Human Reproduction PDF

Summary

This document covers the human reproductive system, including the male and female reproductive systems, egg production, reproductive cycles, and embryonic development. It explains the processes of fertilization, implantation, and the formation of the placenta. The document is suitable for a secondary school biology course.

Full Transcript

Chapter 9
Human
Reproductio
n
Male and Female Reproductive System
 Humans begin their lives as a single cell. This single
cell is formed by the fusion of two sex cells- an egg and a
sperm- from the parents. As you reach adolescence, your
sex organs undergo changes to be able to produce sex cells
needed to produce new individuals.

These sex cells contains structures called
chromosomes that contain genetic information which carries
unique traits such as skin color or hair color.
 Human sex cells contain only half the number of
chromosomes of a regular body cell (somatic). Each sex cell
which has 23 chromosomes, is a haploid (n), while the
regular cell which has 46 chromosomes is a diploid (2n).

After the fusion of the egg and the sperm, the resulting
fertilized egg, known as a zygote, contains 46
chromosomes.
01
Male
Reproductive
System
 The male reproductive system produces sperm cells
(male gametes) and delivers them to the female
reproductive system. In males the primary reproductive
organs are the testes.
Testes

The testes are oval-shaped
organs found inside a
protective sac of skin called the
scrotum. The location of the
testes in the scrotum, which is
outside the body is very
important for the proper
development of the sperm.
Testes

Since the scrotum lies outside
the abdominal cavity, its
temperature is one to two
degrees lower than the internal
body temperature (37˚C),
making it ideal for sperm
production, which requires lower
temperatures.
Since the scrotum lies outside the abdominal cavity, its
temperature is one to two degrees lower than the internal
body temperature (37˚C), making it ideal for sperm
production, which requires lower temperatures.

Sperm cells are produced in the linings of the
seminiferous tubules through meiosis.
 Male Hormones and Their
Functions
To regulate the functions of the testes, two hormones are
secreted by the anterior pituitary gland found in the brain.

1. Luteinizing Hormone (LH) stimulates the secretion of
the sex hormone testosterone.
2. Follicle-stimulating Hormone (FSH) along with
testosterone, stimulates sperm production in the
seminiferous tubules.
 Male Hormones and Their
Functions
Testosterone is produced by the Ledwig cells between
the seminiferous tubules.

It is responsible for the development of secondary male
characteristics during puberty.
Mature Sperms in the
Epididymis
An adult male produces several
hundred million sperms each day.

After being produced in the
seminiferous tubules, the sperms
mature and travel through a series
of tubes. They then enter a long
coiled tube called epididymis,
where they will mature until they are
capable of swimming and moving.
 Mature Sperms in the
Epididymis
The epididymis is also where most of the sperms are
stored. Mature sperms will travel from the epididymis to vas
deferens then exit the body through the urethra.
The Human Sperm Cell

A human sperm cell consists of
three parts; a head that contains
the chromosomes, a midpiece that
contains the mitochondria, and a
long tail that is responsible for
movement.
 The Human Sperm
The head is made up of a nucleus covered by a cap called
acrosome, which stores enzymes needed to penetrate an
egg cell during penetration.

 The midpiece contains the mitochondria that supply the
energy needed to propel the sperm through the female
reproductive tract.

The tail of the sperm is a powerful flagellum that enable
the sperm cell to move.
 Transportation of the Sperm

During their passage through the urethra, sperms mix with
the fluids produced by neighboring glands- the prostate
gland, seminal vesicles and the bulbourethral glands. The
combined secretions of these glands, collectively called
semen, which nourishes the sperm cells.
 Transportation of the Sperm

Gland Functions of Secretion

Alkaline fluid that neutralizes the acids in
Prostate Gland
the female reproductive system.

Fluids rich in sugars that sperm use for
Seminal Vesicles
energy.

Alkaline fluid that neutralizes traces of
Bulbourethral Glands
acidic urine in the urethra.
 Delivery of the Sperm

The urethra leads the sperm cell through the penis, the
male organ that deposits the sperm in the female
reproductive system during sexual intercourse or
copulation.

During sexual excitation, blood rushes into the penis
making it rigid or erect. Sperm exit the penis through
ejaculation, the forceful expulsion of the sperm out of a
male’s body.
02
Female
Reproductive
System
Ovaries
The ovaries are the female
reproductive structures
responsible for producing eggs.

 They are located inside the
abdominal cavity just slightly
below the waist with one ovary
on each side of the body.
Estrogen, one of its hormones triggers the development of
secondary female characteristics. Most importantly it
stimulates egg development.

The onset of mature egg cell production among females
starts at around ages of 11 to 14 years, during the first
discharge of blood from the vagina called menarche.

Every month thereafter, a normal adult female releases a
mature egg cell (female gamete) in from one of her ovaries.
After the sperm has been deposited inside the female
reproductive system during copulation and after fertilization
has occurred, the role of the male reproductive system is
complete.

The female reproductive system, on the other hand will
begin its role in nourishing and protecting the fertilized egg
during nine months of development. This is called
gestation or pregnancy.
 Egg Production
All females are born with all the approximately two million egg
cells they will produce in their lifetime. By the time a female
reaches puberty, the number of egg cells would have gone
down to about 400,000.

During puberty, the increased production of hormones
enables one immature egg to complete its development each
month.

In the lifetime of a female, out of 400,000 egg cells at the
start of puberty only 300 to 500 will mature and are then called
ova (ovum).
Egg Production
About every 28 days, an ovum is
released in an adult female body.
Hair-like structures called cilia
sweep the ovum from the ovary
into either of the fallopian tubes
or oviducts.

Each fallopian tube is a
passageway through which an
ovum moves from an ovary to the
uterus.
Egg Production

It takes three to four days for
ovum to travel inside the fallopian
tube. If the ovum is not fertilized at
this stage, it dies within 24 to 48
hours.
03
Female
Reproductive
Cycles
 All females who have reach puberty will undergo
monthly physiological cycles known as ovarian and
menstrual cycle.

1. Ovarian cycle- involves the ovary, prepares the egg for
maturation.
2. Menstrual cycle- involves the uterus, grooms the uterus
for a possible implantation and, later on pregnancy.
 The Ovarian Cycle

The ovaries prepare the female body each month to
make pregnancy possible. This series of events is
collectively known as ovarian cycle.

The monthly release of an ovum from the ovary is
called ovulation. The released ovum is swept into the
fallopian tube and begins to move toward the uterus to
await fertilization.

The ovarian cycle spans about 28 days, although it
varies from female to female.
 The Follicular Phase

In an ovary, egg cells mature within follicles. A follicle
is a cluster of cells that surrounds an immature egg cell
and provides it with nutrients and protection. During the
follicular phase of the ovarian cycle, hormones regulate the
completion of an egg cell’s maturation.
 The Follicular Phase

(1-4). Anterior pituitary gland releases follicle-
stimulating hormone (FSH) and luteinizing hormone (LH)
into the bloodstream. These hormones cause the follicle to
produce estrogen. Estrogen, is a sex hormone that aids the
growth of the ovarian follicle.

5. When the follicle bursts, ovulation occurs.
 The Luteal Phase

(6-7). After ovulation luteal phase begins LH causes
the ruptured follicle to grow and form corpus luteum. LH
causes the corpus luteum to secrete both estrogen and
progesterone.

Progesterone is a sex hormone that signals the body
to prepare for fertilization.
 The Menstrual Cycle
The normal menstrual cycle lasts for 28 days. The
events in the menstrual cycle are controlled by the
changing levels of estrogen and progesterone.

Prior to and after ovulation increased level of
estrogen and progesterone cause the lining of the
uterus to thicken.

If pregnancy does not occur, the levels of
estrogen and progesterone decrease, causing the
lining of the uterus to be shed, which marks the end of the
menstrual cycle.
 The Menstrual Cycle

At the end of ovarian and menstrual cycles, neither
estrogen or progesterone is being produced. This signals
the pituitary gland to produce FSH and LH starting the
cycles again.

The production of estrogen and progesterone in
women eventually declines around their mid 40s. This
begins the transition to the menopausal stage.
04
Stages of Human
Development
Before Birth
Fertilization of the Ovum

The process begins when
sperms are deposited in the
vagina, and then move through the
uterus into the fallopian tubes.

If the sperm reach the
fallopian tube within 36 hours
during the female’s ovulation
period, there will be an egg ready
to be fertilized in one of the
fallopian tubes.
Fertilization of the Ovum
During fertilization, a
sperm cell penetrates an ovum
and releases the enzymes
stored in its acrosome. These
enzymes break down the
jellylike outer layers of the
ovum.

The head of the sperm
enters the ovum. The nuclei of
the sperm and ovum fuse to
produce a zygote.
Fertilization of the Ovum
Cell division takes place as the
zygote travels back down the
oviduct toward the uterus. (6-7
days)

The zygote becomes a small
ball of cells that attaches itself
to the uterine wall in the
process called implantation.
Embryonic Development

Starting from the implantation
of the zygote to the uterine
wall up to the first two months
of pregnancy, the developing
child is called an embryo.
Embryonic Development
A part of the uterine wall
produces the villi which constitute
the placenta, along with other
blood vessels and capillaries.

An umbilical cord forms and
connects the placenta to the
embryo. Nutrients and oxygen in
the mother’s blood are
transported to the embryo
through the veins in the umbilical
cord.
Embryonic Development
Carbon dioxide and other wastes are
carried away from the embryo
through an artery in the umbilical
cord to the mother’s bloodstream for
disposal.

During the 3rd week of pregnancy, a
thin membrane called amniotic sac
begins to form around the embryo.
This is filled with amniotic fluid,
which helps cushion and protect the
embryo.
Fetal Development

3rd month- the developing embryo
becomes more human, the eyes,
fingers, toes, arms and legs have
already developed.
-All major organs are present, the
fetal heart can be heard beating.
-The mother starts feeling the
movement of fetus within the uterus.
-The fetus begins to suck its thumb.
Fetal Development

4th month- The sex of the fetus can
be determined through an ultrasound
test.
-The fetus becomes more active as it
moves around in the uterus.

7th month- a layer of fat develops
under the skin, and fetal bones
begins to harden.
 Birth

- In the ninth month of pregnancy,
the fetus usually rotated to a head-
down position inside the uterus,
signaling that the time for birth has
arrived.
 Birth

The birth process begins with the
onset of labor, the muscular
contractions of the uterus. As the
contractions become stronger and in
close succession the amniotic sac
usually breaks down and releases its
fluid.
 Birth

Eventually, the contractions cause
the opening of the uterus to widen so
the baby can pass through the
vagina and then out into the world,
taking in his/her first gasp of air.
 05

Prevention,
Detection and
Treatment of
Sexually Transmitted
Diseases
 Syphilis

It is a sexually transmitted disease caused by the
bacterium Treponema pallidum.

It can be cured easily in its early stages but may lead to
serious complications if left untreated.
Syphilis
The disease has an incubation period
of about a few weeks to several
months and occurs in several stages
before it turns into a dangerous
condition.

A painless sore known as chancre
initially develops at the site of
infection, typically on the genitals,
rectum or mouth.
Syphilis

The second stage occurs several
weeks later and is characterized by a
fever and skin rash that begins in the
trunk and covers the entire body.

Then it disappears or comes and
goes within a year.
 Syphilis

It will enter a latent period without any symptoms. If left
untreated for years, it will produce neural lesions that can
cause extensive damage to the nervous tissue leading to
paralysis, mental disorder and death.

Congenital syphilis is contacted by babies born to an
infected mother.
 Syphilis

Antibiotics are used to treat initial stages of syphilis and
stop it from progressing. Longer cases of syphilis require
higher dosage of antibiotics.
Gonorrhea

Gonorrhea is caused by a
sexually transmitted bacterium,
Neisseria gonorrhoeae, which
invades the epithelial lining of
the vagina and male urethra.
This results in a discharge called
pus.

Gonorrhea can also affect other
parts of the body such as rectum,
eyes, throat and joints.
 Gonorrhea
It normally takes a week to notice the onset of
symptoms.

In men there may be a burning sensation during
urination, pain or swelling in one testicle and a pus
discharge in the urethral opening.

Women usually do not experience any symptoms in the
early stages, but may experience increased vaginal
discharge, painful urination, vaginal bleeding between
periods and abdominal and pelvic pain.
 Gonorrhea

If left untreated, gonorrhea could lead to pelvic
inflammatory disease.

Antibiotics are used to treat the disease.
Genital Herpes

Genital herpes is an infection
caused by herpes simplex
virus (HSV-2). The infection is
characterized by painful
itching lesions and blister like
eruptions in the genital area
that occur 10 days after
exposure to an infected
partner.
Genital Herpes

The sores take about two
weeks to heal and may recur.

The virus may stay dormant
in the body but may activate
due to stress or illness.

Genital Herpes is incurable.
AIDS
AIDS is the acronym for (Acquired
Immunodeficiency syndrome). It is
caused by a virus known as the
Human immunodeficiency
virus(HIV).

AIDS is transimitted through contact
with body fluids containing the
virus, sexual intercourse, sharing of
contaminated needles, receiving of
contaminated blood via transfusion
or birth from an infected mother.
AIDS
It has a latency period of five to ten
years before it becomes a full-blown
disease. In the early stages, HIV-
infected individuals do not show
symptoms of infections.

AIDS-related symptoms in the later
stage include weight loss associated
with diarrhea, swollen lymph
glands, chronic low-grade fever,
fatigue and night sweats.
AIDS

In the late stages of AIDS, the
patient becomes very susceptible to
opportunistic infections such as
pneumonia, tubercolosis or fungal
infections in the lungs and throat.
Infertility is the inability of a couple to conceive a child
after one year of regular, unprotected intercourse.
Infertility may be attributed to the problems of the male
partner, the female partner, or both.

With the help of fertility experts, the cause of infertility
can be corrected with medical intervention. One
traditional treatments include fertility drugs or hormones.
 Infertility vs. Sterility

Sterility usually refers to inability to produce a live child.

Infertility is measured by failure to conceive after 1 year
without contraception.
Male infertility can be caused by low sperm production,
abnormal sperm function or blockages that prevent the
delivery of sperm.

Female infertility is mostly caused by ovulation
disorders. Like irregular periods or PCOS( Polycystic Ovary
Syndrome).
PCOS( Polycystic Ovary
Syndrome).
It is a common hormonal condition
that affects women of
reproductive age. It usually starts
during adolescence, but
symptoms may fluctuate over
time.

Small follicle cysts (fluid-filled sacs
with immature eggs) may be
visible on your ovaries on
ultrasound due to lack of ovulation
(anovulation).
Other couples resort to assisted reproductive technologies
(ART), which are modern medical techniques that increase
the chances of pregnancy in ways that cannot be done
through traditional medical interventions.

The most common ART techniques are the following:

1. Artificial Insemination by Donor (AID)
2. In vitro fertilization (IVF) and Intracytoplasmic Sperm
Injection(ICSI)
3. Gamete Intrafallopian Transfer (GIFT)
4. Zygote Intrafallopian Transfer (ZIFT)
Artificial Insemination by Donor
(AID)

AID requires the sperm to be
harvested from the male
partner, and then placed in the
vagina of the female. This mode
is applicable most especially to
couples in which the male
partner has a low sperm count.
Artificial Insemination by Donor
(AID)

The sperm can be collected
over a period of time until there
is a sufficient amount that could
increase the likelihood of
fertilization.

Other times, the woman may
be inseminated by an unknown
male donor.
In vitro fertilization (IVF)

In IVF the immature eggs are
developed and nurtured to
maturity in a glass container
before concentrated sperm cells
are added.

Once implantation and embryo
development are successful, the
pregnancy will continue to its full
term, just like a normal
pregnancy.
Intracytoplasmic Sperm Injection
(ICSI)

In ICSI, a single sperm cell is
injected into the matured egg.
After the fertilization period,
embryos are transferred into the
uterus of the mother.
Gamete Intrafallopian Transter
(GIFT)

GIFT is a procedure done when
there is a low success rate for in
vitro fertilization.
Gamete Intrafallopian Transter
(GIFT)
In this procedure, multiple eggs
are collected from the ovaries and
placed in a thin flexible tube
(catheter), together with the
sperm to be used for fertilization.

The gametes will then be injected
into the fallopian lube through
laparoscopy
Zygote Intrafallopian Transter
(ZIFT)
ZIFT combines the procedures
used in IVF and GIFT. The eggs are
stimulated by the IVF methods
then mixed with sperm in a
laboratory.

The fertilized zygote will then be
implanted via laparoscopy to the
fallopian fube and assisted in
order to be carried toward the
uterus to ensure proper
implantation
Zygote Intrafallopian Transter
(ZIFT)
ZIFT combines the procedures
used in IVF and GIFT. The eggs are
stimulated by the IVF methods
then mixed with sperm in a
laboratory.

The fertilized zygote will then be
implanted via laparoscopy to the
fallopian fube and assisted in
order to be carried toward the
uterus to ensure proper
implantation
Generic engineering not only brings a child to a childless
couple, it also presents the possibility of bringing a
disease-free or intelligent child into the world. Despite the
potential of this technique you must take into
consideration the ethical implications of the limits of the
technology for parents and doctors.
 CRISPR (Clustered Regularly
Interspaced Short Palindromic
Repeats)
CRISPR is a powerful tool for
editing genomes, meaning it
allows researchers to easily alter
DNA sequences and modify gene
function.

It has many potential
applications, including correcting
genetic defects, treating and
preventing the spread of diseases.