Arterial measurements

Question 1

Causes of an increased Phase I Inotropic component of an arterial waveform? (3)

Answer 1

1. Increased LV pressure generation
2. Increased reflection of pressure waves from the periphery
3. overshoot artifact

Question 2

Causes of an decreased Phase I Inotropic component of an arterial waveform may be caused by?

Answer 2

1. myocardial depression
2. hypovolemia
3. decreased SVR (vasodilation) - reduces reflected waves from periphery

Question 3

What does the dicrotic notch signify?

Answer 3

Closure of the aortic valve and the start of disatole

Question 4

What physiologic action starts a Phase I Inotropic wave form?

Answer 4

Opening of the aortic valve and expulsion of blood from the LV into the peripheral circulation

Question 5

How fast should a manual BP cuff be delated?

Answer 5

no faster than 3mmHg/sec.

Question 6

Causes of a more vertical Phase I wave form?

Answer 6

Anything that increases the force of blood ejected from the LV and causes a hyperdynamic circulation such as,

1. anemia,
2. thyroid toxicosis
3. compensated aortic regurgitation

Question 7

Causes of a more sloped Phase I waveform?

Answer 7

Any condition that has a decreased volume or force of blood expelled from the LV, such as

1. ischemic disease
2. cardiomyopathy
3. hypovolemia
4. PVCs
5. A-fib
6. aortic stenosis

Question 8

Disadvantages of a radial artery site?

Answer 8

1. overshoot artifact is increased
2. unable to measure central circulatory pressure
3. thrombus formation due to small catheter size
4. as in all sites, compromised blood flow, phlebitis, damage to vessel or adjacent structures.

Question 9

What test must be performed prior to radial artery cannulation?

Answer 9

Allen’s test to assess for adequate collateral circulation to the hand.

Question 10

Should you ever flush an arterial line manually with a syringe?

Answer 10

NO, may cause “retrograde flow” which can cause tissue ischemia or even embolism. p.203 Darovic

Question 11

What medications can be used to reduce the likelihood of arterial spasm with catheter insertion and removal?

Answer 11

Lidocaine or phentolamine

Question 12

Bleeding from a femoral artery can lead to…

Answer 12

retroperitoneal sequestration of up to 1,000 - 1,500 ml of blood. p.205 Darovic

Question 13

What may skin blanching over an arterial site during a fast flush indicate?

Answer 13

Arterial insufficiency and ischemia

Question 14

How and why should a blood specimen be drawn from an art line?

Answer 14

Slow and gently as to not damage the arterial segment p. 206 then a SYSTEM flush of 1-3 seconds to clear the line.

Question 15

What is the technique for removing a radial artery catheter?

Answer 15

1. compression is applied proximally AND distally to the arterial puncture site and the catheter is slowly withdrawn while aspirating to remove any emboli. p. 207 Darovic
2. followed by firm manual pressure for 10 minutes
3. monitor for bleeding, hematoma, circulation and sensation

Question 16

Can art line pressure be used to evaluate tissue perfusion?

Answer 16

NO, p. 208 Darovic

Question 17

What does the PCWP/PAOP correlate well with?

Answer 17

LA and LVEDPs when the mitral valve is open

Question 18

Which anatomical location has the greatest success of the catheter being advanced into the SVC or RA?

Answer 18

Right internal jugular vein

Question 19

Why is the right IJ preferred over left for art line insertion?

Answer 19

1. straighter shot to the SVC/RA
2. larger than left
3. further from the common carotid artery than the left

Question 20

If an air embolism is suspected during SCV line insertion, what interventions are warranted?

Answer 20

1. place patient LEFT side down

2. attempt to aspirate air out of the circulation from the venous catheter p. 229 Darovic

Question 21

What measurements does a CVP correlate well with?

Answer 21

RAP (directly) and RVEDPs (indirectly when the tricuspid valve is open)

Question 22

What is the normal RA mean pressure?

Answer 22

0-8 mmHg

Question 23

How does CVP or RA pressure correlate with RVEDPs?

Answer 23

When the tricuspid valve is open between the RA and RV the pressure gradient equalizes and reflects the pressure of the RV at end-diastole. p. 232 D

Question 24

What can an elevated RA pressure indicate?

Answer 24

RV failure or fluid overload

Question 25

How would you differentiate between FVO and RV failure in the presence of an elevated RA or CVP reading?

Answer 25

Heart Failure
1. RV gallop (S3)
2. weak, rapid pulses
3. dependent edema
4. low CO (restless, oliguric)
FVO
1. bounding pulses
2. no gallop rhythm
3. increased UO and low urine SG r/t dilution

Question 26

How might PPV and/or PEEP affect CVP readings?

Answer 26

An increased intrathoracic pressure may artificially increase the CVP reading and PEEP over 10mmHg may introduce artifact to the waveform p. 235 D

Question 27

Describe damping of a wave frorm?

Answer 27

Damping is the influence within a system that is a dissipation of energy during an oscillation. In other words, think of damping like a shock absorber. This artificially decreases the signal (amplitude).

Question 28

Causes of over damping?

Answer 28

Potential causes
Air/Air bubbles in tubing
Kinks in tubing
Clots in tubing
arterial spasms

Question 29

How does overdamping affect the waveform morphology?

Answer 29

Waveform loses its characteristic landmarks and appears unnaturally smooth with a diminished or absent dicrotic notch

Question 30

How does overdamping affect the BP readings?

SBP, DBP, MAP, PP

Answer 30

1. Underestimation of the systolic blood pressure
2. Overestimation of the diastolic blood pressure
3. Narrowed pulse pressure
4. MAP not impacted
   HINT: “OD=O,D”, OVERdamping leads to OVERestimation of the Diastolic BP
   Whereas underdamping does the opposite (leads to OVER estimation of the SBP and UNDER estimation of the DBP).

Question 31

What affect does underdamping have on the waveform morphology?

Answer 31

Systolic pressure overshoot with a narrow peak and non-physiological oscillations during the diastolic phase

Question 32

What is underdamping?

Answer 32

when the oscillations are too pronounced and can lead to a false high systolic or a false low diastolic pressure

Question 33

Potential causes of underdamping?

Answer 33

Artifact from catheter (catheter whip)
Tachydysrhythmia
stiff or non-compliant tubing

Question 34

Underdamping affect of BP readings?

SBP, DBP, MAP, PP

Answer 34

Overestimation of the systolic blood pressure
Underestimation of diastolic blood pressure
Wider pulse pressure
MAP not impacted

Question 35

What is an overshoot artifact and what causes it?

Answer 35

In an underdamped system, the wave form is artificially elevated in amplitude and has numerous non-physiologic oscillations of the downstroke/ diastolic runoff.

Question 36

Describe the results of a square wave test?

Answer 36

> 2 oscillations before returning to baseline = underdamped
1 to 2 oscillations before returning to baseline = just right
0 to 1 oscillation before returning to baseline = overdamped

Question 37

After a square wave test is performed, you observe 1-2 oscillations before an arterial waveform returns to baseline. How would you interpret this?

Answer 37

A properly calibrated set up

Question 38

After a square wave test is performed, you observe 1->2 oscillations before an arterial waveform returns to baseline. How would you interpret this?

Answer 38

The setup is underdamped

Question 39

After a square wave test is performed, you observe 1-0-1 oscillations before an arterial waveform returns to baseline. How would you interpret this?

Answer 39

The setup is overdamped

Question 40

How do arterial waveform readings change related to the distance from the heart the measurement is taken?

Answer 40

“Systolic values increase while diastolic values decrease as the pulse moves away from the heart” p. 95 D MAP tends to stay nearly constant.

Question 41

What physiologic action creates the dicrotic notch?

Answer 41

Rapid closing of the semilunar valves (aortic and pulmonic)

Question 42

Describe changes in arterial waveform morphology as the point of measurement gets further away from the heart?

Answer 42

1. Systolic pressure are higher
2. waveforms and narrower and steeper
3. the dicrotic notch is delayed and lower p.95 D

Question 43

What can cause overshoot artifact on arterial waveforms?

Answer 43

“Overshoot is produced by reflected waves within the catheter–manometer system. The magnitude of overshoot can be reduced by mechanical or electrical damping. Overdamping eliminates overshoot, but it reduces frequency response. Optimal damping reduces overshoot without producing a major drop in frequency response”