US Lecture 3 - Renal Blood Flow and Glomerular filtration

Question 1

What is glomerular filtration?

Answer 1

Formation of an ultrafiltrate of plasma in the glomerulus

Question 2

What is an abrupt fall in glomerular filtration called?

Answer 2

Renal failure

Question 3

What can lead to reduced glomerular filtration?

Answer 3

Abnormalities in renal circulation

Question 4

What does the filtration system look like? FITB

Answer 4

Question 5

What type of process is glomerular filtration?

Answer 5

Passive process with fluid ‘driven’ through semipermeable wall of glomerular capillaries into Bowman’s Capsule space by hydrostatic pressure of the heart

Question 6

What is the fenestrated endothelium of capillaries and Bowman’s capsule permeable to?

Answer 6

Fluids, small solutes - freely filtered

Question 7

What is the fenestrated endothelium of capillaries and Bowman’s capsule impermeable to?

Answer 7

Cells, proteins, drugs carried bound to protein

Question 8

What is the ultrafiltrate and what does it look like?

Answer 8

A clear fluid, completely free from blood and proteins, containing electrolytes and small solutes - otherwise known as primary urine

Question 9

What is the basic renal process? FITB

Answer 9

Question 10

What is the equation for amount excreted?

Answer 10

=Amount filtered + amount secreted - amount absorbed

Question 11

What is the renal input in the basic renal process?

Answer 11

Renal artery

Question 12

What is the renal output in the basic renal process?

Answer 12

Renal vein and ureter

Question 13

What is the driving force of glomerular filtration pressures?

Answer 13

Hydrostatic pressure in glomerular capillaries = Pgc

Question 14

What are the opposing pressures in the glomerular filtration?

Answer 14

Hydrostatic pressure of tubule (=Pt), osmotic pressure of plasma proteins in glomerular capillaries (= pi(3.14)gc)

Question 15

How is ultrafiltration worked out?

Answer 15

Puf= Pgc - Pt - [pi]gc Around 10-20mmHg

Question 16

What is the glomerular filtration rate?

Answer 16

GFR= Puf * Kf

Question 17

What is Kf and what is it affected by?

Answer 17

Ultrafiltration coefficient - membrane permeability and SA available for filtration

Question 18

What effect do kidney diseases have on functioning glomeruli?

Answer 18

Decreases, so reduces SA and thus reduces Kf

Question 19

What occurs to Kf when drugs and hormones dilate glomerular arterioles?

Answer 19

Increase

Question 20

What is the glomerular filtration rate?

Answer 20

The amount of fluid filtered from the glomeruli into Bowman’s capsule per unit of time (ml/min) Sum of filtration rate from all functioning nephrons

Question 21

What occurs when nephrons are lost?

Answer 21

SA is lost, Kf decreases so overall GFR decreases

Question 22

What does the renal blood flow do?

Answer 22

Delivers O2, nutrients and substances for excretion

Question 23

What is the approx. value of RBF, RPF and FF?

Answer 23

FF= 0.2 RBF = 1/5 of cardiac output - 1L/min RPF= 0.6L/min

Question 24

How is FF calculated?

Answer 24

Ratio between RPF and amount of filtrate filtered by glomerulus

Question 25

What does GFR=?

Answer 25

GFR= RPF*FF and is approx X/X* (volume of filtrate formed in 1 min)

Question 26

What influences GFR?

Answer 26

Glomerular capillary pressure Plasma oncotic pressure Tubular pressure Glomerular capillary SA/permeability

Question 27

What is GFR?

Answer 27

Not a fixed value but is subject to physiological regulation - achieved by neural/hormonal input to the afferent/efferent arteriole, resulting in changes in Puf

Question 28

What is the function of autoregulation of the GFR?

Answer 28

Ensures fluid and solute excretion remain reasonably constant (otherwise varying pressure will vary urine production and cause loss of important ions).

Question 29

What is the difference between decreased GFR and incresaed GFR?

Answer 29

Question 30

What are the mechanisms of autoregulation?

Answer 30

Myogenic mechanism Tubuloglomerular feedback

Question 31

What is the myogenic mechanism of autoregulation?

Answer 31

Vascular smooth muscle constricts when stretched, Keeping GFR constant when blood pressure rises. Arterial pressure rises → afferent arteriole stretches → arteriole contracts → (vessel resistance increases)→ blood flow reduces and GFR remains constant:

Question 32

What is the tubuloglomerular feedback?

Answer 32

NaCl conc in fluid sensd by macula densa in JGA Macula densa signals afferent arteriole and changes its resistance so GFR decreased

Question 33

What are some event affecting GFR and what effect do they have on GFR?

Answer 33

Severe haemorrhage - decreases (hydrostatic pressure decreases) Obstruction in nephron tubule - decreases (increasing opposing pressure) Reduced plasma protein conc - increases (reduced opposing force) Small increase in BP - no change (myogenic mechanism)

Question 34

What is the normal maintained GFR?

Answer 34

120ml/min

Question 35

What is renal clearance?

Answer 35

The extent to which the substances in the blood are filtered from the blood by the kidney Number of litres of plasma that are completely cleared of the substance per unit time

Question 36

What is the equation for clearance?

Answer 36

C= [U*V]/P ml/min U=conc of substance in urine P=conc of substance in plasma V=rate of urine production

Question 37

When can we estimate GFR using clearance?

Answer 37

When the molecule is neither reabsorbed nor secreted by the kidneys and is freely filtered - so amount filtered = amount excreted from kidneys, e.g. Inulin

Question 38

What is inulin?

Answer 38

Plant polysaccharide, freely filtered and neither reabsorbed nor secreted, not toxic and measurable in urine/plasma

Question 39

What is the normal way of measuring an estimate of GFR in humans?

Answer 39

Using Creatinine clearance - freely filtered, not secreted/reabsorbed, as it is a waste product from creatine in muscle met, amount of creatinine is fairly constant, so renal failure can lead to high plasma [creatinine] and low creatinine clearance

Question 40

What are the values for renal clearance of Na, K, Ca, Mg, Phosphate, glucose, urea, inulin, PAH? *not necessary to know exact numbers*

Answer 40

Na 1.0ml/min K 11.0ml/min Ca 1.8ml/min Mg 3.6ml/min Phosphate 6.4ml/min Glucose 0.05ml/min Urea 17.0ml/min Inulin 120.0ml/min PAH 625.0ml/min

Question 41

What is renal plasma flow?

Answer 41

Measured by PAH clearance - filtered and actively secreted in one pass of the kidney so can be used to measure RPF

Question 42

What is the difference between clearance, reabsorption and secretion?

Answer 42

Question 43

What does the amount of substance appearing in the urine reflect?

Answer 43

Combined effects of filtration, reabsorption from nephron tubule to blood and secretion from blood into tubular fluid

Question 44

What is the cardinal feature of renal disease?

Answer 44

A fall in GFR - as excretory products build up in plasma, so raised creatinine is diagnostic of renal disease

Question 45

What is important to consider when giving drugs to a patient with renal failure?

Answer 45

Excretion of substances will be impaired inc. drugs

Question 46

What are the integrated functions of the kidney?

Answer 46

Excretion of metabolic products e.g. urea, uric acid, creatinine Excretion of foreign substances (drugs) -PHARMACOKINETICS Homeostasis of body fluids, electrolytes, acid-base balance Regulate blood pressure - CARDIOVASCULAR Secrete hormones (renin, erythropoietin) -ENDOCRINE

Question 47

What is kidney failure?

Answer 47

A fall in glomerular filtration

Question 48

What happens to the concentration of the fluid when it passes from the blood to the Bowman’s capsule?

Answer 48

It doesn’t change Only further down, in convoluted tubules/LoH does it change: Reabsorption - decreases concentration Secretion - increases concentration

Question 49

What does a higher, lower or equal value to GFR of clearance mean?

Answer 49

Equal to GFR= the substance is freely filtered, neither reabsorbed/secreted Higher than GFR= substance is secreted Lower than GFR= substance is reabsorbed