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queeny queeny
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6 years ago
Based on the following ABG results, what is the most likely acid-base diagnosis? pH = 7.01, PCO2 = 71 mm Hg, HCO3 = 16.3 mEq/L
 
  a. Acute metabolic acidosis
  b. Acute respiratory acidosis
  c. Combined respiratory and metabolic aci-dosis
  d. Partially compensated respiratory acidosis


Q. 2  Based on the following ABG results, what is the most likely acid-base diagnosis? pH = 7.62, PCO2 = 32 mm Hg, HCO3 = 29 mEq/L
 
  a. Acute (uncompensated) metabolic alkalo-sis
  b. Combined metabolic and respiratory alka-losis
  c. Partially compensated metabolic alkalosis
  d. Partially compensated respiratory acidosis


Q. 3  Using the Henderson-Hasselbalch equation, determine the accuracy of the gas below. To be con-sidered accurate, it must be within 0.03 pH unit. pH = 7.35, PCO2 = 77 mm Hg, HCO3 = 41 mEq/L
 
  a. This gas is completely accurate.
  b. This gas is accurate as the calculated pH is 7.32.
  c. This gas is accurate as the calculated pH is 7.38.
  d. This gas is inaccurate according to the H-H equation.


Q. 4  Using the Henderson-Hasselbalch equation, determine the accuracy of the gas below. To be con-sidered accurate, it must be within 0.03 pH unit. pH = 7.22, PCO2 = 49 mm Hg, HCO3 = 20 mEq/L
 
  a. This gas is completely accurate.
  b. This gas is accurate as the calculated pH is 7.23.
  c. This gas is accurate as the calculated pH is 7.20.
  d. This gas is inaccurate according to the H-H equation.


Q. 5  In acute respiratory acidosis, what would you expect the BE range to be?
 
  a. 4 to 6 mEq/L
  b. +2 to 2 mEq/L
  c. +4 to +6 mEq/L
  d. +22 to +26 mEq/L


Q. 6  Based on the following ABG results, what is the most likely acid-base diagnosis? pH = 7.38, PCO2 = 21 mm Hg, HCO3 = 11.7 mEq/L
 
  a. Acute metabolic acidosis
  b. Fully compensated metabolic acidosis
  c. Partially compensated metabolic acidosis
  d. Fully compensated respiratory alkalosis


Q. 7  Based on the following ABG results, what is the most likely acid-base diagnosis? pH = 7.35, PCO2 = 68 mm Hg, HCO3 = 34.3 mEq/L
 
  a. Acute respiratory acidosis
  b. Combined metabolic and respiratory aci-dosis
  c. Fully compensated respiratory acidosis
  d. Fully compensated metabolic alkalosis
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#1
6 years ago
(Answer to Q. 1)  ANS: C
A combined disturbance is one in which both respiratory and metabolic disturbances exist, which promote the same acid-base disturbance. For the following arterial blood gas results: a pH value of 7.01, a PaCO2 value of 71 mm Hg, and an HCO3 value of 16.3 mEq/L. The pH indicates acidemia, consistent with both the high PaCO2 and the decreased HCO3. This is a combined ac-idosis, indicating that the patient has two primary acid-base problems (i.e., respiratory and meta-bolic alkalosis combined). Therefore, compensation is not possible.

(Answer to Q. 2)  ANS: B
A combined disturbance is one in which both respiratory and metabolic disturbances exist, which promote the same acid-base disturbance. For example, consider the following arterial blood gas results: a pH value of 7.62, a PaCO2 value of 32 mm Hg, and an HCO3 value of 29 mEq/L. The pH indicates alkalemia, consistent with both the low PaCO2 and the elevated HCO3. This is a combined alkalosis, indicating that the patient has two primary acid-base problems (i.e., respira-tory and metabolic alkalosis combined). Therefore, compensation is not possible.

(Answer to Q. 3)  ANS: A

(Answer to Q. 4)  ANS: B
Plugging the ABG values supplied into the H-H equation results in a pH of 7.33 which indicate the gas is accurate as the value should be within 0.03 of the recorded pH.

(Answer to Q. 5)  ANS: B
In cases of acute (uncompensated) respiratory acidosis, the BE commonly would be within the normal range, indicating correctly that the disturbance is purely respiratory in origin.

(Answer to Q. 6)  ANS: B
The patient's pH is normal so either the gas is normal or fully compensated. As the PCO2 and HCO3 are both low, a fully compensated state exists. As the pH is on the low side of normal the fully compensated disorder would be acidosis. This would be caused by a low HCO3 or a high PCO2. In this case a low HCO3. The low PCO2 is compensating for this metabolic acidosis.

(Answer to Q. 7)  ANS: C
The patient's pH is normal so either the gas is normal or fully compensated. As the PCO2 and HCO3 are both high, a fully compensated state exists. As the pH is on the low side of normal the fully compensated disorder would be acidosis. This would be caused by a low HCO3 or a high PCO2 in this case a high PCO2. The high HCO3 is compensating for this respiratory acido-sis.
queeny Author
wrote...
#2
6 years ago
Thank you Jesus, my teacher is bad at explaining
wrote...
#3
6 years ago
Praise the LORD ha ha No worries
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