Lecture 20: Acid/Base Physiology (Final Exam)

Question 1

For the purposes of A&P, what is normal pH?

Answer 1

7.4

Question 2

What occurs to serum proteins when excess hydrogen ions are present?

Answer 2

Conformational change of the protein occurs.

Question 3

What are volatile compounds?
Give examples.

Answer 3

Compounds that can escape to a gaseous phase easily.

Ex. CO₂ , VAA’s

Question 4

Whats an example of a bodily acid that is non-volatile?
How is this compound removed from the body?

Answer 4

• Lactic acid
• Renal excretion

Question 5

The majority of acid in the body is found in the form of ____.

Answer 5

CO₂

Question 6

Where do the components of CO₂ come from?

Answer 6

• O₂ from respiration
• C from food diet

Question 7

What is the central acid/base formula?

Answer 7

Question 8

What enzyme converts H₂CO₃ to CO₂ and H₂O ?

Answer 8

Carbonic Anhydrase.

Question 9

Excess CO₂ would push the acid/base formula to the _____.

Answer 9

right

Question 10

What cell membrane pump is adversely affected by acidosis?

Answer 10

Na⁺ K⁺ ATPase Pump

Question 11

What is the result of a dysfunctional Na⁺K⁺ATPase pump due to acidosis?
Why does this occur?

Answer 11

• Hyperkalemia
• Occurs due to excessive ICF H⁺ causing efflux of H⁺ and K⁺ to the ECF.

Question 12

What organ deals with acidosis in the short term?
What organ deals with acidosis in the long term?

Answer 12

• Short term = Lungs
• Long term = Kidneys

Question 13

pH is a _______ scale. This means that small changes in pH equate to ______ changes in [H⁺].

Answer 13

logarithmic ; large

Question 14

Strong acids dissociate into ______ conjugate bases.

Answer 14

weak

Question 15

Weak acids dissociate into _____ conjugate bases.

Answer 15

strong

Question 16

What does H₂CO₃ dissociate into?

Answer 16

H⁺ : acid
HCO₃⁻ : conjugate base

Question 17

How is pH calculated?

Answer 17

pH = -log[H⁺]

or

pH = pK + log (A⁻ ÷ HA)

Question 18

What is a product of abnormal metabolism?

Answer 18

Lactate

Question 19

Ketones are _______ and therefore have to be ______ excreted.

Answer 19

non-volatile ; renally

Question 20

How are H⁺ excreted in the urine?

Answer 20

NH₃ + H⁺ → NH₄⁺

Question 21

What is a normal serum HCO₃⁻ level?

Answer 21

24 mOsm/L

Question 22

What occurs to hemoglobin when around excess hydrogen ions?

Answer 22

O₂ will dissociate off the Hb molecule

Question 23

What is the primary protein buffer necessary for normal HCO₃⁻ activity?

Answer 23

Hemoglobin

Question 24

If the PCO₂ is excessively high, then a commensurate increase in what is needed to prevent acidosis?

Answer 24

HCO₃⁻

Question 25

What is the most important blood buffer?
What is necessary for this buffer to be effective?

Answer 25

HCO₃⁻ is most important buffer but requires normal serum protein concentrations.

Question 26

What is the lowest possible pH on the 20mmHg PCO₂ isobar?

What about the highest?

Answer 26

Lowest ≈ 7.36 w/ a HCO₃⁻ of almost 10 mmol/L
Highest ≈ 7.75 w/ a HCO₃⁻ of around 24 mmol/L

Question 27

Given the graph below, how would a stronger buffer change the graph?

Answer 27

The buffer line would be more steep.

Question 28

Polycythemia would result in a __________ buffering capacity.

Why?

Answer 28

Increased buffering capacity

This is due to excess Hb capacity to “capture” excess H⁺.

Question 29

Anemia would result in a ________ to buffering capacity.

Answer 29

decrease

Question 30

Name the other buffering compounds aside from plasma proteins and bicarbonate.

Answer 30

• Sulfur compounds
• Phosphate compounds
• Ammonia compounds

Question 31

What buffer compounds are found primarily intracellularly?

Answer 31

• Sulfur
• Phosphate

Question 32

What two phosphate buffer compounds were mentioned in lecture?

Answer 32

• ATP
• H₂PO₄ → H⁺ + HPO₄⁻

Question 33

What is the general pK of phosphate compounds?

Answer 33

pK ≈ 6.8

Question 34

What is the normal pH of urine?

Answer 34

≈ 5

Question 35

How many ATP molecules are produced via glycolysis?

Answer 35

2 ATPs

Question 36

How many ATP molecules are produced via the Krebs cycle (citric acid cycle)?

Answer 36

34 ATPs

Question 37

How many ATP molecules are produced via combined glycolysis and citric acid cycle?

Answer 37

36 ATPs

Question 38

What occurs with “uncoupled metabolism” ?

Answer 38

Excess H⁺ (or something else) inhibits proteins in the glycolysis/Krebs cycle → increase glucose usage w/ decreased ATP formation.

Possible anaerobic metabolism and excess lactate formation.

Question 39

Why is acute respiratory acidosis more acidotic than chronic respiratory acidosis?

Answer 39

Kidneys haven’t had time to increase HCO₃⁻ production to accommodate excess CO₂.

Question 40

When is metabolic acidosis seen?

Answer 40

When the kidneys don’t produced enough HCO₃⁻ to compensate for acidosis.

Question 41

Which of the following conditions is a result of hyperventilation?

Answer 41

Acute Respiratory alkalosis

↓PCO₂ → ↓CBF

Question 42

Differentiate the clinical presentations of early and late COPD patients.

Answer 42

Early: pink puffer, ↑PCO₂
Late: Blue bloater, ↑PCO₂ & ↓PO₂

Question 43

What famous textbook writer developed polio?
What did this prevent him from becoming?

Answer 43

Guyton developed Polio and was unable to become a cardiac surgeon.

Question 44

How was polio contracted?
What charity group was originally created to combat polio?

Answer 44

• Swimming pools
• March for Dimes

Question 45

What drug class, mentioned in class, when combined with alcohol will lead to severe consequences and possible death?

Answer 45

Barbiturates

Question 46

Which two commonly used anesthetics won’t cause depression of the central nervous system?

Answer 46

Ketamine and Dexmedetomidine

Question 47

What is the common pathophysiology of someone with an impact injury who had “the wind knocked out of them” ?

Answer 47

Phrenic nerve spasm

Question 48

Is the respiratory system affected with a C6 injury?

Answer 48

Yes; diaphragm is innervated by C3-C5 but accessory muscles can still be affected.

Question 49

Phrenic nerve injury, Eton-Lambert syndrome, sarcoidosis, extreme obesity, and pulmonary parenchymal disease are all examples of conditions that can cause _______ ________.

Answer 49

Respiratory acidosis

Question 50

What effects will high altitude have on PO₂ and respiratory drive?

Answer 50

High altitude = ↓PO₂ and ↑Respiratory drive

Question 51

What drug class can cause respiratory alkalosis?

Answer 51

Salicylates (ex. aspirin; stimulate the breathing centers of the CNS)

Question 52

Progesterone, encephalitis/meningitis, anxiety, salicylates, and asthma are examples of conditions that can cause _______ ________.

Answer 52

Respiratory Alkalosis