Lecture 8 - salt balance

Question 1

Na, Cl and H2O are all ….. and so most (99%) of what’s filtered is …… . They are not normally ……

Answer 1

freely filtered
reabsorbed
secreted

Question 2

How does Na+ reabsorption take place?

Answer 2

It is active and happens via a trasncellilar rpite that is powered by the basolateral Na-K-ATPase

Question 3

How does Cl- reabsorption take place?

Answer 3

it is passive (paracellular) and active (transcellular). Both of these routes are coupled with Na+ reabsorption.

Question 4

How does H2O reabsorption take place?

Answer 4

It takes place by osmoiss and secondary to reabsorption of solute especially Na+.

Question 5

What will changes in Na+ concentrations do to the ECF volume.

Answer 5

Increase in Na+ concentrations will increase the ECF volume whereas decrease in Na+ concentrations will decrease the ECF volume.

Question 6

how is the requirment for salt reabsoprtion or excretion measured in the body?

Answer 6

It is measured in terms of volume or pressure changes.

Question 7

What are the different pathways for sodium output?

Answer 7

1. ) Urine
2. ) feces
3. ) Sweat

Question 8

How how Na is inhested a day and how much ends up in the diffrent output pathways?

Answer 8

Ingested - 120mM
Feces - 10 mM
urine - 100 mM
Sweat - 10 mM

Question 9

How much Na is filtered and reabsorbed every day?

Answer 9

Filtered - 25,500

Reabsorbed - 25,400

Question 10

What proportion of filtred Na is reabsorbed?

Answer 10

99 %

Question 11

How much Na does the proximal tubule absorb?

Answer 11

65 %

Question 12

How much Na does the thick ascending limb of the loop of henle reabsorb?

Answer 12

25 %

Question 13

How much Na does the distal convuluted tubule and collecting duct reabsorb?

Answer 13

The rest - so about 9 percent

Question 14

How much Na does the final urine contain?

Answer 14

Less than 1 %

Question 15

What controls the reabsorption of Na?

Answer 15

Physiollogically controlled nuronally and hormonally.

Question 16

Since such a huge amount of Na is …… , a small change in …… can result in a …. change in Na excretion.

Answer 16

Filtered, reabsorption rate, large

Question 17

What do the primary active transport mechanism (Na-K-ATPase pumps) in the basolateral membrane do in nephron segments? Why is it significant?

Answer 17

THey keep intracellular levels of Na+ low and this is significant becaues low intracellular levels of Na+ means that the Na+ in the tubular lumen (which is at a higher concentration) can ,ove into the cell down its electrochemical gradient.

Question 18

Why is plasma Na concentrations normally constant?

Answer 18

Because of ADH and thirst mechanism which maintains ECF volume by regulating the total body Na+. essentially, the input = output.

Question 19

How much NaCl is ingested in a normal diet?

Answer 19

8-15 g a day or 150-200 mEQ/day

Question 20

If we retain one day intake of sodium what would happen?

Answer 20

We would retain 1 L of water to maitain tonicity which will increase thebody water weight by 1 kg.

Question 21

What happens in regards to regional handling of Na, Cl, and H2O in the proximal tubule?

Answer 21

iso osmotic reabsorption

Question 22

What happens in regards to regional handling of Na, Cl, and H2O in the loop of henle?

Answer 22

seperation of salt and H2O

Question 23

What happens in regards to regional handling of Na, Cl, and H2O in the distal tubule and collecting duct?

Answer 23

reabsorption is regulated

Question 24

What are the mechanisms to regulate Na+?

Answer 24

1. ) change in GFR - change in Na+ reabsorption
2. ) renin-angiotensin-aldosterone - decreases Na+ excretion, ARDN (aldosterone responsive distal nephron)
3. ) Atrial natriuretic peptide and other naturetics - increase Na excretion.

Question 25

What happens when ECF volume changes in regards to RBF ?

Answer 25

it can decrease by sympathetic nerves, catecholamine and AG-II

Question 26

What happens when GFR changes?

Answer 26

The PCT reabsorbs a constant fraction of the filtered load. So when GFR increases, the PCT reabsorption also increases. This is called glomerulotubular balance.

Question 27

What is the Renin Angiotensin system?

Answer 27

essentially it is a multistep pathway that maintains ECF volume and BP.

Question 28

Steps of the Renin angiotensin system?

Answer 28

1. ) renin is released which is stimulated hy sympathetics due to low MAP or low NaCl delivery to the macula densa
2. ) this converts angiotensinogen to angiotensin I
3. ) then angio tensin converting enzyme (ACE) which is found in endothelial cells of all blood vessels converts angiotensin I to Angiotensin II
4. ) Angiotensin II stimulates the release of aldosterone

Question 29

Angiotensin II is a …… vasoconstrictor which …… RPF, but because its dominant effects is on the ……. arteriole, it mainains glomerular …… and reduces … at the peritubular capillaries. These effects ….. GFR, …. filtration fraction and peritubular capillary osmotic pressure and ….. proximal tubule reabsorption of Na and water.

Answer 29

• potent
• decreases
• efferent
• Pc (Capillary hydrostatic pressure)
• Pc
• maintain
• increase
• increase

Question 30

What does Angiotensin II stimulate in the proximal tubule?

Answer 30

Na-H exchange and Na-bicarbonate reabsorption

Question 31

What does angiotensin II stimulate in the adrenal cortex?

Answer 31

release of aldosterone

Question 32

What is aldosterone ?

Answer 32

potent mineralocorticoid that promotes active sodium reabsorption along the DT and CD.

Question 33

Aldosterone is released in response to what?

Answer 33

• Ang II
• high plasma K
• large decreases in plasma Na

Question 34

what is the stimulus for the release of renin?

Answer 34

• JG (juxtaglomerular) cells pressure sensitive, decrease in pressure causes and increase in renin secretion.
• sympathetic neurons can also stimulate the release of renin
• macula densa - JG cells here and it monitors GFr and pressure

Question 35

What are the function of AG II?

Answer 35

1. )
   - aldosterone secretion
   - na reabsorption
   - ecf volume
   - blood pressure
2. ) increase output of CVCC, increase HR, increase CO, increase BP
3. )Thirst

Question 36

What does aldosterone do?

Answer 36

high aldosterone results in increase na erabsorptionand it effects the final 2-8% of Na remaining in the nephron.

Question 37

What is aldosterone released from?

Answer 37

High pottasium or low osmolarity in the adrenal corrtex.

Also indirectly by angiotensin II

Question 38

Where is ANP stored?

Answer 38

granules in the myocytes of the atria

Question 39

What is the effect of ANP on the kidney?

Answer 39

increase in GFR and so receptors in the brain inhibit the release of renin. TH enet effect is to promote Na+ excretion.

Question 40

What does ANP do?

Answer 40

• it is a potent vasodilator that increases RPF, GFR and peritubular Pc which increases filtration and reduces prximal tubule reabsorptioin of Na and water.
• inhibits Na reabsorption at the CD

Question 41

What senses changes in ECFV?

Answer 41

stretch receptors at the low pressure side of circulation such as the atrial stretch receptors. When they are stretched they send fewer neural inhibitory impulses to the central sympathetic nervous system.