The document summarizes the processes of fertilization, gametogenesis, implantation, and early embryonic development. It begins by describing fertilization as the union of an egg and sperm in the fallopian tube, forming a zygote. It then discusses gametogenesis, the formation of male and female gametes, including oogenesis and spermatogenesis. The next stages covered are implantation of the blastocyst in the uterus and formation of the placenta and fetal membranes. The document concludes by outlining the differentiation of the inner cell mass into the three germ layers and the formation of the amniotic cavity and yolk sac in early embryonic development.
In testis, the immature male germ cell (spermatogonia ) produce sperms by spermatogenesis
The spermatogonia ( sing. Spermatogonium ) present on the inside of seminiferous tubules multiply by mitotic division and increase in numbers
Each spermatogonium is diploid and contains 46 chromosomes
Some of the spermatogonia called primary spermatocytes periodically undergo meiosis.A primary spermatocyte completes the first meiotic division (reduction division) leading to formation of two equal, haploid cells called secondary spermatocyte, which have only 23 chromosomes
The secondary spermatocyte undergo the second meiotic division to produce four equal, haploid spermatids
In testis, the immature male germ cell (spermatogonia ) produce sperms by spermatogenesis
The spermatogonia ( sing. Spermatogonium ) present on the inside of seminiferous tubules multiply by mitotic division and increase in numbers
Each spermatogonium is diploid and contains 46 chromosomes
Some of the spermatogonia called primary spermatocytes periodically undergo meiosis.A primary spermatocyte completes the first meiotic division (reduction division) leading to formation of two equal, haploid cells called secondary spermatocyte, which have only 23 chromosomes
The secondary spermatocyte undergo the second meiotic division to produce four equal, haploid spermatids
permatogenesis and oogenesis are the processes of formation of male and female gametes. Spermatogenesis leads to the formation of sperms, whereas oogenesis helps in the formation of ova. The fertilization of sperm and ova leads to the formation of a zygote which further develops into an embryo
presentation on oogenesis of fertilisation process full details about it u will never find it anywhere else have full details about the ovum formation polar bodies and everything . so explore here
The term implantation is used to describe the attachment of the developing embryo to the endometrium.
After fertilization, the embryo reaches the uterus in the blastocyst stage. Then attached to the wall of the uterus. Though the implantation may occur at any period between the sixth to the tenth day after the fertilization generally it occurs on the seventh day after fertilization.
permatogenesis and oogenesis are the processes of formation of male and female gametes. Spermatogenesis leads to the formation of sperms, whereas oogenesis helps in the formation of ova. The fertilization of sperm and ova leads to the formation of a zygote which further develops into an embryo
presentation on oogenesis of fertilisation process full details about it u will never find it anywhere else have full details about the ovum formation polar bodies and everything . so explore here
The term implantation is used to describe the attachment of the developing embryo to the endometrium.
After fertilization, the embryo reaches the uterus in the blastocyst stage. Then attached to the wall of the uterus. Though the implantation may occur at any period between the sixth to the tenth day after the fertilization generally it occurs on the seventh day after fertilization.
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First week of development after fertilization.pptxiqra osman
1.CLEAVAGE
Cleavage consists of repeated mitotic divisions of the zygote, resulting in a rapid increase in the number of cells
[Moore et al, 2016]
At this stage, each cell is called a blastomere
Occurs as the zygote passes along the uterine tube towards the uterus
Zygote is still within the zona pellucida
Approximately 3 days after fertilization, cells of the compacted embryo divide again to form a 16-cell morula (mulberry).
2.The zygote undergoes repeated division, passing through these stages:
2-cell stage
4-cell stage
8-cell stage
16-cell stage
When there are 16 or more blastomeres, the zygote is considered a morula (a hollow ball of cells)
3.MORULA
After the zygote formation, typical mitotic division of the nucleus occurs by producing two blastomeres.
The two cell stage is reached approximately 30 hours after fertilization. Each contains equal cytoplasmic volume and chromosome numbers.
The blastomeres continue to divide by binary division through 4, 8, 16 cell stage until a cluster of cells is formed and is called morula, resembling a mulberry.
As the total volume of the cell mass is not increased and the zona pellucida remains intact, the morula
after spending about 3 days in the uterine tube enters the uterine cavity through the narrow uterine ostium (1 mm) on the 4th day in the 16-64 cell stage.
4.The transport is a slow process and is controlled by muscular contraction and movement of the cilia. The central cell of the morula is known as inner cell mass which forms the embryo proper and the peripheral cells are called outer cell mass which will form protective and nutritive membranes of the embryo.
5.BLASTULATION
● Compaction
o The blastomeres change shape and tightly align themselves against each other to form a compact ball of cells
Blastulation
The process wherein the morula is transformed into a blastula/blastocyst
A group of cells compact around the edge/periphery à will form the outer cell mass
Another group of cells group together on one side à will form the inner cell mass
A blastula/blastocyst is a ball of cells with an outer cell mass, inner cell mass, and a hollow, fluid-filled cavity
6.Blastocyst formation
4 days post-fertilization, a fluid-filled space appears-called blastocystic cavity.
fluid passes from uterus through zona pellucida to the cavity.
as fluid in cavity increases, blastomeres separate into 2 parts
thin, outer cell layer = trophoblast
inner cell mass = embryoblast
the conceptus is now called a blastocyst.
blastocysts floats in uterine cavity for about 2 days
zona pellucida degenerates,
8.As the cells become more functional, they differentiate
Outer cell mass à Trophoblast
Inner cell mass à Embryoblast
The trophoblast differentiates into two specialized layers that are important for the placenta:
Cytotrophoblast
Syncytiotrophoblast
9.The embryoblast will differentiate into a bilaminar disk, which is made up of:
Epiblast
Hypoblast
10.QUICK OVERVIEW
After Fertilization:
The anterior pituitary releas
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3. Fertilization is the union of egg &
sperm, usually occurring in the ampulla
of the fallopin tube . The result of this
union is the production of a zygote cell,
or fertilized egg.
4. The process of formation & maturation of
male & female gametes is known as
gametogenesis.
It consist of:
A) Oogenesis
B) Spermatogenesis
5. The process involved in the development of a
mature ovum is called oogenesis.
The formation of an oocyte from oogonia takes
followed by meiotic division.
It is divisible in to 3 phases.
1) Multiplication phase
2) Growth phase
3) Maturation phase
6.
7. Spermatogenesis is the development of
male sex cells called sperms in the male
gonad (testis)
The entire process is divided in to 2
phase
1. Formation of Spermatid
( Spermatocytois)
2. spermiogenesis
8.
9. Transformation occurs in the
spermatid
The large spherical nucleus
becomes smaller by losing water
usually changes its shape in to
elongated structure
• The golgi bodies condense in to
a cap called acrosome
• Nucleus & acrosome forms head
of the developing sperm
• Cytoplasm with mitochondria &
centrioles move towards down
form cylindrical middle piece
Two centrioles of middle piece
develop axial filaments
single thread – form vibratile tail
10. It is the process of fusion of the spermatozoon
with the mature ovum.
Location:- Ampullary part of the fallopian tube.
Fertilization life span of
Ovum – 12-24 hrs
Sperm- 48-72hrs
11.
12. Capacitation:- it is the removal of glycoprotein
& seminal plasma proteins from plasma
membrane that overlies the acrosomal region of
spermatozoa
Acrosome reaction: it is the process of the
release of enzymes from the acrosome on the
head of the sperm,this process causes the sperm
to penetrate the zona pellucida of the egg and
begin fertilization.
13. A. passage of sperm through
corona radiate (CR)
B. penetration of zona pellucicla
Complete dissolution of corona
radiata & penetration of ZP
occurs by the chemical action of
the hyaluronidase released from
the acrosomal cap of the sperm.
soon after sperm fusion
penetration of other sperm is
prevented by zona reaction
( Hardening) oolema block
C. Fusion of cell membranes of
oocytes & sperm
Plasma membrane of Oocyte
and sperm fuse
Head & tail of the sperm enter
the cytoplasm of oocytes
plasma membranes of sperm is
left behind on Oocyte surface
14. D. Formation of female pronucleus
Oocyte finishes second meiotic division after the entry of
sperm
It results in formation of mature Oocyte & a second polar body
E. Formation of male pro- nucleus
Head & tail of the spermatozoon enter the cytoplasm of the
Oocyte
Tail of the sperm degenerates
As pronucleus fuse in to a single diploid aggregation of
chromosomes it become zygote.
Chromosomes in the zygote are arranged on a cleavage of
spindle for further normal mitotic division
Zygote has 23 maternal 23 paternal chromosomes
• X-bearing sperm 46XX zygote –female
• Y-bearing sperm 46XYzygote –male
15.
16. After the zygote formation
typical mitotic division of
nucleus occurs & produce two
blastomeres.
Two cell stage is reached after
30 hrs. of fertilization
The blastomeres continue to
divide by binary division through
4,8,16 cell stage
At 16 cell stage cluster of cell is
formed called as morula
After 3 days the morula reaches
the uterine cavity through
fallopian tube
Transport is slow & is controlled
by muscular contraction &
movement of cilia.
Central cell is known as inner
cell mass outer cell is called as
outer cell mass
17. Blastocystic cavity ( fluid filled space)
appears inside the morula after 4th day of
fertilization
fluid from the uterine cavity passes zone
pellucida to form the cavity
Fluid increases separates blastomeres
in to 2 parts:-
a. Trophoblast
b. Embryo blast
Due to blastocyst enlargement the zona
pellucida becomes stretched thinned &
gradually disappears
Lysis of zona & excape of embryo is
called Zona hatching
18. It is defined as the attachment of the blastocyst to the
epithelial lining of the uterus
Implantation occurs after 6-7 days of fertilization
It occurs through following stages
1. Apposition
2. Adhesion
3. Penetration & Invasion
19. It occurs through pinopod formation
Pinopods are fingerlike projections from the endometrial cell
surface
Pinopods absorb the endometrial fluid
ADHESION:-
Adhesion occurs with the help of adhesion molecules integrin ,
selectin & cadherin
PENETRATION & INVASION
Penetration & Invasion occurs through the stromal cells in
between the glands
It is facilitated by the histolytic action of the blastocyst
With increasing lysis of stromal cells the blastocyst is burrowed
more inside compact layer of the decidua
Penetrate deeply & allow the mature blood to enter into the
lacunar system
Through the maternal blood the zygote (embryo) receives the
nutrition
20. The cells of the blastocyst
differentiate in to an outer
trophectoderm & an inner cell
mass
Just before implantation the
trophectoderm further divide
in to
a) Inner mononuclear cell
layer (Cytotrophoblast)
b) Outer Multinucleated
syncytium ( Syncytio
trophoblast )
21. The cytotrophoblast cells that invade the
decidua are called as “ Interstitial Extravillous
cytotrophoblast”
Cytotrophoblast that lines the villous stems are
villous cytotrophoblast
Placenta and the fetal membranes are derived
from the trophoblast
22. Decidua is the endometrium of the
pregnant uterus
Layers of well develop Decidua
• Basal layer
• Functional layer
• Compact layer
o Basal Layer:- ( Deciduabasalis )
Layer lies immediately above the
myometrium
It remains inchanges
It regenerates new endometrium
during the puerperium
23. o Functional layer:- ( Decidua capsularis)
This layer consist of tortuous glands which are rich in
secretions
Stromal cell are enlarged & affords defense against excusive
invasion by the syncytiotrophoblast
o Compact layer:- ( Decidua vera or parietalis )
It forms the surface of the decidua composed of closely
packed stromal cells
o Decidual reaction:- the increased structural & Secretory
activity of the endometrium that is brought about in response
to progesterone following implantation is known as decidual
reaction.
24. Provides good nidus for the implantation of the
blastocyst
Supplies nutrition to the early stage of growing
ovum
Decidua basalis helps in the formation of basal
plate of the placenta
25. CHORION & CHORIONIC VILLI
Chorion is the outermost layer of the fetal
membrane
It consists of two embryonic layer
Outer trophoblast
Inner primitive mesenchyme
26. At 3rd week the syncytiotrophoblast produces
irregular fingerlike projections called primary
stem villi
Which is surrounded by lacunar space, later it form
in to intervillous space
With the insinuation of the primary mesoderm
in to the central core of the villi structure the
secondary villi are formed on 16th day
Later mesodermal cells differentiate in to blood
cells forms villous capillary system
The vascularised villi are called tertiary villi
which is completed by 21 days
27. Chorion frondosum :-
The villi overlying decidua basalis continue to grow and
expand, & are called as Chorion frondosum
The area surrounding the villi are blood space
Nutritive villi :-
maternal blood circulates slowly, enable the villi to absorb
food & oxygen & excrete waste, these villis are known as
Nutritive villi
Anchoring villi:-
few villi are attached more deeply in to the decidua and are
called as Anchoring villi
28. It forms with in the blastoyst
Inner cell mass is a cellular mass on one side is hollow
interior of the round embryo, the outer layer is called
trophoblast
• The trophoblast placenta
• Inner cell mass fetus
Layers of inner cell mass
A. The ectoderm
B. Mesoderm
C. Endoderm
29. It forms the central & peripheral nervous system
Epidermis layer of skin
Pituitary gland
Salivary glands
Mucosal lining of nasal cavity
Roof of the mouth
30. This layer Forms the :-
bones
Cartilage muscles, CVS,
Kidney, gonads, suprarenals
Spleen, most of genital treat
Mesothelial lining of pericardial, pleural &
peritoneal cavity
ENDODERM
Epithelial lining of the GI tract, liver, gall bladder,
pancreas, respiratory tract
Mucous membrane of urinary bladder, urethra
greater vestibular glands
31. These three layer together known as embryonic
plate
there are two cavities present in the inner cell
mass
Amniotic cavity
Yolk Sac
AMNIOTIC CAVITY
Cavity lies on the side of the ectoderm
It is filled with fluid
It gradually enlarges & folds around the
embryo to enclose it
The Amnion forms from its lining
32. Lies on the side of the endoderm
Provides nourishment to the embryo
A part of it contributes to the formation of primitive gut
Remainder resembles a balloon floating in front of
embryo
Viteline duct:- the narrow channel connecting the yolk
sac with the intestine. Also called as umbilical duct