Physiology of Micturition and Assessment of Renal Function Urea Creatinine and GFR

Question 1

Why is it important to be able to assess renal function?

Answer 1

It has a central role in homeostasis

Question 2

What are 2 clinical situations where ability to measure GFR is particularly useful?

Answer 2

• Patients with renal disease, progression of underlying disease leads to nephron destruction and decreased nephron function
  
  • Total GFR = sum of all filtration by functioning nephrons so progression of disease is indicated by reduction in GFR
• Many drugs (such as digitalis and many antibiotics) are removed by excretion by filtration
  
  • When GRF falls excretion falls so [drug] in plasma may rise causing toxicity, therefore may need to adjust disease appropriate to decrease in renal function

Question 3

What is the total GFR made from?

Answer 3

Sum of all filtration by functioning nephrons

Question 4

What can happen when GFR falls in terms of drugs?

Answer 4

[Drug] in plasma may rise causing toxicity, therefore may need to adjust disease appropriate to decrease in renal function

Question 5

What test is done to measure renal function?

Answer 5

Plasma renal tests

Question 6

What substance is used to measure rnal function in plasma clearance tests?

Answer 6

Various substances, not just one

Question 7

In plasma clearance tests, what does clearance relate to?

Answer 7

Volume of plasma cleared not the quantity of subtance removed from plasma

Question 8

What formula describes plasma clearance?

Answer 8

Question 9

What is the gold standard for performing and plasma clearance test?

Answer 9

• Insulin clearance, polyfructose, loading IV dose of insulin, allow time to equilibrate, then sample simultaneously plasma and urine (during a timed urine sample)

Question 10

Why is insulin clearance a good measure of GFR?

Answer 10

Insulin if freely filtered at the glomerulus and neither reabsorbed nor secreted, it is not metabolised by the kidney nor does it interfere with normal renal function so insulin clearance is a measure of GFR:

Question 11

How does the clearance of substances filtered and resborbed compare to insulin?

Answer 11

Lower clearance, because [UX] will be less than if only filtered and [PX] higher

Question 12

How does the clearance of substances filtered and secreted compare to insulin?

Answer 12

• a higher clearance than because [U_X] will be higher and [P_X] lower

Question 13

In the formula for plasma clearance of x, what is U_x?

Answer 13

Urine concentration of x

Question 14

In the formula for plasma clearance of x, what is V?

Answer 14

Urine flow rate

Question 15

In the formula for plasma clearance of x, what is P_x?

Answer 15

Plasma concentration of x

Question 16

What is the normal GFR in ml/min?

Answer 16

125ml/min

Question 17

Why are GFR values in woman lower than in men?

Answer 17

GFR correlates with surface area, which woman generally have less of in their kidneys

Question 18

How does GFR change with age?

Answer 18

• GFR declines by about 1ml/min/year after 30

Question 19

How does the GFR of woman compare with men?

Answer 19

About 10% lower

Question 20

What is used to clinical practice to measure GFR?

Answer 20

51Cr-EDTA

In clinical practice insulin is no longer used because too cumbersome (large and heavy), 51Cr-EDTA is used instead, is a radioactive substances handled by kidney in the same way as insulin:

• Its now considered that GFR is usually too complex and expensive to measure
• Takes several hours and requires injection of isotope 51Cr EDTA

Question 21

Why is insulin no longer used in clinical practive to measure GFR?

Answer 21

Too cumbersome (large and heavy)

Question 22

Is GFR often measured clinically?

Answer 22

No, it is now considered to usually be too complex and expensive to measure

eGFR is measured instead

Question 23

What is usually used to estimate GFR?

Answer 23

Creatinine clearance

Question 24

What is creatinine the breakdown product of?

Answer 24

Muscle creatine

Question 25

What is a big caution when using creatinine as an estimate for GFR?

Answer 25

Is not a linear relationship

Question 26

What is the estimated GFR form creatinine written as?

Answer 26

eGFR

Question 27

What are some factors affecting serum creatinine?

Answer 27

• Muscle mass
  
  • Athletes vs malnutrition
• Dietary intake
  
  • Creatine supplements vs vegetarians
• Drugs
  
  • Some lead to spurious increases as does ketoacidosis

Question 28

Why is using creatinine to measure GFR flawed?

Answer 28

There are some other factors that impact serum creatinine, thats why it is an estimate of GFR

Question 29

What is the universal expression for normal GFR?

Answer 29

About 100ml/min/1.73m²:

• Ie across range of adults and sexes, for kidney function and size, so may be expressed as a percentage of normal

Question 30

What is the clearance of glucose?

Answer 30

0 because all of it is normally reabsorbed

Question 31

How does the clearance of urea compare to insulin?

Answer 31

Is less than insulin because some of urea is reabsorbed

Question 32

What does PAH stand for?

Answer 32

Para-amino-hippuric acid

Question 33

What is para-amino-hippuric acid (PAH)?

Answer 33

An organic anion

Question 34

What is used to measure real plasma flow?

Answer 34

Para-amino-hippuric acid (PAH)

Question 35

What does RPF stand for?

Answer 35

Real plasma flow

Question 36

Why is PAH used to measure RPF?

Answer 36

• Freely filtered a the glomerulus
• Then remaining PAH in plasma is actively secreted into the tubule
• So that >90% of plasma is cleared of its PAH content in one transit of the kidney

Question 37

What is the normal renal plasma flow?

Answer 37

660mls/min

Question 38

How does the clearance of penicillin compare to insulin?

Answer 38

Greater clearance than insulin because filtered and secreted

Question 39

What is the renal handling of x, when for x filtration is greater than excretion?

Answer 39

Question 40

What is the renal handling of x, when for x excretion is greater than filtration?

Answer 40

Question 41

What is the renal handling of x, when for x filtration and excretion are the same?

Answer 41

Question 42

What is the renal handling of x, when for x clearance is less than insulin clearance?

Answer 42

Question 43

What is the renal handling of x, when for x clearance is equal to insulin clearance?

Answer 43

Question 44

What is the renal handling of x, when for x clearance is greater than insulin clearance?

Answer 44

Question 45

What causes urine to flow from the kidneys to the ureters?

Answer 45

Peristaltic contraction of smooth muscle of ureters

Question 46

At what angle to the ureters enters the bladder?

Answer 46

Oblique angle

Question 47

Why do the ureters enter the bladder at an oblique angle?

Answer 47

Prevent reflux of urine

Question 48

Does the composition of urine change once it leaves the kidney?

Answer 48

No, the bladder only stores it

Question 49

What is the bladder?

Answer 49

Bladder is a bag of smooth muscle, arranged in spiral, longitudinal and circular bundles:

• These muscles are known as detrusor muscle
• Contraction is mainly responsible for emptying the bladder during micturition

Question 50

What are the muscles of the bladder known as?

Answer 50

Detrusor muscle

Question 52

What is contraction of the detrusor muscles responsible for?

Answer 52

Mainly responsible for emptying the bladder during micturition

Question 53

What sphincters are present in the urinary tract?

Answer 53

Two sphincters:

• Internal urethral “sphincter”
  
  • Is not a true sphincter, but is where smooth muscle at the start of urethra acts as a sphincter when the smooth muscle is relaxed
• External urethral sphincter
  
  • Is a true sphincter, made up of skeletal muscle under voluntary somatic control

Question 54

Which of the 2 sphincters of the urinary tract is not a true sphincter?

Answer 54

• Internal urethral “sphincter”
  
  • Is not a true sphincter, but is where smooth muscle at the start of urethra acts as a sphincter when the smooth muscle is relaxed

Question 55

Is the smooth muscle relaxed or contracted when the internal urethral sphincter prevents flow of urine?

Answer 55

Relaxed

Question 56

Is the external urethral sphincter made up of skeletal or smooth muscle?

Answer 56

Skeletal muscle

Question 57

Is the internal urethral sphincter made up of skeletal or smooth muscle?

Answer 57

Smooth muscle

Question 58

What is the bladder overlain with?

Answer 58

Peritoneum

Question 59

What does the bladder lie posterior and anterior to?

Answer 59

• In midline posterior to pubic bones
• Anterior to reproductive system and rectum

Question 60

Is the bladder formed from skeletal or smooth muscle?

Answer 60

Smooth muscle (Detrusor muscle)

Question 61

What classification of epithelium is present in the bladder?

Answer 61

Transitional epithelium

Question 62

What is the trigone of the bladder?

Answer 62

Smooth triangular region formed by two ureteric orifices and internal urethral orifice

Question 63

Does urethral obstruction cause bilateral or unilateral renal problems?

Answer 63

Bilateral

Question 64

Does ureter obstruction cause bilateral or unilateral renal problems?

Answer 64

Unilateral

Question 65

What is the shape of the pressure-volume curve of the bladder?

Answer 65

Pressure-volume curve of the bladder has a characteristic shape:

• Long flat segment as initial increments of urine enter the bladder
• Then sudden sharp rise as the micturition reflex is triggered

Question 66

What is the pressure-volume curve of the bladder known as?

Answer 66

Cystometrogram

Question 67

What is normal daily urine production?

Answer 67

Varies between 750ml-2500ml in temperature climates

Question 68

How is the bladder controlled in a relaxed state?

Answer 68

Tonic CNS input:

• internal sphincter is pasively contracted
• external sphincter stays contracted

Question 69

Explain the motor innervation for micturation?

Answer 69

• Rich parasympathetic supply (pelvic nerves)
  
  • Increase in activity causes increase in contraction of detrusor muscle
  • This increases pressure in bladder
  • From S2-S4
• Sparse sympathetic supply
  
  • Hypogastric nerves
  • Inhibit bladder contraction and closes internal urethral “sphincter”
  • Sympathetic supply is not very important to bladder function but cutting the hypogastric nerve increases frequency of micturition
  • Main function is to prevent reflux of semen into the bladder during ejaculation
  • Controlled by nerves L1-L3
• Somatic motoneurons
  
  • Pudendal nerves

Question 70

What does the parasympathetic supply to the bladder cause?

Answer 70

Increase in contraction of detrusor muscles, increasing pressure in the bladder

Question 71

From what spinal levels does the parasympathetic supply to the bladder come from?

Answer 71

S2-S4

Question 72

What are the nerves called that give the sympathetic supply to the bladder?

Answer 72

Hypogastric nerves

Question 73

What is the action of sympathetic supply on the bladder?

Answer 73

Inhibit bladder contraction and closes internal urethral sphincter

Question 74

What happens when you cut the hypogastric nerve?

Answer 74

Increases frequency of micturition

Question 75

What is the main function of the sympathetic supply to the bladder?

Answer 75

L1-L3

Question 76

What spinal levels controls the sympathetic supply to the bladder?

Answer 76

L1-L3

Question 77

What are the somatic motoneurons to the bladder called?

Answer 77

Pudendal nerves

Question 78

What do the somatic motoneurons (pudendal nerves) to the bladder do?

Answer 78

• Innervate skeletal muscle that forms external urethral sphincter, keeping the sphincter closed even against strong bladder contracts

Question 79

What spinal levels control the somatic motoneurons to the bladder?

Answer 79

S2-S4

Question 80

How is sensory innervation received from the bladder?

Answer 80

• Stretch receptor afferents from bladder wall, as bladder fills discharge in afferent nerves to spinal cord increases via interneurons, this causes
  
  • Excitation of parasympathetic outflow
  • Inhibition of sympathetic outflow
  • Inhibition of somatic motoneurons to external sphincter
  • Pathways to sensory cortex to create sensation of fullness

Question 82

What does the discharge in afferent nerves from the bladder to the spinal cord via interneurons cause?

Answer 82

• Excitation of parasympathetic outflow
• Inhibition of sympathetic outflow
• Inhibition of somatic motoneurons to external sphincter
• Pathways to sensory cortex to create sensation of fullness

Question 83

What can micturition be described as in terms of nervous control?

Answer 83

Spinal reflex that may or may not be influenced by higher centres

Question 84

What happens to nerves as the bladder becomes filled?

Answer 84

As bladder fills becomes distended and stretch receptors are increasingly stimulated until output becomes great enough to cause bladder contraction via:

• Stimulation of parasympathetic
• And relax the external sphincter by inhibiting the somatic motoneurons

Question 85

Why do babies pee themselves?

Answer 85

In “leaky” babies the micturition reflex operates at this level because higher brain connections have to be established:

• Also the case in adults with spinal transection after initial period of spinal shock

Question 86

What is the volume of urine required to inititate the spinal reflex for micturition in adults?

Answer 86

About 300-350mls

Question 87

How is delay of micturition accomplished?

Answer 87

Delay is accomplished by descending pathways from many brain centres, including cortex and brainstem which:

• Inhibit parasympathetic
• And stimulate somatic nerves to external sphincter thus overriding the input from bladder stretch receptors

Question 88

What odes voluntary initiation of micturition involve?

Answer 88

Voluntary initiation involves descending pathways which:

• Stimulate parasympathetic and inhibit somatic motor neurons thus summating with the stretch receptor affects

Question 89

What is one of the initial events in micturition that may be sufficient on its own to intiate contraction of the detrusor muscles?

Answer 89

Relaxation of the pelvic floor muscles which may provide sufficient downward tug on the detrusor muscle to intitate its contraction

Question 90

What can be contracted voluntarily to prevent urine flow once urination has began?

Answer 90

Parineal muscles and external sphincter

Question 91

What happens to urine left over in males and females after urination?

Answer 91

Female urethra empties by gravity

Urine in male urethra is expelled by contraction of bulbocavernous muscle

Question 92

What are abnormalities of micturition usually due to?

Answer 92

Neural lesions

Question 93

What are the 3 major types of abnormalities of micturition due to neural lesions?

Answer 93

• Interruption of afferent nerves
• Interruption of both afferent and efferent nerves
• Interruption of facilitatory and inhibitory descending pathways from the brain

Question 94

What happens in all 3 major types of abnormal micturition due to neural lesions?

Answer 94

• In all 3 types the bladder contracts but the contractions are generally insufficient to empty the bladder completely and urine is left in the bladder

Question 95

What does paraplegic mean?

Answer 95

Impairment in motor or sensory function of lower limbs

Question 96

How can paraplegic patients initiate voiding themselves?

Answer 96

Some have trained themselves to initate voiding by pinching or stroking their thights, which is a mild mass reflex