Test 4 - Ch. 20. Pulmonary Edema

Question 1

Question from back of the book:
Which of the following is an afterload reducer?

Answer 1

Nitroprusside

Question 2

Question from back of the book:
What is the normal hydrostatic pressure in the pulmonary capillaries?

Answer 2

10 to 15 mm Hg

Question 3

Question from back of the book:
What is the normal oncotic pressure of the blood?

Answer 3

25-30 mm Hg

Question 4

Question from back of the book:
The left ventricular ejection:

Answer 4

• Correlates well with the brain natriuretic peptide values
• Provides a noninvasive measurement of cardiac contractility

Question 5

Question from back of the book:
Which of the following are causes of cardiogenic pulmonary edema?

Answer 5

• Excessive fluid administration
• Mitral valve disease
• Pulmonary embolus

Question 6

Question from back of the book:
As a result of pulmonary edema, the patient’s:

Answer 6

RV is decreased

Question 7

Kerley B lines are suggestive of what?

Answer 7

Congestive Heart Failure - CHF

Question 8

Pulmonary edema results from _______________.

Answer 8

Excessive movement of fluid from the pulmonary vascular system to the extravascular system and air spaces of the lungs.

Question 9

As a result of the fluid movement, what happens to the alveolar walls and interstitial spaces?

Answer 9

They swell, as the swelling intensifies, the alveolar space tension increases and causes alveolar shrinkage and atelectasis.

Question 10

The abundance of fluid in the interstitial spaces causes _____________________.

Answer 10

The lymphatic vessels to widen and the lymph flow to increase.

Question 11

Pulmonary edema produces what type of pulmonary disorder?

Answer 11

Restrictive

Question 12

What are the major pathologic or structural changes of the lungs associated with pulmonary edema?

Answer 12

• Interstitial edema
• Alveolar flooding
• Increased surface tension of alveolar fluids
• Alveolar shrinkage and atelectasis
• Frothy white (or pink) secretions throughout the tracheobronchial tree

Question 13

The causes of pulmonary edema can be divided into what two major categories?

Answer 13

• Cardiogenic
• Noncardiogenic

Question 14

According to the American Heart Association (AHA) 2018 Heart Disease and Stroke Statistic Update, what remains the no. 1 cause of death in the US?

Answer 14

Heart disease

Question 15

Coronary heart disease accounts for ________ deaths in the US, killing over 366,800 people a year.

Answer 15

1 in 7

Question 16

What is the overall prevalence for a myocardial infarction in the US in adults?

Answer 16

7.9 million, or 3%

Question 17

In 2015, heart attacks claimed _______ lives in the US.

Answer 17

114,023

Question 18

What is the estimated annual incidence of heart attacks in the US?

Answer 18

720,000 new attacks and 335,000 recurrent attacks

Question 19

What is the average age of the first heart attack of a male and female?

Answer 19

Male: 65.6
Female: 72.0

Question 20

Approximately every _______, an American will have a heart attack.

Answer 20

40 seconds

Question 21

What was the estimated direct and indirect cost of heart disease in 2013 to 2014?

Answer 21

204.8 billion

Question 22

What were the two out of ten most expensive conditions treated in the US hospitals in 2013?

Answer 22

- Heart attacks (12 billion)
- Coronary Heart Disease (9.0 billion)

Question 23

Between 2013 and 2023, medical costs of coronary heart disease are projected to increase by ___________.

Answer 23

About 100%

Question 24

Cardiac pulmonary edema occurs when _______________________.

Answer 24

The left ventricle is unable to pump out a sufficient amount of blood during each ventricular contraction.

Question 25

The ability of the left ventricle to pump blood can be determined by the means of the _____________.

Answer 25

Left Ventricular Ejection Fraction (LVEF), with a noninvasive cardiac imaging procedure echocardiogram that reflects the patient’s left ventricular systolic contractility.

Question 26

Poor ventricular function can also be caused by _________________.

Answer 26

• Increased ventricular stiffness
• Impaired myocardial relaxation

Called diastolic dysfunction and is associated with a relatively normal LVEF

Question 27

Normal values for the LVEF range between __________.

Answer 27

55-70%

Question 28

An LVEF less than _____% may confirm heart failure.

Answer 28

40

Question 29

An LVEF less than ____% is life-threatening and cardiac arrhythmias are likely.

Answer 29

35

Question 30

When the patient’s LVEF is low, the blood pressure inside the pulmonary veins and capillaries __________ as a result.

Increases or decreases?

Answer 30

Increases

This action causes fluid to be pushed through the capillary walls and into the alveoli in the form of a transudate.

Question 31

Ordinarily, hydrostatic pressure of about ________ tends to move fluid out of the pulmonary capillaries into the interstitial space.

Answer 31

10-15 mm Hg

Question 32

Ordinarily, hydrostatic pressure tends to move fluid out of the pulmonary capillaries into the interstitial space. This force is normally offset by colloid osmotic forces of about __________.

Answer 32

25-30 mm Hg

Question 33

The colloid pressure is referred to as __________.

Answer 33

Oncotic pressure

Question 34

What is oncotic pressure produced by?

Answer 34

Albumin and globulin in the blood.

Question 35

The stability of fluid within the pulmonary capillaries is determined by what?

Answer 35

The balance between hydrostatic and oncotic pressures.

Question 36

Movement of fluid in and of the capillaries is expressed by the _______________.

Answer 36

Starling equation

Question 37

Of the four pressures, which are the only two that can be measured without any certainty?

Answer 37

Oncotic and hydrostatic pressures of the blood in the pulmonary capillaries

Question 38

The oncotic and hydrostatic pressures within the ___________ cannot be readily determined.

Answer 38

Interstitial compartments

Question 39

What happens when the hydrostatic pressure within the pulmonary capillaries rises to more than 25-30 mm Hg?

Answer 39

The oncotic pressure loses its holding force over the fluid within the vessels. Consequently, fluid starts to spill into the interstitial spaces and alveoli of the lungs.

Question 40

Clinically, the patient with left ventricular failure often has what?

Answer 40

• Activity intolerance
• Weight gain
• Anxiety
• Delirium
• Dyspnea
• Orthopnea
• Paroxysmal nocturnal dyspnea
• Cough
• Fatigue
• Cardiac arrythmias (A-fib)
• Adventitious breath sounds

Question 41

Because of poor circulation patients with left ventricular failure often has:

Answer 41

• Cool skin
• Diaphoresis
• Cyanosis of the digits
• Peripheral pallor

Question 42

Major organ failure of the brain and kidney may be the result of ___________.

Answer 42

Hypoperfusion

Question 43

What is the most common cause of pulmonary edema?

Answer 43

Increased pulmonary capillary hydrostatic pressure

Question 44

State some common causes of cardiogenic pulmonary edema.

Answer 44

• Arrythmias (PVCs or bradycardia producing low cardiac output)
• Systemic hypertension
• Congenital heart defects
• Coronary heart disease
• Excessive fluid administration
• Left ventricular failure
• Mitral or aortic valve disease
• Myocardial infarction
• Cardiac tamponade
• Pulmonary embolus
• Renal failure
• Rheumatic heart disease
• Cardiomyopathies

Question 45

What are some risk factors for coronary heart disease?
Pg. 313 (List isn’t finished)

Answer 45

• Age
• Males older than 45
• Females older than 55
• Family history of CHD
• Male relative with CHD: Younger than 55 years old
• Female relative with CHD: Younger than 65 years old
• Obesity
• Cigarette smoking
• Hypertension: Blood pressure >140/90 mm Hg or on antihypertensive agents
• High level of low-density-lipoprotein cholesterol

Question 46

Noncardiogenic pulmonary edema is less common and develops as a results of what?

Left off at bottom of pg. 313

Answer 46

Damage to the lungs!

Question 47

Describe noncardiogenic pulmonary edema.

Answer 47

Lung tissues become inflated and swollen and fluid can readily leak from the pulmonary capillaries into the alveoli.

Question 48

What are some common causes of noncardiogenic pulmonary edema?

Answer 48

• Increased capillary permeability
• Lymphatic insufficiency
• Decreased intrapleural pressure
• High altitude pulmonary edema
• Decreased oncotic pressure

Question 49

Pulmonary edema may develop as a result of increased capillary permeability stemming from ________________.

Answer 49

Infectious, inflammatory and other processes.
Other causes include:
- Alveolar hypoxia (E.g high altitude)
- ARDS
- Inhalation of toxic agents like chlorine, sulfur dioxide, nitrogen dioxides, ammonia and phosgene
- Pulmonary infections (certain pneumonias)
- Therapeutic radiation of the lungs
- Acute head injury (also known as cephalogenic pulmonary edema)

Question 50

What happens should the normal lymphatic drainage of the lungs be decreased?

Answer 50

Intravascular and extravascular fluid begins to pool and pulmonary edema ensues.

Question 51

Lymphatic drainage may be slowed because of _______________.

Answer 51

Obliteration or distortion of lymphatic vessels.

Question 52

The lymphatic vessels may be obstructed by tumor cells in ________________.

Answer 52

Lymphangitic carcinomatosis

Question 53

Why may increased systemic venous pressure slow lymphatic drainage?

Answer 53

Because lymphatic vessels empty into the systemic veins

Question 54

Lymphatic insufficiency has also been observed after ___________.

Answer 54

Lung transplantation

Question 55

The sudden removal of a pleural effusion can cause what type of edema?

Answer 55

Decompression pulmonary edema

Question 56

High-altitude pulmonary edema (HADE) can occur in people who exercise at altitudes about ___________ without having first acclimated to the high altitude.

Answer 56

8000 ft.

Often affects recreational hikers and skiers.

Question 57

Decreased oncotic pressure may be caused by what?

Answer 57

• Overtransfusion and/or rapid transfusion of hypotonic or normotonic intravenous fluids.
• Uremia
• Hypoproteinemia (E.g severe malnutrition)
• Acute nephritis
• Polyarteritis nodosa

Question 58

Other causes of noncardiogenic pulmonary edema:

Answer 58

• Allergic reaction to drugs
• Excessive sodium consumption
• Drug overdose
• Metal poisoning
• Chronic alcohol ingestion
• Aspiration (E.g near drowning)
• CNS stimulation
• Encephalitis
• High altitudes (Greater than 8,000-10,000 ft)
• Pulmonary embolism
• Eclampsia
• Transfusion-related acute lung injury

Question 59

The treatment of pulmonary edema is based on ______________.

Answer 59

The cause and severity.

Question 60

The treatment of noncardiogenic pulmonary edema is largely supportive and aimed at ________________.

Answer 60

Ensuring adequate ventilation and oxygenation.

Question 61

For cardiogenic pulmonary edema, what is the initial management?

Answer 61

• Directed at the use of digitalis
• Supplemental oxygen
• Assisted ventilation if necessary
• Loop diuretics for volume overload

Question 62

The therapeutic intervention to address the patient’s circulatory system has what following three main goals?

Answer 62

• Reduction of pulmonary venous return (preload reduction)
• Reduction of systemic vascular resistance (afterload reduction)
• Inotropic support (treatment of reduced cardiac contractility)

Question 63

Reduction of the preload increases/decreases pulmonary capillary hydrostatic pressure and reduces fluid transudation in the pulmonary interstitium and alveoli.

Answer 63

Increases

Question 64

Inotropic agents are used to treat what?

Answer 64

Hypotension or signs of organ hypoperfusion

Question 65

Reduction of afterload increases ________ and improves renal perfusion, which in turn allows for diuresis in the patient with fluid overload.

Answer 65

Cardiac output

Question 66

What are some preload reducers?

Answer 66

• Nitroglycerin (Nitro-bid, Minitran, Nitrostat)
• Loop diuretics (e.g furosemide)
• Morphine sulfate

Question 67

What are some afterload reducers?

Answer 67

• Captopril
• Enalapril
• Nitroprusside

Question 68

A competitive angiotension-converting enzyme (ACE inhibitor and reduces angiotension II levels.

Answer 68

Enalapril (Vasotec)

Question 69

Which drugs prevents the conversion angiotensin I and angiotensin II and is a potent vasodilator?

Answer 69

Captopril

Question 70

With Captopril, afterload and cardiac output usually improve in _______________.

Answer 70

10 to 15 minutes

Question 71

What is this drug?
A potent, direct smooth-muscle relaxing agent that primarily reduces afterload. It may also mildly reduce preload.

Answer 71

Nitroprusside (Nitropress)

Question 72

Name some positive inotropic agents.

Answer 72

• Dobutamine
• Dopamine
• Norepinephrine
• Milrinone

Question 73

A natural occuring catecholamine with potent alpha-receptor and mild beat-receptor activity. It stimulates beta1-adrenergic and alpha-adrenergic receptor, increasing myocardial contractility, heart rate, and vasoconstriction.

Answer 73

Norepinephrine

Question 74

______________ is a naturally occurring catecholamine that acts as a precursor to norepinephrine.

Answer 74

Dopamine

Question 75

What is considered a cornerstone in the treatment of cardiogenic pulmonary edema?

Answer 75

Loop diuretics (E.g furosemide)

Question 76

A very effective, predictable and rapid-acting medication for preload.

Answer 76

Nitroglycerin (Nitro-bid, Minitran, Nitrostat)

Question 77

_______________ are presumed to decreased preload through diuresis and direct vasodilation.

Answer 77

Loop diuretics (E.g furosemide)

Question 78

Name this medication.
A synthetic catecholamine that mainly has beta1-receptor activity but also has some beta2-receptor and alpha-receptor activity. Commonly used for patients with mild hypotension.

Answer 78

Dobutamine

Question 79

List the physical examination associated with pulmonary edema.

Answer 79

• Tachypnea
• Hypertension
• Tachyacardia

Question 80

Cheyne-Stokes breathing may be seen in what type of pulmonary edema patients?

Answer 80

Patients with severe left-sided heart failure and pulmonary edema.

Question 81

A patient is said to have ______ when dyspnea increases while the patient is lying in a recumbent position.

Answer 81

Orthopnea

Question 82

What is the physical examination of a patient with pulmonary edema?

Answer 82

• Increased RR
• Increased HR and BP
• Cheyne-Stokes Respirations
• Paroxysmal Nocturnal Breathing
• Orthopnea
• Cyanosis
• Cough and Sputum (Frothy & Pink)
• Increased tactile and vocal fremitus
• Crackles and wheezing

Question 83

What are some radiological findings associated with pulmonary edema?

Answer 83

• Kerley A & B lines
• “Bat wing” or “butterfly” pattern
• Left ventricular hypertrophy
• Dilated pulmonary arteries
• Transudate pleural effusion
• Bilateral fluffy opacities with a predominant central position in the chest

Question 84

BNP levels below 100 mg/mL indicate _______________.

Answer 84

No heart failure

Question 85

BNP levels of 100 to 300 mg/mL indicate _______________.

Answer 85

Heart failure may be present

Question 86

BNP levels above 300 mg/mL indicate _______________.

Answer 86

Mild heart failure

Question 87

BNP levels above 600 mg/mL indicate _______________.

Answer 87

Moderate heart failure

Question 88

BNP levels above 900 mg/mL indicate _______________.

Answer 88

Severe heart failure

Question 89

Norepinephrine is usually reserved for patients with ___________.

Answer 89

Severe hypotension (Systolic BP less than 70 mm Hg)

Question 90

Examples of antidysrhythmic agents.

Answer 90

• Digitalis
• Procainamide
• Metoprolol

Question 91

What is sometimes administered to increase the patient’s oncotic pressure in an effort to offset increased hydrostatic forces of cardiogenic edema, if the patient’s osmotic pressure is extremely low?

Answer 91

Albumin

Question 92

What are some abnormal tests and procedures of pulmonary edema?

Answer 92

• Low serum potassium
• Low serum sodium
• Low serum chloride

Question 93

What are the preload reducers?

Answer 93

• Nitroglycerin
• Loop diuretics (Furosemide)
• Morphine sulfate

Question 94

What are the afterload reducers?

Answer 94

• Captopril
• Enalapril (Vasotec)
• Nitropurusside