ATI Fluid Electrolyte and Acid-Base Regulation

Correct Answer: A

Rationale: The correct answer is A: Increased serum sodium. High serum sodium levels trigger the release of antidiuretic hormone (ADH) from the pituitary gland to help retain water in the body and maintain fluid balance. This is a physiological response to prevent further dehydration. Decreased serum potassium (choice B), decreased hemoglobin (choice C), and increased platelets (choice D) do not directly stimulate the release of ADH. Hence, they are incorrect choices in this scenario.

Correct Answer: C

Rationale: Step 1: Fluid overload leads to increased fluid volume in the body, causing skin to appear pale, cool, and clammy due to poor circulation. Step 2: "Warm and pink skin" is not a typical manifestation of fluid overload. Step 3: Therefore, the correct answer is C. Summary: A: Increased pulse rate - Possible in fluid overload due to increased volume causing increased workload on the heart. B: Distended neck veins - Common in fluid overload due to increased venous pressure. C: Warm and pink skin - Incorrect, as skin is usually pale, cool, and clammy. D: Skeletal muscle weakness - Not directly related to fluid overload.

Correct Answer: D

Rationale: The correct answer is D: Mixed acid-base disorder. The ABG results show a pH within the acidic range (7.28), indicating acidosis. The PaCO2 is elevated (50 mm Hg), suggesting respiratory acidosis as the primary disorder. However, the HCO3 level is within normal range (23 mEq/L), which is not consistent with compensatory metabolic alkalosis. Therefore, the presence of both respiratory acidosis and normal HCO3 levels indicates a mixed acid-base disorder. Choice A (Respiratory acidosis) is incorrect because although the patient has an elevated PaCO2, the normal HCO3 level rules out a pure respiratory acidosis. Choice B (Metabolic alkalosis) and C (Respiratory alkalosis) are incorrect as the ABG results do not support these diagnoses.

Correct Answer: A

Rationale: The correct answer is A: Assess the airway. The nurse should prioritize airway assessment as the client's ABGs indicate respiratory acidosis (low pH, high PaCO2). This suggests potential airway obstruction or inadequate ventilation. Ensuring a patent airway is crucial for adequate oxygenation. Administering bronchodilators (B) or mucolytics (D) may help with airway clearance but should come after ensuring a clear airway. Providing oxygen (C) is important, but addressing the underlying respiratory acidosis by first assessing the airway is the priority in this situation to prevent further deterioration.

Correct Answer: A

Rationale: The correct answer is A: Diabetic ketoacidosis in a person with emphysema. The arterial blood values show a low pH (acidosis), high PaCO2 (respiratory acidosis), and normal HCO3 (compensatory metabolic alkalosis). This pattern is consistent with a mixed acid-base disorder seen in diabetic ketoacidosis where metabolic acidosis from ketone production is partially compensated by respiratory acidosis from decreased alveolar ventilation due to emphysema. The other choices do not align with the given blood values. Choice B is incorrect as it would typically show respiratory alkalosis. Choice C would show respiratory alkalosis with low PaCO2. Choice D would result in metabolic acidosis with low HCO3.