Sugar 1

Question 1

What is a regular Renal blood flow?

What is normal renal plasma flow?

Answer 1

Blood: 1L/min to 1250ml/min
Plasma: 700ml/min

Question 2

What is a regular urine flow?

Answer 2

approx 1 ml/min

Question 3

Describe the vessels involved passage of blood through the kidney

Answer 3

Renal Artery >
Interlobar Artery >
Arcuate artery >
Interlobular artery >
Afferent arteriole >
(Nephron:)Glomerular capillary > 
Efferent Arteriole >
Peritubular capillary >
vein

Question 4

Which blood vessel passes through the glomerulus?

Answer 4

Glomerular capillary, involved in Glomerular Filtration into Bowman’s space

Question 5

Which blood vessel runs alongside tubules?

Answer 5

Peritubular capillary - involved in tubular secretion and reabsorption

Question 6

What is the importance of the Peritubular capillary?

Answer 6

Many tubular processes are of secretion and reabsorption are active, requiring energy and oxygen. Therefore blood supply is v important.

Question 7

What is the surface area for glomerular filtration?

Answer 7

approx 1m^2

Question 8

Which part of the nephron (tubule) is responsible for secretion and reabsorption?

Answer 8

Distal part/tubule

Question 9

Name the 4 layers of the filtration barrier

Answer 9

[Urinary Space]
Podocyte
Foot processes
BM
Capillary endothelium
[Capillary]

Question 10

Name 3 podocyte and slit diaphragm proteins

Answer 10

Nephrin
Podocin
CD2AP

Question 11

What determines the rate of crossing the filtration barrier?

Answer 11

• Pressure (difference)
• Size of molecule (larger molecules increasingly restricted)
• Charge of the molecule
• Rate of blood flow
• Binding to plasma proteins e.g. calcium, hormones such as thyroxine

Question 12

What is the fixed charge if the glomerular BM?

Answer 12

Fixed negative charge that repels negatively charged anions

Question 13

Name small molecules and ions that can pass freely through the filtration barrier

Answer 13

Small molecules and ions up to 10kDa can pass freely e.g. glucose, uric acid, potassium, creatinine

Question 14

Why can albumin protein not pass through a normal filtration barrier

Answer 14

• Molecular weight of 66kDa (>10)

- Negatively charged so repelled by glomerular BM

Question 15

What is Tamm Horsfall (uromodulin) protein?

Answer 15

Protein in urine produced by tubules. Found in ordinary urine and exception to filtered fluid being ‘protein-free’

Question 16

What is the hydrostatic pressure difference between the Glomerular capillary (GC) and Bowman’s space (BS)?

Answer 16

P(GC) = 45mmHg
P(BS) = 10mmHg
therefore fluid moves into BS
Hydrostatic pressure constant along length of capillary

Question 17

What is the osmotic pressure difference between GC and BS?

Answer 17

OP(GC) = 25mmHg and rising
OP(BS) = zero
osmotic pressure rises along the length of capillary

Question 18

Define Glomerular Filtration Rate (GFR)

Answer 18

Filtration volume per unit time (mins)

Question 19

What is the equation for GFR?

Answer 19

GFR = Kf (pGC - pBS) - (opGC - opBS)

Kf is filtration coefficient

Question 20

Can you alter net ultrafiltration pressure?

Answer 20

Cannot alter permeability or oncotic pressure.

Potential to alter hydrostatic pressure or SA

Question 21

How to decrease GFR

Answer 21

Constrict afferent arteriole
Dilate efferent arteriole
Also if loose nephrons

Question 22

How to increase GFR

Answer 22

Constrict efferent arteriole

Dilate afferent arteriole

Question 23

What is the systemic mean arterial pressure range in normal kidney

Answer 23

90-200mmHg

Question 24

Are kidneys auto-regulated?

Answer 24

Yes and occurs in denervated or isolated perfused kidneys (not dependent on nerve supply or blood-borne substances)

Question 25

Describe process of auto-regulation in kidney

Answer 25

Pressure within afferent arteriole rises >
stretches vessel wall >
triggers contraction of smooth muscle >
arteriolar constriction [Intrinsic property of vascular smooth muscle]
(reverse happens when systemic arterial pressure falls)

Question 26

Purpose of autoregulation

Answer 26

Prevents an increase in systemic arterial pressure from reaching the capillaries

Question 27

Describe Tubuloglomerular feedback

Answer 27

GFR of individual nephron regulated by the rate at which filtered fluid reaches the distal tubule
Cells of macula densa (distal tubule) detect NaCl arrival
Macular densa cells release prostaglandins in response to reduced NaCl delivery
This acts on granular cells, triggering renin release, activating the renin-angiotensin system.

Question 28

How is GFR measured?

Answer 28

Measure excretion of a marker substance that is freely filtered (same conc in blood and tubular fluid), not absorbed in tubules and not metabolised.
Amount (not concentration) excreted per min = Amount filtered per min
Amount of marker (M) in fluid = concentration in fluid x volume of fluid

Question 29

What is a normal GFR?

Answer 29

125ml/min

Question 30

Equation for GFR

Answer 30

GFR = Um x urine flow rate/Pm
Um is concentration of M in urine
Pm is concentration of M in plasma

Question 31

What is used clinically to estimate GFR?

Answer 31

Creatinine (muscle metabolite)
Serum creatinine varies with muscle mass
Its freely filtered at glomerulus

Question 32

What is filtration fraction

Answer 32

Filtraction fraction = GFR/renal plasma flow

e.g.120/600=20%

Question 33

What are standard Renal blood flow and Renal plasma flow

Answer 33

Renal blood flow = 1000ml/min
Penal Plasma flow = 600ml/min
(about 40% of blood is cells, rest is plasma)

Question 34

Define the concept or renal clearance

Answer 34

Volume of plasma from which a substance is completely removed by the kidney per unit time (usually a minute).
Marker substances are freely filtered at glomerulus and all will end up in urine.

Question 35

Equation for renal clearance

Answer 35

Clearance (ml/min) = urine concentration x urine volume/plasma concentration

Question 36

What is renal clearance of glucose in normal kidney?

Answer 36

0ml/min

Question 37

What would be an approx value of renal clearance for Urea and PAH (para-aminohippurate)

Answer 37

Urea 65ml/min

PAH 625ml/min

Question 38

What is the equation for pH

Answer 38

-log[H+]

low ph = high acidity

Question 39

Define Acidosis

Answer 39

Disorder tending to make blood more acidic than normal

Question 40

Define Alkalosis

Answer 40

Disorder tending to make blood more alkaline than normal

Question 41

Define Acidemia

Answer 41

Low blood pH

Question 42

Define Alkalemia

Answer 42

High blood pH

Question 43

Define Standard bicarbonate

Answer 43

• Bicarbonate concentration standardised to pCO2 of 5.3kPa and temp of 37
• Affected by both respiratory and metabolic components. However, measure of metabolic component of acid-base disturbance.

Question 44

Define Base Excess

Answer 44

Quantity of acid required to return pH to normal under standard conditions.
In acidosis, base excess is negative - in this case it’s also called base deficit.

Question 45

How can base excess value be used

Answer 45

To calculate the bicarbonate dose needed to correct acidosis:
0.3 x Weight (kg) x BE (mEq/L)

Question 46

Define Standard Base Excess

Answer 46

Base excess corrected to Haemoglobin of 50g/L

Question 47

What is measured in Arterial Blood Gas (ABG)

Answer 47

pH, pO2, pCO2, Std HCO3-, Std Base excess, may include others (lactate, Na+, K+)

Question 48

What are the two methods interpreting acid-base status?

Answer 48

• Henderson-Hasselbalch Equation

- Stewart’s Theory (strong ion difference)

Question 49

What is Henderson-Hasselbalch Equation

Answer 49

pH=6.1+ log([HCO3-]/0.03xpCO2)

Question 50

Carbonic Acid (H2CO3) can make CO2+H2O or H+ + HCO3-. What is normally removed from the body and where?

Answer 50

CO2 can be excreted in lungs
H+ excreted in kidneys
(HCO3- is recycled)

Question 51

According to Stewart’s strong ion difference, what are pH and HCO3- governed by?

Answer 51

-pCO2
-Concentration of weak acids (ATOT)
ATOT=Albumin+Pi+Pr
-Strong ion difference (SID) = Na+ + K+ + Ca2+ - Cl- - other strong anions (lactactate, ketoacids)

Question 52

Causes of metabolic acidosis

Answer 52

• Failure of H+ excretion (Renal failure, hypoaldosteronism, type 1 renal tubular acidosis)
• Excess H+ load: Lactic acidosis, Ketoacidosis, ingestion of acids (salicylate, ethylene glycol)
• HCO3- loss (diarrhoea, type 2 renal tubular acidosis)

Question 53

How does the body compensate for metabolic acidosis

Answer 53

Hyperventilation to increase CO2 excretion

Question 54

What is the Anion Gap

What is cause of wide and narrow gap?

Answer 54

Difference between measured anions and cations: [Na+]+[K+]-[Cl-]-[HCO3-]
Normal 10-16
Wide anion gap: Lactic acidosis, ketoacidosis, ingestion of acid, renal failure
Narrow anion gap (high chloride): GI HCO3- loss, renal tubular acidosis.

Question 55

Causes of metabolic alkalosis

Answer 55

Alkali ingestion
GI acid loss - vomiting
Renal acid loss - hyperaldosteronism (high aldosterone), hypokalaemia

Question 56

Compensatory Mechanism for metabolic alkalosis

Answer 56

Hypoventilation (limited by hypoxic drive)

Renal bicarbonate excretion

Question 57

Define respiratory acidosis

Answer 57

CO2 retention leading to increased carbonic acid dissociation

Question 58

Causes of respiratory acidosis

Answer 58

Any cause of renal failure

Question 59

Compensation by body for respiratory acidosis

Answer 59

Increased renal H+ excretion and bicarbonate retention (but only if chronic)

Question 60

Define respiratory alkalosis

Answer 60

CO2 depletion due to hyperventilation

Question 61

Causes of respiratory alkalosis

Answer 61

Type 1 respiratory failure, anxiety/panic

Question 62

Compensation by body for respiratory alkalosis

Answer 62

Increased renal bicarbonate loss (**long term however - if this is not present in patient, would show acute injury and this is similar for others)

Question 63

What does failure to reabosrb bicarbonate (in RCT type 2 renal tubular acidosis) cause in a patient

Answer 63

Acidosis, impaired growth

Question 64

What are 3 things in body detect fall in BP by body

Answer 64

• Juxtaglomerular Apparatus (Kidney)
• Baroreceptors (Aorta)
• Atrial Stretch Receptors (Heart)

Question 65

What does Juxtaglomerular apparatus cells secrete?

Answer 65

Renin

Question 66

What does renin act on?

Answer 66

Cleaves Angiotensinogen to form Angiotensin I

Question 67

Where is Angiotensinogen produced?

Answer 67

Liver (along with other proteins)

Question 68

Where is Angiotensin-converting enzyme produced and what does it convert?

Answer 68

Angiotensin I to Angiotensin II

Made in the lungs/pulmonary and renal epithelium

Question 69

What stimulates the production of Renin?

Answer 69

Decrease in renal perfusion pressure via stretch receptors in vascular walls.
Released in response to stimulation of beta adrenergic receptors on cells of JGA

Question 70

What actions does angiotensin II have on body?

Answer 70

Overall increases water and salt retention as well as increases perfusion of JGA. This is done by:

• Sympathetic activity
• Tubular Na+ Cl- reabsorption, K+ excretion, H2O retention
• ALDOSTERONE secretion (increases^) from adrenal gland/cortex
• Arteriolar vasoconstriction (increase in BP)
• ADH secretion by posterior pituitary gland - causes more water reabsorption by the collecting duct

Question 71

What is aldosterone?

Answer 71

Steroid hormone that raises BP overall
Produced in glomerulosa of adrenal cortex in adrenal gland
Essential for sodium conservation in the kidney (collecting ducts mainly), salivary glands, sweat glands, colon.

Question 72

What are the 3 layers of the adrenal cortex?

Answer 72

• (Zona) Glomerulosa (Outermost layer and Salt: Aldosterone)
• Fasciculata (Sugar: glucocorticoids that regulate glucose metabolism)
• Reticularis (Sex: precursor androgens)

Question 73

What do Atrial Naturetic Peptides do?

Answer 73

act on renal collecting tubules to promote Na+ excretion (reduce BP)

Question 74

Where is the kidney anatomically located?

Answer 74

Retroperitoneal space
Right kidney slightly lower than left as pushed down by the liver
..

Question 75

What is the method by which urine passes through the ureter?

Answer 75

Peristalsis (vermification?)

Detrusor muscle is unconscious control

Question 76

What are the layers of kidney?

Answer 76

Capsule
Cortex
Medulla
Pelvis

Question 77

Which parts of body are lined by urothelium/transtitional epithelium?

Answer 77

Renal pelvis, Ureters, bladder, parts of urethra

Question 78

What are 3 general causes of Acute Kidney Injury?

Answer 78

Pre-renal (most common, caused by e.g. decompensated liver failure/heart failure, cellulitis (as caused by sepsis leading to vasodilation and low BP), D+V)
Renal
Post-Renal (relatively rare)

Question 79

How does decompensated liver failure/heart failure lead to AKI?

Answer 79

Liver failure -> no protein produced, oncotic pressure decreases and fluid leaks out of BVs
Heart -> Fluid leaks out of capillaries
Less pressure in afferent arteriole

Question 80

What is the Henderson-Hasselbach Equation

Answer 80

pH=pK’+log(HCO3-/CO2)
OR
pH=6.1+log(HCO3-/CO2*)

*alpha pCO2

Question 81

What s the equation representing the bicarbonate buffer?

Answer 81

CO2+H2O H2CO3 H+ + HCO3-

Question 82

What is the purpose of Hydrogen Ion secretion in the renal arm?

Answer 82

• reabsorb HCO3- (4000 mEq/day)

- excrete daily acid load (50-100mEq/day)

Question 83

What two substances are required to excrete acid load?

Answer 83

Phosphate and Ammonium

urinary buffers

Question 84

What is minimum urine pH

Answer 84

4.5

Question 85

In tissue capillaries, what 5 layers make up the respiratory arm? What happens at each?

Answer 85

• Cells - where CO2 produced
• Interstitial fluid - dissolves co2
• Capillary wall - co2 passes through
• Plasma - some co2 remains dissolved
• Erythrocytes - some dissolved co2 from plasma binds to Hb. Some remains dissolved. Some goes through bicarbonate buffer reaction

Question 86

In pulmonary capillaries, what layers/parts make up respiratory arm? What happens at each?

Answer 86

Erythrocytes - Dissolved CO2 is formed. HbCO2 goes to dissolved CO2 +Hb. H2CO3 goes to CO2 and H2O.
Plasma- dissolved CO2 passes though
Capillary Wall
Alveoli- becomes CO2
Atmosphere - expired CO2

Question 87

Between plasma and erythrocytes, what co-transporter is found that is involved in use of dissolved CO2?

Answer 87

HCO3-/Cl- co-transporter
In tissue capillaries, HCO3- moves into plasma and Cl- moves into erythrocytes.
Vice versa in pulmonary capillaries

Question 88

Bicarbonate reabsorption describe

Answer 88

H+ secretion by apical Na+/H+ antiporter
Carbonic anhydrase (brush border) - CO2
Carbonic anhydrase (cell) - HCO3-
Basolateral Na+/ 3HCO3- symporter
Result - HCO3- reabsorbed in proximal tubule (90%), pH falls from 7.4 to 6.7

Note that HCO3- is impermeable to apical membrane

Question 89

What is Titratable acidity

Answer 89

Quantity of base required to bring pH to 7.4.
NOT increased in response to acidosis.
(10-40 mEq H+ per day)

Question 90

What is the most common Urinary Phosphate Buffer? What is the equation?

Answer 90

Alkaline phosphate Buffer (HPO4^2-)

HPO42- + H+ -> H2PO4- (pKa 6.8)

Question 91

What does Glutamine produce/breakdown into in proximal tubule, for urinary ammonia buffer?

Answer 91

NH3
NH4+
alpha ketoglutarate

Question 92

What is the effect of acidosis on urinary ammonia buffer?

Answer 92

Uptake and enzymes increased (3 day max response).

Urinary ammonia buffer is generally an adaptive response to acid load (30-300 mEq/day)

Question 93

Name 3 weak acids

Answer 93

Urate
Creatinine
beta Hydroxybutyrate

Question 94

What are different movement of ammonia in urinary ammonia buffer?

Answer 94

• Some pumped into lumen as NH4+, some diffuses as NH3
• Reabsorbed in loop of Henle (counter-current multiplication)
• Goes back into the collecting duct, where H+ is being pumped (tight segment)
• NH3 diffusion/channels
• Trapping of NH4+

Question 95

Which cells in body generate Erythropoietin (EPO)?

Answer 95

Peritibular cells in interstitial space of renal cortex (kidney)

Question 96

What does Erythropoietin stimulate and what are roles?

Answer 96

Stimulates bone marrow - promotes RBC maturation, receptors on early progenitor RBC.
Also inhibites apoptosis (survival facotr) allowing differentiation into RBC

Question 97

Conditions of high EPO

Answer 97

Anaemia, Altitude, Cardiopulmonary disorders

Question 98

Conditions of low EPO

Answer 98

Polycythaemia, Renal Failure

Question 99

What regulates EPO

Answer 99

Hypoxia-inducible factor (HIF)-2

Question 100

In vitamin D activation, What does Calcitriol act on?

Answer 100

Intestine (increases calcium and phosphate absorption)
Bone (increased bone resorption)
Kidney (increased calcium and phosphate reabsorption)
Parathyroid hormone (decreases parathyroid hormone which inhibits bone resorption)

Question 101

Which organs are involved in vitamin D activation?

Answer 101

Liver - produces 25-OH cholecalciferol

Kidney - Calcitriol)