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Patho > Packet 10 - Fluid Balance (3) > Flashcards

Packet 10 - Fluid Balance (3) Flashcards

1
Q

Arterial Blood Gas Values

What are the normal ABG ranges for PaCO2 ?

A

PaCO2 → 35-45 mm Hg

(respiratory indicator of acid/base balance)

HCO3- → 22-26 mEq/L

(metabolic indicator of acid/base balance)

pH → 7.35-7.45

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2
Q

Arterial Blood Gas Values

What are the normal ABG ranges for HCO3- ?

A

PaCO2 → 35-45 mm Hg

(respiratory indicator of acid/base balance)

HCO3- → 22-26 mEq/L

(metabolic indicator of acid/base balance)

pH → 7.35-7.45

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3
Q

Panic attacks and/or anxiety attacks cause hyperventilation.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Respiratory Alkalosis

Primary deficit of carbonic acid

P/C Factors:

  • Hyperventilation
    • increase in respiratory rate (i.e. panic attacks, anxiety, lung disease, hypoxia, fever)
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4
Q

Caused by renal failure and/or diabetic ketoacidosis.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Metabolic Acidosis

Primary deficit in base / bicarbonate

P/C Factors:

  • Excess metabolic acids
    • increased production (i.e. lactic acidosis, ketoacidosis)
    • impaired kidney function (i.e. decrease in acid excretion)
    • drug/chemical toxicities
  • Excessive loss of bicarbonate
    • impaired kidney function
    • Loss of bicarb-rich intestinal secretions (i.e. diarrhea, drainage tubes)
  • Hyperchloremia
    • Since chloride and bicarb are both anions, increased chloride causes decreased bicarb
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5
Q

Kidneys try to compensate by excreting more acid in the urine.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Respiratory Acidosis

Primary excess of carbonic acid

P/C Factors: conditions that impair alveolar ventilation → increase in PCO2

  • Depression of respiratory center in medulla
    • i.e. head injury, drug overdose
  • Lung disease
    • COPD, pneumonia, ARDS, pulmonary edema
  • Airway obstruction
  • Chest injury
  • Disorders of respiratory muscles
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6
Q

Treat by having people breathe in paper bag.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Respiratory Alkalosis

Primary deficit of carbonic acid

P/C Factors:

  • Hyperventilation
    • increase in respiratory rate (i.e. panic attacks, anxiety, lung disease, hypoxia, fever)
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7
Q

Primary excess in base / bicarbonate.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Metabolic Alkalosis

Primary excess in base / bicarbonate

P/C Factors:

  • Excess gain of bicarb/alkali
    • Medications / IVs
  • Excess loss of hydrogen ions
    • GI
      • vomiting, gastric suction → loss of hydrochloric acids + loss of chloride
    • Renal
      • decreased potassium levels due to diuretic therapy → kidneys excrete hydrogen while trying to save potassium.
      • Hydrogen ions shift from extracellular to intracellular because of plasma potassium-hydrogen exchange
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8
Q

Primary deficit of carbonic acid.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Respiratory Alkalosis

Primary deficit of carbonic acid

P/C Factors:

  • Hyperventilation
    • increase in respiratory rate (i.e. panic attacks, anxiety, lung disease, hypoxia, fever)
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9
Q

Caused by hyperchloremia.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Metabolic Acidosis

Primary deficit in base / bicarbonate

P/C Factors:

  • Excess metabolic acids
    • increased production (i.e. lactic acidosis, ketoacidosis)
    • impaired kidney function (i.e. decrease in acid excretion)
    • drug/chemical toxicities
  • Excessive loss of bicarbonate
    • impaired kidney function
    • Loss of bicarb-rich intestinal secretions (i.e. diarrhea, drainage tubes)
  • Hyperchloremia
    • Since chloride and bicarb are both anions, increased chloride causes decreased bicarb
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10
Q

Hypoxia and hypercapnia cause CO2 narcosis (sleepy and possibly coma).

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Respiratory Acidosis

Primary excess of carbonic acid

P/C Factors: conditions that impair alveolar ventilation → increase in PCO2

  • Depression of respiratory center in medulla
    • i.e. head injury, drug overdose
  • Lung disease
    • COPD, pneumonia, ARDS, pulmonary edema
  • Airway obstruction
  • Chest injury
  • Disorders of respiratory muscles
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11
Q

Hydrogen ions shift from extracellular to intracellular because of plasma potassium-hydrogen exchange.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Metabolic Alkalosis

Primary excess in base / bicarbonate

P/C Factors:

  • Excess gain of bicarb/alkali
    • Medications / IVs
  • Excess loss of hydrogen ions
    • GI
      • vomiting, gastric suction → loss of hydrochloric acids + loss of chloride
    • Renal
      • decreased potassium levels due to diuretic therapy → kidneys excrete hydrogen while trying to save potassium.
      • Hydrogen ions shift from extracellular to intracellular because of plasma potassium-hydrogen exchange
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12
Q

Primary deficit in base / bicarbonate.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Metabolic Acidosis

Primary deficit in base / bicarbonate

P/C Factors:

  • Excess metabolic acids
    • increased production (i.e. lactic acidosis, ketoacidosis)
    • impaired kidney function (i.e. decrease in acid excretion)
    • drug/chemical toxicities
  • Excessive loss of bicarbonate
    • impaired kidney function
    • Loss of bicarb-rich intestinal secretions (i.e. diarrhea, drainage tubes)
  • Hyperchloremia
    • Since chloride and bicarb are both anions, increased chloride causes decreased bicarb
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13
Q

Primary excess of carbonic acid.

a. ) Metabolic acidosis
b. ) Metabolic alkalosis
c. ) Respiratory acidosis
d. ) Respiratory alkalosis

A

Respiratory Acidosis

Primary excess of carbonic acid

P/C Factors: conditions that impair alveolar ventilation → increase in PCO2

  • Depression of respiratory center in medulla
    • i.e. head injury, drug overdose
  • Lung disease
    • COPD, pneumonia, ARDS, pulmonary edema
  • Airway obstruction
  • Chest injury
  • Disorders of respiratory muscles
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14
Q

ABG results:

pH → 7.50

pCO2 → 40

pO2 → 75

HCO3 → 32

A

Uncompensated Metabolic Alkalosis

pH → 7.50* (7.35 - 7.45)

pCO2 → 40 (35 - 45)

pO2 → 75 (79-99)

HCO3 → 32* (22-26)

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15
Q

ABG results:

pH → 7.32

pCO2 → 55

pO2 → 56

HCO3 → 26

A

Uncompensated respiratory acidosis

pH → 7.32* (7.35 - 7.45)

pCO2 → 55* (35 - 45) increased (more acid)

pO2 → 56* (79-99)

HCO3 → 26 (22-26)

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16
Q

ABG results:

pH → 7.23

pCO2 → 50

pO2 → 77

HCO3 → 28

A

Partially Compensated Respiratory Acidosis

pH → 7.23* (7.35 - 7.45)

pCO2 → 50* (35 - 45)

pO2 → 77 (79-99)

HCO3 → 28* (22-26)

17
Q

ABG results:

pH → 7.60

pCO2 → 30

pO2 → 80

HCO3 → 24

A

Uncompensated Respiratory Alkalosis

pH → 7.60* (7.35 - 7.45)

pCO2 → 30* (35 - 45)

pO2 → 80 (79-99)

HCO3 → 24 (22-26)

18
Q

ABG results:

pH → 7.30

pCO2 → 32

pO2 → 75

HCO3 → 19

A

Partially Compensated Metabolic Acidosis

pH → 7.30* (7.35 - 7.45)

pCO2 → 32* (35 - 45)

pO2 → 75 (79-99)

HCO3 → 19* (22-26)

19
Q

ABG results:

pH → 7.49

pCO2 → 52

pO2 → 90

HCO3 → 33

A

Partially compensated metabolic alkalosis

pH → 7.49* (7.35 - 7.45)

pCO2 → 52* (35 - 45) increased (more acid)

pO2 → 90 (79-99)

HCO3 → 33* (22-26) increased (more alkaline)

20
Q

ABG results:

pH → 7.45

pCO2 → 50

pO2 → 80

HCO3 → 30

A

Compensated Metabolic Alkalosis

pH → 7.45 (7.35 - 7.45)

pCO2 → 50* (35 - 45)

pO2 → 80 (79-99)

HCO3 → 30* (22-26)

21
Q

ABG results:

pH → 7.45

pCO2 → 28

pO2 → 75

HCO3 → 20

A

Compensated Respiratory Alkalosis

pH → 7.45 (7.35 - 7.45)

pCO2 → 28* (35 - 45)

pO2 → 75 (79-99)

HCO3 → 20* (22-26)

22
Q

ABG results:

pH → 7.35

pCO2 → 50

pO2 → 60

HCO3 → 30

A

Compensated Respiratory Acidosis

pH → 7.35 (7.35 - 7.45)

pCO2 → 50* (35 - 45)

pO2 → 60 (79-99)

HCO3 → 30* (22-26)

23
Q

ABG results:

pH → 7.28

pCO2 → 39

pO2 → 78

HCO3 → 18

A

Uncompensated Metabolic Acidosis

pH → 7.28* (7.35 - 7.45)

pCO2 → 39 (35 - 45)

pO2 → 78 (79-99)

HCO3 → 18* (22-26)

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