6 Chapter 6

Answer Key to Chapter 6 

You can review additional information regarding these answers in the corresponding section in which the Critical Thinking activities appear.

Critical Thinking Activity Section 6.6

1. A nurse should assess the heart rate, blood pressure, and QTc interval before and after sotalol administration. Additionally, the nurse should assess for the presence and occurrence of cardiac arrythmias.

Critical Thinking Activity Section 6.7

1. A nurse should assess the apical pulse for a full minute before administering digoxin due to its positive inotropic action (it increases contractility, stroke volume, and, thus, cardiac output), negative chronotropic action (it decreases heart rate), and negative dromotropic action (it decreases electrical conduction of the cardiac cells). These actions can lead to bradycardia. If the client’s heart rate is less than 60 beats per minute, the nurse should notify the provider before administering digoxin unless other parameters are provided.
2. The nurse evaluates the effectiveness of digoxin based on the client’s blood pressure, apical pulse, and decreased symptoms of heart failure for which it is indicated.
3. The nurse should monitor the client’s serum potassium level because a decreased potassium level places the client at increased risk of digoxin toxicity. Normal potassium level is 3.5 to 5.0 mEq/L, and a result less than 3.5 should be immediately reported to the provider due the the risk for sudden dysrhythmias. Serum digoxin levels should also be monitored, with a normal therapeutic range being 0.8 to 2 ng/mL.
4. The nurse should assess the client’s apical pulse and withhold the administration of digoxin. The nurse should also check for current lab results related to the serum digoxin and potassium levels. The nurse should notify the provider of the client’s change in condition that could indicate digoxin toxicity and provide information regarding the client’s apical pulse and recent digoxin and potassium levels. An order for a serum digoxin level may be received from the provider. Based on the serum digoxin level, the client may receive a new order for digibind. Digibind is used to treat digoxin toxicity.

Critical Thinking Activity Section 6.8

The nurse should monitor the client’s blood pressure and heart rate. After five minutes, the pain level should be reassessed, and a second dose of nitroglycerin administered if the client’s chest pain continues. If there is no improvement in chest pain, emergency services should be obtained by calling 911 or the rapid response team.

Critical Thinking Activity Section 6.9

1. Before administering a diuretic, the nurse should assess blood pressure, the daily weight trend, serum potassium and other electrolyte levels, hydration status including 24-hour input/output, and current renal function.
2. Signs of toxicity include blurred vision, nausea, and visual impairment (such as seeing green and yellow halos). A low potassium level can increase the risk of digoxin toxicity. If a client has digoxin toxicity, severe bradycardia and even death can occur if not treated promptly.
3. The normal range for serum potassium is 3.5-5.0 mEq/L.
4. Furosemide (Lasix) is a loop diuretic.
5. Clients receiving loop diuretics are at high risk of dehydration. Loop diuretics work in the loop of Henle where a great deal of sodium and water are either reabsorbed or eliminated by the kidney tubules.
6. The nurse should assess for the development of dehydration in clients receiving diuretics by monitoring skin and mucus membranes for dryness, blood pressure for hypotension, heart rate for tachycardia, decreased urine output, concentrated urine, and increased serum sodium levels.
7. All electrolyte levels can be decreased in clients taking loop diuretics, but potassium in particular is at high risk for depletion due to the rapid water loss that occurs.
8. Furosemide can deplete potassium levels, which then increases the risk for developing digoxin toxicity.

Critical Thinking Activity Section 6.10

1. Metoprolol is a selective Beta-1 blocker that decreases the heart rate and force of contraction to reduce blood pressure. Lisinopril is an ACE inhibitor that reduces fluid retention and blood pressure through vasodilation. Verapamil is a calcium channel blocker that causes vasodilation to reduce blood pressure. Hydrochlorothiazide is a thiazide diuretic that reduces fluid retention. For this client, all four medications may be required to maintain a blood pressure within normal range.
2. The nurse should explain that each medication works in different ways within the body to treat high blood pressure. It is vital to explain the importance of maintaining blood pressure within normal range to prevent additional complications such as a heart attack, heart failure, stroke, and kidney failure.

Critical Thinking Activity Section 6.12

1. Warfarin will not dissolve the existing clot, but it will help prevent additional clot formation.
2. When a client is taking warfarin, the nurse should closely monitor INR and PT levels to verify they are in normal range to prevent bleeding complications. Specifically, the therapeutic range for INR is between 2.0 to 3.5 depending upon the indication.
3. Dietary instructions should be provided to maintain a consistent intake of foods high in vitamin K like leafy green vegetables. Daily changes in intake of foods that are high in vitamin K will influence the effectiveness of warfarin, as well as the client’s INR levels used to maintain the warfarin levels in therapeutic range.
4. Health teaching should emphasize bleeding precautions, avoidance of NSAIDs and aspirin, the need for routine therapeutic monitoring, and when to call the provider with signs of increased bleeding or clotting.
5. The reversal agent for warfarin is vitamin K.

Section 6.14 Case Study 1

1. Spironolactone is a medication used to treat high blood pressure, heart failure, and certain types of hormonal imbalances. It works by blocking the action of aldosterone, a hormone that regulates the balance of salt and water in the body.
2. Spironolactone has been prescribed to Ms. Hernandez to help manage her symptoms of heart failure by reducing the amount of fluid in her body and preventing the buildup of excess fluid around her heart and lungs.
3. The potential side effects of spironolactone include dizziness, nausea, vomiting, headache, and diarrhea. In some cases, spironolactone can cause hyperkalemia, a condition where there is too much potassium in the blood.
4. Potential drug interactions with spironolactone include other medications that affect potassium levels, such as ACE inhibitors, angiotensin receptor blockers, and potassium-sparing diuretics. Ms. Hernandez’s health care provider will need to monitor her potassium levels carefully and adjust her dosage as needed.
5. Ms. Hernandez’s health care provider will need to monitor her kidney function, electrolyte levels, and potassium levels regularly while she is taking spironolactone.
6. Ms. Hernandez should avoid a high-potassium diet while taking spironolactone. This includes foods such as bananas, oranges, potatoes, tomatoes, and spinach.

Section 6.14 Case Study 2

1. Warfarin is an anticoagulant medication used to prevent blood clots that can lead to a stroke or other serious medical conditions.
2. Warfarin has been prescribed to Mr. Johnson to prevent blood clots caused by his atrial fibrillation.
3. Warfarin works by inhibiting the formation of certain clotting factors in the blood, which prevents blood clots from forming.
4. The potential risks of taking warfarin include bleeding, bruising, and gastrointestinal complications. In rare cases, warfarin can cause life-threatening bleeding, and it can also increase the risk of osteoporosis and bone fractures.
5. The optimal therapeutic range for warfarin is typically an international normalized ratio (INR) between 2.0 and 3.0.
6. Laboratory tests required to monitor the effects of warfarin include regular INR tests and blood tests to monitor liver and kidney function.
7. Potential drug interactions with warfarin include other anticoagulants, antibiotics, anti-inflammatory drugs, and some herbal supplements.
8. Mr. Johnson should be aware of the vitamin K content in his diet, as vitamin K can interfere with the effects of warfarin. He should avoid drastic changes in his diet while taking warfarin and should talk to his health care provider before making any significant changes.
9. If Mr. Johnson misses a dose of warfarin, he should take it as soon as he remembers. If it is almost time for his next dose, he should skip the missed dose and continue with his regular dosing schedule.
10. Mr. Johnson should see his health care provider regularly while taking warfarin to monitor his INR levels and adjust his dosage as needed. The frequency of visits will depend on his individual needs and medical history.