Reproductive System PDF

Summary

This document provides an overview of the human reproductive system, focusing on the anatomy and physiology of both male and female reproductive organs. It includes diagrams and descriptions of key structures and functions.

Full Transcript

© 2018 Pearson Education, Inc.
 The Reproductive System

▪ Gonads—primary sex organs
▪ Testes in males
▪ Ovaries in females
▪ Gonads produce gametes (sex cells) and secrete
hormones
▪ Sperm—male gametes
▪ Ova (eggs)—female gametes

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 Anatomy of the Male Reproductive System

▪ Testes
▪ Duct system
▪ Epididymis
▪ Ductus (vas) deferens
▪ Urethra

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 Anatomy of the Male Reproductive System

▪ Accessory organs
▪ Seminal glands (vesicles)
▪ Prostate
▪ Bulbourethral glands
▪ External genitalia
▪ Penis
▪ Scrotum

© 2018 Pearson Education, Inc.
Figure 16.2a Male reproductive organs.

Ureter
Urinary bladder
Seminal vesicle Prostatic urethra
Ampulla of Pubis
ductus deferens
Membranous urethra
Ejaculatory duct
Urogenital diaphragm
Rectum
Erectile tissue
Prostate
of the penis
Bulbo-urethral gland
Spongy urethra

Shaft of the penis
Ductus (vas) deferens
Epididymis Glans penis
Testis Prepuce
Scrotum External urethral
(a) orifice

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Figure 16.2b Male reproductive organs.

Urinary
bladder Ureter
Ampulla
of ductus
deferens
Seminal
vesicle
Ejaculatory
Prostate duct

Prostatic Bulbourethral
urethra gland
Membranous Ductus
urethra deferens
Root of
penis Erectile
tissues

Epididymis
Shaft (body)
of penis Testis

Spongy
urethra
Glans penis

Prepuce
External
urethral
(b) orifice
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 Testes

▪ Each testes is connected to the trunk via the
spermatic cord, which houses:
▪ Blood vessels
▪ Nerves
▪ Ductus deferens
▪ Coverings of the testes
▪ Tunica albuginea—capsule that surrounds each testis
▪ Septa—extensions of the capsule that extend into the
testis and divide it into lobules

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Figure 16.1 Sagittal section of the testis and associated epididymis.

Spermatic cord

Blood vessels
and nerves

Seminiferous
tubule

Rete testis

Ductus (vas)
deferens

Lobule
Septum
Tunica
Epididymis albuginea

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 Testes

▪ Each lobule contains one to four seminiferous
tubules
▪ Tightly coiled structures
▪ Function as sperm-forming factories
▪ Empty sperm into the rete testis
▪ Sperm travels from the rete testis to the
epididymis
▪ Interstitial cells in the seminiferous tubules
produce androgens such as testosterone

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 Duct System

▪ The duct system transports sperm from the body
and includes:
▪ Epididymis
▪ Ductus deferens
▪ Urethra

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 Duct System

▪ Epididymis
▪ Highly convoluted tube 6 m (20 ft) long
▪ Found along the posterior lateral side of the testis
▪ First part of the male duct system
▪ Temporary storage site for immature sperm
▪ Sperm mature as they journey through the epididymis
▪ During ejaculation, sperm are propelled to the ductus
deferens

© 2018 Pearson Education, Inc.
Figure 16.1 Sagittal section of the testis and associated epididymis.

Spermatic cord

Blood vessels
and nerves

Seminiferous
tubule

Rete testis

Ductus (vas)
deferens

Lobule
Septum
Tunica
Epididymis albuginea

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 Duct System

▪ Ductus (vas) deferens
▪ Runs from the epididymis via the spermatic cord
through the inguinal canal and arches over the urinary
bladder
▪ Ampulla—end of the ductus deferens, which empties
into the ejaculatory duct
▪ Ejaculatory duct—passes through the prostate to merge
with the urethra
▪ Moves sperm by peristalsis into the urethra

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 Duct System

▪ Ductus (vas) deferens (continued)
▪ Ejaculation—smooth muscle in the walls of the ductus
deferens create peristaltic waves to squeeze sperm
forward
▪ Vasectomy—cutting of the ductus deferens at the level
of the testes prevents transportation of sperm (form of
birth control)

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 Duct System

▪ Urethra
▪ Extends from the base of the urinary bladder to the tip
of the penis
▪ Carries both urine and sperm
▪ Sperm enters from the ejaculatory duct

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 Duct System

▪ Urethra regions
1. Prostatic urethra—surrounded by prostate gland
2. Membranous urethra—prostatic urethra to penis
3. Spongy (penile) urethra—runs the length of the penis
to the external urethral orifice
▪ Ejaculation causes the internal urethra sphincter
to close
▪ Prevents urine from passing into the urethra
▪ Prevents sperm from entering the urinary bladder

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Figure 16.2a Male reproductive organs.

Ureter
Urinary bladder
Seminal vesicle Prostatic urethra
Ampulla of Pubis
ductus deferens
Membranous urethra
Ejaculatory duct
Urogenital diaphragm
Rectum
Erectile tissue
Prostate
of the penis
Bulbo-urethral gland
Spongy urethra

Shaft of the penis
Ductus (vas) deferens
Epididymis Glans penis
Testis Prepuce
Scrotum External urethral
(a) orifice

© 2018 Pearson Education, Inc.
Figure 16.2b Male reproductive organs.

Urinary
bladder Ureter
Ampulla
of ductus
deferens
Seminal
vesicle
Ejaculatory
Prostate duct

Prostatic Bulbourethral
urethra gland
Membranous Ductus
urethra deferens
Root of
penis Erectile
tissues

Epididymis
Shaft (body)
of penis Testis

Spongy
urethra
Glans penis

Prepuce
External
urethral
(b) orifice
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 Accessory Glands and Semen

▪ Seminal vesicles
▪ Prostate
▪ Bulbourethral glands

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 Accessory Glands and Semen

▪ Seminal vesicles
▪ Located at the base of the bladder
▪ Produce a thick, yellowish secretion (60% of semen)
that contains:
▪ Fructose (sugar)
▪ Vitamin C
▪ Prostaglandins
▪ Other substances that nourish and activate sperm
▪ Duct of each seminal vesicle joins that of the ductus
deferens on each side to form the ejaculatory duct

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 Accessory Glands and Semen

▪ Prostate
▪ Encircles the upper (prostatic) part of the urethra
▪ Secretes a milky fluid
▪ Helps to activate sperm
▪ Fluid enters the urethra through several small ducts

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 Accessory Glands and Semen

▪ Bulbourethral glands
▪ Pea-sized glands inferior to the prostate
▪ Produce a thick, clear mucus
▪ Mucus cleanses the spongy (penile) urethra of acidic
urine prior to ejaculation
▪ Mucus serves as a lubricant during sexual intercourse

© 2018 Pearson Education, Inc.
Figure 16.2a Male reproductive organs.

Ureter
Urinary bladder
Seminal vesicle Prostatic urethra
Ampulla of Pubis
ductus deferens
Membranous urethra
Ejaculatory duct
Urogenital diaphragm
Rectum
Erectile tissue
Prostate
of the penis
Bulbo-urethral gland
Spongy urethra

Shaft of the penis
Ductus (vas) deferens
Epididymis Glans penis
Testis Prepuce
Scrotum External urethral
(a) orifice

© 2018 Pearson Education, Inc.
Figure 16.2b Male reproductive organs.

Urinary
bladder Ureter
Ampulla
of ductus
deferens
Seminal
vesicle
Ejaculatory
Prostate duct

Prostatic Bulbourethral
urethra gland
Membranous Ductus
urethra deferens
Root of
penis Erectile
tissues

Epididymis
Shaft (body)
of penis Testis

Spongy
urethra
Glans penis

Prepuce
External
urethral
(b) orifice
© 2018 Pearson Education, Inc.
 Accessory Glands and Semen

▪ Semen
▪ Milky white mixture of sperm and accessory gland
secretions
▪ Components of accessory gland secretions
▪ Liquid portion acts as a transport medium to dilute
sperm
▪ Sperm are streamlined cellular “tadpoles”
▪ Fructose provides energy for sperm cells
▪ Alkalinity of semen helps neutralize the acidic
environment of vagina
▪ Semen inhibits bacteria

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 External Genitalia

▪ Scrotum
▪ Penis

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 External Genitalia

▪ Scrotum
▪ Divided sac of skin outside the abdomen that houses
the testes
▪ Viable sperm cannot be produced at normal body
temperature
▪ Maintains testes at 3°C lower than normal body
temperature

© 2018 Pearson Education, Inc.
Figure 16.1 Sagittal section of the testis and associated epididymis.

Spermatic cord

Blood vessels
and nerves

Seminiferous
tubule

Rete testis

Ductus (vas)
deferens

Lobule
Septum
Tunica
Epididymis albuginea

© 2018 Pearson Education, Inc.
 External Genitalia

▪ Penis
▪ Male organ of copulation that delivers sperm into the
female reproductive tract
▪ Regions of the penis
▪ Shaft
▪ Glans penis (enlarged tip)
▪ Prepuce (foreskin)
▪ Folded cuff of skin around proximal end
▪ Often removed by circumcision

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 External Genitalia

▪ Penis (continued)
▪ Internally there are three areas of spongy erectile
tissue around the urethra
▪ Erections occur when this erectile tissue fills with blood
during sexual excitement

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Figure 16.2a Male reproductive organs.

Ureter
Urinary bladder
Seminal vesicle Prostatic urethra
Ampulla of Pubis
ductus deferens
Membranous urethra
Ejaculatory duct
Urogenital diaphragm
Rectum
Erectile tissue
Prostate
of the penis
Bulbo-urethral gland
Spongy urethra

Shaft of the penis
Ductus (vas) deferens
Epididymis Glans penis
Testis Prepuce
Scrotum External urethral
(a) orifice

© 2018 Pearson Education, Inc.
Figure 16.2b Male reproductive organs.

Urinary
bladder Ureter
Ampulla
of ductus
deferens
Seminal
vesicle
Ejaculatory
Prostate duct

Prostatic Bulbourethral
urethra gland
Membranous Ductus
urethra deferens
Root of
penis Erectile
tissues

Epididymis
Shaft (body)
of penis Testis

Spongy
urethra
Glans penis

Prepuce
External
urethral
(b) orifice
© 2018 Pearson Education, Inc.
 Male Reproductive Functions

▪ Chief roles of the male in the reproductive
process
▪ Produce sperm
▪ Produce a hormone, testosterone

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 Spermatogenesis

▪ Sperm production
▪ Begins at puberty and continues throughout life
▪ Millions of sperm are made every day
▪ Sperm are formed in the seminiferous tubules of
the testis
▪ Spermatogonia (primitive stem cells) begin the
process by dividing rapidly
▪ During puberty, follicle-stimulating hormone (FSH) is
secreted in increasing amounts

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© 2018 Pearson Education, Inc.
Figure 16.3 Spermatogenesis.

Seminiferous
tubule Basement membrane

Spermatogonium 2n 2n Daughter cell
(stem cell) type A (remains
at basement
Mitosis 2n membrane
as a stem cell)
Growth
Daughter cell type B
Enters (moves toward tubule
prophase of lumen)
meiosis I 2n
Primary

Meiosis
spermatocyte
Meiosis I
completed
n n Secondary
spermatocytes
Spermatogenesis

Meiosis II

n n n n Early
spermatids
Spermiogenesis

Late
n n n n
spermatids

Sperm
n n n n

Lumen of
seminiferous
tubule

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Figure 16.3 Spermatogenesis (1 of 2).

Seminiferous
tubule

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Figure 16.3 Spermatogenesis (2 of 2).
Basement membrane

Spermatogonium 2n 2n Daughter cell
(stem cell) type A (remains
at basement
Mitosis membrane
2n
as a stem cell)
Growth
Daughter cell type B
Enters (moves toward tubule
prophase of lumen)
meiosis I 2n
Primary

Meiosis
spermatocyte
Meiosis I
completed
n n Secondary
spermatocytes
Spermatogenesis Meiosis II

n n n n Early
spermatids
Spermiogenesis

n n n n Late
spermatids

Sperm
n n n n

Lumen of
seminiferous
tubule

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 Spermatogenesis

▪ Each division of a spermatogonium stem cell
produces:
▪ Type A daughter cell, a stem cell, that continues the
stem cell population
▪ Type B daughter cell, which becomes a primary
spermatocyte, destined to undergo meiosis and form
four sperm

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 Spermatogenesis

▪ Meiosis
▪ Special type of nuclear division that differs from
mitosis
▪ Occurs in the gonads
▪ Includes two successive divisions of the nucleus
(meiosis I and II)
▪ Results in four daughter cells (gametes)

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 Spermatogenesis

▪ Gametes are spermatids with 23 chromosomes
▪ 23 chromosomes are half the usual 46 found in other
body cells
▪ 23 is known as the haploid number (n)—half the
genetic material as other body cells
▪ Union of a sperm (23 chromosomes, n) with an
egg (23 chromosomes, n) creates a zygote (2n,
or 46 chromosomes)

© 2018 Pearson Education, Inc.
Figure 16.4 The human life cycle.

Gametes (n = 23)

n
Egg

n
Sperm
Meiosis Fertilization

Multicellular
adults Zygote 2n
(2n = 46) (2n = 46)

Mitosis and
development

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 Spermatogenesis

▪ Spermiogenesis
▪ Spermatids are nonmotile and not functional as sperm
▪ A streamlining process is needed to strip excess
cytoplasm from a spermatid and modify it into a sperm
▪ A sperm has three regions: head, midpiece, tail
▪ Acrosome sits anterior to the sperm head (nucleus)
▪ The entire process of spermatogenesis, including
spermiogenesis, takes 64 to 72 days

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Figure 16.5a Structure of sperm.

(a)

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Figure 16.5b Structure of sperm.

Provides genetic
Provides instructions and a
energy for means of penetrating
mobility the follicle cell
capsule and
Plasma membrane oocyte membrane

Neck
Provides
Tail
for mobility Head
Midpiece

Axial filament Acrosome
of tail
Nucleus
Mitochondria

Proximal centriole

(b)
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 Testosterone Production

▪ During puberty:
▪ Follicle-stimulating hormone (FSH) begins prodding
seminiferous tubules to produce sperm
▪ Luteinizing hormone (LH) begins activating the
interstitial cells to produce testosterone

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 Testosterone Production

▪ Testosterone
▪ Most important hormonal product of the testes
▪ Stimulates reproductive organ development
▪ Underlies sex drive
▪ Causes secondary sex characteristics
▪ Deepening of voice
▪ Increased hair growth
▪ Enlargement of skeletal muscles
▪ Increased bone growth and density

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Figure 16.6 Hormonal control of testosterone release and sperm production. Slide 1
Hypothalamus 1 The hypothalamus releases
gonadotropin-releasing hormone
1 (GnRH).
GnRH
2 GnRH stimulates the anterior
Anterior
pituitary pituitary to release gonadotropins
—FSH and LH.
3 FSH stimulates
spermatogonia to produce sperm.
5
2 4 LH stimulates the interstitial
cells to release testosterone,
FSH LH which serves as the final trigger
Testosterone for spermatogenesis.
3 4 Testosterone then enhances
5 spermatogenesis.
5 The rising level of
testosterone exerts negative
feedback control on the
hypothalamus and pituitary.
Testosterone Primary and secondary
sex characteristics

Supporting cell Seminiferous
tubule in testis
FSH and
testosterone
stimulate
sperm
production

Spermatogonia
Spermatogenesis

KEY:
Stimulates
Inhibits
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Figure 16.6 Hormonal control of testosterone release and sperm production. Slide 2
Hypothalamus 1 The hypothalamus releases
gonadotropin-releasing hormone
1 (GnRH).
GnRH
Anterior
pituitary

Supporting cell Seminiferous
tubule in testis

Spermatogonia
Spermatogenesis

KEY:
Stimulates
Inhibits
© 2018 Pearson Education, Inc.
Figure 16.6 Hormonal control of testosterone release and sperm production. Slide 3
Hypothalamus 1 The hypothalamus releases
gonadotropin-releasing hormone
1 (GnRH).
GnRH
2 GnRH stimulates the anterior
Anterior
pituitary pituitary to release gonadotropins
—FSH and LH.

2

FSH LH

Supporting cell Seminiferous
tubule in testis

Spermatogonia
Spermatogenesis

KEY:
Stimulates
Inhibits
© 2018 Pearson Education, Inc.
Figure 16.6 Hormonal control of testosterone release and sperm production. Slide 4
Hypothalamus 1 The hypothalamus releases
gonadotropin-releasing hormone
1 (GnRH).
GnRH
2 GnRH stimulates the anterior
Anterior
pituitary pituitary to release gonadotropins
—FSH and LH.
3 FSH stimulates
spermatogonia to produce sperm.
2

FSH LH
3

Supporting cell Seminiferous
tubule in testis

Spermatogonia
Spermatogenesis

KEY:
Stimulates
Inhibits
© 2018 Pearson Education, Inc.
Figure 16.6 Hormonal control of testosterone release and sperm production. Slide 5
Hypothalamus 1 The hypothalamus releases
gonadotropin-releasing hormone
1 (GnRH).
GnRH
2 GnRH stimulates the anterior
Anterior
pituitary pituitary to release gonadotropins
—FSH and LH.
3 FSH stimulates
spermatogonia to produce sperm.
2 4 LH stimulates the interstitial
cells to release testosterone,
FSH LH which serves as the final trigger
for spermatogenesis.
3 4 Testosterone then enhances
spermatogenesis.

Testosterone Primary and secondary
sex characteristics

Supporting cell Seminiferous
tubule in testis

Spermatogonia
Spermatogenesis

KEY:
Stimulates
Inhibits
© 2018 Pearson Education, Inc.
Figure 16.6 Hormonal control of testosterone release and sperm production. Slide 6
Hypothalamus 1 The hypothalamus releases
gonadotropin-releasing hormone
1 (GnRH).
GnRH
2 GnRH stimulates the anterior
Anterior
pituitary pituitary to release gonadotropins
—FSH and LH.
3 FSH stimulates
spermatogonia to produce sperm.
5
2 4 LH stimulates the interstitial
cells to release testosterone,
FSH LH which serves as the final trigger
Testosterone for spermatogenesis.
3 4 Testosterone then enhances
5 spermatogenesis.
5 The rising level of
testosterone exerts negative
feedback control on the
hypothalamus and pituitary.
Testosterone Primary and secondary
sex characteristics

Supporting cell Seminiferous
tubule in testis
FSH and
testosterone
stimulate
sperm
production

Spermatogonia
Spermatogenesis

KEY:
Stimulates
Inhibits
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 Anatomy of the Female Reproductive
System
▪ Ovaries
▪ Duct system
▪ Uterine (fallopian) tubes
▪ Uterus
▪ Vagina
▪ External genitalia

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Figure 16.8a The human female reproductive organs.

Suspensory ligament
of ovary (part of broad
ligament)
Infundibulum
Uterine tube
Ovary
Fimbriae
Uterus (fundus)
Uterosacral
ligament Round ligament

Urinary bladder
Pubic symphysis
Rectum
Mons pubis
Cervix Urethra
Vagina Clitoris

Anus
Hymen

Greater vestibular gland Labium minus
Labium majus

(a)

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 Ovaries

▪ Ovaries
▪ Produce eggs (ova) and hormones (estrogen and
progesterone)
▪ Each ovary houses ovarian follicles consisting of:
▪ Oocyte (immature egg)
▪ Follicle cells—layers of different cells that surround the
oocyte

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Figure 16.7 Sagittal section of a human ovary showing the developmental stages of an ovarian follicle.

Primary follicle Growing follicles

Degenerating
corpus luteum

Blood
vessels
Antrum
Corona
radiata

Mature vesicular
(Graafian) follicle

Germinal
epithelium
Corpus luteum
Developing Ruptured Ovulation Secondary oocyte
corpus luteum follicle

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 Ovaries

▪ Ovarian follicles
▪ Primary follicle—contains an immature oocyte
▪ Vesicular (Graafian) follicle—growing follicle with a
maturing oocyte
▪ Ovulation—the follicle ruptures when the egg is mature
and ready to be ejected from the ovary; occurs about
every 28 days
▪ The ruptured follicle is transformed into a corpus
luteum

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 Ovaries

▪ Ovary support
▪ Suspensory ligaments secure the ovaries to the lateral
walls of the pelvis
▪ Ovarian ligaments anchor ovaries to the uterus
medially
▪ Broad ligaments, a fold of peritoneum, enclose and
hold the ovaries in place

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Figure 16.8a The human female reproductive organs.

Suspensory ligament
of ovary (part of broad
ligament)
Infundibulum
Uterine tube
Ovary
Fimbriae
Uterus (fundus)
Uterosacral
ligament Round ligament

Urinary bladder
Pubic symphysis
Rectum
Mons pubis
Cervix Urethra
Vagina Clitoris

Anus
Hymen

Greater vestibular gland Labium minus
Labium majus

(a)

© 2018 Pearson Education, Inc.
Figure 16.8b The human female reproductive organs.

Suspensory Uterine (fallopian) tube
ligament of ovary
Fundus Lumen (cavity)
Ovarian of uterus of uterus
blood
vessels Ovary
Broad Infundibulum
Uterine
ligament Fimbriae tube

Ovarian ligament Round ligament of uterus
Body of Endometrium
uterus Wall of
Myometrium
Perimetrium uterus
Ureter
Uterine blood Cervical canal
vessels
Uterosacral
ligament
Vagina
Cervix
(b)

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 Duct System

▪ Uterine (fallopian) tubes
▪ Uterus
▪ Vagina

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 Duct System

▪ Uterine (fallopian) tubes (continued)
▪ Form the initial part of the duct system
▪ Receive the ovulated oocyte from the ovaries
▪ Provide a site for fertilization
▪ Empty into the uterus
▪ Little or no contact between ovaries and uterine tubes
▪ Supported and enclosed by the broad ligament

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 Duct System

▪ Uterine (fallopian) tube structure
▪ Infundibulum
▪ Distal, funnel-shaped end
▪ Fimbriae
▪ Fingerlike projections of the infundibulum
▪ Receive the oocyte from the ovary
▪ Cilia located inside the uterine tube transport the oocyte

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Figure 16.8b The human female reproductive organs.

Suspensory Uterine (fallopian) tube
ligament of ovary
Fundus Lumen (cavity)
Ovarian of uterus of uterus
blood
vessels Ovary
Broad Infundibulum
Uterine
ligament Fimbriae tube

Ovarian ligament Round ligament of uterus
Body of Endometrium
uterus Wall of
Myometrium
Perimetrium uterus
Ureter
Uterine blood Cervical canal
vessels
Uterosacral
ligament
Vagina
Cervix
(b)

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 Duct System

▪ Uterus
▪ Situated between the urinary bladder and rectum
▪ Size and shape of a pear, in a woman who has never
been pregnant
▪ Receives, retains, nourishes a fertilized egg

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 Duct System

▪ Uterine support
▪ Broad ligament suspends the uterus in the pelvis
▪ Round ligament anchors the uterus anteriorly
▪ Uterosacral ligament anchors the uterus posteriorly

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 Duct System

▪ Regions of the uterus
▪ Body—main portion
▪ Fundus—superior rounded region above where uterine
tube enters
▪ Cervix—narrow outlet that protrudes into the vagina

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 Duct System

▪ Layers of the uterus
▪ Endometrium
▪ Inner layer (mucosa)
▪ Site of implantation of a fertilized egg
▪ Sloughs off if no pregnancy occurs (menstruation or
menses)
▪ Myometrium is the middle layer of smooth muscle that
contracts during labor
▪ Perimetrium (visceral peritoneum) is the outermost
serous layer of the uterus

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 Duct System

▪ Vagina
▪ Passageway that extends from cervix to exterior of
body and is located between urinary bladder and
rectum
▪ Serves as the canal that allows a baby or menstrual
flow to leave the body
▪ Female organ of copulation
▪ Receives the penis during sexual intercourse
▪ Hymen—partially closes the vagina until it is ruptured

© 2018 Pearson Education, Inc.
Figure 16.8a The human female reproductive organs.

Suspensory ligament
of ovary (part of broad
ligament)
Infundibulum
Uterine tube
Ovary
Fimbriae
Uterus (fundus)
Uterosacral
ligament Round ligament

Urinary bladder
Pubic symphysis
Rectum
Mons pubis
Cervix Urethra
Vagina Clitoris

Anus
Hymen

Greater vestibular gland Labium minus
Labium majus

(a)

© 2018 Pearson Education, Inc.
Figure 16.8b The human female reproductive organs.

Suspensory Uterine (fallopian) tube
ligament of ovary
Fundus Lumen (cavity)
Ovarian of uterus of uterus
blood
vessels Ovary
Broad Infundibulum
Uterine
ligament Fimbriae tube

Ovarian ligament Round ligament of uterus
Body of Endometrium
uterus Wall of
Myometrium
Perimetrium uterus
Ureter
Uterine blood Cervical canal
vessels
Uterosacral
ligament
Vagina
Cervix
(b)

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 External Genitalia and Female Perineum

▪ The female external genitalia, or vulva, includes:
▪ Mons pubis
▪ Labia
▪ Clitoris
▪ Urethral orifice
▪ Vaginal orifice
▪ Greater vestibular glands

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Figure 16.9 External genitalia of the human female.

Mons pubis
Labia majora

Prepuce of
clitoris
Clitoris
Vestibule
Urethral orifice
Vaginal orifice
Opening of duct
of greater
vestibular gland
Labia minora
Perineum
Anus

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 External Genitalia and Female Perineum

▪ Mons pubis
▪ Fatty area overlying the pubic symphysis
▪ Covered with pubic hair after puberty

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 External Genitalia and Female Perineum

▪ Labia—skin folds
▪ Labia majora
▪ Hair-covered skin folds
▪ Enclose the labia minora
▪ Also encloses the vestibule
▪ Labia minora—delicate, hair-free folds of skin

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 External Genitalia and Female Perineum

▪ Vestibule
▪ Enclosed by labia majora
▪ Contains external openings of the urethra and vagina
▪ Greater vestibular glands
▪ One is found on each side of the vagina
▪ Secretions lubricate vagina during intercourse

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 External Genitalia and Female Perineum

▪ Clitoris
▪ Contains erectile tissue
▪ Corresponds to the male penis
▪ The clitoris is similar to the penis in that it is:
▪ Hooded by a prepuce
▪ Composed of sensitive erectile tissue
▪ Swollen with blood during sexual excitement
▪ The clitoris lacks a reproductive duct

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 External Genitalia and Female Perineum

▪ Perineum
▪ Diamond-shaped region between the anterior ends of
the labial folds, anus posteriorly, and ischial
tuberosities laterally

© 2018 Pearson Education, Inc.
Figure 16.9 External genitalia of the human female.

Mons pubis
Labia majora

Prepuce of
clitoris
Clitoris
Vestibule
Urethral orifice
Vaginal orifice
Opening of duct
of greater
vestibular gland
Labia minora
Perineum
Anus

© 2018 Pearson Education, Inc.
 Female Reproductive Functions and Cycles

▪ The total supply of eggs is determined by the time
a female is born
▪ Ability to release eggs begins at puberty with the
onset of the menstrual cycle
▪ Reproductive ability ends at menopause (in
female’s fifties)

© 2018 Pearson Education, Inc.
 Oogenesis and the Ovarian Cycle

▪ Oogenesis is the process of producing ova (eggs)
in a female
▪ Oogonia are female stem cells found in a developing
fetus
▪ Oogonia undergo mitosis to produce primary oocytes
that are surrounded by cells that form primary follicles
in the ovary

© 2018 Pearson Education, Inc.
 Oogenesis and the Ovarian Cycle

▪ Primary oocytes are inactive until puberty
▪ Follicle-stimulating hormone (FSH) causes some
primary follicles to mature each month
▪ Cyclic monthly changes constitute the ovarian
cycle

© 2018 Pearson Education, Inc.
 Oogenesis and the Ovarian Cycle

▪ Meiosis starts inside maturing follicle
▪ First meiotic division produces a larger secondary
oocyte and a smaller first polar body
▪ A vesicular follicle contains a secondary oocyte
(maturation from a primary follicle takes about 14
days)
▪ Ovulation of a secondary oocyte occurs with the
release of luteinizing hormone (LH)
▪ Secondary oocyte is released and surrounded by
a corona radiata

© 2018 Pearson Education, Inc.
Figure 16.11 Ovulation.

Oocyte

© 2018 Pearson Education, Inc.
 Oogenesis and the Ovarian Cycle

▪ Meiosis is completed after ovulation only if sperm
penetrates the oocyte
▪ Ovum is produced
▪ Two additional polar bodies are produced
▪ Once ovum is formed, the 23 chromosomes can
be combined with the 23 chromosomes of the
sperm to form the fertilized egg (zygote)
▪ If the secondary oocyte is not penetrated by a
sperm, it dies and does not complete meiosis to
form an ovum

© 2018 Pearson Education, Inc.
 Oogenesis and the Ovarian Cycle

▪ Meiosis
▪ Males—produces four functional sperm
▪ Females—produces one functional ovum and three
tiny polar bodies
▪ Sex cell size and structure
▪ Sperm are tiny, motile, and equipped with nutrients in
seminal fluid
▪ Egg is large, is nonmotile, and has nutrient reserves to
nourish the embryo until implantation

© 2018 Pearson Education, Inc.
Figure 16.10 Events of oogenesis.

Meiotic Events Follicle Development
in Ovary
Before birth
2n Oogonium (stem cell)
Follicle cells
Mitosis Oocyte

2n Primary oocyte Primary
follicle
Growth

2n
Primary oocyte Primary
(arrested in prophase I; follicle
present at birth)

Childhood (ovary inactive)

Monthly from
Primary
puberty to menopause follicle
2n Primary oocyte (still
arrested in prophase I) Growing
follicle

Mature
vesicular
Meiosis I (completed by one (Graafian)
primary oocyte each month) Secondary oocyte follicle
(arrested in
First polar body n metaphase II)
Ovulation
Sperm Ovulated
secondary
Meiosis II of polar body oocyte
(may or may not occur) Meiosis II completed
(only if sperm
n n n n penetration occurs)
Polar bodies
(all polar bodies Second Ovum
degenerate) polar body

© 2018 Pearson Education, Inc.
 Hormone Production by the Ovaries

▪ Estrogens are produced by follicle cells
▪ Cause secondary sex characteristics
▪ Enlargement of accessory organs of the female
reproductive system
▪ Development of breasts
▪ Appearance of axillary and pubic hair
▪ Increase in fat beneath the skin, particularly in hips and
breasts
▪ Widening and lightening of the pelvis
▪ Onset of menses (menstrual cycle)

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 Hormone Production by the Ovaries

▪ Progesterone is produced by the corpus luteum
▪ Production continues until LH diminishes in the blood
▪ Does not contribute to the appearance of secondary
sex characteristics
▪ Other major effects
▪ Helps maintain pregnancy
▪ Prepares the breasts for milk production

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 Uterine (Menstrual) Cycle

▪ Cyclic changes of the endometrium, about 28
days in length
▪ Regulated by cyclic production of estrogens and
progesterone by the ovaries
▪ FSH and LH, from the anterior pituitary, regulate
the production of estrogens and progesterone by
the ovaries
▪ Ovulation typically occurs about midway through
cycle, on day 14

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 Uterine (Menstrual) Cycle

▪ Stages of the menstrual cycle
▪ Menstrual phase
▪ Proliferative stage
▪ Secretory stage

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 Uterine (Menstrual) Cycle

▪ Days 1–5: menstrual phase
▪ Functional layer of the endometrium is sloughed
▪ Bleeding occurs for 3 to 5 days
▪ Ovarian hormones are at their lowest levels
▪ By day 5, growing ovarian follicles are producing more
estrogen

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 Uterine (Menstrual) Cycle

▪ Days 6–14: proliferative stage
▪ Regeneration of functional layer of the endometrium
▪ Endometrium is repaired, thickens, and becomes well
vascularized
▪ Estrogen levels rise
▪ Ovulation occurs in the ovary at the end of this stage

© 2018 Pearson Education, Inc.
 Uterine (Menstrual) Cycle

▪ Days 15–28: secretory phase
▪ Levels of progesterone rise and increase the blood
supply to the endometrium, which becomes more
vascular
▪ Endometrium increases in size and readies for
implantation

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 Uterine (Menstrual) Cycle

▪ Days 15–28: secretory phase (continued)
▪ If fertilization does occur:
▪ Embryo produces a hormone that causes the corpus
luteum to continue producing its hormones
▪ If fertilization does NOT occur:
▪ Corpus luteum degenerates as LH blood levels decline
▪ The phases are repeated about every 28 days

© 2018 Pearson Education, Inc.
Figure 16.12a Hormonal interactions of the female cycles.

Plasma hormone level

LH

FSH

(a) Fluctuation of gonadotropin levels: Fluctuating levels of pituitary
gonadotropins (FSH and LH) in the blood regulate the events of the
ovarian cycle.

© 2018 Pearson Education, Inc.
Figure 16.12b Hormonal interactions of the female cycles.

Primary Secondary Vesicular Ovulation Corpus Degenerating
follicle follicle follicle luteum corpus luteum

Follicular Ovulation Luteal
phase (Day 14) phase
(b) Ovarian cycle: Structural changes in the ovarian follicles during the
ovarian cycle are correlated with (d) changes in the endometrium of
the uterus during the uterine cycle.

© 2018 Pearson Education, Inc.
Figure 16.12c Hormonal interactions of the female cycles.

Plasma hormone level

Estrogens

Progesterone

(c) Fluctuation of ovarian hormone levels: Fluctuating levels of
ovarian hormones (estrogens and progesterone) cause the endometrial
changes of the uterine cycle. The high estrogen levels are also
responsible for the LH/FSH surge in (a).

© 2018 Pearson Education, Inc.
Figure 16.12d Hormonal interactions of the female cycles.

Endometrial Blood vessels
Functional layer glands

Menstrual
flow
Basal layer

1 5 10 15 20 25 28 Days
Menstrual Proliferative Secretory
phase phase phase

The menstrual and proliferative phases occur before ovulation and together
correspond to the follicular phase of the ovarian cycle. The secretory phase
corresponds in time to the luteal phase of the ovarian cycle.

(d) The three phases of the uterine cycle:
Menstrual: Shedding of the functional layer of the endometrium.
Proliferative: Rebuilding of the functional layer of the endometrium.
Secretory: Begins immediately after ovulation. Enrichment of the blood
supply and glandular secretion of nutrients prepare the endometrium to
receive an embryo.
© 2018 Pearson Education, Inc.
Figure 16.7 Sagittal section of a human ovary showing the developmental stages of an ovarian follicle.

Primary follicle Growing follicles

Degenerating
corpus luteum

Blood
vessels
Antrum
Corona
radiata

Mature vesicular
(Graafian) follicle

Germinal
epithelium
Corpus luteum
Developing Ruptured Ovulation Secondary oocyte
corpus luteum follicle

© 2018 Pearson Education, Inc.
 Mammary Glands

▪ Present in both sexes, but function only in
females
▪ Modified sweat glands
▪ Function is to produce milk to nourish a newborn
▪ Stimulated by sex hormones (mostly estrogens)
to increase in size

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 Mammary Glands

▪ Parts of the mammary gland
▪ Areola—central pigmented area
▪ Nipple—protruding central area of areola
▪ Lobes—internal structures that radiate around nipple
▪ Lobules—located within each lobe and contain
clusters of alveolar glands
▪ Alveolar glands—produce milk when a woman is
lactating (producing milk)
▪ Lactiferous ducts—connect alveolar glands to nipple
▪ Lactiferous sinus—dilated portion where milk
accumulates

© 2018 Pearson Education, Inc.
Figure 16.13a Female mammary glands.

Skin (cut)

Pectoralis major muscle

Connective tissue
suspensory ligament

Adipose tissue
Lobe

Areola
Nipple

Lactiferous sinus
Lactiferous duct
Lobule containing
alveoli

(a)
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Figure 16.13b Female mammary glands.

First rib
Skin (cut)

Pectoralis major muscle

Connective tissue
suspensory ligament

Adipose tissue
Lobe

Areola
Nipple

Opening of
lactiferous duct

Lactiferous sinus
Lactiferous duct
Lobule containing
alveoli
Hypodermis
(superficial fascia)
Intercostal muscles

(b)
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 Mammography

▪ Mammography is X-ray examination that detects
breast cancers too small to feel
▪ American Cancer Society recommends
mammography annually for women between 45
and 54 years old and every 2 years thereafter if
the results are normal
▪ Breast cancer is often signaled by a change in
skin texture, puckering, or leakage from the
nipple

© 2018 Pearson Education, Inc.
Figure 16.14 Mammograms.

Malignancy

(a) Mammogram procedure (b) Film of normal breast (c) Film of breast with tumor

© 2018 Pearson Education, Inc.
 Pregnancy and Embryonic Development

▪ Pregnancy—time from fertilization until infant is
born
▪ Conceptus—developing offspring
▪ Embryo—period of time from fertilization until week 8
▪ Fetus—week 9 until birth
▪ Gestation period—from date of last period until
birth (approximately 280 days)

© 2018 Pearson Education, Inc.
Figure 16.15 Diagrams showing the approximate size of a human conceptus from fertilization to the early fetal stage.

Embryo

Fertilization 1-week 3-week 5-week embryo
conceptus embryo (10 mm) 8-week embryo
(3 mm) (22 mm)

12-week fetus
(90 mm)

© 2018 Pearson Education, Inc.
 Accomplishing Fertilization

▪ An oocyte is viable up to 24 hours after ovulation
▪ Sperm are viable up to 48 hours after ejaculation
▪ For fertilization to occur, sexual intercourse must occur
no more than 2 days before ovulation and no later than
24 hours after
▪ Sperm cells must make their way to the uterine
tube for fertilization to be possible
▪ Sperm cells are attracted to the oocyte by chemicals

© 2018 Pearson Education, Inc.
© 2018 Pearson Education, Inc.
 Accomplishing Fertilization

▪ When sperm reach the oocyte:
▪ Enzymes break down the follicle cells of the corona
radiata around the oocyte
▪ Sperm undergo an acrosomal reaction
▪ Membrane receptors on the oocyte pull in the head of
the first sperm cell to make contact
▪ Oocyte undergoes second meiotic division to produce
an ovum and a polar body

© 2018 Pearson Education, Inc.
Figure 16.16 Sperm and oocyte during fertilization.

© 2018 Pearson Education, Inc.
 Accomplishing Fertilization

▪ Fertilization occurs when the genetic material of a
sperm combines with that of an oocyte

© 2018 Pearson Education, Inc.
 Events of Embryonic & Fetal Development

▪ Zygote
▪ First cell of a new individual
▪ The zygote is the result of the fusion of DNA from
sperm and egg
▪ The zygote begins rapid mitotic cell divisions, known
as cleavage, 24 hours after fertilization
▪ The zygote journeys down the uterine tube, moving
toward the uterus

© 2018 Pearson Education, Inc.
 Events of Embryonic & Fetal Development

▪ Cleavage
▪ Rapid series of mitotic divisions that begins with the
zygote
▪ 3 days after ovulation, the embryo reaches the uterus
and floats as a morula, a ball of 16 cells

© 2018 Pearson Education, Inc.
 Events of Embryonic & Fetal Development

▪ Blastocyst (chorionic vesicle)
▪ Hollow, ball-like structure of 100 cells or more
▪ Secretes human chorionic gonadotropin (hCG) to
induce the corpus luteum to continue producing
hormones, preventing menses, until the placenta
assumes its role

© 2018 Pearson Education, Inc.
 Events of Embryonic & Fetal Development

▪ Functional areas of the blastocyst
1. Trophoblast—large fluid-filled sphere
2. Inner cell mass—cluster of cells to one side
▪ By day 7 after ovulation, the blastocyst has
attached to the endometrium

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 1

(a) Zygote (b) 4-cell stage (c) Morula (d) Early blastocyst (e) Implanting
(fertilized egg) 2 days (a solid ball of (morula hollows out blastocyst
blastomeres) and fills with fluid) (consists of a sphere
3 days 4 days of trophoblast cells
and an eccentric
cell cluster called
the inner cell mass)
Zona 7 days
pellucida
Inner
cell
Blastocyst mass
Fertilization cavity
(sperm Sperm
meets and
enters egg) Uterine tube Blastocyst
Ovary cavity
Oocyte Trophoblast
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 2

Uterine tube
Ovary

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 3

Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 4

(a) Zygote
(fertilized egg)

Zona
pellucida

Fertilization
(sperm Sperm
meets and
enters egg) Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 5

(a) Zygote
(fertilized egg)

Zona
pellucida

Fertilization
(sperm Sperm
meets and
enters egg) Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 6

(a) Zygote (b) 4-cell stage
(fertilized egg) 2 days

Zona
pellucida

Fertilization
(sperm Sperm
meets and
enters egg) Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 7

(a) Zygote (b) 4-cell stage
(fertilized egg) 2 days

Zona
pellucida

Fertilization
(sperm Sperm
meets and
enters egg) Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 8

(a) Zygote (b) 4-cell stage (c) Morula
(fertilized egg) 2 days (a solid ball of
blastomeres)
3 days

Zona
pellucida

Fertilization
(sperm Sperm
meets and
enters egg) Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 9

(a) Zygote (b) 4-cell stage (c) Morula (d) Early blastocyst
(fertilized egg) 2 days (a solid ball of (morula hollows out
blastomeres) and fills with fluid)
3 days 4 days

Zona
pellucida

Blastocyst
Fertilization cavity
(sperm Sperm
meets and
enters egg) Uterine tube
Ovary
Oocyte
(egg)

Uterus
Ovulation
Endometrium

Cavity of
uterus

© 2018 Pearson Education, Inc.
Figure 16.17 From fertilization and cleavage to implantation. Slide 10

(a) Zygote (b) 4-cell stage (c) Morula (d) Early blastocyst (e) Implanting
(fertilized egg) 2 days (a solid ball of (morula hollows out blastocyst
blastomeres) and fills with fluid) (consists of a sphere
3 days 4 days of trophoblast cells
and an eccentric
cell cluster called
the inner cell mass)
Zona 7 days
pellucida
Inner
cell
Blastocyst mass
Fertilization cavity
(sperm Sperm
meets and
enters egg) Uterine tube Blastocyst