Lecture 1 - Anatomy of the Male Reproductive System PDF

Summary

This lecture covers the anatomy of the male reproductive system, including the testes, penis, duct system, accessory glands, and semen. The lecturer, Damien Paris, discusses the function and structure of each component. It contains relevant diagrams and background reading.

Full Transcript

PP2201 Reproduction
Lecture 1
Assoc. Prof. Damien Paris
[email protected]
 Reproductive Physiology Lecturer:
Assoc. Prof. Damien Paris
Gamete & Embryology (GAME) Lab
College of Public Health, Medical & Veterinary Sciences
Room: DB047-109D
Tel: 07 4781 6006
Email: [email protected]
Facebook: https://www.facebook.com/gamete.embryo.lab/
URL: https://portfolio.jcu.edu.au/researchers/damien.paris/

 Background: BSc Hons (Monash U), PhD (U Melb)
Research Fellow (U Glasgow & U Utrecht)
 Research Interests:
 Impact of adverse conditions (IVF, heat-stress, social-stress, disease, maternal-
age) on fertility (various production & wild animals)
 Assisted reproduction for animal breeding & conservation (marsupials,
African wild dogs, frogs & production animals)

 Techniques used:
 highly sensitive reproductive & molecular tools as ‘barometer’ to detect
compromised viability in sperm, oocytes & embryos

I don’t feel
so good!
 Sperm quality evaluation: concentration, motility, morphology,
viability, DNA damage (computer analysis, microscopy & FACS)
live damaged
dead intact

 Oocyte & embryo health evaluation: viability, development,
morphology, heart-rate, DNA damage (microscopy & protein/gene expression)

live NANOG
dead GATA6

 Assisted reproductive techniques: semen collection, sperm freezing,
artificial insemination, IVF
 Impact of heat-stress on sperm DNA integrity & mitigation
by antioxidants in the boar Contact me for future
student research
opportunities
 Sperm banking & artificial insemination as conservation
management tools for endangered African wild dogs

 Developing advanced reproductive techniques to detect
infertility & accelerate selective breeding in barramundi

 Impact of chytrid fungus on sperm quality in endangered
Corroboree frogs

 Development of redclaw crayfish sperm, egg & embryo
technologies for commercial crayling production

 Integrating spatial & reproductive sciences to conserve
endangered pygmy hippos
 Scrotum & testes
 Penis
 Male duct system
 Accessory glands
 Semen

 Background reading:
 Marieb & Hoehn 2013 Human Anatomy &
Physiology. 9th edition – Chapter 27 (via LearnJCU)
 Describe the location, structure & function of the testes

 Describe the location, structure & function of the
accessory reproductive organs of the male

 Discuss the sources & functions of semen
The Gonads:
 Testes in males
 Ovaries in females
 Produce sex cells – gametes (sperm & oocytes respt.)
 Secrete steroid hormones – sex hormones

Accessory Reproductive Organs:
 Remaining reproductive ducts, glands & external
genitalia
 Sac of skin & superficial fascia that hangs outside
the abdomino-pelvic cavity at the root of the penis
 Contains paired testes
Marieb & Hoehn 2010
 Vulnerable position....what are the benefits???

 sperm production is highly temperature sensitive

 Superficial location permits a testicular temperature
that is ~3°C lower than core body temperature

 Regulated by temperature changes:
 cold temperature: scrotum raised to body & becomes
heavily wrinkled (reducing surface area & heat loss)
 warm temperature: scrotum hangs lower & skin
relaxes (increasing surface area & distance from the body
for cooling)
 Marieb & Hoehn 2010

 Dartos muscle: smooth muscle in superficial fascia
that wrinkles scrotal skin
 Cremaster muscle: skeletal muscle that arise from
internal oblique muscles of the trunk that elevate testes
 Lie within the scrotum

 ~4 cm long & 2.5 cm wide

 Primary function:
 produce sperm
 produce steroids
(androgens such as testosterone)

Marieb & Hoehn 2010
 Each testis is divided into lobules contains 1-4 tightly coiled
seminiferous tubules (site of spermatogenesis)
 Sperm pass from the seminiferous tubules through the rete
testis & into the efferent ducts of the epididymis
 In the epididymis, sperm undergo further maturation
(acquire motility & fertilization ability) & storage until ejaculation

Marieb & Hoehn 2010
 Marieb & Hoehn 2010

Sertoli cell

Leydig cells

 interstitial (Leydig) cells: produce androgens (testosterone)
 sustentacular (Sertoli) cells: support spermatogenesis
 spermatogonia, spermatocyte & spermatid: form sperm
 myoid cells: contract to move sperm & fluid through tubules
  Testicular arteries branch from the abdominal
aorta superior to the pelvis (37°C blood)
 Testicular veins arise from a network called the
pampiniform venous plexus (34°C blood)
 Cooler venous blood absorbs heat of arterial
blood before it enters testes
Marieb & Hoehn 2010 ram

Senger 2005
 Male copulatory organ – delivers
sperm into female reproductive tract

 Attached root & free shaft that ends
in an enlarged tip known as the
glans penis

 Loose fold of skin that covers the
glans penis is called the prepuce or
foreskin

Marieb & Hoehn 2010
Internal anatomy:
 spongy urethra: urinary &
ejaculatory duct
 corpus spongiosum: surrounds
urethra & extends from glans to
bulb of penis
 corpora cavernosa: paired dorsal
erectile bodies extends from base
of glans to crus of penis
Erection occurs when vascular Marieb & Hoehn 2010

spaces fill with blood
 Epididymis
 Ductus deferens (vas deferens)
 Ejaculatory duct
 Urethra

Marieb & Hoehn 2010
 Regions:
 caput (head)
 corpus (body)
 cauda (tail)

 Structure:
 highly coiled duct ~6 m
Marieb & Hoehn 2010
 pseudo-stratified epithelia with stereocilia

 Function:
 sperm maturation (acquisition of motility & fertilizing ability)
 sperm storage in cauda possible for several months
 sperm are ejaculated from the caudal epididymis not the testes
 Also called vas deferens

 ~45 cm long

 Runs upwards from the epididymis through
the inguinal canal into pelvic cavity
 Descends over the posterior bladder wall

 Terminal end expands to form the ampulla of
ductus deferens
 Finally joins with duct of the seminal vesicle to
form the ejaculatory duct
 Structure:
 mucosa: pseudo-stratified epithelium
 muscular layer: thick layers of smooth muscle

 Ejaculation:
 peristaltic waves of smooth muscle contraction
expel sperm into the urethra

What does vasectomy mean?
How does it work as an effective
form of contraception?
?
 Terminal portion of the male
duct system

 Conveys both urine & semen

 Three regions:
 prostatic urethra
 membranous urethra
 spongy urethra

 Mucosa contains scattered
urethral glands that secrete
mucus into the lumen just
before ejaculation Marieb & Hoehn 2010
 Seminal vesicles

 Seminal vesicles

 Prostate

 Bulbourethral glands Bulbourethral glands

Produce the bulk of
the seminal plasma

Marieb & Hoehn 2010
The Seminal Vesicles:
 Large hollow glands (~15 cm uncoiled)
 Outer fibrous capsule with thick inner layer of
smooth muscle (contracts during ejaculation)
 Secrete yellow viscous alkaline fluid containing
fructose, ascorbic acid, coagulating enzymes &
prostaglandins (enhance sperm motility/fertilization)
 Account for 70% of semen volume
The Prostate:
 Single doughnut-shaped gland that encircles the
urethra just inferior to the bladder
 Outer thick capsule containing 20-30 compound
tubulo-alveolar glands embedded in smooth
muscle & connective tissue
 Secretes milky acidic fluid containing citrate,
several enzymes & prostate specific antigen
(activates sperm)

 Account for up to 30% of semen volume

 Contraction of smooth muscle causes prostatic
secretions to enter the urethra
The Bulbourethral Glands:
 Inferior to the prostate

 Secretes a thick clear alkaline mucus
(neutralises traces of acidic urine in urethra prior to ejaculation)

Why would traces of urine be a
problem at ejaculation?

?
 Mixture of sperm, testicular fluid & accessory gland
secretions
 Function:
 transport medium for sperm
 provides nutrients & chemicals that protect & activate sperm
 facilitate sperm movement

 Components:
 Prostaglandins: stimulate contraction in female tract
(facilitates sperm uptake)
 Relaxin: enhances sperm motility
 Clotting factors: promote semen coagulation

Typical ejaculate is 2-5 ml of semen containing
15 – 150 x 106 sperm/ml (pH 7.2)