Introduction to General Embryology PDF

Summary

This document provides an introduction to general embryology, focusing on the development of an individual from a single cell to a complex organism within the uterus. It covers key stages of development, including fertilization, cell division, and implantation. The document also contains questions related to the different stages of embryo development.

Full Transcript

Introduction to general
embryology
Dr. Yara Hassan
 What is meant by embryology?
It is the science which deals with the development of an individual from a
single cell into complex organism within the uterus.
It begins with fertilization of an ovum and culminates with the birth of the baby.

a process called morphogenesis, which includes cell division,
transformation or specialization, migration, and even programmed
cell death (apoptosis).
 Divisions of Prenatal Period

Embryonic Period fetal period

from fertilization to the end of eight week 9th week(third month) until the birth

(a) pre- (b)embryonic
embryonic period proper.
period
(fertilization) to the third week to the
the end of second end of eighth week
week of of IUL
intrauterine life
(IUL)
 Subdivisions of
Embryology
General Embryology Systemic Embryology

It deals with the development of an It deals with the functional
individual during first eight weeks after maturation of various
fertilization (embryonic periods)
organs and systems
 Cell Division and Gametogenesis
The body cells are divided into two types

GERM CELLS has a haploid (half) number somatic cells has diploid
of chromosomes 23 (double) number of chromosomes 46

46 chromosomes are arranged in 23 pairs.
The 22 pairs are called autosomes whereas
the 23rd pair is called sex chromosomes.
The sex chromosomes are of two types:
X and Y
germ cells are essential to produce
gametes.
The female gametes are secondary oocytes, which are released from ovary in
a cyclic manner.

each secondary oocyte has 22 autosomes and one X chromosome
(22X).

two types of sperms—one containing X (22X) and the other containing Y
(22Y)

the male gametes are sperms, which are produced by testis from puberty onward.
 Cell Division
MITOSIS MEIOSIS
Occurs in the reproductive organs to
occurs in somatic cells produce gametes

one cell divides into two consists of two phases
daughter cells that are (a) First meiotic division
genetically identical to the (b) The second meiotic division:
parent
The cell.between the two
period It is the mitotic except that there is no
mitotic divisions is called duplication of DNA during short
interphase interphase.

During interphase before Daughter cells have half the number o
mitosis begins, each chromosomes
chromosome replicates its
deoxyribonucleic acid (DNA) Crossing over of chromatids takes pla
 Spermatogenesis
The spermatogenesis is the process of
formation of
spermatozoa from primordial germ cells
(PGCs)

spermatogonia
present in the walls of the seminiferous
tubules of the testis

Process of Spermiogenesis

The spermatid is transformed
into the sperm.
Structure of Sperm
 Oogenesis
 The oogenesis is the process of formation of female
gametes—the oocytes from PGCs

 The process of oogenesis begins long before birth in the cortex of the
ovary.

 The primary oocyte enters the prophase of first meiotic division
before birth
 this division is arrested till puberty due to the presence of an oocyte maturation
inhibitor (OMI) factor secreted by the follicular cells surrounding the oocyte
 The secondary oocyte, at the time of ovulation is in metaphase stage of
second meiotic division, which continues till fertilization.

 The secondary oocyte completes its meiotic division only when it is fertilized
ovulation

fertilization
Development of Ovarian Follicles and
Ovulation
Structure of the Female Gamete (Secondary
Oocyte)
 THE FERTILIZATION
 the process of fusion of male and female
gametes (pronuclei) to form a zygote

 It takes place within 24 hours of
ovulation, in the most dilated part
of the uterine tube—the ampulla

 The results of fertilization are:
(a) Determination of genetic sex of embryo
(b) restoration of diploid number
of chromosomes
(c) initiation of cleavage
Before fertilization, the sperm must gain the ability to
Penetrate the various oocyte barriers.
1. First barrier is formed by cells of corona radiata.
2. Second barrier is formed by zona pellucida
made of glycoproteins.
3. Third barrier is formed by vitelline membrane
of oocyte itself.
This ability is achieved by two processes:
(A) Capacitation
(B) Acrosome Reaction.
 Capacitation
 It is a process of removal of the glycoprotein coat and seminal plasma proteins covering the plasma
membrane of sperm in the acrosomal region

 in the female genital tract; it lasts about 7 hours.

Acrosome Reaction
 occurs when capacitated sperm
meets
the zona pellucida (acrosome reaction
is induced by zona proteins). The
acrosomal reaction leads to release of
enzymes from acrosomal cap such as
hyaluronidase..
 Steps of Fertilization
The fusion of pronuclei of male and female
gametes
 Penetration of corona radiata
 Penetration of zona pellucida
 Fusion of sperm and oocyte cell membranes

 Completion of second meiotic division of oocyte
and formation of female pronucleus

 Formation of male pronucleus

 Formation of zygote
What are the Results of
Fertilization?
 Cleavage
 The cleavage consists of repeated
mitotic divisions of the zygote into
smaller units
 a rapid increase in the number of cells

 These cells are called blastomeres

 The zygote divides to form
two cells and continuous
divisions occurs till it
becomes 16-cells resemble
a mulberry fruit
 and is termed morula
What is the role of
zona pellucida?
 IMPLANTATION

 Definition:
It is the process by which the blastocyst becomes embedded in the
endometrium.

 Time:
It starts at the 7th day and is completed at
the 11th day.

 Site?
 Mechanism of implantation:

It starts by adhesion of the
blastocyst by its embryonic pole to
the endometrium at the
implantation site.

Trophoblast proliferates at the embryonic pole
to form a new layer of cells that has no cell
walls and this layer is called
syncytiotrophoblast. This new layer secretes
proteolytic enzymes that erode the
endometrium and form the implantation cavity.
 At the 9th day, the site of penetration by
the blastocyst becomes blocked by
fibrin clot.

Two days later (11th day), endometrial
epithelium overgrows and covers the fibrin
clot.
 What happens to the blastocyst during
implantation?
▪ Changes of blastocyst during implantation: (1
outside &2 inside)

1. Trophoblast differentiates into outer
syncytiotrophoblast and inner cytotrophoblast,
starting at the embryonic pole then extends all
over the blastocyst.

2. Formation of amniotic and yolk sac cavities.

3. Formation of double layered embryonic disc
(epiblast and hypoblast).

Rule of
2
  Abnormal sites of
implantation:
1. Placenta Previa:

Implantation occurs at the lower segment of uterus.

a.Placenta praevia (centralis): covers the internal os
completely.

b.Placenta praevia (marginalis): covers the internal
os partially.

c.Placenta praevia (lateralis): Above the internal os.
2. Ectopic pregnancy:
Blastocyst is abnormally implanted outside the
uterus in the following sites:

 Tubal in uterine tube which may occur in ampulla,
isthmus or intramural parts. In this case, rupture
of the tube is expected at the 8th week of
pregnancy leading to severe internal hemorrhage.
▪ Ovarian on the surface of the ovary.
▪ Omental: in peritoneum (abdominal or pelvic).
TIME FOR QUIZ
During the pre-embryonic period, the fertilized egg undergoes cleavage, resulting in a
solid ball of cells. This structure is known as:
A. Morula
B. Blastocyst
C. Zygote
D. Trophoblast

Which of the following events occurs at the start of the fetal period?
A. Major organ systems begin to form from the germ layers
B. The embryo is fully formed, and growth becomes the main focus
C. The fertilized egg implants into the uterine wall
D. The zygote divides to form a blastocyst
An embryo at the end of the 8th week shows a well-defined head, trunk, and limb
buds, with the beginning of digit formation.
Question: Based on the developmental timeline, which phase is the embryo likely
transitioning into?
A. The pre-embryonic period, as cell differentiation is just beginning
B. The fetal period, as major organs are now formed and will grow and mature
C. Gastrulation, where primary germ layers are still forming
D. The implantation stage

In meiosis, the critical event that increases genetic diversity by exchanging DNA
between chromatids is known as:
A. Segregation
B. Crossing-over
C. Synapsis
D. Random fertilization
In spermatogenesis, which cells are located within the seminiferous tubules and
serve as the precursor for sperm cells?
A. Spermatocytes
B. Sertoli cells
C. Spermatogonia
D. Leydig cells

The transformation of a spermatid into a mature sperm cell is known as:
A. Spermatogenesis
B. Spermiogenesis
C. Gametogenesis
D. Oogenesis
At which stage does the developing embryo typically enter the uterus, ready for
implantation?
A. Zygote
B. Morula
C. Blastocyst
D. Gastrula

The trophoblast layer of the blastocyst plays an important role in which of the
following processes?
A. Differentiating into the embryo proper
B. Forming the inner cell mass
C. Attaching to and invading the endometrium for implantation
D. Undergoing cleavage to increase cell number
A couple experiences difficulty with conception, and lab analysis reveals an issue with
the acrosome reaction in the sperm cells.
Question: What is the acrosome reaction, and why is it critical for successful
fertilization?
A. Fusion of sperm and oocyte membranes; it triggers embryo cleavage
B. Release of enzymes that penetrate the zona pellucida; it allows sperm entry into
the oocyte
C. Division of the sperm cell’s chromosomes; it prevents polyspermy
D. Formation of the blastocyst; it facilitates implantation