Reproductive System PDF

Summary

This document provides an overview of the human reproductive system, covering both male and female reproductive organs and their functions. The text describes the various processes involved in reproduction, including spermatogenesis and oogenesis, as well as details about the different stages of the uterine cycle.

Full Transcript

The Reproductive
System
 Objectives
Explain the important parts and functions
of the Reproductive System.
The Reproductive System
Function:
Gamete production; transport; maintenance; production of sex
hormones
Meiosis
Information contained in DNA
Process of nuclear division
Body cells contain 46 chromosomes
Gametes contain 23 chromosomes
2 phases
Meiosis I & Meiosis II
Result is 4 gametes with 23 chromosomes
Spermatogenesis → 4 sperm
Oogenesis → 1 Ovum; 3 polar bodies
Male Reproductive System
Male Reproductive System
Organs produce and maintain sperm; transport
sperm and supporting fluids; secrete male sex
hormones
Testes (2), primary sex organ
Exocrine function: produce sperm
Endocrine function: produce testosterone
Duct system,
Epididymis, Ductus deferens, Urethra
Accessory organs
Seminal vesicle, Prostate gland, Bulbourethral gland
External genitalia
Penis, Scrotum
Testes
Coverings of the testes
Tunica albuginea
(white coat) – capsule
that surrounds each
testis
Septa: extensions of
the capsule.
Each testis divided into
lobules
Testes
Each lobule contains one to
four seminiferous tubules
Function: sperm-forming
factories
Empty sperm into the rete
testis
Sperm travels through the
rete testis to the epididymis

Interstitial cells produce
androgens such as
testosterone
Cells in soft connective
tissue surrounding the
seminiferous tubules
 Epididymis
Comma-shaped, tightly
coiled tube
About 20 feet long
Found on the superior
portion of the testis and
along the posterior lateral
side
First portion of the male
duct system
Functions to mature and
store sperm cells (at
least 20 days)
Expels sperm to the vas
deferens
Ductus Deferens (Vas Deferens)
Location:
Passes through the inguinal
canal and over the bladder
Carries sperm by peristalsis
Spermatic cord – ductus deferens,
blood vessels, and nerves in a
connective tissue sheath
Passes through the prostrate
gland (forming ejaculatory duct),
and merges with the urethra
Propels sperm into urethra
Vasectomy: a cutting of the ductus
deferens within the scrotum
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
Regions of the urethra
Prostatic urethra –surrounded by
prostate
Membranous urethra – from
prostatic urethra to penis
Spongy (penile) urethra – runs the
length of the penis within penis
Spongy urethra carries both urine
and sperm
At different times. During
ejaculation the internal urethral
sphincter constricts to prevent
passage of urine into urethra and
sperm into bladder
Seminal Vesicles
Located at the base of the bladder
Produces a thick, yellowish secretion (60%
of semen)
Fructose (sugar);ENERGY!
Vitamin C
Prostaglandins
Other substances that nourish and activate
sperm
Prostate Gland
Encircles the urethra below bladder
Secretes a milky fluid
Helps to activate sperm; motility
Enters the urethra through several small ducts
Located anteriorly to rectum

Bulbourethral Glands
Pea-sized gland inferior to the prostate
Produces a thick, clear mucus
Cleanses the urethra of acidic urine; pre-ejaculate
Serves as a lubricant during sexual intercourse
Secreted into the penile urethra
Semen
Mixture of sperm and accessory gland
secretions
Advantages of accessory gland secretions
Fructose provides energy for sperm cells
Alkalinity of semen helps neutralize the acidic
environment of vagina
Semen inhibits bacterial multiplication
Elements of semen enhance sperm motility
50-130 million sperm in each ml of semen
Less that 20million per ml makes fertilization improbable
External Genitalia
Scrotum
Divided sac of skin & subcutaneous tissue outside the abdomen
enclosing testes; appears as single pouch, but house 2 testes
Maintains testes at 3°C (~60 degrees F) lower than normal body
temperature to protect sperm viability → moved by cremaster muscle
Penis
Male excitatory organ
Surrounds urethra
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)
Erection; emission; ejaculation; orgasm
Spermatogenesis
Production of sperm cells
Produced from spermatogonia cells
Begins at puberty and continues throughout life
Occurs in the seminiferous tubules
Meiosis reduces chromosome number by half
Processes of Spermatogenesis
From birth to puberty:
Spermatogonia (stem cells) undergo mitosis to produce
stem cells before puberty
During puberty and beyond:
Follicle stimulating hormone (FSH)
modifies spermatogonia division
At each division now, two daughter cells are produced.
We will call them daughter cell A and daughter cell B
Type A daughter cell remains embedded in
seminiferous tubule to maintain the stem cell
population
Type B daughter cell produced becomes a primary
spermatocyte
Travels toward the tubule lumen while undergoing
meiosis
Processes of Spermatogenesis
Primary spermatocytes undergo meiosis
Produces four gametes
(spermatids in males)
Cells contain ½ the
chromosomes (n)
Haploid spermatids are
produced
Spermatids are not yet
functional sperm
Nonmotile (can’t move)
Contain excess cytoplasm
Processes of Spermatogenesis
Spermiogenesis
last stage of sperm development
Excesss cytoplasm is sloughed off
Head, midpiece and tail are formed
Late spermatids are produced with
distinct regions
Head – contains DNA covered by the
acrosome
Acrosome: a large lysosome
containing enzymes that are
released when a sperm contacts
the oocyte(egg)
Midpiece – contain mitochondria
supplying ATP
Tail – propel sperm forward
Sperm cells result after maturing of
spermatids
Spermatogenesis takes 64 to 72 days
 Anatomy of a Mature Sperm Cell
The only human flagellated cell
Head
Contains 23 chromosomes
Covered in acrosome
Body
Contains mitochondria
Tail
Flagellum - locomotion
Female Reproductive System
Female Reproductive System
Produce female gametes
Nuture and protect a developing fetus
Ovaries primary reproductive organs
Exocrine product: ova
Endocrine product: estrogens and progesterone
Duct System
Uterine tubes (fallopian tubes)
Uterus
Vagina
External genitalia
Ovaries
Composed
of ovarian follicles
(sac-like structures)
Each follicle consists of an
oocyte, surrounded by follicle
cells
Follicle enlarges and develops
a fluid filled antrum
Structure of
an ovarian
follicle
Oocyte
Follicular cells
 Support for Ovaries
Suspensory ligaments – secure ovary to lateral walls
of the pelvis
Ovarian ligaments – attach to uterus
Broad ligament – a fold of the peritoneum, encloses
suspensory ligament
Uterine Tube
Tubes from ovaries to uterus (Begin duct system)
4 inches long
Fimbriae – finger-like extentions at the distal end that receive
the oocyte
Provide a site for fertilization
Does not physically attach to the ovary
Supported by the broad ligament
Attaches to the uterus
Cilia inside the uterine tube slowly move the oocyte towards
the uterus
Fertilization occurs inside the uterine tube
Oocyte is viable for 24 hours, journey takes 3-4 days
Many potential eggs are lost in the peritoneal cavity
Uterus
Located between the urinary bladder and rectum
Hollow, muscular organ
Functions of the uterus
Receives a fertilized egg
Retains the fertilized egg
Nourishes the fertilized egg
Enlarges during pregnancy
 Uterus
Layers
Endometrium
Inner layer
Allows for implantation of a fertilized egg
Sloughs off if no pregnancy occurs (menses)
Endometriosis = endometrial tissue in locations other
than uterus; tissue bleeds, but does not shed, resulting in
scars or adhesions; painful and possibly infertile
condition
Myometrium – middle layer of smooth muscle
Serous layer – outer visceral peritoneum
Lower 1/3 forms Cervix
Support for the Uterus
Broad ligament – attached to the pelvis
Round ligament – anchored interiorly
Uterosacral ligaments – anchored posteriorly
 Regions of the Uterus
Body – main portion
Fundus – area where uterine tube enters
Cervix – narrow outlet that protrudes into the vagina
Vagina
Thin walled tube 3-4 inches long
Extends from cervix to exterior of body
Behind bladder and in front of rectum
Serves as the birth canal
Receives the penis during sexual intercourse
Hymen – partially closes the vagina until it is ruptured
Epithelium and connective tissue
 External Genitalia (Vulva)
External genitalia: labia, clitoris,
urethral and vaginal orifices and
greater vestibular glands
Labia – skin folds
Labia majora, Outer folds with hair
Labia minora, Inner delicate folds
Vestibule
Enclosed by labia majora
Contains opening of the urethra
and the vestibular glands
Clitoris
Excitatory organ
Contains erectile tissue
Corresponds to the male penis
Covered by prepuce
Oogenesis
Oogonia
female stem cells found in a developing fetus (diploid)
Oogonia undergo mitosis to produce primary oocytes
Primary oocytes in the connective tissue of the ovary
are surrounded by a single layer of cells that form
primary follicles
Oogonia no longer exist by the time of birth
At birth, the lifetime supply of ~2million primary oocytes
are waiting in the ovarian follicles for the time to undergo
meiosis and become the functional eggs
Remain in a state of suspended animation
At puberty, 1 primary oocyte is stimulated to undergo
Meiosis 1
Oogenesis
Ovulation:
Oogenesis (meiosis I) is complete as
the follicle matures (approximately 14
days);
Upon maturation, Luteinizing hormone
(LH) causes the follicle to burst,
releasing an secondary oocyte
After ovulation, the oocyte is drawn
into the fallopian tube (via fimbriae).
Meiosis II is completed only if sperm
penetrates
– A single ovum and 3 polar bodies are
formed
LH causes the ruptured follicle to
become corpus luteum
Menstrual (Uterine) Cycle
~28 days in length
Cyclic changes of the endometrium mucosa of the uterus
in response to hormone changes
Regulated by cyclic production of estrogens and
progesterone which are regulated by the anterior pituitary
hormones =FSH and LH
Stages of the menstrual cycle
Menses – functional layer of the endometrium is
sloughed days 1-5
Proliferative stage – regeneration of functional layer
days 6-14
Secretory stage – endometrium increases in size and
readies for implantation days 15-28
Ovulation typically occurs on day 14
 Fertilization
Sperm become capacitated in female reproductive tract
Secondary oocyte ovulated from ovary
The oocyte is viable for 12 to 24 hours after ovulation
Sperm are viable for 12 to 48 hours after ejaculation some super
sperm are viable for 72 hours
So intercourse must take place within 72hours before to 24
hours after ovulation
Sperm cells must make their way to the fallopian tube
tube for fertilization to be possible
Chemical messages released by the oocyte attract the sperm
One sperm enters secondary oocyte
The membrane of the oocyte does not permit a second sperm
head to enter
The oocyte then undergoes its second meiotic division
Fertilization occurs when the genetic material of a sperm
combines with that of an oocyte to form a zygote
The Zygote
First cell of a new individual
The result of the fusion of DNA from sperm and egg
The zygote begins rapid mitotic cell divisions
The process is called cleavage.
First division = 36 hours = 2 cells
Second division = 48 hours = 4 cells
Morula = solid ball of 32 cells = 96 hours

The zygote stage is in the uterine tube, moving toward the
uterus propelled by peristalsis and cilia

Blastocyst = about 5 days
A hollow ball of cells surrounding central cavity
The Blastocyst aka the chorionic vesicle
Ball-like circle of cells
Begins at about the 100 cell stage
Secretes human chorionic gonadotropin
(hCG) to the corpus luteum to continue
producing hormones otherwise the corpus luteum would
degenerate and without the provided progesterone, the functional
layer would slough off in menses
Functional areas of the blastocyst
Trophoblast – large fluid-filled sphere
Inner cell mass
The Embryo
Developmental stage from the start of cleavage until the
ninth week
The embryo first undergoes division without growth
meaning the daughter cells continue to get smaller and smaller
The embryo enters the uterus at the 16-cell state
The embryo floats free in the uterus temporarily
the functional layer of the endometrial lining is not yet fully
prepared for implatation.
Uterine secretions are used for nourishment
Mammary Glands
Present in both sexes, but only function in
females
Modified sweat glands (apocrine)
Function is to produce milk
Stimulated by sex hormones (mostly estrogens) to
increase in size
Anatomy of mammary glands
Areola – central pigmented area
Nipple – protruding central area of areola
Lobes – internal structures that radiate around nipple
Composed of CT and alveoli
Alveolar glands – clusters of milk producing glands within lobules
Lactiferous ducts – connect alveolar glands to nipple
Stages of Labor
Dilation
Cervix becomes dilated
Uterine contractions begin and increase
The amnion ruptures
Expulsion
Infant passes through the cervix and vagina
Normal delivery is head first
Placental stage
Delivery of the placenta
Stages of Labor
Developmental Aspects of the
Reproductive System
Reproductive system organs do not
function until puberty
Puberty usually begins between ages
10 and 15
The first menses usually occurs about
two years after the start of puberty
menarche
Most women reach peak reproductive
ability in their late 20s
Developmental Aspects of the
Reproductive System

Menopause occurs when ovulation and
menses cease entirely
Ovaries stop functioning as endocrine
organs
There is a no equivalent of menopause
in males, but there is a steady decline in
testosterone
Sexually transmitted diseases
AIDS
Chlamidia
Genital Herpes
Genital Warts
Gonorrhea
Syphilis
Hepatitis B