Acid Base Physiology

Question 1

Basic definition of acid and base.

Answer 1

Acid: substance that can donate hydrogen ions

Base: substance that can accept hydrogen ions

Question 2

What are the two main types of acids?

Answer 2

1) Carbonic acid- Volatile acids that can be converted to CO2 from carbohydrate and fat metabolism (eliminated from lungs)
2) Noncarbonic acids- nonvolatile acids such as phosphoric and sulfuric acids that cannot be converted to CO2 and are made mostly from protein and phospholipids metabolism

Question 3

How are Noncarbonic acids excreted?

Answer 3

these combine with buffers and are excreted by the kidneys

Question 4

What are the pH extremes that are compatible with life (only for a short time)?

Answer 4

6.8-7.8

Question 5

How is pH usually measured in the body?

Answer 5

arterial blood gas samples (also measures CO2 and hemoglobin and calculates HCO3- from the Henderson eqn)

Question 6

How is HCO3- more directly measured?

Answer 6

venous samples as total CO2 conc (dissolved CO2 plus HCO3- conc)

so the venous estimation of HCO3- is always about 1-.1.5 me/l greater than actual HCO3 due to the extra dissolved CO2

Question 7

So what is normal plasma HCO3-?

Answer 7

24 mEq/l (arterial)

Question 8

Bicarbonate buffer system eqn

Answer 8

CO2+H2O - H2CO3 - H+ + HCO3-

Question 9

Henderson eqn revised

Answer 9

(pH) H+ = 24(CO2/HCO3)

pH must be converted to H+ (nEq/L) pH= 7.4= 40 nEq/L

7.40=40=24(40/24)

Question 10

Relationship between pH and [H+]

Answer 10

7. 0=100
8. 1=80
9. 2=64
10. 3=50
11. 4=40
12. 5=32
13. 6=25
14. 7=20
15. 8= 16

[H+]= 80- decimal digits of pH

Question 11

What is the definition of metabolic acidosis?

Answer 11

some process that lowers bicarbonate, while alkalosis is some process that increases HCO3-

Question 12

What is the definition of respiratory acidosis?

Answer 12

increased CO2, while respiratory alkalosis is decreased CO2

Question 13

T or F. HCO3- is slightly increased with respiratory acidosis (increased CO2)

Answer 13

T. Think of the eqn.

Question 14

Do buffers act quickly or slowly?

Answer 14

very quickly- almost an immediate onset

Question 15

What is the isohydric principle?

Answer 15

all buffers change in the same direction

Question 16

Where is HCO3- used as a buffer?

Answer 16

ECFV

Question 17

What buffers are used in the urine?

Answer 17

phosphate (HPO42- and H2PO4-) and ammonia (NH3 and NH4+)

Question 18

How does the body compensate for metabolic disorders?

Answer 18

by altering CO2 (via the lungs, rapid onset, minutes)

likewise, respiratory disorders are compensated with HCO3- changes (via the kidney, slower onset, 1-2 days)

Question 19

Why would there be a large pH change in acute respiratory disorders than chronic?

Answer 19

because the compensatory mechanisms haven’t kicked in yet

Question 20

What happens to pH, HCO3- and pCO2 in metabolic acidosis?

Answer 20

all decrease, pCO2 as a compensatory mechanism

Question 21

What happens to pH, HCO3- and pCO2 in metabolic alkalosis?

Answer 21

all increase, pCO2 as a compensatory mechanism

Question 22

What happens to pH, HCO3- and pCO2 in respiratory acidosis?

Answer 22

pH decreases and HCO3- increases (compensatory) and pCO2 increases

Question 23

What happens to pH, HCO3- and pCO2 in respiratory alkalosis?

Answer 23

pH increases and pCO2 and HCO3- decrease

Question 24

How much does HCO3- compensate in acute respiratory acidosis?

Answer 24

HCO3- increases 1 mEq for each 10mm increase in PCO2

Question 25

How much does HCO3- compensate in chronic respiratory acidosis?

Answer 25

HCO3- increases 4mEq for each 10 mm increase in PCO2 because the kidney has had time to react

Question 26

How much does HCO3- compensate in acute respiratory alkalosis?

Answer 26

HCO3- decreases 2mEq for each 10mm decrease in PCO2

Question 27

How much does HCO3- compensate in chronic respiratory alkalosis?

Answer 27

HCO3- decreases 5mEq for each 10mm decrease in PCO2

Question 28

Golden rules of simple acid-base disorders

Answer 28

1) pCO2 and HCO3 always change in the same direction
2) the secondary physiologic mechanism must be present (if not, its mixed)
3) compensatory mechanisms never fully correct pH and they never over-shoot

Question 29

What are some possible causes of metabolic acidosis?

Answer 29

• decreased renal acid excretion of H+ in the form of NH4+
• direct HCO3- losses (GI tract- diarrhea or intestinal fistulas (everywhere but stomach) or urine)
• Increased acid generation (exogenous or endogenous)

Question 30

What are some causes of increased acid generation?

Answer 30

• lactic acidosis, -ketoacidosis,

- ingestion of acids (aspirin, ethylene glycol, methanol)

Question 31

What is Type 1 renal tubular acidosis?

Answer 31

transport defect in H+ ATPases in the CD

Question 32

What is Type 4 renal tubular acidosis?

Answer 32

low renin production- hypoaldosteronism

Question 33

What is the main mechanism of respiratory acidosis?

Answer 33

-induced by hypercapnia (decreased alveolar ventilation)

Question 34

What is the compensatory mechanism for respiratory acidosis?

Answer 34

HCO3- will increase rapidly but only about 1-2mEq/L

over time the kidney will work to increase acid excretion (NH4+) generating new bicarbonate ions (delayed response, 2-3 days)

Question 35

What are some causes of acute respiratory acidosis?

Answer 35

• general anesthesia
• sedative overdose
• cardiac arrest
• pneumothorax
• aspiration of foreign body
• blockage of airways

Question 36

What are some causes of chronic respiratory acidosis?

Answer 36

-COPD
-Brain tumor
-respiratory nerve damage
etc.

Question 37

What are some causes of acute respiratory alkalosis?

Answer 37

-anxiety
-fever
-salicylate intoxication
-CNS diseases
-CHF
-Hypoxia
etc.

Question 38

What are some causes of chronic respiratory alkalosis?

Answer 38

• pregnancy

- cirrhosis

Question 39

T or F. In respiratory disorders, plasma Cl changes equally and inversely with plasma HCO3

Answer 39

T. The plasma anion gap does not change with respiratory disorders

Question 40

NOTE: Plasma Na is not directly altered by acid base disorders

Answer 40

NOTE: Plasma Na is not directly altered by acid base disorders (and K+ levels usually)

Question 41

What are the potential etiologies of metabolic alkalosis?

Answer 41

loss of H+ from the GI tract (vomiting- removes gastric secretions) or into the urine (diuretic therapy-mainly loop and thiazides)- will be hypotensive OR

if the kidney is excessively excreting acid into urine (primary hyperaldosteronism) - will have HTN

Question 42

What is plasma anion gap?

Answer 42

only relevant to metabolic acidosis. If you add a strong acid to the system at pH=7.4, it will fully dissociate into H+ and A-. H+ will be buffered by HCO3- (thus, HCO3- goes down when an acid is added to the system)

Question 43

What happens to the A-?

Answer 43

It is either excreted into the urine causing Cl- to increase to maintain electrical neutrality (normal anion gap)

or A- is reabsorbed by the kidney as an unmeasured anion (causes increased plasma anion gap, minimal change in plasma Cl- conc.)

Question 44

What is the eqn for PAG?

Answer 44

PAG= Na+- (Cl- + HCO3-)

Normal PAG is ~12

Question 45

What does increase in PAG suggest?

Answer 45

due to unmeasured negative charge. So if you see increase in PAG, you know the kidney is reabsorbing an unmeasured anion such as lactate or keto-anion