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Deck 10: Hemodynamic Monitoring
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Deck 10: Hemodynamic Monitoring
1
MAP is the difference between arterial systolic and diastolic pressures.
False
2
The pulmonary artery catheter has a number of variations but typically it is 110 cm in length with three lumens.
True
3
When mixed venous oxygen saturation drops to a range of 30% to 50%, cellular death is ensured.
False
4
Transesophageal echocardiography can be used to calculate stroke volume from measurement of blood flow velocity by recording the Doppler shift of ultrasound.
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5
Since ICG is less variable and more reproducible than other invasive methods, it has shown sufficient clinical usefulness to become a standard practice in noninvasive hemodynamic evaluations.
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6
Central venous pressure is measured by a catheter in the superior vena cava or ____.
A) right atrium
B) right ventricle
C) left atrium
D) left ventricle
A) right atrium
B) right ventricle
C) left atrium
D) left ventricle
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7
Which of the following is a possible insertion site for a pulmonary artery catheter?
A) radial artery
B) brachial artery
C) internal jugular vein
D) femoral artery
A) radial artery
B) brachial artery
C) internal jugular vein
D) femoral artery
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8
The dicrotic notch is caused by the closure of the ____.
A) semilunar valves during systole
B) semilunar valves during diastole
C) atrioventricular valves during systole
D) atrioventricular valves during diastole
A) semilunar valves during systole
B) semilunar valves during diastole
C) atrioventricular valves during systole
D) atrioventricular valves during diastole
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9
Which of the following is the best example of a condition that could lead to high pulse pressure?
A) septic shock
B) tachycardia
C) congestive heart failure
D) arteriosclerosis
A) septic shock
B) tachycardia
C) congestive heart failure
D) arteriosclerosis
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10
Central venous pressure (CVP) can be monitored through a central venous catheter placed either in the ____.
A) pulmonary artery near the right ventricle or in the right ventricle
B) superior vena cava near the right atrium or in the right atrium
C) pulmonary vein near the left atrium or in the left atrium
D) aorta near the left ventricle or in the left ventricle
A) pulmonary artery near the right ventricle or in the right ventricle
B) superior vena cava near the right atrium or in the right atrium
C) pulmonary vein near the left atrium or in the left atrium
D) aorta near the left ventricle or in the left ventricle
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11
The ____ represents closure of the tricuspid valve during systole on a central venous pressure waveform.
A) a wave
B) c wave
C) x downslope
D) y downslope
A) a wave
B) c wave
C) x downslope
D) y downslope
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12
An irregular pressure tracing on the pulmonary artery pressure waveform may be seen in ____ due to changes in diastolic filling time and volume.
A) pulmonary hypertension
B) congestive heart failure
C) cardiac tamponade
D) arrhythmias
A) pulmonary hypertension
B) congestive heart failure
C) cardiac tamponade
D) arrhythmias
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13
Normal systolic PAP ranges from ____ mm Hg and the diastolic PAP from ____ mm Hg.
A) 15 to 25; 6 to 12
B) 20 to 30; 10 to 14
C) 25 to 30; 14 to 18
D) 30 to 40; 15 to 20
A) 15 to 25; 6 to 12
B) 20 to 30; 10 to 14
C) 25 to 30; 14 to 18
D) 30 to 40; 15 to 20
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14
The ____ indicates left ventricular contraction and passive atrial filling on a PCWP waveform.
A) a wave
B) c wave
C) v wave
D) y downslope
A) a wave
B) c wave
C) v wave
D) y downslope
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15
____ is increased in systemic hypertension or hypervolemia.
A) Pulmonary capillary wedge pressure (PCWP)
B) Arterial pressure
C) Pulmonary artery pressure (PAP)
D) Central venous pressure (CVP)
A) Pulmonary capillary wedge pressure (PCWP)
B) Arterial pressure
C) Pulmonary artery pressure (PAP)
D) Central venous pressure (CVP)
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16
The stroke volume index is calculated by dividing the ____.
A) the cardiac output by the heart rate
B) mean arterial pressure by the cardiac output
C) stroke volume by the body surface area
D) systolic pressure by the pulmonary capillary wedge pressure
A) the cardiac output by the heart rate
B) mean arterial pressure by the cardiac output
C) stroke volume by the body surface area
D) systolic pressure by the pulmonary capillary wedge pressure
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17
Causes of increased mixed venous oxygen saturation due to impaired oxygen utilization include cyanide poisoning and ____.
A) hypothermia
B) sepsis
C) seizures
D) anemia
A) hypothermia
B) sepsis
C) seizures
D) anemia
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18
Pulse contour analysis uses a(n) ____ and other data to derive the cardiac output.
A) arterial catheter
B) central venous catheter
C) pulmonary arterial pressure waveform
D) PCWP waveform
A) arterial catheter
B) central venous catheter
C) pulmonary arterial pressure waveform
D) PCWP waveform
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19
ICG cannot provide values for ____.
A) systemic vascular resistance
B) systemic vascular resistance index
C) pulmonary vascular resistance
D) contractility
A) systemic vascular resistance
B) systemic vascular resistance index
C) pulmonary vascular resistance
D) contractility
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20
____ is increased in left heart blood flow obstruction.
A) Pulmonary capillary wedge pressure (PCWP)
B) Pulmonary artery pressure (PAP)
C) Central venous pressure (CVP)
D) Arterial pressure
A) Pulmonary capillary wedge pressure (PCWP)
B) Pulmonary artery pressure (PAP)
C) Central venous pressure (CVP)
D) Arterial pressure
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21
Invasive hemodynamic monitoring uses a(n) _______________ to convert a pressure signal (in the catheter) to an electronic signal (on the monitor).
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22
_______________ is determined by the pressure gradient between the mean arterial pressure and CVP.
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23
The _______________ measures the blood vessel resistance to blood flow in the systemic circulation.
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24
_______________ is also known as arterial pressure waveform analysis.
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25
_______________ is a technology that can monitor and measure cardiac output based on changes in respiratory CO2 concentration during a brief period of rebreathing.
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26
Describe a normal arterial pressure waveform.
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27
Describe how a pulmonary artery catheter is inserted.
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28
What are the advantages of impedance cardiography?
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29
What are some advantages of using CVP monitoring.
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30
What are some conditions that may cause a change to the PCWP waveform and how do they affect the waveform?
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