Advance pathpharm week 6 REVISED

Question 1

This disease results in inflammation of the pericardium; causes include idiopathic origin, infection, radiation, uremia, and fibrous lesions:

Answer 1

Pericarditis

Question 2

Infective Endocarditis is:

Answer 2

infection of the endocardium; central venous catheterization, valve surgery, IV drug use

Question 3

This is a disease in which permanent heart damage that leads to scarring and deformities of cardiac structures occurs as a result of rheumatic fever; RF is caused by delayed immune response to infection by group A beta-hemolytic streptococci

Answer 3

Rheumatic Heart Disease

Question 4

What is Valvular Stenosis?

Answer 4

narrowed valve orifice that impedes bloodflow; d/t inflammation, congenital defect, or degeneration thickening and calcification

Question 5

__________________ occurs when valve leaflets fail to close completely allowing leaking and backflow of blood; caused by rheumatic fever, endocarditis, syphilis, hypertension, connective tissue disorders (e.g., Marfan syndrome). and atherosclerosis

Answer 5

Valvular Regurgitation

Question 6

What is Mitral Valve Prolapse?

Answer 6

displacement of an abnormally thickened mitral valve leaflet into the left atrium during systole; causes include genetics and physical damage.

Question 7

_____________ happens when all four chambers are dilated; causes include MI, CAD, valvular disease, diabetes, drugs (cocaine, amphetamines, doxorubicin, daunorubicin)

Answer 7

Dilated Cardiomyopathy

Question 8

______________ refers to thickening of the myocardium; cause is usually unknown, can be attributed to genetics and prolonged HTN

Answer 8

Hypertrophic Cardiomyopathy

Question 9

What is Restrictive Cardiomyopathy and what causes it?

Answer 9

myocardium is infiltrated with substances (deposits of protein, iron, cells); causes include cardiac amyloidosis, hemochromatosis, and sarcoidosis.

Question 10

Define Atrial septal defect:

Answer 10

opening in the dividing wall between the right and left atria.

Question 11

An______________allows oxygen-rich (red) blood to pass from the left atrium, through the opening in the septum, and then mix with oxygen-poor (blue) blood in the right atrium.

Answer 11

atrial septal defect

Question 12

T or F: Atrial septal defects are usually easy to dectect because the patient will be very symptomatic.

Answer 12

FALSE. Atrial septal defects are usually asymptomatic.

Question 13

Fatigue, poor growth, and tachypnea are all symptoms of:

Answer 13

atrial septal defects

Question 14

Is an artial septal defect cyanotic or acyanotic?

Answer 14

acyanotic-oxygenated blood mixes with deoxygenated blood and is sent to the lungs to be oxygenated again-will not cause cyanosis in the body because the body is still getting oxygen

Question 15

Define Ventricular Septal Defect:

Answer 15

opening in the wall dividing the right and left ventricles.

Question 16

A _______________allows oxygen-rich (red) blood to pass from the left ventricle, through the opening in the septum, and then mix with oxygen-poor (blue) blood in the right ventricle.

Answer 16

ventricular septal defect

Question 17

If not treated, this heart defect can cause lung disease:

Answer 17

ventricular septal defect

Question 18

How does a ventricular septal defect cause lung disease?

Answer 18

When blood passes through the VSD from the left ventricle to the right ventricle, a larger volume of blood than normal must be handled by the right side of the heart. Extra blood then passes through the pulmonary artery into the lungs, causing higher pressure than normal in the blood vessels in the lungs. The lungs are able to cope with this extra pressure for while, depending on exactly how high the pressure is. After a while, however, the blood vessels in the lungs become diseased by the extra pressure.

Question 19

Is a ventricular septal defect cyanotic or acyanotic?

Answer 19

Acyanotic because the body is receiving oxygenated blood, just an abnormal volume of oxygenated blood.

Question 20

A bluish tint to the skin, lips and fingernails, Swelling (edema) in your legs, ankles and feet, and Tires easily when eating or playing are all symptoms of:

Answer 20

ventricular septal defect

Question 21

T or F: The ductus arteriosus is a normal fetal structure, allowing blood to bypass circulation to the lungs.

Answer 21

TRUE

Question 22

How does a Patent Ductus Arteriosus occur?

Answer 22

The high levels of oxygen which a baby is exposed to after birth causes the ductus arteriosus to close in most cases within 24 hours. When it doesn’t close, it is termed a Patent Ductus Arteriosus.

Question 23

How does a Patent Ductus Arteriosus affect hemodynamics?

Answer 23

A patent ductus arteriosis creates an opening between the aorta and pulmonary arteries-oxygenated blood from the aorta is pushed back into the pulmonary arteries to go to the lungs. This creates an abnormal blood volume in the lungs, L artium, and L ventricle.

Question 24

Is a patent ductus arteriosis cyanotic or acyanotic?

Answer 24

Acyanotic since the body is still receiving oxygenated blood from the L ventricle

Question 25

T or F: A small PDA may cause no signs or symptoms, and may go undetected for some time, even until adulthood.

Answer 25

TRUE

Question 26

Sweating with crying or eating, Persistent fast breathing or breathlessness, Easy tiring, Rapid heart rate, A bluish or dusky skin tone are all symptoms of:

Answer 26

Patent ductus arteriosis

Question 27

Define Transposition of the Great Vessel:

Answer 27

the aorta is connected to the right ventricle, and the pulmonary artery is connected to the left ventricle - the exact opposite of a normal heart’s anatomy.

Question 28

Describe the route of blood flow when transposition of the great vessel has occurred:

Answer 28

Oxygen-poor (blue) blood returns to the right atrium from the body, passes through the right atrium and ventricle, then goes into the misconnected aorta back to the body. Oxygen-rich (red) blood returns to the left atrium from the lungs, passes through the left atrium and ventricle, then goes into the pulmonary artery and back to the lungs. Two separate circuits are formed - one that circulates oxygen-poor (blue) blood from the body back to the body, and another that recirculates oxygen-rich (red) blood from the lungs back to the lungs.

Question 29

T or F: Transposition of the great vessel is compatible with life.

Answer 29

FALSE. Surgery must be done to correct the issue.

Question 30

Is transposition of the great vessel cyanotic or acyanotic?

Answer 30

Cyanotic since the body is receiving deoxygenated blood.

Question 31

Cyanosis is the most common symptom of this heart abnormality, along with tachypnea, tachycardia, and cool, clammy skin (d/t poor perfusion).

Answer 31

transposition of the great vessel

Question 32

_______________ refers to problems with valve development which prevent the leaflets from opening; therefore, blood cannot flow forward from the right ventricle to the lungs.

Answer 32

Pulmonary Stenosis/Atresia

Question 33

Is Pulmonary Stenosis/Atresia cyanotic or acyanotic?

Answer 33

Cyanotic

Question 34

The obvious indication of __________ is a newborn who becomes cyanotic (blue) in the transitional first day of life when the maternal source of oxygen (from the placenta) is removed. The degree of cyanosis is related to the presence of other defects that allow blood to mix, including a patent (open) ductus arteriosus.

Answer 34

Pulmonary Stenosis/Atresia

Question 35

Define Coarctation of the Aorta:

Answer 35

narrowing of the aorta

Question 36

Is coarctation of the Aorta cyanotic or acyanotic?

Answer 36

Acyanotic-the body is still receiving oxygenated blood, just less of it.

Question 37

Coarctation of the aorta causes:

Answer 37

narrowing restricts the amount of oxygen-rich (red) blood that can travel to the lower part of the body

Question 38

Coarctation of the Aorta will cause an (increase/decrease) in (preload/afterload). Why?

Answer 38

increase, afterload. Because the left ventricle has to work harder to try to move blood through the narrowing in the aorta

Question 39

Coarctation of the aorta causes the L ventricle from emptying normally, so L atrium can’t empty normally, which creates:

Answer 39

pulmonary edema and congestive heart failure

Question 40

T or F: In Pulmonary stenosis the walls of the ascending aorta, the aortic arch, or any of the arteries in the head and arms may become weakened or tear by high pressure which can cause a stroke or uncontrollable bleeding.

Answer 40

FALSE. This occurs when a person has coarctation of the aorta

Question 41

_________ is a combination of four heart defects.

Answer 41

Tetralogy of Fallot

Question 42

Tetrology of Fallot encompasses which 4 defects and which optional defect?

Answer 42

i. A large ventricular septal defect (VSD)
ii. Pulmonary stenosis
iii. Right ventricular hypertrophy
iv. An overriding aorta
v. Atrial Septal Defect (ASD): optional

Question 43

What effect does tetrology of fallot have on hemodynamics?

Answer 43

In combination the defects cause an enlarged Right atrium and ventricle, and at first blood will flow from L atrium into R atrium. Eventually the pressure from the build-up of muscle on the R side will cause de-oxygenated blood to enter the L atrium and ventricle, thus pumping de-oxygenated blood to the body

Question 44

Is tetrology of fallot cyanotic or acyanotic?

Answer 44

At first it is acyanotic, but when the R side of the heart’s muscles enlarge and the pressure gradient changes it will become cyanotic. It is generally considered a CYANOTIC condition

Question 45

Shortly after birth, babies with this heart defect usually show the major symptom: cyanosis (bluish tinge to skin)

Answer 45

tetrology of fallot

Question 46

Heart disease kills roughly the same number people in the United States each year as:

Answer 46

cancer, lower respiratory diseases (including pneumonia), and accidents combined.

Question 47

How mny people in the US die each day from heart disease?

Answer 47

2200

Question 48

How many people die each year from heart disease in the US?

Answer 48

800,000 (150,000 under age 65)

Question 49

1 in 4 deaths in the US is due to:

Answer 49

heart disease

Question 50

1 in 3 adults:

Answer 50

have some form of heart disease, stroke, or other blood vessel diseases.

Question 51

How many heart attack occur each year in the US?

Answer 51

1.5 million/year

Question 52

In this cardiac myopathy all 4 chambers are dilated with some hypertrophy.

Answer 52

Dilated (congestive) cardiomyopathy

Question 53

Dilated (congestive) cardiomyopathy involves:

Answer 53

Diminished myocardial contractility, which is reflected in diminished systolic performance of the heart

Question 54

Dilated cardiomyopathy causes:

Answer 54

decreased ejection fraction, increased end-diastolic and residual volumes, decreased ventricular stroke volume, and biventricular failure

Question 55

This cardiac myopathy is caused by asymmetric interventricular septal hypertrophy, which results in left ventricular outflow obstruction

Answer 55

Hypertrophic Cardiomyopathy

Question 56

What is the most common form of Hypertrophic Cardiomyopathy?

Answer 56

Idiopathic Hypertrophic Subaortic Stenosis (IHSS)

Question 57

Restrictive Cardiomyopathy occurs when:

Answer 57

Myocardium is infiltrated with a material that results in impaired ventricular filling

Question 58

This cardiac myopathy results in reduced diastolic volume of either or both ventricles:

Answer 58

Restrictive Cardiomyopathy

Question 59

In this cardiac myopathy the myocardium becomes rigid and noncompliant, impeding ventricular filling pressures during diastole

Answer 59

Restrictive Cardiomyopathy

Question 60

What 5 drug categories can be used to treat stage I hypertension?

Answer 60

Thiazide- type diuretic (for most)

ACE Inhibitors, Angiotensin II Receptor Blockers, Beta Blocker, Ca+ Channel Blockers, or combination.

Question 61

Define Stage I Hypertension:

Answer 61

Systolic BP: 140-159 mmHg; Diastolic BP: 90-99 mmHg

Question 62

What are common combinations of drugs for treating Stage II hypertension?

Answer 62

Thiazide- type diuretic and ACEI, ARB, or CCB.

Question 63

Define Stage II hypertension:

Answer 63

Systolic BP: 160 or more mmHg; Diastolic BP: 100 or more mmHg

Question 64

What 6 drug categories can be used to treat myocardial ischemia?

Answer 64

Aspirin or other blood thinner (anticoagulants)
Nitroglycerine (temporary)
Beta Blockers
Cholesterol- lowering medications
Ca+ Channel Blockers
ACE Inhibitors

Question 65

Anti-inflammatory medications (NSAIDs) and Corticosteroids can be used to treat:

Answer 65

Pericarditis

Question 66

Long term antibiotics are effect in treating:

Answer 66

Infective Endocarditis

Question 67

What 4 categories of drugs can be used to treat cardiomyopathy?

Answer 67

Digitalis
Diuretics
ACEI
Beta Blockers

Question 68

List at least 3 modifiable risk factors of cardiac diseases (more given):

Answer 68

○ Hypertension
○ Tobacco use
○ Raised blood glucose (diabetes)
○ Physical Inactivity
○ Unhealthy diet
○ Cholesterol/lipids
○ Overweight/obesity

Question 69

List 3 non-modifiable risk factors for developing cardiac disease:

Answer 69

age, gender, family history

Question 70

T or F: A man and a woman both in their 30’s are at equal risk for heart disease.

Answer 70

FALSE. Men are more at risk than pre-menpausal women. After menopause men and women are affected more equally.

Question 71

T or F: Men are at higher risk of stroke than women.

Answer 71

FALSE. Men and women are at equal risk of stroke

Question 72

Why does the risk of developing CVD increase with age?

Answer 72

As a person gets older, the heart undergoes subtle physiologic changes, even in the absence of disease.

Question 73

Give an example of how age can effect one’s risk for developing CVD:

Answer 73

The heart muscle of the aged heart may relax less completely between beats, and as a result, the pumping chambers become stiffer and may work less efficiently.