Blood flow and glomerular filtration

Question 1

How much of the resting cardiac output do the kidneys receive?

Answer 1

→ nearly a quarter

Question 2

What is the large blood flow to the kidneys related to?

Answer 2

→ metabolic needs of the kidney

Question 3

What are the 4 main functions of the kidney?

Answer 3

→Control volume & composition of body fluids
→To get rid of waste material from the body
→Acid-Base balance
→As an endocrine organ – EPO, Renin and Vit D

Question 4

How long is the average nephron?

Answer 4

→ 4cm

Question 5

What is the functional unit of the kidney?

Answer 5

→ nephron

Question 6

What can the kidney not regenerate?

Answer 6

→ new nephrons

Question 7

Why is the glomerulus unusual?

Answer 7

→ It enters and leaves as an artery

Question 8

What do the blood vessels form around the tubule?

Answer 8

→ peritubular capillaries

Question 9

What are the 2 sets of capillaries that a nephron has?

Answer 9

→ Glomerulus

→ Peritubular capillaries

Question 10

What are the 2 stages of urine formation?

Answer 10

→Glomeruli produce the liquid

→The tubules modifies its volume and composition

Question 11

How much fluid is filtered through the glomerulus and how much is being excreted as urine?

Answer 11

→Nearly all of the fluid filtered through the glomerulus is reabsorbed back from the tubule into the blood
→with the remainder being excreted as urine at a rate of 1ml/min

Question 12

What urine output equates to renal failure?

Answer 12

→ <5ml/day

Question 13

Why is there such a high filtration rate?

Answer 13

→A high rate of formation of glomerular fluid is needed to wash out the waste products fast enough to keep their blood level low

Question 14

What is the first stage of urine production?

Answer 14

→ Glomerular filtration

Question 15

How is glomerular fluid formed?

Answer 15

→By passive ultrafiltration of the plasma across the glomerular membrane
→as described by Starling’s principle of capillary fluid filtration

Question 16

What is the GFR set by?

Answer 16

→Autoregulation

→Renal sympathetic vasomotor nerve activity

Question 17

What is the glomerulus enclosed by?

Answer 17

→ Completely enclosed by the epithelium of the BC, though they are specialised to form podocytes

Question 18

What is a passive ultrafiltrate of plasma?

Answer 18

→ Plasma from which the proteins have been filtered out

Question 19

What is the concentration of small solutes and plasma proteins in glomerular fluid?

Answer 19

→For small solutes, such as NaCl, glucose and urea
The concentration in glomerular fluid = the concentration in plasma

→For plasma proteins
The concentration in glomerular fluid = almost zero

Question 20

What is proteinuria a sign of?

Answer 20

→Proteinuria is a sign of renal/urinary tract disease

Question 21

What drives the ultrafiltration process?

Answer 21

→A net pressure drop across the glomerular membrane drives the ultrafiltration process
→imbalance of Starling forces

Question 22

What does the glomerular membrane sieve out?

Answer 22

→ Solutes from Plasma by Molecular Size

Question 23

What is the pressure like in the kidney capillaries?

Answer 23

→ The highest compared to arterioles in the body

Question 24

What does high pressure in the kidney capillaries create?

Answer 24

→ An outward force

Question 25

What are the 2 components opposing the outward force created by high pressure in the glomerular capillary?

Answer 25

→colloid osmotic pressure exerted by proteins in the blood (25mmHg) →pressure in the Bowman’s Space (10mmHg)

Question 26

What is the net effect on glomerular capillaries as a result of the forces acting on it?

Answer 26

→net effect is an outward force of approximately 15mmHg | →drives fluid out of the capillary into the BC

Question 27

What happens as blood flows through the capillary with respect to pressure?

Answer 27

→As the blood flows through the capillary, there is a slight drop in pressure from the afferent end to the efferent end.

Question 28

What happens to the plasma as the blood flows along?

Answer 28

→ plasma also gets more concentrated as the blood flows along due to fluid loss

Question 29

What is the relationship between net filtration force and net absorptive force and what does this result in?

Answer 29

→net filtration force is always more than the net absorptive force →resulting in a glomerular filtration rate of 20% which is colossal compared to 1% elsewhere in the body

Question 30

What happens to starling force balances in peritubular capillaries?

Answer 30

→Starling force balance is reversed (absorption) in peritubular capillaries

Question 31

What is the blood pressure like as you enter the glomerulus and what does this result in?

Answer 31

→The blood pressure in the afferent arteriole is higher than the colloid osmotic pressure (COP) as you enter the glomerulus → resulting in a net filtration pressure out of the capillaries into the tubule.

Question 32

What is the blood pressure like as you exit the glomerulus and what does this result in?

Answer 32

→As we travel out of the glomerulus into the efferent arteriole, →the pressure begins to drop and the →COP rises because fluid is lost from the capillaries, →protein is getting more concentrated → exerting a greater force driving fluid back from the tubule into the capillary

Question 33

What are the gaps called in the capillary membranes?

Answer 33

→The capillary membrane is not continuous but have gaps called fenestrae

Question 34

Why can blood not pass through fenestrae?

Answer 34

→Normally blood cannot pass through the fenestrae because the blood cells cannot fit and are trapped

Question 35

What can travel through the fenestrae?

Answer 35

→ Anything that dissolves in water | → Through the basal lamina (glycocalyx)

Question 36

What is the size range of fenestrae?

Answer 36

→ 50-100nm

Question 37

Why does albumin not appear in the urine even though it can fit through the fenestrae and podocytes?

Answer 37

→ The filtration slits are subdivided into much smaller pores that are 4nm wide → Made of nephrin and podocin → Albumin gets trapped here

Question 38

What is nephrotic syndrome?

Answer 38

→ Nephrin and podocin are not made

Question 39

What is myeloperoxidase?

Answer 39

→ albumin sized protein which is held up at the filtration slits

Question 40

What does myeloperoxidase produce?

Answer 40

→black precipitate in a positive reaction

Question 41

How did they prove that albumin cannot pass into urine?

Answer 41

→ Myeloperoxidase injected into plasma → Penetrates through basal lamina but piles up at filtration slits → None penetrates into urinary space

Question 42

What can the glomerular membranes be described as?

Answer 42

→3 sieves in series of increasing fineness

Question 43

What are changes in urine due to?

Answer 43

→ due to changes in tubular reabsorption

Question 44

What is the mechanism keeping GFR constant?

Answer 44

→The mechanism holding GFR constant is an internal | one called “autoregulation”

Question 45

What is held constant over a range of arterial blood pressures?

Answer 45

→GFR and Renal blood flow are held constant over a range of arterial pressure

Question 46

In the normal range of blood pressures what happens to GFR and what is this called?

Answer 46

→In the normal range of arterial pressure, even if BP changes up or down, →GFR remains constant = AUTOREGULATION

Question 47

What would happen to GFR if there were no autoregulation and an increase of BP occurred?

Answer 47

→If there was no autoregulation, then a relatively small increase in BP would cause a similar 25% increase in GFR

Question 48

What would happen if tubular reabsorption were to stay constant?

Answer 48

→then urine flow would increase by 30-fold | (the difference between GFR and tubular reabsorption), →depleting blood volume very quickly

Question 49

What is the Bayliss' Myogenic response (BMR) and what does it prevent?

Answer 49

→Direct vasoconstriction of afferent arteriole with an increase in perfusion pressure →Can prevent changes in response to BP fluctuations that occur in intervals greater than 3-4 seconds

Question 50

What is Tuboglomerular feedback (TGF) and what does it involve?

Answer 50

→Flow-dependent signal detected in macula densa, that alters the tone of the afferent arteriole →The method likely involved adenosine/or ATP

Question 51

What does tuboglomerular feedback respond to?

Answer 51

→Responds to slower BP fluctuations, over intervals of 20 seconds or longer

Question 52

What do TGF and BMR do together?

Answer 52

→act in concert and stabilise renal function by preventing pressure-induced fluctuations in : →RBF (Renal Blood Flow), →GFR →delivery of filtrate to the distal tubule (“Distal Delivery”)

Question 53

What does an increase in perfusion pressure lead to?

Answer 53

→immediate increase in vessel radius (few seconds only) →blood flow goes up briefly

Question 54

What happens if the blood pressure increases to keep the pressure in the bowmans capsule the same?

Answer 54

→vessels just upstream of the glomerular capillaries contract and increase the resistance →resulting in a drop of pressure → keeping the pressure in the Bowman’s capsule (Pgc) still in the same range

Question 55

What is the equation for flow?

Answer 55

→ Flow = change in pressure / resistance

Question 56

What must autoregulation be mediated by?

Answer 56

→mediated in part by changes in afferent arteriolar resistance

Question 57

What happens as the systemic pressure rises?

Answer 57

→increase in afferent arteriolar tone prevents the elevation in pressure from being transmitted to the glomerulus →allowing Pgc and GFR to remain unchanged

Question 58

Describe how GFR is decreased through TGF

Answer 58

``` GFR increases ↓ Flow through tubule increases ↓ Flow past macula densa increases (altering luminal NaCl and luminal osmolality) ↓ Paracrine diffuses from macula to afferent arteriole ↓ Afferent arteriole contracts ↓ Resistance in afferent increases ↓ Hydrostatic pressure in glomerular decreases ↓ GFR decreases ```

Question 59

What does an increase in osmolality and NaCl in the juxtaglomerular apparatus result in?

Answer 59

→results in a release of ATP → leads to a contraction of the afferent arteriole → contributes to the maintenance of pressure in the Bowman’s capsule

Question 60

What nerves can reduce GFR?

Answer 60

→Renal sympathetic nerves (vasoconstrictor, noradrenergic) can reduce the GFR →by re-setting autoregulation to a lower level

Question 61

What 3 situations is extrinsic control of GFR used?

Answer 61

→Standing upright (orthostasis) →Heavy exercise →Haemorrhage & other forms of clinical shock

Question 62

In shock what are sympathetic actions helped by?

Answer 62

``` these sympathetic actions are aided by →circulating vasoconstrictor hormones → adrenaline →angiotensin → and vasopressin ```

Question 63

What is the role of extrinsic GFR?

Answer 63

→The role is to conserve body fluid during physical stress

Question 64

What are the 2 main clinical disorders of the GFR?

Answer 64

→Glomeruli too leaky to plasma protein: | →GFR too low (more common)

Question 65

What are the signs of nephrotic syndrome and what do they respond well to?

Answer 65

→Proteinuria →Hypoproteinaemia →Oedema →respond well to steroids

Question 66

What are the signs of low GFR?

Answer 66

→Chronic glomerulonephritis | →Non-functioning glomeruli

Question 67

What value of GFR is chronic renal failure?

Answer 67

→When GFR < 30 ml/min, this is CHRONIC RENAL FAILURE

Question 68

What is chronic glomerulonephritis?

Answer 68

→The whole of the glomerulus is replaced by collagen → hence there is no blood flow or RBC →so no glomerular filtrate

Question 69

What are gaps between podocytes called?

Answer 69

→ filtration slits