7.1 Coitus and Fertilisation

Question 1

Where are sperm produced?

Answer 1

Seminiferous tubules of testes

Question 2

What are the main constituents of sperm?

Answer 2

60% from seminal vesicles:

• Alkaline fluid (neutralise urethra acid)
• Fructose (ATP)
• Prostaglandins (Increased motility)
• Clotting factors (coagulation agent)

20% prostate:

• Proteolytic enzymes
• Citric acid (ATP)
• Zinc
• Phosphatase

2-5% Sperm
200-500 million

5% bulbourethral (Cowper’s) glands
- Mucous for lubrication
Alkali - netralise acid in distal urethra

Question 3

What is assessed in semen analysis?

Answer 3

Volume (2-4ml)
Sperm count (200-500 million)
Motility
Morphology

Question 4

What is emission? Nervous system involved?

Answer 4

Movement of ejaculate in prostatic urrethra before ejaculation.
Due to vas deferens perstalsis and sminal vesicle secretion.

Sympathetic (thoracolumbar)

Question 5

Describe what occurs in emission.

Answer 5

Stimulation of thoracolumbar sympathetic reflex
Contracitno fo smooth muscle in ductus deferens ampulla, seminal vesicles and prostate.
Internal and external urethras contract.
Semen is pooled in urethral bulb.

Question 6

What are the phases of coitus?

Answer 6

Excitement
Plateau
Orgasmic
Resoluation

Question 7

Stimulation of what nerves cause erection? NS?

Answer 7

Somatic an autonomic efferents
Limbic system
Pelvic nerve (parasympathetic)
Pudendal nerve (somatic)

Parasympathetic NS

Question 8

Describe the physiological process in erection of penis.

Answer 8

Inhibition of sympathetic arterial vasoconstrictor nerves.
Activation of parasympathetic NS - pelvic nerve
Increase in parasympathetic stimulation
ACh –> M3 receptors on endothelium
Rise in Ca2+
Activation of Nitric Oxide Synthase
Formation of NO
NO diffuses into and causes relaxation of vascular smooth muscle - vasodialtion
Increased NO
Increased formation of cGMP
Ca2+ taken up into intracellular stores
Reduced Ca2+ leads to less actin-myosin cross bridges -> SM relaxes

Blood fills copra cavernosa helicine arteries when they straighten.
Blood –> cavernous spaces in the corpora of the penis
Corpus spongiosum dilates but not as much.

Bulbospongiosus and sichiocavernosus muscles compress veins egressing from corpora cavernosa, impeding venous return.

Corpa cavernosa becoem engorged causing erectile bodies to become turgid and erection occurs.

Question 9

What factors cause erectile dysfunction?

Answer 9

Psychological:
Descending inhibition of spinal reflexes

Tears in fibrous tissue of corpora cavernosa

Vascular:
Arterial and venous
(Most common)

Factors blocking NO
Alcohol
Diabetes
Anti-hypertensives

Endocrine
Diabetes
NEuro

Question 10

How does viagra work??

Answer 10

Inhibits breakdown of cGMP, increasing penile blood flow and maintaining erection.

Question 11

What happens in the male plateau phase?

Answer 11

Activation of sacrospinous reflex
Contraction of ischiocavernosus (compression of crus penis impedes venous flow0
Venous engorgement
Rise in intracavernosus pressure –> Decreased arterial inflow.
Stimulation of secretion from accessory glands.

Question 12

What NS and roots cause ejaculation?

Answer 12

Spinal reflex
SNS
L1, L2

Question 13

What occurs in ejaculation?

Answer 13

1. Contraction of glands and duct smooth muscle
2. Bladder internal urethral sphincter contracts to prevent semen entering bladder.
3. Rhythmic contractions of striatal muscles:
   Filling of the internal urethra stimulates pudendal nerve –> contrition of genitals and pelvic floor, ischiocavernosus, bulbospongiosus, hip, anal muscles.
4. Explsion of semen.

Question 14

What occurs in male resolution?

Answer 14

Activation of thoracolumbar sympathetic pathway.
Contraction of smooth arteriolar muscle in corpora cavernosa.
Increased venous return
Detumescence and falccidity

Followed by refractory period.

Question 15

What is the physiological process in the female excitement phase?

Answer 15

Inhibition of sympathetic stimulation.
Parasympathetic stimulation via pelvic nerve leading to vasocongestion and vaginal lubrication.
Clitoris engorges with blood
Swelling and engorgement of external genitalia.
Internal enlargement of vagina
Uterus elevates
Increase muscle tone, heart rate and BP
Cervical mucus

Question 16

What is the function of cervical mucous? How does this change with hormones?

Answer 16

Facilitates sperm survival and transport:
Alkalinity and low viscosity.
Oestrogen - abundant, clear, non-viscous
O&P - thick, sticky mucous plug. Prevent sperm entry

Question 17

What is the most common form of sexual dysfunction?

Answer 17

Arousal

Question 18

Describe the types of arousal dysfunction.

Answer 18

Hypoactive - little interest in sex
Aversion - revulsion or fear of sex
Hyperactive
Nymphomaniac
Persistent recurrent inability to attain or maintain lubrication.

Question 19

Describe what occurs in the female plateau phase.

Answer 19

Further increase in muscle tone, heart rate and BP.
Clitoris withdraw under hood
Bartholin’s gland secretion lubricates vestibule
Uterus elevated.
Outer 1/3 vagina forms orgasmic platform.

Question 20

Describe the female orgasm

Answer 20

Orgasmic platfor (lower 1/3 of vagina) contracts rhythmically 3-15 times.
Uterus contracts, anal sphincter contracts
Clitoris udner hood
No refractory period.

Question 21

Describe the female resolution phase.

Answer 21

Clitoris descends
Labia return to unaroused size and colour
Uterus descends
Vagina shortens and narrows back to unaroused state.
Breasts reduce in size, reduced size of areola

Question 22

What are the changes in coitus with age in females?

Answer 22

Reduced desire.
Reduced vasocongestion response
Vaginal and urethral tissue lose elasticity.
REduced expansion of vagina
More rapid resolution.

Question 23

What happens following deposition of sperm in vagina?

Answer 23

Seme coagulates due to clotting factors from seminal vesicles.
This prevents sperm being physically lost.
10-20 minutes later it reliquaries by the action of proteolytic enzymes from prostate.

Most sperm do not enter the cervix and are lost by leakage.
Ones that do travel 15-20cm tot he uterine tube.

Question 24

What leads to transport of sperm

Answer 24

Their own propulsive capacity

Fluid currents caused by action of ciliated cells in uterine tract.

Question 25

What must sperm penetrate to get to the ovum?

Answer 25

Corona radiate (follicular cells)
Zona pellucida (glycoprotein shell)

Question 26

What causes capacitation and acrosomal reaction?

Answer 26

Influx of Ca2+ and rise in cAMP in spermatozoa.

Question 27

What is capacitation? How do sperm change?

Answer 27

• Further maturation of sperm in female reproductive tract (6 – 8 hours)
• Newly ejaculated spermatozoa cannot fertilise an oocyte until this has occurred – usually in the female genital tract but can be in vitro.
• Takes several hours
• Sperm cell membrane changes to allow fusion with oocyte cell surface
o Removal of glycoprotein coat
• Tail movement changes
o Beat → Whip-like action
• Sperm become responsive to signals from the oocyte

Question 28

Describe the acrosome reaction.

Answer 28

• Capacitated sperm comes into contact with the oocyte zona pellucida
• Membranes fuse = Start of reaction
o Proteins on sperm head bind to ZP3 proteins on zona pellucida
• Acrosome swells and liberates its contents by exocytosis
• Proteolytic enzymes and further binding facilitate penetration of the zona pellucida by the sperm (takes about 15 minutes)
• Once sperm penetrates: fusion of plasma membrane of spermand egg
• Sperm moves in to cytoplasm: sperm and oocyte → zygote
• Polyspermy blocked (cortical reaction)

Question 29

Site of fertilisation?

Answer 29

Ampulla of uterine tube

Question 30

What happens following the penetration of a sperm into the cytoplasm of an ovum?

Answer 30

Nuclei fuse forming zygote.

Prevention of other sperm entering to ensure that the zygote contains diploid chromosomes.

Question 31

What are the blocks to polyspermy?

Answer 31

Fast block

Slow block

Question 32

Describe fast block to polyspermy

Answer 32

Electrical change in oocyte membrane
Na channels open
Wave of depolarisation at site of sperm entry, propagating along cytoplasm.

Question 33

Describe slow block to polyspermy

Answer 33

Ca released from ER induces local exocytosis of cortical granules.
granules release enzymes to stimulate adjacent cortical granules to undergo exocytosis.
Wave of exocytosis occurs around oocyte in 2 dimensions front he origin site of sperm entry.

Question 34

What is polyploidy?

Answer 34

EMbryo containing three or more pronuclei.

Entry of more than one sperm of failure of extrusion of second polar body.

Question 35

What happens following fertilisation?

Answer 35

Zygote divides by mitosis in cleavage to form morula, which hollows to form blastocyst (trophoblast and epiblast).
Cleavage generates a large number of cells that can undergo differentiation and gastrulation.
Increase in nuclear:cytoplasmic ration,
It is gradually transported along the uterine tube.

Blastocyst is imbedded in endometrium in implatation.
Dependent in invasive property of trophoblast, which now has syncytiotrophoblast.

Question 36

What causes ectopic pregnancy

Answer 36

Failure of transport of morula into uterus
Implanttaion in fallopian tube, ovary or peritoneal cavity.
Embryo dies
Risk of maternal haemorrhage.