HTN & The Kidney

Question 1

What 4 organ systems are involved in the regulation of BP?

Answer 1

1. Central and autonomic nervous system
2. CV system (heart and blood vessels)
3. Kidney
4. Adrenal gland

Question 2

What is prehypertension defined as? Stage I HTN? Stage II HTN?

Answer 2

Pre: systolic 120-139 and diastolic 80-89
Stage I: 140-159 and 90-99
Stage II: 160+ and 100+

Question 3

What are the characteristics of essential HTN?

Answer 3

No identifiable etiology. Not a single disease. Age of onset between 40 and 50 yo. Genetic predisposition (70-80% have positive family hx).

Question 4

What are the characteristics of secondary HTN?

Answer 4

Identifiable etiology. Many factors cause BP elevation by influencing CO or systemic vascular resistance. Bimodal age distribution: 50 yo.

Question 5

What are 3 candidate genes that can lead to HTN?

Answer 5

1. M235T variant in angiotensinogen gene
2. ACE gene
3. Beta-2-Adrenergic receptor gene

Question 6

What are 3 monogenic diseases that have been identified that lead to HTN?

Answer 6

1. Liddle’s Disease: activating ENaC mutation
2. Glucocorticoid Remediable Aldosteronism: gene mutation leading to aldosterone synthetase that is responsive to ACTH
3. Apparent Mineralocorticoid Excess: inactivating mutations in the 11-beta-hydroxylase-dehydrogenase-2 gene

Question 7

What are the 2 equations for calculating mean arterial pressure?

Answer 7

MAP=CO x SVR (systemic vascular resistance)

MAP=DBP + (1/3)(SBP-DBP)

Question 8

What is the equation for calculating CO?

Answer 8

CO=SV x HR

SV= stroke volume, HR= heart rate

Question 9

What 2 factors is stroke volume dependent upon?

Answer 9

Pre-load and cardiac contractility.

Question 10

An increase in pre-load means an increase in one of which 2 things?

Answer 10

Increased venous tone or increased volume (and therefore increase in total body Na).

Question 11

T or F. Increased CO in essential HTN persists throughout the course of the disease.

Answer 11

F

Question 12

How do the kidneys play a role in BP regulation?

Answer 12

They regulate ECFV by altering Na and water via excretion or reabsorption. Sustained HTN is a result of defective ability of the kidney to excrete excess Na.

Question 13

In the majority of patients, how is BP lowered?

Answer 13

Modulation of Na intake or excretion (via diuretics).

Question 14

T or F. Kidney transplantation from a hypertensive patient to a normotensive patient will induce HTN in the recipient.

Answer 14

T: the vice versa is also true.

Question 15

What are the 3 theories about the role of kidney physiology in the development of HTN?

Answer 15

1. Guyton AC: kidney as central cause
2. Brenner BM: reduced nephron mass
3. Laragh JH: RAAS

Question 16

Elaborate on Guyton’s theory.

Answer 16

The central role in the development of HTN is the inability of the kidneys to appropriately excrete Na (pressure natriuresis). Thus, impairment of pressure natriuresis is essential for elevated BP to persist.

Question 17

Describe pressure natriuresis.

Answer 17

When perfusion pressure increases, renal Na output increases and ECF and blood volumes contract by an amount sufficient to return arterial BP to baseline.

Question 18

T or F. Changes in Na excretion only occur with changes in GFR.

Answer 18

F: changs in Na excretion occur WITHOUT changes in GFR.

Question 19

Where is the principle site of pressure natriuresis?

Answer 19

Outer medullary thick ascending limb. Changes in interstitial medullary pressure is a mediator of pressure natriuresis.

Question 20

What is the one pro of Guyton’s theory?

Answer 20

It allows for a normal blood volume despite an elevated pressure which is consistent with most volume measurements in hypertensive patients.

Question 21

What are the cons of Guyton’s theory?

Answer 21

It ignores the role of the autonomic nervous system in development of HTN. It fails to explain the increased BP in prehypertensive patients where the increase in CO is mainly driven by sympathetic activation.

Question 22

What is long term autoregulation (transition of increased CO to increased systemic vascular resistance)?

Answer 22

An increase in CO leads to autoregulation and vasoconstriction of resistance vessels with an increase in systemic vascular resistance, and thus subsequent normalization of CO.

Question 23

What is the role of ouabain in the transition from inc CO to inc SVR?

Answer 23

Ouabain binds to and inhibits the Na/K-ATPase.

Question 24

What is the role of salt in HTN?

Answer 24

Increased salt leads to increased volume which leads to increased CO and thus HTN.

Question 25

Describe salt-sensitive HTN.

Answer 25

An inc in BP is seen with a high salt diet and vice versa. Affects blacks more than whites. Salt sensitivity increases with age.

Question 26

What are the possible mechanisms of developing salt-sensitive HTN?

Answer 26

Dec Na excretion by kidneys (main). Inc SNS activity. Inc activity of kidney Na/H exchanger. Inc intracellular Ca in vascular smooth muscle cells. Dec in NO.

Question 27

What are the vasoconstrictors affecting systemic vascular resistance? The vasodilators?

Answer 27

Constrictors: ATII, norepinephrine, endothelin, ADMA.
Dilators: NO, prostacyclin, PGE2, PGD2, adenosine.

Question 28

What are the humoral factors affecting systemic vascular resistance? The local factors?

Answer 28

Humoral: vasoconstrictors and -dilators mentioned above.

Local (aka autoregulation): mediated primarily by NO.

Question 29

What is the overall goal of RAAS?

Answer 29

To increase BP in response to hypovolemia or hypotension.

Question 30

How does Angiotensin II increase Na reabsorption?

Answer 30

Stimulates Na/K-ATPase. It also increases aldosterone secretion and increases systemic vascular resistance (vasoconstrictor).

Question 31

What are the 3 types of cells in the JG apparatus?

Answer 31

1. Granular or JG cells
2. Macula Densa cells
3. Extraglomerular mesangial cells

Question 32

What are the 3 types of receptors in JG cells and what happens to renin when activated?

Answer 32

1. Beta-1: inc renin
2. Adenosin2: dec renin
3. Prostaglandin: inc renin

Question 33

Increased NaCl delivery to MD cells causes what? Decreased NaCl delivery?

Answer 33

Increased NaCl deliver causes an increase in adenosine. Decreased NaCl delivery causes an increase in NO and PGs.

Question 34

T or F. Renin is elevated in everyone with HTN.

Answer 34

F

Question 35

What is dry HTN?

Answer 35

HTN with high plasma renin activity.

Question 36

What is wet HTN?

Answer 36

HTN with low plasma renin activity.

Question 37

Describe Laragh’s hypothesis of nephron heterogenesity.

Answer 37

Some nephrons are ischemic and produce high plasma renin activity, while others are not but will have impaired natriuresis from ATII. Total plasma renin activity is diluted and may be normal.

Question 38

What is the model of unilateral renal artery stenosis (Goldblatt model I)?

Answer 38

HTN due to unilateral RAS is associated with both increased SVR and a right shift in natriuresis in the normal kidney. Normal kidney is able to excrete the excess Na and therefore volume does not play a role in the HTN. ACE inhibitors reduce BP in this case.

Question 39

What is the model of bilateral renal artery stenosis (Goldblatt model II)?

Answer 39

Total kidney hypoperfusion. No off-setting natriuresis (bc no normal kidney). ACE inhibitors do not help.

Question 40

What are the 4 types of secondary HTN?

Answer 40

1. Aldosterone excess
2. Glucocorticoid excess
3. Pseudohyperaldosteronism (11-beta-hsd inhibition, Liddle’s syndrome)
4. Pseudohypoaldosteronism type 2=Gordon’s syndrome

Question 41

What are the characteristics of secondary HTN?

Answer 41

All are salt-sensitive HTN. All (except aldo excess) have low renin and low aldo. All (except Gordon’s) have hypokalemia and metabolic alkalosis.

Question 42

How is BP elevated with aldosterone excess?

Answer 42

Aldo activates Na/K-ATPase leading to increased Na reabsorption thus leading to increased BP.

Question 43

Glucocorticoid excess is seen in what syndrome?

Answer 43

Cushing’s

Question 44

How is BP elevated with glucocorticoid excess?

Answer 44

Same mechanism as aldosterone.

Question 45

What is the role of 11-beta-hydroxysteroid dehydrogenase?

Answer 45

Normally, it converts cortisol to cortisone which cannot bind to and stimulate the Na/K-ATPase. In glucocorticoid excess, the enzyme is overwhelmed and the excess cortisol binds.

Question 46

Pseudohyperaldosteronism results from what?

Answer 46

Deficiency in 11-beta-hydroxysteroid DH. Note, chronic licorice ingestion (from candies or chewing tobacco) inhibits this enzyme.

Question 47

What are the clinical features of pseudohyperaldosteronism?

Answer 47

HTN, hypokalemia, metabolic alkalosis, low renin, low aldosterone.

Question 48

What is the inheritance pattern of Liddle’s syndrome?

Answer 48

Autosomal dominant

Question 49

Liddle’s syndrome is due to what?

Answer 49

Constituitive activation of Na channels in distal tubule due to mutation in beta or gamma subunits.

Question 50

How do you treat Liddle’s?

Answer 50

Triamterene or Amiloride

Question 51

What is the mechanism of hypokalemia seen in Liddle’s?

Answer 51

Increased Na entering tubular cells via ENaC in collecting duct will increase K secretion by creating a favorable gradient.

Question 52

What is the mechanism of metabolic alkalosis in Liddle’s?

Answer 52

Increased H secretion by H pump in response to activation of mineralocorticoid receptor. Hypokalemia causes intracellular shift of H into tubular cells and subsequent secretion to lumen.

Question 53

Describe Gordon’s syndrome (pseudohypoaldosteronism type II).

Answer 53

Constitutive activation of thiazide-sensitive Na-Cl channels in DCT due to mutations in WNK1 or WNK4. This reduces Na delivery to collecting duct.

Question 54

What are the clinical features of Gordon’s?

Answer 54

Salt-sensitive HTN, hyperkalemia, and metabolic acidosis.

Question 55

Why is hyperkalemia seen in Gordon’s?

Answer 55

Decreased Na delivery to the DCT results in a less positive charged tubular cell thus decreasing the drive for K secretion. Thus, less K is secreted, more is reabsorbed…hyperkalemia.

Question 56

Blood pressure is a result of what 2 things?

Answer 56

CO and SVR

Question 57

What is the most common cause of HTN?

Answer 57

Essential HTN

Question 58

T or F. Impaired Na handling by the kidney with contribution of RAAS and SNS are essential determinants of elevated BP.

Answer 58

T