Genitourinary Systems

Question 1

What are the functions of the kidney?

Answer 1

Excretion of metabolic products and foreign substances
Regulation of body fluids, acid-base regulation and electrolytes
Control of Blood Pressure
Secretion of Hormones

Question 2

What metabolic products does the kidney excrete?

Answer 2

Urea, Uric acid, Creatinine

Question 3

What foreign substances does the kidneys excrete?

Answer 3

Drugs

Question 4

What hormones does the kidney secrete?

Answer 4

Erythropoietin, Renin

Question 5

Why does the medulla have a striated appearance?

Answer 5

Due to the loops of Henle extending into the medulla

Question 6

Why does the cortex of the kidney have a granular appearance?

Answer 6

Due to other components of the nephron other than the loops of Henle

Question 7

Describe the blood vessels which blood passes into the kidney and out the kidney by?

Answer 7

Renal Artery
Segmental Artery
Interlobar Artery
Arcuate Artery
Interlobular Artery
Afferent Arteriole
Glomerular Capillaries
Efferent Arteriole
Peritubular Capillaries
Interlobular Vein
Arcuate Vein
Interlobar Vein
Renal Vein

Question 8

After the bowmans capsule, describe the passage of the urine?

Answer 8

Filtrate into the Proximal Convoluted tubule
Loop of Henle
- Thin Descending loop of Henle
- Thin Ascending loop of Henle
- Thick Ascending loop of Henle
The Distal Convoluted Tubule
Collecting Duct

Question 9

What is the purpose of the detrusor muscle?

Answer 9

To contract and build pressure in the urinary bladder to support urination

Question 10

Where is the trigone found?

Answer 10

At the base of the bladder, near the ureteric opening

Question 11

What does the trigone do?

Answer 11

Stretching of the triangular region of the trigone signals the brain about the need for urination

Question 12

What does the bulbourethral gland do?

Answer 12

Produces thick lubricant which is added to watery semen to promote sperm survival

Question 13

What type of muscle is the internal sphincter?

Answer 13

Smooth muscle

Question 14

What type of control is the internal sphincter under?

Answer 14

Involuntary control

Question 15

What type of control is the external sphincter under?

Answer 15

voluntary control

Question 16

What type of muscle is the external sphincter?

Answer 16

Striated muscle

Question 17

Where is the external sphincter muscle found?

Answer 17

Surrounding the urethra

Question 18

What are the two types of cells found in the collecting duct?

Answer 18

Principal cells and intercalated cells

Question 19

How does the mitochondrial density differ between the principal and intercalated cells?

Answer 19

Principal = low density of mitochondria

Intercalated = rich in mitochondria

Question 20

What is the mitochondrial density of the epithelial cells in the proximal convoluted tubule?

Answer 20

Rich in mitochondria

Question 21

What is the mitochondrial density of the epithelial cells in the distal convoluted tubule?

Answer 21

rich in mitochondria

Question 22

What is the mitochondrial density of the epithelial cells in the thin descending Loop of Henle?

Answer 22

Low density of mitochondria

Question 23

What is the mitochondrial density of the epithelial cells in the thin ascending Loop of Henle?

Answer 23

Low in mitochondria

Question 24

What is the mitochondrial density of the epithelial cells in the thick ascending Loop of Henle?

Answer 24

rich in mitochondria

Question 25

What are the two types of nephron?

Answer 25

Superficial and juxtamedullary nephrons

Question 26

What is the difference between the superficial and juxtamedullary nephrons?

Answer 26

Superficial - loop of Henle only extends into the outer medulla, not inner

Juxtamedullary - loop of Henle extends further into the inner medulla, and the glomeruli lie closer to the border between the medulla and the cortex

Question 27

What is the ratio of superficial to juxtaglomerular?

Answer 27

10:1

Question 28

What are the constituents of the juxtaglomerular apparatus?

Answer 28

Macula densa
Extraglomerular mesangial cells
Juxtaglomerular cells

Question 29

Where is the macula densa found?

Answer 29

In the distal convoluted tubule

Question 30

Where are the juxtaglomerular cells found?

Answer 30

In the afferent arteriole

Question 31

Which cells are involved in renin secretion?

Answer 31

Juxtaglomerular cells

Question 32

What is the function of the macula densa?

Answer 32

GFR regulation through tubulo-glomerular feedback mechanism.

Question 33

What are the four renal processes which can occur?

Answer 33

Glomerular filtration, reabsorption, secretion, excretion

Question 34

What is meant by glomerular filtration being a passive process?

Answer 34

Fluid is ‘driven’ through the semipermeable glomerular capillaries into the Bowman’s capsule space by the hydrostatic pressure of the heart.

Question 35

What is the filtration barrier dependant on?

Answer 35

Size and charge of the molecules

Question 36

What is the filtration barrier permeable to?

Answer 36

Fluids and small solutes

Question 37

What is the filtration barrier impermeable to?

Answer 37

Cell and Proteins

Question 38

What type of capillary endothelium is present in the glomeruli?

Answer 38

Fenestrated capillaries

Question 39

What is the diameter of the fenestrae in the glomeruli? And what can pass through?

Answer 39

70nm - water, ions, and small proteins

Question 40

Which charged molecules cannot pass through the glomerular filtration barrier?

Answer 40

negatively charged proteins

Question 41

What is the effect of inflammation on the filtration barrier?

Answer 41

Damages it as it becomes leaky - sometimes blood can pass into the filtrate making urine have blood in it

Question 42

What are the epithelial cells of the bowmans capsule called?

Answer 42

Epithelial podocytes

Question 43

What can pass through the slit diaphragm?

Answer 43

Thin and porous so water and small solutes can pass

Question 44

What does the hydrostatic pressure of the blood do?

Answer 44

Pushes solutes and fluid out the blood into the urine

Question 45

What does the hydrostatic pressure of the IF do?

Answer 45

Pushes solute and molecules out IF and into the blood

Question 46

What does the oncotic pressure of the blood do?

Answer 46

Fluid molecules are pulled in from the IF into the blood across a semi-permeable membrane

Question 47

What is the formula for the net ultrafltration pressure?

Answer 47

Puf = HPblood - HPinterstitial fluid - OPblood

HPblood = Hydrostatic pressure of the blood / glomerular capillaries

HPinterstitial = Hydrostatic pressure of the interstitial fluid of the Bowmans Capsule

OPblood = Oncotic pressure of the blood / glomerular capillaries

Question 48

What is the definition of the Glomerular Filtration Rate?

Answer 48

The amount of fluid filtered from the glomeruli into the bowmans capsule per unit of time (ml/min) - it is the sum of filtration rate across all functioning capillaries

Question 49

what is Kf?

Answer 49

The ultrafiltration coefficient - calculated from the membrane permeability and the surface area available for filtration

Question 50

What is the formula for GFR?

Answer 50

GFR = Puf x Kf

Glomerular Filtration Rate = Net Ultrafiltration Pressure x Ultrafiltration coefficient

Question 51

What is the healthy range for GFR is women?

Answer 51

80-125ml/min

Question 52

What is the healthy range for GFR in men?

Answer 52

90-140mL/min

Question 53

What is the cardinal feature of renal disease?

Answer 53

A fall in GFR, with a buildup of excretory products in the plasma

Question 54

Describe the myogenic mechanism for regulation of GFR?

Answer 54

1. Arterial Pressure Increase = Higher GFR
2. Increases afferent arteriolar blood pressure
3. Increased stretch on Arteriole and artery walls
4. Detected by myogenic stretch receptors
5. Increased Ca2+ influx
6. Results in more contraction of the blood vessels
7. Increased resistance in the blood vessels
8. Reduced Flow
9. GFR is brought back to normal

Question 55

Describe how an increase in GFR is counter-acted by the tubuloglomerular feedback mechanism?

Answer 55

1. Increase in GFR
2. Increased NaCl in Loop of Henle
3. Change detected by Macula Densa
4. Increased ATP and Adenosine discharged
5. Afferent arteriole contracts
6. Less Blood Flow
7. GFR Reduced and therefore brought back to normal

Question 56

What is the definition of renal clearance?

Answer 56

The number of litres of plasma that is completely cleared of the substance x per unit of time

Question 57

What is renal clearance only concerned with?

Answer 57

The excretory role played by the kidney

Question 58

what is the formula for renal clearance of substance x?

Answer 58

Renal Clearance x = (Urine concentration of x * Urine Flow Rate ) / Plasma concentration of x

Question 59

What is meant by freely filtered?

Answer 59

The concentration in the plasma is the same as the concentration in the urine

Question 60

What is the ideal molecule for the practical determination of GFR?

Answer 60

Inulin

Question 61

What is the most commonly used molecule in the practical determination of GFR?

Answer 61

Creatinine

Question 62

Why is inulin not used in practise for the determination of GFR?

Answer 62

It is a plant polysaccharide and therefore is not found in mammals and hence has to be infused

Question 63

GFR = Renal Clearance for which molecules?

Answer 63

Inulin and Creatinine

Question 64

Why does the renal clearance of inulin = the GFR?

Answer 64

Inulin is freely filtered and is neither reabsorbed nor secreted - so the amount filtered = the amount excreted

Question 65

What 5 properties of inulin make it the ideal molecule for GFR determination?

Answer 65

1. Freely filtered
2. Neither secreted or reabsorbed in the nephron
3. Non-Toxic
4. Measureable in Plasma
5. Measureable in Urine

Question 66

Why is creatinine used instead of inulin?

Answer 66

Creatinine is a waste product from creatine in muscle metabolism, and the amount of creatinine released remains fairly stable

Question 67

What are stable levels of creatinine indicative of?

Answer 67

Stable renal function

Question 68

What might indicate renal failure?

Answer 68

Low creatinine clearance or high plasma creatine may indicate renal failure.

Question 69

why is creatinine not the perfect molecule?

Answer 69

It is freely filtered and not reabsorbed but a small amount is secreted into the nephron therefore its not a perfect molecule. However, the process for estimating creatinine in blood and urine can account for that to allow for GFR calculations.

Question 70

What is the renal plasma flow?

Answer 70

The volume of urine arriving at the kidneys per unit of time

Question 71

For what molecule does the renal clearance = the renal plasma flow?

Answer 71

PAH = Paraaminohippurate

Question 72

What is the formula for Filtration Fraction?

Answer 72

FF = GFR / RPF

Question 73

Why is PAH used as a reference molecule for renal plasma flow?

Answer 73

As it is completely removed from the plasma passing through the kidney via glomerular filtration and secretion into the tubule

Question 74

What are the units for GFR?

Answer 74

ml/Minute

Question 75

If the urine concentration of substance x is high, and therefore plasma conc low, how will this impact the renal clearance of the molecule?

Answer 75

This results in a high renal clearance as a lot of plasma is being cleared of the molecule per unit of time - reflected in the high urine conc

Question 76

What can you say about a molecule which has a clearance ratio of 1?

Answer 76

Must be freely filteres

Question 77

Renal clearance of PAH = ?

Answer 77

Renal Plasma Flow

Question 78

RPF x Plasma Conc of PAH =?

Answer 78

Urine conc of PAH x Urine flow rate

Question 79

What is the standard range for the Filtration Fraction?

Answer 79

15-20%

Question 80

Why is inulin not useful practically?

Answer 80

• it is time-consuming
• requires several blood samples
• because of the short duration over which measurements are usually made requires bladder catheterisation

Question 81

Why is inulin not given orally when measuring inulin clearance?

Answer 81

Might be digested as it is a plant polysaccharide