Test 3 Ch.11

Question 1

The primary indication for hemodynamic monitoring is the management of

Answer 1

critically ill pts who demonstrate evidence of compromised cardiovascular function

Question 2

hemodynamic monitoring can be used for the diagnosis and treatment of life-threatening conditions such as (9)

Answer 2

• shock
• heart failure
• pulmonary hypertension
• complicated myocardial infarction
• ARDS
• chest trauma
• burn injury
• severe dehydration
• after cardiac surgery

Question 3

Invasive Hemodynamics monitoring requires

Answer 3

the insertion of arterial and intracardiac catheters

Question 4

Measurements typically include (5)

Answer 4

• systemic arterial pressure
• central venous pressure
• pulmonary artery (PA) pressures
• arterial and mixed venous blood gases
• cardiac output (CO)

Question 5

These measurements can be used to calculate (5)

Answer 5

• O2 delivery (DO2)
• cardiac index (CI)
• stroke index (SI)
• vascular resistance
• cardiac work

Question 6

The benefits must out weigh the risk in these critically ill pts

Answer 6

something to know

Question 7

The output of the right and left ventricles are ultimately influenced by 4 main factors, what are they?

Answer 7

• Heart rate
• Preload
• Contractility
• Afterload

Question 8

What is an individual’s HR defined as?

Answer 8

the number of times the heart beats per minute

Question 9

HR can vary considerably depending on what? (5)

Answer 9

• pt’s age
• body habitus
• core temperature
• level of activity
• psychological state

Question 10

In a normal healthy adult, HR can range from

Answer 10

50 - 200 bpm

Question 11

What is preload?

Answer 11

The filling pressure of the ventricle at the end of the ventricular diastolic, and is estimated by measuring the end-diastolic pressures

Question 12

What is diastole?

Answer 12

When the ventricles are relaxed

Question 13

What does it mean if the bottom # on BP is greater than the top #?

Answer 13

The heart is never at rest

Question 14

The amount of blood present in the ventricles at the end of ventricular diastole (preload) depends on the level of

Answer 14

venous return and compliance of the ventricle

Question 15

Preload reflects the

Answer 15

length of the ventricle muscle fibers to generate the necessary tension in the next ventricular contractions

Question 16

The basic principle of cardiovascular physiology is sometimes called the

Answer 16

Frank-Starling mechanism or length-tension relationship

Question 17

The right ventricular end-diastolic (RVEDP) is typically used as an indictor of

Answer 17

right ventricular preload

Question 18

The left ventricular end-diastolic pressure (LVEDP) is used to estimate

Answer 18

left ventricular preload

Question 19

To estimate RVEDP and LVEDP what measurements do Clinicians rely on? (2)

Answer 19

• right atrial pressure (RAP) or central venous pressures (CVP)
• PA occlusion pressure (PAOP)

Question 20

PAOP is equivalent to

Answer 20

pulmonary capillary wedge pressure (PCWP)

Question 21

Contractility is the

Answer 21

force that the ventricles generates during each cardiac cycle and can be estimated using the ejection fraction

Question 22

How is the ejection fraction calculated?

Answer 22

the ratio of the SV to the ventricle end-diastolic volume

Question 23

Afterload is defined as the

Answer 23

impedance that the left and right ventricles must overcome to eject blood into the great vessels

Question 24

We measure that impedance as

Answer 24

systemic and pulmonary vascular resistance

Question 25

The systemic vascular resistance (SVR) is used to describe the afterload that the left ventricle must overcome to

Answer 25

eject blood in the systemic circulation

Question 26

What does SVR measure?

Answer 26

The whole body

Question 27

Which ventricle pumps out to the whole body?

Answer 27

left

Question 28

The pulmonary vascular resistance (PVR) reflects the afterload that the

Answer 28

right ventricle must overcome to eject blood into the pulmonary circulation

Question 29

Which ventricle pumps in the pulmonary circulation?

Answer 29

right

Question 30

SVR is ___ times greater than PVR

Answer 30

10

Question 31

Increases in afterload are associated with (think opposite)

Answer 31

reductions in CO

Question 32

Decreases in afterload are associated with

Answer 32

increases in CO

Question 33

What does Retrograde mean?

Answer 33

Moving in the opposite direction

Question 34

Direct measurement of the systemic arterial pressure requires the insertion of a catheter into a peripheral artery such as the (3)

Answer 34

• radial
• brachial
• femoral

Question 35

What techniques can be used to insert the catheter (2)

Answer 35

• percutaneous technique
• surgical cutdown technique

Question 36

Percutaneous is used in what setting?

Answer 36

critical care

Question 37

What must be performed before a radial catheter is inserted?

Answer 37

modified Allen test

Question 38

Administering a systemic vasodilator (e.g., nitroprusside) or a pulmonary vasodilator (e.g., tolazoline) will reduce the SVR and PVR and result in an

Answer 38

increase in cardiac output

Question 39

Perform a modified Allen test to ensure

Answer 39

refill time of 5 to 10 seconds

Question 40

Infiltrate the skin around the insertion with

Answer 40

local anesthetic (e.g., lidocaine)

Question 41

Percutaneously insert the catheter appropriately at a

Answer 41

30-degree angle

Question 42

If the pulse is weak or inaccessible, what should be done to insert Catheter

Answer 42

surgical cutdown

Question 43

What should you frequently monitor after insertion of catheter? (2)

Answer 43

• Insertion site of infection
• Extremity distal to insertion site for adequate circulation

Question 44

catheter should be removed if: (3)

Answer 44

• There is a clot formation evidenced by difficulty w/ blood sampling or persistently damped waveform
• Extremity distal to the insertion site becomes ischemic
• Insertion site becomes infected (fever)

Question 45

What are catheters placed in the vena cava or right atria called?

Answer 45

central venous lines

Question 46

What do CVPs monitor?

Answer 46

right heart pressure

Question 47

CVP catheters are usually inserted percutaneously into a large central vein such as: (3)

Answer 47

• internal jugular (most common)
• peripherally through the medial basilic
• lateral cephalic vein

Question 48

During ventricle systole or atrial diastole, when the tricuspid valve is closed the pressure measured in the right atrium or vena cava reflects

Answer 48

the RAP

Question 49

At the end of ventricular diastole atrial systole when the tricuspid valve is open

Answer 49

the pressure measured in the right atrium reflects right ventricular pressure (RVP)

Question 50

The CVP measured at the end of ventricular diastole can be used to monitor

Answer 50

IV fluid administration and estimate the filling pressure or preload of the right ventricle (RVEDP)

Question 51

CVP is also used to measure

Answer 51

fluid balance

Question 52

When are pressure measurements usually performed?

Answer 52

during exhalation and when the pt is supine

Question 53

The transducer is

Answer 53

zeroed at the level of the right atrium

Question 54

What is the normal value of CVP

Answer 54

2 to 6 mm Hg (UNITS MUST BE USED FOR TEST)

Question 55

What are the most common problems encountered w/ insertion of CVP are (3)

Answer 55

• pneumothorax
• hemothorax
• vessel damage

Question 56

Why is pneumothorax a common problem w/ insertion of a CVP?

Answer 56

There is a high likelihood of puncturing a lung

Question 57

What is the the placement of the catheter confirmed with?

Answer 57

chest xray

Question 58

Right atrial pressure (RAP) is also called

Answer 58

central venous pressure (CVP)

Question 59

Balloon-tipped, flow-directed catheter is also called

Answer 59

Swan-Ganz catheter or pulmonary artery (PA) catheter

Question 60

Once you insert the catheter into the Intrathoracic vessel, the ballon is slightly inflated, so that the flow of blood carries it to where it needs to go

Answer 60

something to know

Question 61

The balloon on the tip of the catheter is what we can inflate to get a heart measurement

Answer 61

something to know

Question 62

The standard adult catheter is

Answer 62

110 cm increments in length and is available in 7 and 8 French (Fr) sizes (marked off in 10 cm increments)

Question 63

As with systemic arterial catheters, a pressurized flush solution must be run through the catheter at a rate of

Answer 63

1 to 5mL/h to prevent clot formation within the catheter’s lumen

Question 64

Dual-lumen catheter have

Answer 64

one lumen that connects to the ballon located near the tip of the catheter and a second lumen that runs the length of the catheter and terminates at a port at the distal end of the catheter

Question 65

Triple-lumen catheters have an

Answer 65

additional proximal port that terminates approximately 30 cm from the tip of the catheter or at the level of the right atrium

Question 66

The third lumen can be used to measure (2)

Answer 66

right atrial pressures (RAP) or for administering IV meds

Question 67

Thermodilution catheters incorporate a

Answer 67

thermistor connector, which contains electrical wires that connect to a thermistor located 1.5 inches (3 cm) from the tip of the catheter

Question 68

When measuring CO using the thermodilution technique,

Answer 68

a bolus of 5 % dextrose (cold or room temperature) is injected through the catheter’s third (proximal) lumen, which is positioned at the level of the right atrium

Question 69

Thermodilution can estimate

Answer 69

CO with the thermistor connector

Question 70

Cold solution goes past the thermistor and can measure what the CO is, based on the change in temperature

Answer 70

something to know

Question 71

Table 11.3 Complications associated with PA catheterizations: Cardiac Arrhythmias (6)

Answer 71

• PVC
• Premature atrial contraction (PACs)
• V-tach
• V-Fib
• Atrial Flutter
• A-Fib

Question 72

Table 11.3 Complications associated with PA catheterizations: Infection Procedure or insertion site (4)

Answer 72

• Infection
• Pneumothorax
• Air embolism
• Access vessel thrombosis

Question 73

Table 11.3 Complications associated with PA catheterizations: Pulmonary circulation

Answer 73

• Pulmonary artery rupture or perforation
• pulmonary infarction

Question 74

Table 11.3 Complications associated with PA catheterizations: Pulmonary Artery Catheter (4)

Answer 74

• Balloon rupture
• Catheter knotting
• Damped waveform
• Catheter whip or fling

Question 75

Box 11.3 Causes of Abnormal Right Atrial and Pulmonary Artery Occlusion Pressure Values: Elevated Right Atrial Pressures (RAP) (6)

Answer 75

• Volume overload
• Right ventricular (RV) failure
• Tricuspid stenosis or regurgitation
• Cardiac tamponade
• Constrictive pericarditis
• Chronic left ventricular (LV) failure

Question 76

Table 11.3 Complications associated with PA catheterizations: Elevated Pulmonary Artery Occlusion Pressure (PAOP) (6)

Answer 76

• Volume overload
• Left ventricle failure
• Mitral stenosis or regurgitation
• Cardiac tamponade
• Constrictive pericarditis
• High PEEP

Question 77

Table 11.3 Complications associated with PA catheterizations: Low RAP or PAOP

Answer 77

Hypovolemia

Question 78

The typical adult can maintain an adequate CO at heart rates of

Answer 78

40 to 50 bpm as long as SV increases proportionally

Question 79

CO will increase with heart rates up to about

Answer 79

200 to 220 bpm, assuming that the pt responds normally to sympathoadrenal stimulation

Question 80

Heart rates above 220 will decrease in CO b/c

Answer 80

diastolic filling time is reduced (decreased ventricular filling from reduced venous return)

Question 81

What is the normal systemic arterial pressure in adults? (range)
With a normal mean arterial pressure (MAP)

Answer 81

90 to 140 mm Hg to 60 to 90 mm Hg;

70 to 100 mm Hg

Question 82

Systemic hypERtension is when systolic arterial pressure is greater than ____ and diastolic pressure greater than ___

Answer 82

systolic > 140 mm Hg
diastolic >90 mm Hg

Question 83

Systemic hyPOtension is when systolic pressure is less than and diastolic pressure is less than

Answer 83

systolic < 100 mm Hg
diastolic < 60 mm Hg

Question 84

An increase in diastolic pressure is associated with

Answer 84

vasoconstriction

Question 85

A decrease in diastolic pressure is associated with

Answer 85

vasodilation

Question 86

The RAP and the LAP are reported as

Answer 86

mean values rather than as systolic and diastolic values

Question 87

The RAP (CVP) normally ranges from

Answer 87

2 to 6 mm Hg

Question 88

The LAP as estimated from PAOP, ranges from

Answer 88

5 to 12 mm Hg

Question 89

CVP and PAOP measures are commonly used to determine overall ______ _________

Answer 89

fluid balance

Question 90

What does a low CVP or PAOP suggest?

Answer 90

hypovolemia

Question 91

An elevated CVP or PAOP indicates (2)

Answer 91

hypervolemia or ventricular failure

Question 92

The finding of bilateral infiltrates on a CXR along with a PAOP greater than 25 mm Hg suggest what?

Answer 92

The presence of cardiogenic pulmonary edema, resulting from left-sided heart failure

Question 93

The finding of bilateral infiltrates on a CXR with a normal PAOP indicates what?

Answer 93

The presence of noncardiogenic pulmonary edema, resulting from damage to the alveolar-capillary membrane or ARDS

Question 94

Cardiac output (Q) is the

Answer 94

volume of blood pumped by the heart per minute (L/min or mL/min)

Question 95

Cardiac output (Q) normally ranges from

Answer 95

4 to 8 L/min

Question 96

Stroke volume (SV) is the

Answer 96

volume of blood pumped by the heart per beat (L/beat or mL/beat)

Question 97

Which one is lower PA systolic and diastolic pressures or systemic pressures

Answer 97

PA systolic and diastolic

Question 98

What is the PA systolic pressure range for a healthy adult?

Answer 98

15 - 35 mm Hg

Question 99

What is the PA diastolic pressure range for a healthy adult

Answer 99

5- 15 mm Hg

Question 100

If VO2 and Q remain constant, the difference between the arterial O2 content and the mixed venous O2 content will

Answer 100

remain constant

Question 101

When does mixed venous O2 values declined? (2)

Answer 101

• when arterial oxygenation is decreased
• Q is reduced

Question 102

What does Oxygen delivery (DO2) represent?

Answer 102

The total amount of O2 that is carried in the blood to the tissues each minute

Question 103

DO2 is the product of what 2 things?

Answer 103

Q and arterial O2 (PO2)

Question 104

Under normal circumstances DO2 is approximately

Answer 104

1000 mL/min or about 550 to 650 mL/min/m2

Question 105

When is DO2 increased? (2)

Answer 105

Q or arterial O2 content is elvated

Question 106

A reduced DO2 indicates a (2)

Answer 106

decrease in Q or arteial O2

Question 107

What disease process is DO2 increased in?

Answer 107

septic shock (hyperdynamic state)

Question 108

DO2 is decreased in this medical issue

Answer 108

hemorrhage

Question 109

What is a shunt defined as ?

Answer 109

A portion of the cardiac output that does not participate in gas exchange w/ alveolar air (perfusion without ventilation)

Question 110

Shunts are usually identified as (3)

Answer 110

• anatomical shunts
• intrapulmonary shunt
• physiological shunt

Question 111

Abnormal anatomical shunts can occur when

Answer 111

blood is allowed to bypass the pulmonary circulation and enter directly into the left atrium or ventricle, as occurs w/ atrial and ventricular septal wall defects

Question 112

Intrapulmonary shunts occur when blood passes through

Answer 112

pulmonary capillaries that are not ventilated

Question 113

What disorders can intrapulmonary shunts be caused by? (8)

Answer 113

• atelectasis
• pulmonary edema
• PNA
• pneumothorax
• complete airway obstruction
• consolidation of the lung
• ARDS
• arterial to venous fistuals (rare)

Question 114

What is the normal ranges for SVR

Answer 114

900 to 1500 dyne x seconds x cm-5

Question 115

Normal PVR ranges from

Answer 115

100 to 250 dyne x seconds x cm-5

Question 116

What are the 2 most important factors that influence vascular resistance?

Answer 116

• the caliber of the blood vessels
• viscosity of the blood

Question 117

The SVR is increased in left ventricle and hypovolemia arising from vasoconstriction caused by stimulation of the barorecpters

Answer 117

something to know

Question 118

The SVR may increase in this disorder..

Answer 118

polycythemia

Question 119

SVR decrease during systemic

Answer 119

• vasodilation, such as occurs w/ moderate hypoxemia
• vasodilators (nitroglycerin or hydralazine)

Question 120

The PVR increases during periods of

Answer 120

• ## alveolar hypoxia or high intraavelor pressures are generated (ppv)

Question 121

PVR decreases

Answer 121

vasodilator drugs such as tolazpline and prostacyclin

Question 122

What are the normal range values for ejection fraction (EF)

Answer 122

0.5 to 0.7

Question 123

EF values < _____ are associated w/ compromised cardiovascular function and imminent heart failure

Answer 123

0.30

Question 124

The resting heart rate of a healthy adults is

Answer 124

60 to 100 bpm

Question 125

Bradycardia

Answer 125

<60

Question 126

Tachycardia

Answer 126

> 100

Question 127

CO will increase w/ heart rates up to ____ to _____ bpm assuming that the pt responds normally to sympathoadrenal

Answer 127

200 to 220

Question 128

Can we measure BP w/ an Arterial line?

Answer 128

YES

Question 129

What is the normal systemic arterial pressure for systolic (range)

Answer 129

90 to 140 mm Hg

Question 130

What is the normal systemic arterial pressure for diastolic?

Answer 130

60 to 90 mm Hg

Question 131

A normal mean arterial pressure ranges from?

Answer 131

70 to 100 mm Hg

Question 132

When does a pt have systemic hypertension?

Answer 132

When systolic arterial pressures are greater than 140 and diastolic greater than 90

Question 133

Systemic hypotension

Answer 133

systolic less than 100 mm Hg, diastolic less than 60 mm Hg

Question 134

What is a critical MAP

Answer 134

60 mm Hg

Question 135

Once MAP gets below 60 mm Hg it is very difficult to perfuse the body

Answer 135

something to know

Question 136

What is a wide pulse pressure associated with?

Answer 136

an increased SV and decreased arterial compliance

Question 137

What is a narrow pulse pressure associated with

Answer 137

a decreased SV and an increased arterial compliance

Question 138

Right Atrial pressure (RAP) is also know as

Answer 138

Central venous pressure (CVP)

Question 139

RAP can be monitored through the __________ lumen of a PA catheter or through a ______ line

Answer 139

proximal; CVP

Question 140

Pulmonary artery pressure (PA) is measured by the __________ lumen of a PA cather

Answer 140

distal

Question 141

Left atrial and ventricular can be measured during

Answer 141

PAOP (PCWP)

Question 142

Left atrial pressure (PCWP) is measured when the

Answer 142

balloon is inflated (wedged). The measurement can only be obtained when you inflate the balloon

Question 143

What can PAOP distingusih?

Answer 143

Cardiogenic pulmonary edema or non-cardiogenic pulmonary edema

Question 144

Cardiogenic pulmonary edema is interchangeable with

Answer 144

increased pulmonary capillary hydrostatic pressure

Question 145

Non-cardiogenic pulmonary edema is interchangeable with

Answer 145

normal pulmonary hydrostatic pressure or ARDS

Question 146

Normal PCWP is

Answer 146

5 to 12 mm Hg

Question 147

PCWP greater than ____ mm Hg means a pt has…

Answer 147

25;
Cardiogenic pulmonary edema

Question 148

Tricuspid =

Answer 148

RIGHT SIDE of the heart

Question 149

Mitrial=

Answer 149

LEFT SIDE of the heart

Question 150

Normal PA systolic pressure is

Answer 150

15- 35 mm Hg

Question 151

Normal PA diastolic pressire is

Answer 151

5- 15 mm Hg

Question 152

Use of ______ levels at greater than ____ cm H20 can produce erroneously elevated pressure readings

Answer 152

PEEP;
15 cm H20

Question 153

Pulmonary hypertension is determined by the

Answer 153

pulmonary artery pressure

Question 154

Systolic greater than ___ and diastolic greater than ____ is considered ____________ ________________

Answer 154

35;
15;
pulmonary hypertension

Question 155

Define CO

Answer 155

the volume of blood pumped out by the heart per min

Question 156

Normal CO is

Answer 156

4 to 8 L/min

Question 157

What is the equation for CO?

Answer 157

CO= SV x HR

Question 158

Define Stroke Volume

Answer 158

the volume of blood pumped out by the heart per beat

Question 159

What is a normal Cardiac index (CI)

Answer 159

2.5 to 4.0 L/min/m2

Question 160

What is a normal Stroke index?

Answer 160

35 to 55 mL/beat/m2

Question 161

What is a normal SaO2

Answer 161

98%

Question 162

What is a normal CaO2

Answer 162

20 vol%

Question 163

Can you start with normal arterial oxygenation and still have decreased venous oxygenation? and why?

Answer 163

Yes, b/c of shunting or increased oxygenation consumption (i.e., fever or exercise)

Question 164

Can you start with a normal arterial oxygenation and still have a higher than normal (increased or elevated) mixed venous oxygenation? and why?

Answer 164

Yes, b/c the body is not using ANY of the oxygen (i.e., histotoxic hypoxemia). The body is not using it or its not delivering to the tissues

Question 165

DO2 is the product of

Answer 165

CO and arterial O2 content and represents the total amount of O2 that is carried in the blood to the tissues

Question 166

Normal DO2 is

Answer 166

1000 mL/min (1L/min) or about 550 to 650 mL/min/m2

Question 167

DO2 is increased when

Answer 167

CO and CaO2 content is elevated hyperdynamic state (i.e., septic shock)

Question 168

DO2 is decreased

Answer 168

when CO and CaO2 content is decreased (i.e., hemorrhage or anemic)

Question 169

A shunt is the portion of the CO that does not

Answer 169

participate in gas exchange w/ alveolar (perfusion w/o ventilation)

Question 170

Normal shunt is ____% to ____% of CO

Answer 170

2% to 3%

Question 171

Shunt between 15 -20% we start to think of MV

Answer 171

something to know

Question 172

Shunts 30% and greater we put them on MV

Answer 172

something to know

Question 173

Vascular resistance represents the impedance or opposition to blood flow offered by the

Answer 173

systemic and pulmonary vascular beds and it influences the force that the ventricular must must generate during CO contraction

Question 174

Calculation for SVR?

Answer 174

(MAP-CVP)/Q x 80

Question 175

Calculation for PVR

Answer 175

(MPAP-PAOP)/Q x 80

Question 176

What is the normal SVR?

Answer 176

900 to 1500 dyne x second x cm-5

Question 177

What is the normal PVR

Answer 177

100 to 250 dyne x second x cm-5

Question 178

SVR is increased if

Answer 178

blood viscosity increases as occurs in polycythemia

Question 179

SVR is decreased during

Answer 179

systemic vasodilation (i.e., moderate hypoxemia)

Question 180

PVR increases during periods of

Answer 180

alveolar hypoxia or in cases in which high positive pressure ventilation low CO

Question 181

PVR is decreased by the administration of

Answer 181

pulmonary vasodilator drugs such as tolazoline and prostacyclin

Question 182

Ejection Fraction (EF) provides an estimate of

Answer 182

ventricular contractility; how much blood is being ejected out of the ventricles

Question 183

Normal EF is

Answer 183

0.5 to 0.7

Question 184

EF less than _____ is associated w/ heart failure

Answer 184

0.30