A client has undergone a nephrectomy and is placed under observation after a urethral catheter insertion. As part of the nursing care plan, the nurse records the color of drainage from each tube and catheter. Which of the ff is the reason for this?

Correct Answer: B

Rationale: The correct answer is B: To provide a means for further comparison and evaluation. By recording the color of drainage from each tube and catheter, the nurse can monitor changes over time, assess for any abnormalities, and evaluate the effectiveness of treatment. This helps in detecting complications early and making informed decisions. Rationale for other choices: A: To restore and maintain intravascular volume - Monitoring drainage color does not directly relate to intravascular volume status. C: To avoid interference with wound drainage - Monitoring drainage color does not prevent interference with wound drainage. D: To prevent pain related to obstruction - Monitoring drainage color does not directly prevent pain related to obstruction.

Correct Answer: D

Rationale: Step 1: Hypernatremia is defined by elevated serum sodium levels (>145mEq/L). Step 2: Serum osmolality of 245mOsm/kg is high, consistent with hypernatremia. Step 3: Urine specific gravity below 1.003 indicates dilute urine, a common finding in hypernatremia. Step 4: The combination of elevated serum sodium, high serum osmolality, and low urine specific gravity confirms hypernatremia. Summary: A: Incorrect, as high serum osmolality (not 245mOsm/kg) is associated with hypernatremia. B: Incorrect, as low urine specific gravity (not below 1.003) is seen in hypernatremia. C: Incorrect, as serum sodium needs to be >145mEq/L to indicate hypernatremia.

Correct Answer: D

Rationale: Rationale: 1. Rapid infusion of hyperalimentation solutions can lead to circulatory overload due to increased fluid volume in the circulatory system. 2. Circulatory overload can result in symptoms such as hypertension, tachycardia, and edema. 3. Hypoglycemia can occur as a result of excess insulin release due to the sudden increase in glucose from the hyperalimentation solution. Summary: A. Cellular dehydration and potassium: Incorrect. Rapid infusion would lead to fluid overload, not dehydration. B. Hypoglycemia and hypovolemia: Incorrect. Hypovolemia is unlikely with rapid infusion, and hypoglycemia is a possible side effect. C. Potassium excess and CHF: Incorrect. Rapid infusion may cause circulatory overload, not CHF, and potassium excess is not a common side effect. D. Circulatory overload and hypoglycemia: Correct. These are the most likely side effects of rapid

Correct Answer: C

Rationale: The correct answer is C (30 seconds) because the maximum recommended time for suctioning a patient is typically around 10-15 seconds for each pass. Prolonged suctioning can lead to tissue damage, hypoxia, and increased risk of infection. In this case, given the patient's symptoms and medical history (vomiting, weight loss, dehydration, hypotension), it is crucial to limit suction time to prevent further complications. Choices A, B, and D are incorrect as they exceed the safe duration for suctioning and increase the risk of harm to the patient. Choice D, in particular, is significantly longer than the recommended time and could pose serious risks to the patient's health in this situation.

Correct Answer: D

Rationale: The correct answer is D: Heart. A potassium level of 6.3 mEq/L indicates hyperkalemia, which can lead to cardiac arrhythmias and even cardiac arrest. The heart is highly sensitive to potassium levels, as it plays a crucial role in regulating the heart's electrical activity. Elevated potassium levels can disrupt this balance, leading to serious cardiac complications. Summary: A: Lungs - Not directly affected by potassium levels. B: Liver - Not directly affected by potassium levels. C: Kidneys - Kidneys regulate potassium levels but are not the most at risk for dysfunction in this scenario.