2. Acid-base Balance

Question 1

POCT (point of care testing / bedside testing)(8)

Answer 1

1) Faster result
2) Small sample size
3) Reduced preanalytic errors
4) Eliminate / minimize preparation steps
5) Improved patient satisfaction
6) Faster decision making and follow-up with patient
7) Better management of therapy
8) Convenience

Question 2

PH of extracellular vs intracellular space

Answer 2

Ec: 7,38 - 7,42
Ic: 6,8

Question 3

Sources of H+

Answer 3

• Intake, metabolism (50 mmol/d) = metabolic

- CO2 (12500 mmol/d) = respiratory

Question 4

Elimination of H+

Answer 4

• Kidney
• Lung (CO2)
• GI
• Liver

Question 5

Buffer with highest buffer capacity in body

Answer 5

Bicarbonate

Question 6

Methods for evaluation of metabolic changes

Answer 6

1) Henderson-Hasselbalch (HCO3-)
2) Siggaard-Andesson (BE-)
3) Stewart (strong ion difference), anion gap

Question 7

PH arterial vs venous BG

Answer 7

Arterial: 7,35 - 7,45

Venous: 7,35 - 7,43

Question 8

PCO2 arterial vs venous BG

Answer 8

Arterial: 35 - 46 mmHg

Venous: 37 - 50 mmHg

Question 9

Bicarbonate arterial vs venous BG

Answer 9

Both: 21 - 26 mmol/l

Question 10

BE arterial vs venous BG

Answer 10

Both: +/- 2,5 mmol/l

Question 11

Anion gap arterial vs venous BG

Answer 11

Both: 10 - 14 mmol/l

Question 12

Practical classification of acid-base disorders

Answer 12

• Iatrogenic
• Fixed
• Symptom of ongoing acute illness
• Only metabolic acidosis has real clinical importance

Question 13

Increased AG metabolic acidosis

Answer 13

MUDPILES
M: Methanol
U: Uremia
D: (Diabetic) ketoacidosis (or alcoholic, starvation, metabolic error)
P: Paracetamol, phenformin, paraldehyde
I: Iron, Isoniazide
L: Lactic acidosis
E: Ethanol
S: Salicylates

Question 14

Non-anion gap acidosis causes

Answer 14

• Renal tubular acidosis
• GI acidosis
• Iatrogenic acidosis

Question 15

Symptoms metabolic acidosis (10)

Answer 15

1) Increased symp activity
2) Decreased inotropy, arterial dilation (critical pH 7,2)
3) Decreased oxygen binding to Hgb
4) Hyperkalemia
5) Insulin resistance
6) Free radical formation
7) Bone demineralization
8) Emesis
9) Decreased sensorium
10) Hyperventilation

Question 16

Therapy metabolic acidosis

Answer 16

• Treat cause
• Maximizing respiratory compensation
• NaHCO3
• Tromethamine (Tris-buffer, Tham)

Question 17

Adverse effects NaHCO3

Answer 17

• Hyernatremia
• Increased CO2 production
• Intracellular acidosis

Question 18

Adverse effects Tromethamine

Answer 18

• Hypoglycemia
• Respiratory depression
• Fatal hepatic necrosis

Question 19

Metabolic alkalosis causes

Answer 19

• Chloride-responsive (e.g vomit, diuretics)
• Chloride-unresponsive (mineralocorticoid excess, Cushing SY, Bartter SY)
• Hypokalemia
• Sodium salt administration (acetate, citrate)

Question 20

Metabolic alkalosis symptoms

Answer 20

• Hypoventilation
• Neuromuscular excitability
• Hypokalemia
• Seizures
• Increased oxygen affinity to Hgb
• Altered coronary blood flow, vasoconstriction
• Decreased cerebral blood flow

Question 21

Metabolic alkalosis treatment

Answer 21

• Treat cause
• Cloride-responsive alkalosis: NaCl
• Chloride-unresponsive alkalosis: HCl, KCl
• Mineralocorticoid excess: Spironolactone

Question 22

Respiratory alkalosis causes

Answer 22

• Hypoxic respiratory failure
• Salicylate intoxication
• Early sepsis
• Hepatic failure
• Arteficial hyperventilation

Question 23

Respiratory alkalosis symptoms

Answer 23

• Decreased cerebral or coronary blood flow

- Neuromuscular excitability

Question 24

Respiratory alkalosis treatment

Answer 24

• Treat cause

- Increase dead space

Question 25

Respiratory acidosis causes

Answer 25

Respiratory failure

Question 26

Respiratory acidosis symptoms

Answer 26

Symptoms of metabolic acidosis + coma

Question 27

Respiratory acidosis therapy

Answer 27

• Treat cause

- Mechanical ventilation