The lower urinary tract

Question 1

Where does urine travel once its been produced by the kidney?

Answer 1

• Tubular fluid travels through common collecting duct deep into inner medulla of kidney
• Tubular fluid exits collecting duct at tip of renal pyramid - also known as the renal papilla
• Minor and major calyces lead to renal pelvis
• Fluid deposition into renal pelvis stretches smooth muscle
• Distension triggers peristaltic contractions at hilus
• Fluid moves down ureter in pulses towards bladder for storage and controlled release

Question 2

What is A site of drug-induced nephrotoxicity?

Answer 2

renal papilla

A site of drug-induced nephrotoxicity – “renal papillary necrosis”

Question 3

Why is there no further modification to urine once it leaves the collecting duct?

Answer 3

Note: The is no further major modification of the tubular fluid in the lower urinary tract after leaving the kidney…

…the epithelium is impermeable to water and solutes

Question 4

What is the structure of the ureters?

Answer 4

• Tubes approximately 30 cm long
• Mucosal layer: transitional epithelium

– 3-8 cells thick, impermeable to urine

Question 5

What are the 3 layers of smooth muscle that make up ureters?

Answer 5

•Supported by layers of smooth muscle:

• inner: longitudinal muscle (L)
• outer: circular/spiral muscle (C)
• extra outer layer of longitudinal muscle

Question 6

What is the function of ureters?

Answer 6

• Dilation of renal pelvis generates action potential from pacemaker cells in hilum
• Peristaltic waves generated – between 1 to 6 per minute…

Question 7

Is the number of contractions of the ureter enhanced or inhibited by the autonomic nervous system?

Answer 7

• parasympathetic NS: enhanced
• sympathetic NS: inhibited

Question 8

What state is this ureter in?

Answer 8

Lumen shown above in relaxed state with folds…

…these dilate out when peristaltic wave and pulse of urine passes through ureter

Question 9

How do peristaltic contractions in the ureter work?

Answer 9

• Consist of successive waves of contractions and relaxation of longitudinal and circular smooth muscle:
• Longitudinal muscle contracts first followed by circular muscle relaxation (1)
• Longitudinal muscle then starts to relax allowing a bolus to form followed by circular muscle contraction which pushes against the bolus (2)
• Pattern of contraction is repeated resulting in slow but progressive movement of a pulse of urine along the ureter = PERISTALSIS

Question 10

What is peristalsis in ureters also known as?

Answer 10

•…also known as “vermiculation” like what earthworms do

Question 11

How do ureters enter the bladder?

Answer 11

• Ureters attach to posterior wall of urinary bladder
• Pass through bladder wall at oblique angle for 2-3 cm into bladder…

…ureteral openings are slit-like rather than rounded

• together this helps prevent backflow of urine up ureters during contraction of bladder

Question 12

Answer 12

Question 13

What is the bladder?

Answer 13

•A hollow muscular organ, consisting of fundus (body) and neck

Question 14

What are the 2 layers of the bladder?

Answer 14

• Outer “Detrusor” Muscle layer - consists of longitudinal, circular/spiral muscles
• Inner Mucosal layer:
• transitional epithelium
• folded into “rugae” when bladder empty
• highly elastic – expands as bladder fills

Question 15

What is the trigone?

Answer 15

•Triangular area bounded by openings of ureters and entrance to urethra…

…acts as a funnel to channel urine towards neck of bladder

Question 16

What is the function of the bladder?

Answer 16

• Temporary storage of urine
• Up to 1 L capacity
• Stimulated to contract by parasympathetic NS

Question 17

The urinary bladder is guarded by which two sphincters?

Answer 17

Internal urethral sphincter

• Loop of smooth muscle
• Convergence of detrusor muscle
• Under involuntary control
• Normal tone keeps neck of bladder and urethra free of urine

External uretheral sphincter

• Circular band of skeletal muscle where urethra passes through urogenital diaphragm
• Acts as a valve with resting muscle tone
• Under voluntary control
• Voluntary relaxation permits micturition

Question 18

The _____ in both sexes marks the end of the urinary tract:

Answer 18

The urethra in both sexes marks the end of the urinary tract:

Question 19

What are the features of the female urethra?

Answer 19

• Opens via external urethral orifice located between clitoris and vagina
• Shorter urethra in females - more susceptible to UTIs
• External sphincter not as well developed - incontinence following childbirth due to injury

Question 20

What are the features of the male urethra?

Answer 20

• Urethra passes through prostrate gland and through uro-genital diaphragm and penis
• Longer urethra compared to females provide some protection against UTIs

Question 21

Name 2 pathologies of the prostate

Answer 21

-Prostate gland enlarges in

50% of males >60 yrs

(along with hypertrophy of detrusor muscle)

• may require surgical or hormone treatment
• Prostate cancer – one of the commonest cancers affecting older men (death rate ~ 3%)

Question 22

What are the 2 stages of emptying the bladder?

Answer 22

(1) Bladder progressively fills until pressure within bladder reaches a threshold level…
(2) …this elicits the “micturition reflex” which produces a conscious desire to urinate or eventual emptying of the bladder

Question 23

What does Micturition mean?

Answer 23

Urination

Question 24

The micturition reflex is an _________ reflex which is

(i) inhibited by what
(ii) facilitated by what

Answer 24

The micturition reflex is an autonomic reflex which is

(i) inhibited by higher centres in the brain and
(ii) facilitated by cortical centres in the brain:

Question 25

What are the 3 steps in the micturition reflex?

Answer 25

Higher centres keep the micturition reflex under inhibition - prevents micturition by stimulating continual tonic contraction of the external sphincter

Cortical centres facilitate urination by initiating the micturition reflex and relaxing the external sphincter

Internal sphincter relaxes at the same time and urination occurs

Question 26

What happens to micturition reflexes as the bladder fills?

Answer 26

• Bladder fills at 1 mL/min at normal levels of hydration
• As bladder fills, (intravesical) pressure increases
• Partially full bladder: contractions relax spontaneously after a few seconds
• Increasingly full bladder: contractions more frequent, intense and last longer

Question 27

What are micturition contractions?

Answer 27

– these are periodic reflex contractions of short duration which occur above approximately 200 mL urine volume

Question 28

What does this graph show?

Red solid line -

Red broken lines -

Answer 28

• Red solid line = normal intrinsic tone of bladder wall (detrusor muscle)
• Red broken lines = pressure peaks (micturition contractions or waves)

Question 29

What sensations would you feel at each arrow?

Answer 29

Question 30

Label the nerve

Answer 30

Question 31

Which nerves inhibit and stimulate micturition?

Answer 31

Micturition is inhibited by activity in the hypogastric and pudendal nerves

It is facilitated by activity in the pelvic nerves

Question 32

How does the guarding reflex promote continence?

Answer 32

During bladder filling:

• Progressive bladder distension stimulates the pelvic nerve via activation of stretch receptors in bladder wall and internal sphincter (1)
• Activation of the pelvic nerve leads to stimulation of the hypogastric nerve
• Hypogastric nerve stimulation causes:

(i) relaxation and reduced excitability of the bladder detrusor muscle (2)
(ii) constriction of the internal sphincter (3)

•Also, the external sphincter is held closed by pudendal nerve (4)

Question 33

How does the micturition reflex coordinate the process of micturition?

Answer 33

• Stretch receptors in bladder continue to stimulate the pelvic nerve
• Stimulation of the pelvic nerve also causes:

(i) contraction of the detrusor muscle (1)
(ii) relaxation of the internal sphincter (2)

• Periodic reflex micturition contractions are also stimulated above 200 mL. These relax spontaneously after a few seconds
• These micturition contractions continue to be stimulated and relax but at > 300 mL bladder contractions begin to predominate
• Full bladder sensation conveyed to thalamus and then to cerebral cortex. Desire to urinate starts to increase…
• At appropriate time, voluntary relaxation of external sphincter occurs via pudendal nerve. Micturition occurs, aided by lowering of diaphragm, contraction of abdominal muscles and opening of internal sphincter

Question 34

What is paraplegia?

Answer 34

•Paraplegia: complete severing of nerve inputs from cerebral cortex (1)

–Mictuiation reflexes return, but without cortical control

–Periodic but unannounced bladder emptying – “Automatic bladder”

Question 35

What effect would partial spinal cord damage with loss of inhibitory descending signals have on urination?

Answer 35

•Partial spinal cord damage with loss of inhibitory descending signals (2)

–Frequent urination as excitatory impulses from cerebral cortex remain unopposed

–Known as “Uninhibited bladder”

Question 36

What effect would crush injury of the dorsal route have on urination?

Answer 36

•Crush injury of dorsal roots (3)

–Afferent nerve destruction - micturition reflexes lost despite complete efferent system

–Bladder fills to capacity and overflows dropwise - “overflow incontinence”

Known as “Atonic bladder”

Question 37

How is urination different in infants?

Answer 37

Infants lack voluntary control over urination until corticospinal connections are established

Question 38

What are the 3 problems with the micturition reflex?

Answer 38

(1) Control of micturition can be lost due to:
- stroke injury, Alzheimer’s disease, problems affecting cerebral cortex or the hypothalamus (e.g. a brain tumour)
(2) Bladder sphincter muscles can lose tone (e.g. after pregnancy): leading to urinary incontinence
(3) Urinary retention may develop in males if enlarged prostate gland compresses the urethra and restricts urine flow

Question 39

What are the functional classifications of micturition issues?

Answer 39

Failure to store urine = incontinence

Failure to empty bladder = retention

• Due to bladder dysfunction
• Due to problem with outlet of urine

Question 40

What are the 3 main types of urinary incontinence?

Answer 40

•Loss of sensory nerves – due to injury

–Bladder fills to capacity

–No signals from stretch receptors in bladder

–Overflow incontinence occurs (Atonic bladder)

•Involuntary bladder contractions – due to injury

–Urge incontinence or increased frequency

•Heightened urge incontinence – sensitive bladder

–Spicy food (capsaicin)

–Caffeine/chocolate (xanthines)

–Citrus fruits (citric acid)

–Carbonated beverages (sugar, sweeteners)

–Excitement or even laughter :-D

Question 41

_____ released by the Pelvic Nerve promotes micturation (bladder emptying)

Answer 41

ACh released by the Pelvic Nerve

promotes micturation (bladder emptying)

Question 42

How does ACh promote incontinence?

Answer 42

Detrusor muscle contraction

Involuntary sphincter relaxation

Question 43

How can anticholinergics be used to promote urinary continence and name an example?

Answer 43

Actions: - inhibit bladder contractions

• facilitates involuntary contraction of internal bladder sphincter

Examples: OXYBUTININ

Question 44

What are the unwanted effects of anticholinergics?

Answer 44

Unwanted effects: Dry mouth, blurred vision, palpitations, drowsiness, facial flushing (Atropine-like)

Question 45

How can tricyclic antidepressants be used to promote urinary continence?

Answer 45

Tricyclic antidepressants, e.g. IMIPRAMINE can be used at low doses for short-term treatment for nocturnal enuresis in children > 10 years but can have side effects, e.g. behaviour problems on withdrawal

Mechanisms: - anticholinergic and direct muscle relaxant effects on the bladder but also inhibits re-uptake of noradrenaline and serotonin increasing their levels

Question 46

Name 3 other drugs which can promote urinary continence?

Answer 46

DULOXETINE also increases serotonin and noradrenaline levels – for moderate to severe stress urinary incontinence

DESMOPRESSIN (ADH analogue) – also useful in children for nocturnal bed-wetting

MIRABEGRON – selective b3 receptor agonist – useful for overactive bladder syndrome

Question 47

Which bladder drug is possibly linked to dementia?

Answer 47

Oxybutynin

Question 48

How is acute and chronic urinary retention treated?

Answer 48

•Acute urinary retention

–Catheterisation

–Surgery

•Chronic urinary retention

–Pharmacological intervention

Surgery

Question 49

_____ released by the Hypogastrc Nerve

reduces micturation (promotes retention)

Answer 49

NA released by the Hypogastrc Nerve

reduces micturation (promotes retention)

Question 50

Where is the site for urinary retention drugs action?

Answer 50

Question 51

Answer 51

Question 52

Answer 52

Question 53

Name 2 other urinary retention drugs

Answer 53

Neostigmine, Pyridostigmine – inhibit breakdown of acetylcholine – also promote incontinence (bladder emptying)

Finasteride, Dutasteride are inhibitors of androgen synthesis (5α–reductase inhibitors) - useful for relieving urinary retention caused by prostate hyperplasia