Cardiovascular Assessment (Josh)

Question 1

Which valves are the AV valves?

Which valves are the Semilunar Valves?

Answer 1

AV = Tricuspid and Mitral

Semilunar = Pulmonica and Aortic

Question 2

What does the “LUB” sound coincide with?

Answer 2

closure of AV valves

Question 3

What does the “DUB” sound coincide with?

Answer 3

closure of Semilunar valves

Question 4

How many phases of the Cardiac Cycle?

Answer 4

7

Question 5

MAP:

Mean Arterial Pressure must be at least — to maintain adequate blood flow through coronary arteries.

Answer 5

60 mmHg

Question 6

MAP:

Mean Arterial Pressure must be — to maintain perfusion through major body organs like kidneys and brain.

Answer 6

60-70 mmHg

Question 7

When does coronary artery blood flow to the myocardium?

Answer 7

during DIASTOLE

Question 8

Cardiac Cycle:

When does the “Lub” sound happen?

When does the “Dub” sound happen?

Answer 8

Lub = MITRAL (AV) Valve closes

Dub = AORTIC (Semilunar) valve closes

Question 9

Diastole and Systole:

— consists of relaxation and filling of atria and ventricles and accounts for two-thirds of cardiac cycle.

Answer 9

Diastole

Question 10

Diastole and Systole:

— consists of the contraction and emptying of of atria and ventricles and accounts for one-third of cardiac cycle.

Answer 10

Systole

Question 11

How is Cardiac Output calculated?

Answer 11

CO = HR x SV

Question 12

What is Stroke Volume?

Answer 12

amount of blood ejected by left ventricle during each contraction

Question 13

Normal HR for adult is —

Answer 13

60-100

Question 14

How is BP calculated?

Answer 14

BP = SV x Systemic Vascular Resistence (SVR)

Question 15

How is MAP calculated?

Answer 15

SBP + DBP *2 / 3

Question 16

What is a Normal MAP?

Answer 16

70-100

Question 17

What is Systolic BP?

What is Diastolic BP?

Answer 17

SBP = pressure generated by left ventricle to distribute blood into aorta

DBP = pressure against arterial walls during relaxation phase of heart

Question 18

What is Central Venous Pressure?

Answer 18

reflects filling pressures of the right side of the heart

Normal value is 2-5 mmHg

Question 19

What is normal CO?

Answer 19

4-6 L/min

Question 20

What is Cardiac Index (CI)?

Answer 20

adjusts CO for body size

Normal Value is 2.2-4.0 L/min/meters squared

Question 21

How is SV calculated?

Answer 21

(CO / HR) x 1000 = SV

Question 22

What is normal SV?

Answer 22

60-70 mL

Question 23

What is Systemic Vascular Resistence (SVR)?

Answer 23

the resistence against which the left ventricle must pump to eject its volume

ie: Afterload

normal value is 800-1400 dynes/sec/cm

Question 24

What is normal SVR?

Answer 24

800-1400 dynes/sec/cm

Question 25

What is the best indicator of fluid balance?

Answer 25

weight

2.2 lb = 1 kg = 1 L

Question 26

How much does one liter of fluid weigh?

Answer 26

1 L = 1 kg = 2.2 lb

Question 27

— are located in arch of aorta and respond when walls are stretched by increased BP

Answer 27

Baroreceptors

***they in turn inhibit the vasomotor center in the Pons and Medulla which leads to drop in BP

Question 28

Heart Cath:

Which side is typically done first and goes through the femoral vein into the IVC?

Answer 28

Right Sided Cath

***Left Sided Cath goes through femoral artery against blood flow

Question 29

When performing Hemydynamic Monitoring, what do we set the Pressure Bag to?

Answer 29

300 mmHg

Question 30

What is Positioning for Hemodynamic Monitoring?

Answer 30

HOB can be 0-60 degrees if patient is supine

Question 31

Hemodynamic Monitoring:

What is the Phlebostatic Axis?

Answer 31

4th ICS and midway of the AP diameter of the chest

Question 32

What should we do prior to any access to Radial or Ulnar artery?

Answer 32

Allen’s Test

Question 33

When removing any catheter from an artery, how much pressure?

Answer 33

manual pressure for 10 mins

Question 34

What is a Pulsus Paradoxus?

Answer 34

when SBP declines more than 10 mmHg during inspiration

***Normal fall should be less than 10

Question 35

Why are Central Lines useful?

Answer 35

Rapid infusion of large volumes of fluid/blood

Safer for infusion of caustic meds

Allows measurement of filling pressures of right side of heart

Can be used to measure mixed venous blood

Question 36

What are common locations for Central Lines?

Answer 36

Internal Jugular

Subclavian

Femoral

Peripheral

Question 37

Complications associated with Central Lines?

Answer 37

Infection

Pneumothorax (with Subclavian sites)

Bleeding

Thrombus

Air Embolus

Question 38

What is nursing action with an Air Embolus?

Answer 38

Trendelenburg

Left Side

100% oxygen

Call Doc

Question 39

What is normal Central Venous Pressure?

Answer 39

2-5 mmHg

Question 40

Pulmonary Artery Pressure (PAP):

What is normal Systolic Pressure of PA (PAS)?

Answer 40

20-30 mmHg

Question 41

Pulmonary Artery Pressure (PAP):

What is normal Diastolic Pressure of PA (PAD)?

Answer 41

5-10 mmHg

Question 42

Pulmonary Artery Pressure (PAP):

What is normal Mean Pressure of PA (PAPm)?

Answer 42

10-15 mmHg

Question 43

Pulmonary Artery Pressure (PAP):

What is Pulmonary Artery Wedge Pressure (PAWP)?

Answer 43

aka Pulmonary Artery Occlusive Pressure (PAOP)

reflects the filling pressures in the pulmonary vasculature LEFT sided pressures

Question 44

What is normal PAWP?

Answer 44

4-12 mmHg

Question 45

Normal Preload for the right side and left side of the heart?

Answer 45

Right Side = 2-5 mmHg

Left Side = 5-12 mmHg

Question 46

For the right side of the heart, — reflects the filling pressure

For the left side of the heart, — reflects the filling pressure.

Answer 46

CVP (Central Venous Pressure)

PAWP (Pulmonary Artery Wedge Pressure)

Question 47

What meds can increase SVR?

What meds can decrease SVR?

Answer 47

DA, NE

Nitroprusside, NTG, Hydralazine

Question 48

What is Pulmonary Vascular Resistance (PVR)?

Answer 48

resistance of ejection of blood from right side of heart

Question 49

PVR normal range?

Answer 49

1/6 of SVR

100-250 dynes/sec/cm to the 5th

Question 50

SVR:

Vasoconstriction — SVR

Vasodilation — SVR

Answer 50

increases

decreases

Question 51

What is Stroke Volume Variation?

Answer 51

naturally occurring phenomenon in which the arterial pulse pressure falls during inspiration and rises during expiration due to changes in intrathoracic pressure secondary to negative pressure ventilation.

variations over 10 mmHg are referred to as Pulsus Paradoxus

Question 52

What is a normal Stroke Vol. Variation (SVV)?

Answer 52

less than 10-15%

Question 53

What do SVV values below 10-15 % indicate?

Answer 53

patient is not likely to increase CO through fluid infusion

Question 54

Lactate Levels:

Anaerobic metabolism of glucose results in lactate formation.

Serum Lactate greater than — indicates tissue hypoxia.

Answer 54

4 mmol/L

Question 55

Why should we measure Venous Oxygen Saturation?

Answer 55

shows the balance achieved b/t the arterial oxygen supply and the oxygen demand at the tissue level

Question 56

What is a normal Mixed Venous Oxygen Saturation?

Answer 56

60-80%

Question 57

What are the 4 contributing factors for Venous Oxygen Saturation (SvO2)?

Answer 57

CO

Hgb

SaO2

Tissue Metabolism (VO2)

Question 58

What doe high values (80-90%) of SvO2 indicate?

Answer 58

Hyperoxygenation

Anesthesia

Sepsis

False Reading

Question 59

What do low values (less than 60%) of SvO2 indicate?

Answer 59

Anemia, Bleeding

Cardiogenic Shock

Hyperthermia, Seizures, Activity

Hyoxemia

Question 60

Difference between SaO2 and SpO2?

Answer 60

When arterial oxyhemoglobin saturation is measured by an arterial blood gas it is called SaO2.

When arterial oxyhemoglobin saturation is measured non-invasively by pulse oximetry, it is called SpO2.

Question 61

The lub dub sounds are caused by what?

Answer 61

closure of valves

Lub = AV valve closure
Dub = SL valve closure

Question 62

What does a P Wave represent?

T Wave?

Answer 62

P Wave = Atrial Depolarization

T Wave = Ventricular Repolarization

Question 63

Heart Sounds:

What is S1?

Answer 63

Closure of AV Valves and beginning of Ventricular Systole

Question 64

Heart Sounds:

What is S2?

Answer 64

Closure of Semilunar Valves and beginning of Ventricular Diastole

Question 65

Heart Sounds:

What is S3?

Answer 65

extra sound during Diastole

***can signify ventricle filling too fast

***Fluid Volume Overload

Question 66

Heart Sounds:

What is S4?

Answer 66

extra sound during Diastole

before S1

Question 67

Can you see Atrial Repolarization on telemetry?

Answer 67

NO

because if happens during QRS

Question 68

When does the SA Node contract?

Answer 68

during diastole

***allows atria to fill the ventricles

Question 69

When do the Ventricles receive impulses from Purkunjie Fibers?

Answer 69

during Systole

*** SQUEEZE

Question 70

Why is Proteinurea a lab taken to determine HF?

Answer 70

one of first signs of HF is spilling over of protein into urine

Question 71

What is purpose of Hemodynamic Monitoring?

Answer 71

gives you a continuous reading of BP

Question 72

Where do we place the transducer for hemodynamic monitoring?

Answer 72

Phlebostatic Axis

***important because improper placement can cause to be inaccurate

Question 73

How do you determine the accuracy of Hemodynamic Monitoring device?

Answer 73

Fast Flush Waveform Test

***rapidly flushing saline into artery will cause a square wave on ECG

Question 74

Arterial Pressure Tracing:

What is the Dicrotic Notch on the pressure tracing?

Answer 74

where Aortic Valve closes

Question 75

Arterial Pressure Tracing:

If they have a blank spot on tracing, what does this indicate?

Answer 75

decreased perfusion (there would be a lack of a pulse during this time)

Question 76

SVV:

What type of waveform for Inhalation?

Exhalation?

Answer 76

Inhalation = lower wave form

Exhalation = higher wave form

***greater than 10 is a Pulsus Paradoxus

Question 77

When would we see a Pulsus Paradoxus?

Answer 77

Cardiac Tamponade

Question 78

What does a Pulsus Arterans indicate?

Answer 78

poorly functioning heart

Pulsus alternans is a physical finding with arterial pulse waveform showing alternating strong and weak beats. It is almost always indicative of left ventricular systolic impairment, and carries a poor prognosis.

Question 79

When is the only time that Trendelenberg will be correct choice on a Langston test?

Answer 79

Air Embolus from Central Line

Question 80

How does a Pulmonary Artery Catheter measure PAWP?

Answer 80

deflated baloon sits in pulmonary artery

inflated to give back pressure

this reveals the filling pressure of the Left Side of Heart

Question 81

Pulmonary Artery Catheters:

What do waves look like in Right Atrium?

Answer 81

less than 10 mmHg

Question 82

Pulmonary Artery Catheters:

What do waves look like in Right Ventricle?

Answer 82

rise to less than 30 mmHg

***More pressure than atrium

Question 83

Pulmonary Artery Catheters:

What do waves look like in Pulmonary Artery?

Answer 83

as high as Right Ventricle but doesn’t drop all the way to 0 mmHg like right ventricle

Question 84

Pulmonary Artery Catheters:

Why is it important to know what waves look like?

Answer 84

so that you can tell if it is in correct spot by looking at Waveform

Question 85

What are factors that effect Contractility?

Answer 85

Preload

Aftrerload

Positive Inotropic Effects

Negative Inotropic Effects

Question 86

What does Inotropic mean?

Answer 86

any agent that alters the force of muscular contraction

Question 87

What are positive Inotropic Factors?

Answer 87

Dopamin

Dobutamine

Question 88

What are negative Inotropic Factors?

Answer 88

Beta Blockers

Ca Channel Blockers

Hypoxemia

Question 89

What factors determine SV?

Answer 89

Preload

Afterload

Contractility

Question 90

Why would Sepsis lead to High SvO2?

Answer 90

cellular tissue is damaged and unable to take up oxygen

Question 91

The nurse caring for a patient with an arterial line notes the reading of 182/130. The priority action at this time will be:

1) Notify the MD
2) Increase the nitroprusside IV gtt
3) Verify the transducer level
4) Verify the flush solution

Answer 91

3) Verify the transducer level

Question 92

The patient with a FloTrac monitor is noted to have a SVV of 19%. The nurse can anticipate which treatment ordered?

1) Fluid bolus
2) Dopamine IV gtt
3) Nitroglycerine IV gtt
4) Lasix per IV

Answer 92

1) Fluid bolus

***high values (greater than 15) indicate HYPOvolemia

Question 93

The nurse notes a SVR of 550 dynes/sec/cm-5. This is an indicator of:

1) Vasoconstriction
2) Increased right heart preload
3) Increased left heart preload
4) Vasodilation

Answer 93

4) Vasodilation

***Normal values are 800-1400