Tridermal Embryonic Disc:
and connective tissues. composed of three germ layers: **Trophoblast Differentiation**
**Syncytiotrophoblast**: Secretes hCG,
Endoderm: Forms the lining of the establishes blood supply
gastrointestinal and respiratory systems
The syncytium trophoblast (syncytiotrophoblast) secretes digestive
The neural plate arises from the thickened enzymes that erode the uterine epithelium and stroma (CT), creating a 1
ectoderm cranial to the primitive node secure anchorage in the uterus
Neural Plate and Neuroectoderm
The cells of the neural plate become neuroectoderm, which will The trophoblast cells invade maternal tissues to establish a
form the brain, spinal cord, and peripheral nervous system connection with the maternal blood supply

The neural plate begins to invaginate, forming a Process: A cavity appears within the epiblast, called the amniotic cavity
central groove. This process is the first step Neural Groove: Amniotic Cavity Formation:
toward neural tube formation Epiblast cells adjacent to the trophoblast become the amnion, which
Neural Groove and Neural Crests surrounds the embryo with amniotic fluid for cushioning and protection
Neural crest cells are specialized ectodermal **Implantation**
cells at the edges of the neural plate. The hypoblast layer spreads and forms the
Neural Crests: exocoelomic membrane, which lines the blastocoel
These cells later migrate to form structures like peripheral Hypoblast Formation:
nerves, melanocytes, and parts of the craniofacial skeleton. The blastocoel is transformed into the primary yolk sac, a
key structure for nutrient exchange in early development
The edges of the neural plate elevate and fuse to form the
neural tube, the precursor to the central nervous system Changes During Nidation
Somatic mesoderm: Lines the cytotrophoblast
Neural Tube Formation Cells from the hypoblast spread to form the and amnion
Closure begins in the middle of the embryo and extraembryonic mesoderm, which splits into two
progresses both cranially and caudally layers: Splanchnic mesoderm: Surrounds the yolk sac
Extraembryonic Mesoderm Formation:
Para-Axial Mesoderm: Forms somites, which give rise to the
vertebrae, skeletal muscles, and dermis This split creates the chorionic cavity (extraembryonic coelom),
Second Week of Development which separates the developing embryo from the trophoblast
Intermediate Mesoderm: Forms the urogenital system (e.g., ("Week of Twos")
The mesoderm differentiates into three regions: Mesoderm Differentiation The primary yolk sac is replaced by the secondary yolk sac,
kidneys, gonads) Secondary Yolk Sac: 
which supports embryonic nutrition and blood cell formation
Lateral Mesoderm: Forms the heart, blood vessels, and the
body cavity lining The syncytiotrophoblast forms lacunae (spaces filled with maternal blood).
Development of Lacunar Spaces:
These spaces are precursors to the uteroplacental circulation
Derivatives of the para-axial mesoderm that
segment along the body axis. **Epiblast**: Forms ectoderm and amnion
By the end of the second week, the embryo
Somites: Bilaminar embryonic disc
consists of:
These segments give rise to bones, muscles, and **Hypoblast**: Forms endoderm and yolk sac
dermal layers Somites and Nephrogenic Cord
Amnion and amniotic cavity
Part of the intermediate mesoderm, which forms
Nephrogenic Cord: End of Second Week Secondary yolk sac
the nephrotomes (early kidney structures)

A cavity within the lateral mesoderm that eventually forms Chorionic cavity (extraembryonic coelom)
Intraembryonic Coelom:
the pericardial, pleural, and peritoneal cavities.
Intraembryonic Coelom and Mesodermal Layers Significance: The embryo is now ready to begin
Somatic Mesoderm: Associated with the ectoderm. gastrulation in the third week, where the three
The lateral mesoderm splits into two layers: Somatic and Splanchnic Layers: germ layers form.
Splanchnic Mesoderm: Associated with the endoderm

The trilaminar disc has formed.

The neural tube is beginning to close.

Mesodermal structures like somites and
By the end of the third week: End of the Third Week
coelomic cavities have begun developing

The embryonic structures are organized, setting
the stage for organogenesis in the fourth week