Acid-Base Balance

Question 1

List the rough percentages of reabsorption of the filtered load of HC03 throughout the PT, TAL, DT/CD, and out of nephron. What is take away message?

Answer 1

PT-80%
TAL-15%
DT/CD- 5%
output: 0%

The kidney wants to maintain and preserve the filtered load of HCO3-!

Question 2

What are the main three roles of the kidney in terms of acid-base balance?

Answer 2

1. reabsorb filtered load of HCO3
2. Excrete non-volatile acids
3. regenerate/replenish HCO3 that’s been consumed

Question 3

What is a volatile acid?

Answer 3

One that breaks down into CO2

Question 4

How much nonvolatile acid is excreted / day?

Answer 4

~140 mEq / Kg body weight / day

Question 5

Net Acid Excretion Rate (NAE) equation

Answer 5

(UNH4V) + (UTAV) - (UHCO3*V)

TA= titratable acid = nonvolatile acid

Question 6

Carbonic anhydrase is found in two regions of the proximal tubule. What is its function in both?

Answer 6

Inside cell: H2O + CO2 –> HCO3 + H+
(HCO3 gets reabsorbed, H+ gets secreted via the Na/H+ antiporter)

On luminal membrane: H+ + HC03 –> H2O + CO2
(CO2 diffuses down gradient and goes through cell membrane)

Question 7

What are two major things that impact HCO3 reabsorption?

Answer 7

1. Na reabsorption: if Na reabsorption increases, HCO3 reabsoprtion increases (due to Na/H antiporter, H gets secreted more, binds with HCO3, brings H2O and CO2 back into cell to make more HCO3 to get reabsorbed)
2. CA inhibitors: blocks conversion of H2O + CO2 –> HCO3 + H+

Question 8

Why do CA inhibitors make an effective diuretic?

Answer 8

• Enzyme cant convert H2O + CO2 –> HCO3 + H+
• less H+ gets secreted
• less Na gets reabsorbed (antiporter)
• diuretics block Na reabsorption

Question 9

Outside of Acid/Base balance, what are 3 other regulators of HCO3 reabsorption?

Answer 9

1. Filtered load of HCO3
2. ECV (AII, SNS)
3. K+ balance (if too much K+, gets put in cell, kicks out proton to maintain neutrality, intracellular pH increases)

Question 10

What is the presence of CA in TAL, and how does it compare to in the PT?

Answer 10

CA is located only inside the cell, there is no CA in apical side. Reabsoprtion is thus limited since reaction doesn’t occur very quickly.

NB: H2O isn’t reabsorbed in the TAL!

Question 11

Two main functions of Principal Cells in CD:

Answer 11

1. reabsorb Na and H2O

2. secrete K+

Question 12

Two types of intercalated cells in CD. Describe major differences/function

Answer 12

1. alpha-IC - secrete acid via proton ATPase, H/K ATPase (both on apical side), and antiporter HCO3/Cl (on basal side, HCO3 getting reabsorbed)
2. beta-IC - secrete base via antiporter HCO3/Cl (on apical side), and proton ATPase (on basal side, H+ getting reabsorbed).

Question 13

Meat lovers make use of which intercalated cell the most?

Answer 13

Alpha-IC, since it secretes acid and there is a shit ton of acid in protein!

Question 14

In addition to acid/base balance, what is another regulator of acid secretion?

Answer 14

For whatever reason, aldosterone stimulates alpha cells to secrete acid.

Question 15

Titratable acids need to be excreted with associated proteins. Where does this buffering occurs in the nephron?

Answer 15

Collecting Duct

Question 16

Which process is the most important aspect for acid base regulation?

Answer 16

Ammoniagenesis

Question 17

Via what process is consumed HCO3 regenerated/replenished?

Answer 17

Ammoniagenesis

Question 18

Breakdown of ____ turns into 2NH4 + 2HCO3. Where does this occur in the kidney?

Answer 18

glutamine, proximal tubule

Question 19

If the kidneys done excrete NH4, what happens to it?

Answer 19

Gets picked up by liver, converted to urea + 2H+

Question 20

NH4 is easily converted to NH3 + H+. Which form has a tough time crossing the membrane?

Answer 20

NH4+. Ammonia (NH3) is like COD, it can easily diffuse down its gradient

Question 21

Trace the major steps of ammonium (NH4) through the nephron

Answer 21

• In the PT: H+ gets secreted (via Na/H antiporter) to join with NH3 in the lumen of the nephron
• gets kicked out of lumen in the TAL due to lumen’s (+) charge due to small K conductance in apical membrane
• NH4 –> NH3 + H+ in interstitial space
• NH3 gets reabsorbed in CD, and thus even greater driving force to convert NH4–>NH3 in interstitial space
• lots of H secretion of H+ in IC cells in CD (pH~4), traps ammonium
• NH4 excreted

Question 22

Henderson–Hasselbalch equation

Answer 22

pH = 6.1 + log [HCO3]/ alpha*PCO2

where alpha = 0.03 (conversion factor mmHg–>mEq)

Question 23

cut off pH for acidosis and alkalosis

Answer 23

acidosis < 7.35-7.45 < alkalosis

Question 24

3 lines of defense (and time scale) to keep changes in pH at a minimum:

Answer 24

1. ECF/ICF buffer–quick, seconds
2. Respiratory compensation –> change in PCO2 –> change in pH – minutes to hours
3. Renal Compensation/correction –> ammoniogenesis –hours to days

Question 25

ECF/ICF buffers as a line of defense (3)

Answer 25

1. Phosphates (everywhere)
2. proteins (plasma, albumin)
3. CO2/HCo3 (everywhere)

Question 26

As ECF/ICF buffers, CO2/HCO3 is considered an “open” system while the other two are “closed.” What does this mean?

Answer 26

Open = can change [ ], vary equilibrium
Closed = can't change concentrations, when there's an abnormality

Question 27

metabolic acidosis and compensation

Answer 27

• due to decrease [HCO3]
• compensation = decrease PCO2
• increases net acid excretion

Question 28

metabolic alkalosis and compensation

Answer 28

• due to increase [HCO3]
• compensation = increase PCO2 (increase pCO2 –> decrease pH –> more acidic)
• decrease net acid excretion

Question 29

respiratory acidosis and compensation

Answer 29

• due increased PCO2 (which decreases pH= acidic)
• compensation = buffers
• increase net acid excretion

Question 30

respiratory alkalosis and compensation

Answer 30

• due to decreased PCO2
• compensation = buffers
• decrease NAE

Question 31

What are the two forms of metabolic acidosis?

Answer 31

1. Anion gap type

2. Non Anion gap

Question 32

What are causes of non-anion gap metabolic acidosis? (3)

Answer 32

GI losses (diarrhea), addition of mineral acid equivalents (HCl), renal tubular acidosis

Question 33

anion gap “equation”

Answer 33

[Na+] - [Cl-] - [HCO3-]

Question 34

What does a non-anion gap mean?

Answer 34

If add some acid H+A- to the system, the anion A- is used to measure the amount. If the anion of the acid is Cl-, then the decrease in HCO3 (to buffer the acid) will be matched by an increase in Cl, and the anion gap will be normal. However, if the anion of a nonvolatile acid is not Cl, then the anion gap will increase

Question 35

normal level for anion gap

Answer 35

8-16 mEQ/L

Question 36

Treat these 8 causes of acidosis differently than non-anion gap

Answer 36

Methanol
Uremia (kidney failure)
Ketoacids (diabetic-DKA, alcoholic, starvation)
Paraldehyde
INH toxicity
Lactate
Ethanol/ehylene glycol
Salicyclate (from aspirin)