ATI Fluid Electrolyte and Acid-Base Regulation

Correct Answer: D

Rationale: The correct answer is D: Increased conservation of sodium. Older adults tend to have an increased conservation of sodium, leading to fluid retention and decreased fluid intake, which can contribute to dehydration. A: Decreased kidney mass is incorrect because it is a factor that can contribute to decreased kidney function but not directly linked to dehydration. B: Decreased renal blood flow can impact kidney function but is not a direct cause of dehydration in older adults. C: Decreased excretion of potassium is not a factor that directly contributes to dehydration in older adults.

Correct Answer: C

Rationale: The correct answer is C because it includes foods high in potassium. Raisins, whole wheat toast, and milk are good sources of potassium. Sausage might contain some potassium as well. A: This option lacks potassium-rich foods. B: While strawberries have some potassium, the overall meal lacks a sufficient amount. D: While oatmeal and peaches have potassium, coffee can actually inhibit potassium absorption.

Correct Answer: B

Rationale: The correct answer is B: Osmosis and osmolality. When a hypertonic solution is infused, it increases the number of dissolved particles in the blood, creating an osmotic pressure gradient. This causes fluids in the tissues to shift into the capillaries, increasing blood volume. Osmosis is the movement of solvent (water) across a semi-permeable membrane to equalize solute concentrations. Osmolality refers to the concentration of solutes in a solution. Hydrostatic pressure (choice A) is the force exerted by a fluid against a wall when it is under pressure, not related to the movement of solutes. Diffusion (choice C) is the movement of solute molecules from an area of high concentration to low concentration, not involving a semi-permeable membrane. Active transport (choice D) requires energy to move molecules across a membrane against their concentration gradient, not the mechanism described in the scenario.

Correct Answer: A

Rationale: The correct answer is A: Apply oxygen by mask or nasal cannula. The client is experiencing respiratory acidosis due to inadequate ventilation and oxygenation during the seizure. Providing oxygen will help improve oxygenation and correct the respiratory acidosis. This is the priority to address the immediate physiological need. Choice B is incorrect as applying a paper bag can lead to rebreathing of carbon dioxide, worsening the respiratory acidosis. Choice C is incorrect as sodium bicarbonate is not indicated in this situation and can potentially worsen the acid-base imbalance. Choice D is incorrect as administering glucose and insulin is not relevant to correcting the respiratory acidosis.

Correct Answer: B

Rationale: The correct answer is B: Respiratory alkalosis. Hyperventilation leads to excessive elimination of carbon dioxide, causing a decrease in PaCO2 levels, resulting in respiratory alkalosis. This is the most common cause of hyperventilation. Respiratory acidosis (choice A) occurs when there is retention of carbon dioxide. Increased PaCO2 (choice C) is a consequence of respiratory acidosis, not alkalosis. CNS disturbances (choice D) can lead to abnormal breathing patterns but are not the most common cause of hyperventilation.