Nokea
Apart from its role in acid-base balance
- A. what other function is associated with carbonic anhydrase in the gastrointestinal tract?
- B. Protein digestion
- C. Lipid absorption
- D. Starch breakdown
Correct Answer: d
Rationale: Rationale:
Carbonic anhydrase in the gastrointestinal tract catalyzes the conversion of carbon dioxide and water to bicarbonate and protons. This reaction helps maintain pH balance in the gut. Starch breakdown is not directly associated with carbonic anhydrase. Protein digestion is primarily carried out by proteases, and lipid absorption involves enzymes like lipase. These functions are not directly related to carbonic anhydrase in the gastrointestinal tract. Thus, the correct answer is D: Starch breakdown.
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A nurse educator is reviewing the implications of the oxyhemoglobin dissociation curve with regard to the case of a current patient. The patient currently has normal hemoglobin levels, but significantly decreased SaO2 and PaO2 levels. What is an implication of this physiological state?
- A. The patient's tissue demands may be met, but she will be unable to respond to physiological stressors.
- B. The patient's short-term oxygen needs will be met, but she will be unable to expel sufficient CO2.
- C. The patient will experience tissue hypoxia with no sensation of shortness of breath or labored breathing.
- D. The patient will experience respiratory alkalosis with no ability to compensate.
Correct Answer: A
Rationale: The correct answer is A because even though the patient has normal hemoglobin levels, the significantly decreased SaO2 and PaO2 levels indicate that the hemoglobin is not effectively carrying oxygen to the tissues. This leads to a situation where the tissue demands for oxygen may be met at baseline, but the patient will be unable to respond to physiological stressors that require increased oxygen delivery.
Choice B is incorrect because it focuses on short-term oxygen needs and CO2 expulsion, which are not directly related to the implications of the oxyhemoglobin dissociation curve in this case.
Choice C is incorrect because decreased SaO2 and PaO2 levels would lead to tissue hypoxia, which would likely result in sensations of shortness of breath or labored breathing as the body tries to compensate for the lack of oxygen.
Choice D is incorrect because decreased PaO2 levels would not lead to respiratory alkalosis. The body would likely try to compensate by increasing respiratory rate to improve oxygenation.
Which intervention for airway management should you delegate to the nursing assistant?
- A. Assist client to sit up on side of bed.
- B. Instruct client to cough effectively.
- C. Teach client to use incentive spirometry.
- D. Auscultate breath sounds every 4 hours.
Correct Answer: A
Rationale: The correct answer is A. Assisting the client to sit up is a basic intervention suitable for a nursing assistant. Instructing effective coughing (B) and teaching incentive spirometry (C) require more skill. Auscultating breath sounds (D) is outside the scope of practice for a nursing assistant.
When teaching the patient with mild asthma about the use of the peak flow meter, what should the nurse instruct the patient to do?
- A. a. Carry the flow meter with the patient at all times in case an asthma attack occurs
- B. b. Use the flow meter to check the status of the patient’s asthma every time the patient takes quick-relief medication
- C. c. Follow the written asthma action plan (e.g., take quick-relief medication) if the expiratory flow rate is in the yellow zone
- D. Use the flow meter by emptying the lungs, closing the mouth around the mouthpiece, and inhaling through the meter as quickly as possible
Correct Answer: C
Rationale: The nurse should instruct the patient to follow the written asthma action plan if the expiratory flow rate is in the yellow zone. This helps the patient know when to take quick-relief medication based on their peak flow meter readings.
A male client who weighs 175 lb (79.4 kg) is receiving aminophylline (Aminophylline) (400 mg in 500 ml) at 50 ml/hour. The theophylline level is reported as 6 mcg/ml. The nurse calls the physician who instructs the nurse to change the dosage to 0.45 mg/kg/hour. The nurse should:
- A. Question the order because it's too low.
- B. Question the order because it's too high.
- C. Set the pump at 45 ml/hour.
- D. Stop the infusion and have the laboratory repeat the theophylline measurement.
Correct Answer: A
Rationale: The correct answer is A: Question the order because it's too low. To determine the correct dosage, calculate the current dosage the client is receiving (400 mg in 500 ml at 50 ml/hour). Then calculate the new dosage using the client's weight (79.4 kg). Comparing the two dosages, if the new order is significantly lower than the current dosage, it may not be appropriate for the client's condition. Therefore, the nurse should question the physician's order to ensure the client is receiving an adequate dose. Choices B, C, and D are incorrect because they do not address the discrepancy in dosage and the need to verify the appropriateness of the new order based on the client's weight and current medication regimen.
The fauces connects which of the following structures to the oropharynx?
- A. nasopharynx
- B. laryngopharynx
- C. nasal cavity
- D. oral cavity
Correct Answer: D
Rationale: The correct answer is D: oral cavity. The fauces is the opening between the oral cavity and the oropharynx. It is located at the back of the mouth, connecting the oral cavity to the oropharynx. This opening allows the passage of food and liquids from the mouth to the throat during swallowing. Choices A, B, and C are incorrect because the fauces does not connect to the nasopharynx, laryngopharynx, or nasal cavity. The fauces specifically connects the oral cavity to the oropharynx, making choice D the correct answer in this context.