VALLEY: ECG/CVP/PAP/BP Monitoring

Question 1

What is Einthoven’s triangle?

Answer 1

Einthoven’s triangle is a representation of the placement of the three standard limb leads.

Question 2

Where are the leads placed for lead I?

Answer 2

left arm positive, right arm negative, left leg ground

Question 3

Where are the leads placed for Lead II?

Answer 3

right arm negative, left leg positive, left arm ground;

Question 4

Where are the leads placed for Lead III?

Answer 4

left arm negative, left leg positive, right arm ground.

Question 5

Where are the leads placed for lead VS?

Answer 5

The positive electrode for lead VS is placed between the middavicular line and the lateral chest line in the 5th. intercostal space. The negative electrode is placed on the left or right arm.

Question 6

What two monitors detect cardiac dysrhythmias?

Answer 6

(1) Stethoscope

(2) electrocardiogram

Question 7

List five reasons for using the electrocardiogram?

Answer 7

(1) Detect cardiac dysrhythmias (leads I or II).
(2) detect myocardial ischemia,
(3) detect electrolyte abnormalities
(4) calculate heart rate
(5) detect pacemaker malfunction.

Question 8

The ECG is recorded on ruled paper. What is the size of the smallest square? Each small division on an ECG tracing, when measured horizontally between the fine lines, represents how many seconds?

Answer 8

The smallest unit is l mm tall by 1 mm wide.Each mm corresponds to 0.04 seconds.

Question 9

How many millivolts (mV) are generated on the skin by electrocardiographic (ECG) signals? How many microvolts
(V) is this?

Answer 9

ECG potentials on the skin are on the order of l millivolt ( m V) , which is l,000 microvolts

Question 10

Is currently the standard for monitoring patients with suspected myocardial ischemia

Answer 10

A 5-cable (5-lead) ECG monitoring In the five-electrode (S-cable) monitoring system, the four limb electrodes, LA, RA,
LL, and RL placed at their corresponding monitoring locations allow any of the six bipolar limb leads (I, II, III, aVR, aVL, and a VF) to be obtained, and a fifth chest electrode can be placed in any of the standard
precordial V 1 to V6. locations.

Question 11

Describe the proper placement of RA, LA,

Answer 11

Proper placement of the RA electrode is over the outer right clavicle and of the LA electrode is over the outer left clavicle..

Question 12

The LL electrode is placed near the

Answer 12

left iliac crest or midway between the costal margin and left iliac crest along the anterior axillary line.

Question 13

The RL electrode may be placed at any

Answer 13

convenient location on the body

Question 14

Which unipolar lead in the S-lea monitoring system is preferred when arrhythmias are anticipated?

Answer 14

In the 5-lead system, VI is preferred for special arrhythmia monitoring

Question 15

Which unipolar leads are preferred for monitoring ischemia?

Answer 15

V3 to V5 are the preferred leads for monitoring ischemia

Question 16

List six indications for using a central venous catheter?

Answer 16

1. to measure central venous venous pressure
2. for rapid infusion of fluids,
   (3) for transvenous pacemaker insertion
   (4) for parenteral alimentation
   (5) for chemotherapy, (
   6) to remove air if there is a high risk for venous air embolism

Question 17

What jugular vein, right or left, is most often preferred for cannulation for CVP? why?

Answer 17

The right internal jugular is preferred because of its straight course to the SVC.

Question 18

Where is the thoracic duct?

Answer 18

Left IJ

Question 19

3 risk for LJ vein for CVC

Answer 19

1. Vascular erosion
2. Pleural effusions
3. PUNCTURE OF THORACIC DUCT

Question 20

Where should the tip of the CVC be located?

Answer 20

Just above the junction of the Superior vena cava and the Right atrium

Question 21

When the central venous pressure (CVP)line is inserted via the right internal jugular, the tip of the catheter on x-ray will be seen at the level of what thoracic vertebra?

Answer 21

Radiography will show the catheter tip positioned below the inferior border of the clavicles and above the T4 to T5 interspace.

Question 22

Why should the zero point of the manometer or transducer be positioned exactly for measurement of central venous pressure?

Answer 22

So low venous pressures are to be measured accurately and reproducibly.

Question 23

The a wave is the result of

Answer 23

right atrial contraction

Question 24

The c wave is caused by a

Answer 24

slight elevation of the tricuspid valve into the right atrium during ventricular contraction

Question 25

The v wave is due to

Answer 25

blood flow into the right atrium before the tricuspid valve opens.

Question 26

Think about a central venous pressure (CVP} waveform: What do x-descent and y-descent indicate?

Answer 26

x-descent occur during ventricular systole and represents atrial relaxation with downward displacement of the tricuspid valve.

Question 27

Think about a central venous pressure (CVP} waveform: What do y-descent indicate?

Answer 27

The y-descent occurs during diastole and represent early ventricular filling through the open tricuspid valve.

Question 28

What is the normal CVP reading

Answer 28

0-11 mmHg

Question 29

What are four early signs of increased central venous pressure?

Answer 29

(l) distended peripheral veins,
(2) increased right heart filling pressures
(3) increased heart rate
(4) bounding peripheral pulses

Question 30

What are three late signs of increased central venous

pressure?

Answer 30

(1) systemic edema,
(2) S-3 gallop
(3} decreased pulmonary compliance.

Question 31

What three pathological conditions may cause an elevated central venous pressure (CVP) to occur?

Answer 31

Pulmonary hypertension, right heart failure, or left heart failure.

Question 32

What two situations would cause the CVP reading be higher than the PCWP?

Answer 32

presence of: (l) right ventricular failure, possibly secondary to pulmonary hypertension, or (2) pulmonary embolus

Question 33

What is the most common complication of central venous cannulation?

Answer 33

Infection.

Question 34

What is the incidence of pneumothorax during subclavian vein cannulation?

Answer 34

1%.

Question 35

What confirms entry of the catheter into the internal jugular vein?

Answer 35

Return of desaturated venous blood

Question 36

What five sites are acceptable for inserting a pulmonary catheter?

Answer 36

( l) right internal jugular; (2) external jugular;

(3) subclavian; (4) antecubital- preferably basilic, and (5) femoral veins.

Question 37

What site should not be used for insertion of a pulmonary artery catheter?

Answer 37

Left internal jugular

Question 38

With right internal jugular insertion of a pulmonary artery (Swan-Ganz} catheter, what is the distance to the right atrium and pressure transduced there?
right ventricle, pulmonary artery, and
the wedge position? What pressures will
you normally see when the tip of the
catheter is at each of these locations?

Answer 38

Right atrium: 18-22 cm and 6-8 mm-Hg;

Question 39

With right internal jugular insertion of a pulmonary artery (Swan-Ganz} catheter, what is the distance to the right Ventricle and pressure transduced there?

Answer 39

right ventricle: 28- 32 cm and 25/0 mm-Hg;

Question 40

With right internal jugular insertion of a pulmonary artery (Swan-Ganz} catheter, what is the distance to the pulmonary artery and pressure transduced there?

Answer 40

pulmonary artery: 40- 50 cm and 25/12 mm-Hg;

Question 41

With right internal jugular insertion of a pulmonary artery (Swan-Ganz} catheter, what is the distance to the pulmonary WEDGE and pressure transduced there?

Answer 41

pulmonary wedge: 45- 50 cm and 2-12 mm-Hg

Question 42

Specify six indications for a pulmonary artery catheter.

Answer 42

(1) patients with known cardiovascular disease;
(2) cross clamping of the thoracic aorta is anticipated;
(3) respiratory failure;
(4) suspected or diagnosed pulmonary emboli
(5) pts w/previous cardiac surgery
6) when pneumonectomy

Question 43

You listed six indications for a pulmonary artery catheter previously. State six more indications.

Answer 43

Sepsis
Significant fluid shifts
pulmonary HTN, or PVR
Cor pulmonale
Treated with bleomycin
Continuous inotropes and vasodilators.

Question 44

Give three (3) contraindications to use of a pulmonary artery catheter.

Answer 44

Relative contraindications
( l) complete left bundle branch block,
2) Wolff-Parkinson-White syndrome
(3) Ebstein’s malformation

Question 45

What ejection fraction and cardiac index are suggestive of poor left ventricular function and hence an indication for a
pulmonary artery catheter?

Answer 45

Ejection fraction <0.4; cardiac index <2. l \/min

Question 46

What is the most severe complication of a pulmonary artery catheter?

Answer 46

Pulmonary artery perforation and hemorrhage

Question 47

What three actions should be taken to treat pulmonary artery perforation and hemorrhage?

Answer 47

(l) Replace volume, (
2) use positive end-expiratory pressure, and (
3) isolate involved lung with a double-lumen tube or advance a single lumen tube into the nonhemorrhaging lung

Question 48

What is the most common complication with the insertion of a Swan·Ganz catheter?

Answer 48

Arrhythmias as the catheter goes through the right ventricle

Question 49

What drug is used to treat arrhythmias that occur during the placement of a Swan-Ganz catheter?

Answer 49

Lidocaine.

Question 50

What is the most commonly used size of a swan-Ganz catheter?

Answer 50

7Fr

Question 51

What are two causes of a Swan-Ganz catheter not reaching the pulmonary artery?

Answer 51

1. Perforation

2. Coiling

Question 52

What is the range of normal pulmonary artery systolic/diastolic pressures?

Answer 52

15-30 / 4-12 mmHg

Question 53

Your pulmonary catheter is properly wedged and a large V wave appears. What is the cause?

Answer 53

mitral regurgitation

Question 54

What three measures are taken to increase the accuracy and precision of the cardiac outputs measured by thermodilution?

Answer 54

Triplicate determinations are averaged to increase precision
the variability of cardiac output measurements can be reduced by performing the measurement at end-inspiration or at end-expiration;
(3) ensuring that the rate of injection and volume of injectate are constant.

Question 55

Most cardiac output computers delay the time between each repeat measurement by

Answer 55

60 to 90 seconds

Question 56

What interferes with cardiac output determinations

using the thermodilution method?

Answer 56

Electrocautery interferes with thermodilution measurements.

Question 57

Avoid measurements of cardiac output using the thermodilution method during

Answer 57

electrocautery.

Question 58

Is the area under a thermodilution curve directly related or inversely related to cardiac output?

Answer 58

Cardiac output is inversely proportional to the area under the thermodilution curve.

Question 59

The smaller the area under the curve, the

Answer 59

greater the cardiac output.

Question 60

if the area under a patient’s thermodilution curve is getting
smaller, cardiac output is

Answer 60

increasing

Question 61

False high thermodilution cardiac output determinations occur when the injectate volume is

Answer 61

too small.

Question 62

False low determinations occur when injectate volume is

Answer 62

too large.

Question 63

The area under the curve will be larger if a ________so cardiac output will be

Answer 63

greater volume is injected; falsely low.

Question 64

The area under the curve will be smaller if a __________so cardiac output will be

Answer 64

a smaller volume is injected; falsely high

Question 65

Insufficiency of either of what two valve may lead to a falsely high thermodilution cardiac output reading?

Answer 65

Insufficiency (regurgitation} of either the TRICUSPID valve or PULMONIC valve may be associated with falsely high thermodilution cardiac output readings.

Question 66

The patient with tricuspid valve regurgitation
has a thermodilution cardiac output reading of 5 liters per minute. Is this reading accurate, falsely high, or
falsely low?

Answer 66

This reading is falsely high. Tricuspid regurgitation may produce a falsely elevated thermodilution cardiac output.

Question 67

Recall also that insufficiency of the pulmonic valve may produce a

Answer 67

falsely elevated cardiac output

Question 68

If you inject 10 ml of cold normal saline when the cardiac output computer is set for 5 ml, will calculated cardiac output be higher or lower than actual cardiac output?

Answer 68

Calculated cardiac output will be lower than the true cardiac output

Question 69

What is the relationship of the following parameters: preload, LVEDV, PAOP, LVEDP, and LADP?

Answer 69

In the absence of mitral stenosis or pulmonary hypertension, PAOP = LADP = LVEDP = LVEDV = preload

Question 70

Any of the pulmonary artery catheter measurements are equivalent indirect indicators of _______in the absence
of

Answer 70

preload; mitral stenosis or pulmonary hypertension

Question 71

Does pulmonary capillary wedge pressure (PCWP) overestimate, underestimate, or accurately reflect left ventricular end-diastolic pressure (LVEDP) in the patient with mitral valve stenosis?

Answer 71

Since stenosis of the mitral valve impedes the flow of blood into the left ventricle, LVEDP is truly lower than PCWP. Hence, PCWP overestimates LVEDP in the patient with mitral valve stenosis.

Question 72

Left ventricular end-diastolic pressure (LVEDP) is______related to PCWP

Answer 72

directly related to PCWP assuming an open conduit from the catheter tip to the left ventricle.

Question 73

Does pulmonary capillary wedge pressure (PCWP) overestimate, underestimate, or accurately reflect
left ventricular end-diastolic pressure (LVEDP) in the patient with mitral valve insufficiency?

Answer 73

Pulmonary capillary wedge pressure accurately assesses left ventricular end-diastolic pressure in the patient with mitral insufficiency.

Question 74

_______is not a factor that can lead to a false estimate of left ventricular end-diastolic pressure by the pulmonary capillary wedge pressure.

Answer 74

Mitra! insufficiency

Question 75

Identify three situations in which pulmonary capillary wedge pressure (PCWP) will be greater than left ventricular end-diastolic pressure (LVEDP)?

Answer 75

in patients who have
mitral stenosis
elevated alveolar pressure
pulmonary venous obstruction.

Question 76

Pulmonary capillary wedge pressure (PCWP) will be less than left ventricular end-diastolic pressure in patients who
have what valve problem? Explain.

Answer 76

PCWP will underestimate LVEDP in patients with aortic regurgitation.The blood flowing back into the left ventricle from the aorta during diastole closes the mitral valve before systole actually begins. More blood enters
the left ventricle through the aortic valve after the mitral valve closes; hence, the true end-diastolic pressure cannot be detected by the wedged pulmonary artery catheter because the mitral valve is closed.

Question 77

In Aortic Regurgitation, The blood flowing back into the left ventricle from the aorta during diastole •

Answer 77

closes the mitral valve before systole actually begins.

Question 78

Does pulmonary artery diastolic pressure reflect left ventricular end -diastolic pressure (left ventricular preload)?

Answer 78

Yes. Pulmonary artery diastolic pressure is used often as an alternative to pulmonary capillary wedge pressure to estimate left ventricular filling pressure (preload)

Question 79

After administration of a 200 ml intravenous (IV) bolus of crystalloid solution, pulmonary artery systolic/diastolic
pressures increase from 22/6 mm Hg to 40/25 mm Hg. ls this a normal o abnormal response?

Answer 79

The increase in pulmonary artery pressures to 40/25
mm Hg after infusion of a 200 ml bolus of fluid is abnormal.pulmonary artery pressures of 40/25 mm Hg are clearly elevated abnormally.

Question 80

While a small increase in pulmonary artery pressure is expected with increased volume why?

Answer 80

(Starling’s law: increased right ventricular preload >increased right ventricular output·> increased pulmonary artery pressure),

Question 81

After administration of a 200 ml intravenous (IV) bolus of crystalloid solution, pulmonary artery systolic/diastolic
pressures increase from 22/6 mm Hg to 40/25 mm Hg. What is the most likely reason for this change in pulmonary blood pressures in response to this IV volume?

Answer 81

The most likely explanation for the large increase in pulmonary artery diastolic pressure is a decrease in left ventricular compliance (diastolic dysfunction).

Question 82

With decreased left ventricular compliance,

a small increase in left ventricular volume will produce a

Answer 82

large increase in left ventricular end-diastolic pressure (LVEDP}. The increased LVEDP is reflected by the increase in pulmonary artery pressure.

Question 83

After administration of a 200 ml intravenous (IV) bolus of crystalloidsolution, pulmonary artery systolic/ diastolic pressures increase from 22/6 mm Hg to 40/25 mm Hg. A decrease in left ventricular compliance is the most
likely explanation for this observation. What is another possible reason for this change in pulmonary blood pressures in response to this IV volume?

Answer 83

Systolic dysfunction (decreased myocardial contractility; heart failure) is the second explanation.

Question 84

With systolic dysfunction, left ventricular preload

is markedly____why?

Answer 84

elevated because of the decrease in stroke volume (remember: if the left ventricle does not pump blood forward, it remains behind)

Question 85

With systolic dysfunction and elevated LV preload you would see what changes in the BP

Answer 85

Systolic Hypotension

Question 86

A large increase in pressure for a small change in

volume suggests a

Answer 86

decrease in left ventricular compliance

Question 87

Increase in pulmonary artery pressure following a small bolus due to 5 possible causes

Answer 87

1. Increased LV compliance
2. Decreased LV compliance
3. Normal response to an increase preload
4. Systolic dysfunction
5. Indeterminable/

Question 88

Where could a central venous or pulmonary artery catheter be inserted in the patient with superior vena cava
syndrome?

Answer 88

femoral vein

Question 89

______that is due to superior vena cava syndrome often times necessitates venous access through the lower extremity.

Answer 89

Edema

Question 90

What three (3) valuable cardiovascular parameters are obtained from an arterial line?

Answer 90

l) left ventricular volume, (2) left ventricular function, and (3) systemic vascular resistance.

Question 91

How will an arterial line tracing change if air gets into the line?

Answer 91

pattern is dampened.

Question 92

Where is the proper placement of the pressure transducer in a sitting position?

Answer 92

At the base of the ear

Question 93

In intra-arterial waveform monitoring, what is the dicrotic notch due to?

Answer 93

Closure of the aortic valve

Question 94

What condition or situations result in an abnormal arterial waveform with a false elevation of systolic pressure

Answer 94

A decreased arterial compliance or a decreased transducer system frequency (ringing or overshoot) produce distortion of the arterial waveform. Results in overestimation of systolic blood pressure

Question 95

What factors may cause damping of the arterial pressure transducer system?

Answer 95

The presence of air bubbles in the tubing, thrombus formation in the catheter, or inadvertent kinking of the catheter may overly damp the system.

Question 96

Damping refers to

Answer 96

how quickly a system comes to rest after being set in

motion.

Question 97

What effect does system damping have on arterial blood pressure readings?

Answer 97

Losses of the dicrotic notch and fine details in the waveform indicate an overly damped system.

Question 98

Overdamping results in what in terms of SBP and DBP and MAP?

Answer 98

underestimation of systolic blood pressure overestimation of diastolic pressure; MAP remains fairly accurate.

Question 99

Your patient requires arterial cannulation: list 6 arterial cannulation sites, in order of preference.

Answer 99

( l) radial artery,

(2) ulnar artery,
(3) brachial artery,
4) axillary artery,
(5) femoral artery
(6) dorsalis pedis artery

Question 100

The most commonly selected site for arterial cannulation;

Answer 100

Radial artery

Question 101

More difficult to cannulate owing to its deeper and more tortuous course;

Answer 101

Ulnar artery

Question 102

Is the primary arterial supply of hand blood flow.

Answer 102

the ulnar artery

Question 103

Large and easily identifiable in the antecubital fossa; insertion site is medial to biceps tendon;

Answer 103

Brachial Artery

Question 104

Insertion site is medial to biceps tendon;

Answer 104

Brachial Artery

Question 105

Artery cannulation , Median nerve damage is possible.

Answer 105

Brachial Artery

Question 106

Artery Cannulation where the insertion site is at the junction of the pectoral and deltoid muscles - special kits are now available

Answer 106

Axillary Artery

Question 107

Nerve damage can result from hematoma or traumatic cannulation.

Answer 107

Axillary

Question 108

Provides easy access in low flow state; is and there is potential for retro· peritoneal hemorrhage

Answer 108

the femoral artery

Question 109

Artery prone to pseudoaneurysm and formation of atheroma,

Answer 109

The Femoral artery

Question 110

Artery with potential for retro-peritoneal hemorrhage

Answer 110

The Femoral artery .

Question 111

Artery the farthest distance from the aorta,,

Answer 111

Dorsalis Pedis Artery

Question 112

Arterial waveforms are most distorted with this artery cannulation.

Answer 112

Dorsalis Pedis Artery

Question 113

Leading to higher systolic pressure estimate because farthest away from the aorta.

Answer 113

Dorsalis Pedis Artery

Question 114

What are 3 factors that can cause an arterial line to develop thrombosis (catheter related) ?

Answer 114

Duration of catheterization
Catheter size 18 vs 20
Catheter material

Question 115

Teflon vs polypropylene which causes less radial artery thrombosis

Answer 115

Telfon

Question 116

What are 3 OTHER factors that can cause an arterial line to develop thrombosis ? 3Ps

Answer 116

Proximal emboli
Prolonged shock
Pre-existing vascular disease.

Question 117

Inaccuracy of blood pressure measurements by sphygmomanometry is most often due to what?

Answer 117

Improper cuff size

Question 118

What is the recommended bladder width in cuff used for indirect blood pressure monitoring?

Answer 118

40% of the circumference of the extremity

Question 119

A bladder width of 40% of the circumference corresponds to approximately

Answer 119

120% to 150% of the diameter of the extremity

Question 120

What is the recommended bladder length in the cuff used for indirect blood pressure monitoring? Is this controversial?

Answer 120

at least 80% of the extremity

Question 121

Bladder length controversial (Dorsch)

Answer 121

According to Dorsch, the length of the cuff has little effect on the accuracy of the indirect blood pressure measurement, as long as the bladder in the cuff encircles at least 40% to 50% of the extremity’s circumference.

Question 122

What is the recommended bladder length in the cuff used for indirect blood pressure monitoring on the arm of the
obese patient?

Answer 122

at least 75% of the arm circumference- ideally the entire arm circumference-should be used on the arm of the obese patient

Question 123

A standard cuff is used to take blood pressure measurement from an obese patient’s forearm; will the readings accurately reflect actual blood pressure?

Answer 123

No, forearm blood pressure measurements with a standard cuff overestimate both systolic and diastolic pressures in the obese patient.

Question 124

Is the blood pressure reading erroneously high or erroneously low when the cuff is too narrow or wrapped loosely?

Answer 124

The blood pressure reading is erroneously high when the cuff is too narrow or is wrapped loosely.

Question 125

As a properly·sized noninvasive blood pressure cuff is moved more distally along an extremity, for example from the arm to the forearm, how do measured systolic and diastolic pressures change

Answer 125

pressure cuff is moved more distally (peripherally) along an extremity, the systolic pressure tends to increase whereas the diastolic pressure tends to decrease

Question 126

A patient has an arterial line in the right arm and a blood pressure cuff on the left arm; the left arm is 20 cm higher than the right arm. If the blood pressure from the arterial line is 120/80, what is the pressure from the cuff on the left arm? (Assume the a·line has been properly
calibrated to the phlebostatic axis.)

Answer 126

The blood pressure from the cuff on the left arm is 105/65. For each 10 cm of vertical height above or below the level of the heart, 7.5 mm-Hg should be subtracted from or added to, respectively, the blood pressure
readings

Question 127

For every inch, above or below the heart,

Answer 127

subtract or add 1.80 mm-Hg

Question 128

The phlebostatic axis approximates the position of the
for the right lateral decubitus
position, at fourth intercostal space midsternum; for the left lateral
decubitus position, at fourth intercostal space at the left parasternal border.

Answer 128

right atrium.

Question 129

In the supine position, where is the phlebostatic axis?

Answer 129

the phlebostatic axis is the fourth intercostal space,
midanteroposterior level (not midaxillary line);