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Deck 45: Mechanical Ventilators

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Question
The volume waveform generated by a ventilator remains the same against changing lung mechanics. Which of the following parameters might this device be controlling?
1) Volume
2) Flow
3) Pressure

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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Question
Which of the following equations best describes the pressure (P) necessary to drive gas into the airway and inflate the lungs?

A) P = (Elastance . Volume) + (Resistance . Flow)
B) P = (Elastance - Volume) + (Resistance ÷ Flow)
C) P = (Volume + Compliance) + (Resistance ÷ Flow)
D) P = (Volume ÷ Compliance) - (Resistance . Flow)
Question
According to the equation of motion of the respiratory system, a ventilator can control which of the following variables?
1) Volume
2) Resistance
3) Pressure
4) Flow

A)1 and 3 only
B)1, 2, and 3 only
C)3 and 4 only
D)1, 3, and 4 only
Question
A ventilator's pressure waveform changes when a patient's lung mechanics change, but its volume waveform remains the same. The device does not directly control the delivered volume. What is this ventilator?

A) Volume controller
B) Pressure controller
C) Time controller
D) Flow controller
Question
Which of the following are characteristics of a ventilator that function as a true volume controller?
1) Its pressure waveform changes with changes in lung mechanics.
2) It measures and uses volume to control the volume waveform.
3) Its volume waveform stays constant with changes in lung mechanics.

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
If the pressure waveform of a ventilator remains the same when a patient's lung mechanics change, then what is the ventilator?

A) Volume controller
B) Pressure controller
C) Time controller
D) Flow controller
Question
During mechanical ventilation, what variable causes a breath to end?

A) Limit
B) Cycle
C) Trigger
D) Baseline
Question
Which of the following major categories of ventilator function are useful in classifying ventilators?
1) Control system
2) Power transmission and conversion
3) Output
4) Input

A)1 and 2 only
B)3 and 4 only
C)1, 3, and 4 only
D)1, 2, 3, and 4
Question
Types of output control valves used in modern ventilators include which of the following?
1) Pneumatic diaphragm valve
2) Proportional valve
3) Electromagnetic poppet or plunger
4) Linear screw valve

A)1 and 3 only
B)1, 2, and 3 only
C)3 and 4 only
D)2, 3, and 4 only
Question
Which of the following ventilators is controlled by fluidic logic systems?

A) Siemens Servo 300
B) Bio-Med MVP-10
C) Bird 8400ST
D) Bear 1000
Question
During volume control ventilation, the clinician has control over which of the following?
1) Pressure waveform
2) Volume waveform
3) Flow waveform

A)1 or 2 only
B)2 or 3 only
C)2 only
D)1, 2, and 3
Question
Primary drive mechanisms used by modern ventilators include which of the following?
1) Compressed gas or reducing valve
2) Hydraulic or fluidic compressor
3) Electrical motor or compressor

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
During mechanical ventilation, what variable causes a breath to begin?

A) Limit
B) Cycle
C) Trigger
D) Baseline
Question
A complete ventilatory cycle or breath consists of which of the following phases?
1) Expiration
2) Initiation of inspiration
3) Inspiration
4) End of inspiration

A)1 and 4 only
B)2 and 3 only
C)1, 2, and 4 only
D)1, 2, 3, and 4
Question
Which of the following are true of the relationship between flow and volume?
1) Volume is the integral of flow.
2) Volume is the derivative of flow.
3) Flow is the derivative of volume.

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
For which of the following uses might you consider the use of a purely pneumatically powered ventilator?
1) As a backup to electrically powered ventilators
2) When electrical device cannot be used (e.g., magnetic resonance imaging)
3) During certain types of patient transport

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
A ventilator can derive its input power from which of the following sources?
1) Alternating current (AC) electricity
2) Battery
3) Pneumatic

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
How would a ventilatory support device that uses pressure regulators, needle valves, and balloon valves to regulate most or all of the parameters of ventilation be classified?

A) Mechanically controlled
B) Electronically controlled
C) Fluidically controlled
D) Pneumatically controlled
Question
Which of the following types of ventilators would you select for use during an MRI procedure?
1) Electronically controlled
2) Pneumatically controlled
3) Fluidically controlled
4) Electrically controlled

A)1 and 4 only
B)2 and 3 only
C)1 only
D)2, 3, and 4 only
Question
The respiratory therapist has been called to transport a patient from the emergency department to obtain a CT scan. Which of the following types of ventilator should the therapist chose to transport the patient?

A) Electric
B) Apneuistic
C) Pneumatic
D) Electronic
Question
In which of the following modes inspiration ends when flow decays to some preset value?

A) Intermittent mandatory ventilation
B) Pressure support ventilation
C) Continuous mandatory ventilation
D) Airway pressure release ventilation
Question
A physician requests that you switch from pressure-triggering a patient to flow-triggering. Which of the following new settings would be appropriate?

A) Base flow = 0 L/min; trigger at 2 L/min
B) Base flow = 10 L/min; trigger at -2 cm H2O
C) Base flow = 10 L/min; trigger at 2 L/min
D) Base flow = 0 L/min; trigger at 10 cm H2O
Question
A patient receiving time-triggered continuous mechanical ventilation at a preset rate of 10/min stops breathing. Which of the following will occur?

A) The high-pressure limit alarm will sound (if properly set).
B) The patient will continue to receive 10 breaths/min.
C) The low tidal volume (VT) alarm will sound (if properly set).
D) Ventilation will drop to zero and the apnea alarm will sound.
Question
Compared to using pressure as the trigger variable, what is the major advantage of flow-triggering?

A) Decreased work of breathing
B) Improved minute ventilation (VE)
C) Decreased physiologic dead space
D) Improved arterial oxygenation
Question
To describe what happens during the expiratory phase of mechanical ventilation, you must know the value of which variable?

A) Limit
B) Cycle
C) Trigger
D) Baseline
Question
When using pressure as the trigger variable, where do you typically set the trigger level?

A) 0.5 to 1.5 cm H2O below the baseline expiratory pressure
B) 0.5 to 1.5 cm H2O above the baseline expiratory pressure
C) 2.0 to 3.5 cm H2O below the baseline expiratory pressure
D) 2.0 to 3.5 cm H2O above the baseline expiratory pressure
Question
When you adjust the pressure drop necessary to trigger a breath on a ventilator, what are you adjusting on the machine?

A) Sensitivity
B) Pressure limit
C) Mode setting
D) Positive end expiratory pressure (PEEP) level
Question
Pure time-triggered ventilation is the same as what type of ventilation?

A) Assist
B) Intermittent mandatory ventilation
C) Assist and control
D) Proportional assist
Question
A volume-cycled ventilator has a rate knob for setting the controlled frequency of breathing. If this control is set to 12/min, which of the following other settings will determine the inspiratory and expiratory times?
1) FiO2
2) Flow
3) Volume

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
What parameter serves as the baseline variable on all modern ventilators?

A) Pressure
B) Flow
C) Time
D) Volume
Question
Flow serves as a limit variable whenever a ventilator controls what?

A) Pressure
B) Flow
C) Time
D) Volume
Question
You observe that a ventilator reaches a preset pressure early in inspiration but holds it for a specific time, after which inspiration ends. What mode of ventilatory support is in force?

A) Time cycled
B) Pressure limited
C) Pressure cycled
D) Volume limited
Question
Which of the following is false about the application of flow triggering on a mechanical ventilator?

A) The ventilator measures both input and output flow.
B) Between patient breaths, input flow exceeds output flow.
C) A relative drop in output flow triggers the machine to turn on.
D) Gas flows continuously through the ventilator circuit.
Question
If a patient initiates a ventilator breath, the trigger variable could be which of the following?
1) Pressure
2) Flow
3) Time
4) Volume

A)1 and 3 only
B)1, 2, and 4 only
C)3 and 4 only
D)2, 3, and 4 only
Question
Which of the following parameters can serve as the cycle variable during ventilatory support?
1) Volume
2) Pressure
3) Flow
4) Time

A)1 and 4 only
B)2 and 3 only
C)1, 2, and 4 only
D)1, 2, 3, and 4
Question
A volume-cycled ventilator provides gas under positive pressure during inspiration until what point?

A) The patient receives a preselected volume of gas.
B) An adjustable, preselected airway pressure is reached.
C) The inspiratory time equals or exceeds the expiratory time.
D) A preselected volume of gas is expelled from the device.
Question
What ventilatory variable reaches and maintains a preset level before inspiration ends?

A) Limit
B) Cycle
C) Trigger
D) Baseline
Question
If a ventilator, not the patient, initiates a breath, what is the trigger variable?

A) Time
B) Pressure
C) Flow
D) Volume
Question
A time-cycled constant flow generator is set up with a flow of 35 L/min and an inspiratory time of 1.7 sec. What is the approximate VT?

A) 750 ml (0.75 L)
B) 1000 ml (1.00 L)
C) 1900 ml (1.90 L)
D) 1200 ml (1.20 L)
Question
What is the name of a breath where a patient is able to change the inspiratory time?

A) Patient cycled
B) Patient triggered
C) Machine triggered
D) Machine cycled
Question
What is the mode of ventilatory support in which patient's inspiratory efforts are augmented with a set amount of positive airway pressure?

A) Intermittent mandatory ventilation
B) Continuous mandatory ventilation (CMV)
C) Pressure support ventilation (PSV)
D) Positive end expiratory pressure (PEEP)
Question
Mean airway pressure is highest with what waveform?

A) Rectangular flow
B) Rectangular pressure
C) Ascending ramp flow
D) Sinusoidal flow
Question
During volume-targeted ventilation, which of the following settings determine the machine-delivered minute volume?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
During volume-targeted ventilation, which of the following settings determine I:E ratio?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
Which of the following ventilator control systems are considered closed loop?
1) Orientation based
2) Servo
3) Adaptive
4) Optimal

A)1 and 3 only
B)1, 2, and 3 only
C)3 and 4 only
D)2, 3, and 4 only
Question
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 15/min. The expiratory time is 2.9 sec. What is the inspiratory time?

A) 1.1 sec
B) 1.3 sec
C) 1.5 sec
D) 1.7 sec
Question
Which of the closed-loop controllers is used by all ventilators?

A) Set point
B) Auto set point
C) Adaptive
D) Servo
Question
Which of the following provides clinicians with measured or calculated date related to ventilatory support over time?

A) Waveforms
B) Trends
C) Compliance
D) Minute ventilation
Question
While observing a patient receiving ventilatory support, you notice that all delivered breaths are initiated or terminated by the machine. Which of the following modes of ventilatory support is in force?

A) Intermittent mandatory ventilation
B) Partial ventilatory support
C) Continuous mandatory ventilation
D) Continuous spontaneous ventilation
Question
While observing a patient receiving ventilatory support, you notice that some delivered breaths are begun or ended by the machine, whereas others are begun and ended by the patient. Which of the following modes of ventilatory support is in force?

A) Intermittent mandatory ventilation (IMV)
B) Pressure support ventilation
C) Continuous mandatory ventilation (CMV)
D) Airway pressure release ventilation
Question
During volume-targeted ventilation, which of the following settings determine the inspiratory time?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
During volume-targeted ventilation, which of the following settings determine the expiratory time?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
Question
During mechanical ventilation, a mandatory breath is defined as one that is:

A) initiated or terminated by the machine.
B) initiated and terminated by the machine.
C) initiated and terminated by the patient.
D) begun according to a preset time interval.
Question
What is the primary physiological effect of positive end expiratory pressure (PEEP)?

A) Increase the functional residual capacity (FRC).
B) Increase the inspiratory reserve volume (IRV).
C) Decrease the compliance of the lung (CL).
D) Increase the length of expiration.
Question
A patient receiving continuous mandatory ventilation in the control mode has an inspiratory time of 1.5 sec and an expiratory time of 2.5 sec. What is the frequency of breathing?

A) 10/min
B) 12/min
C) 15/min
D) 18/min
Question
What is the application of pressure above atmospheric at the airway throughout expiration during mechanical ventilation?

A) Positive end expiratory pressure (PEEP)
B) Pressure support ventilation
C) Continuous mandatory ventilation (CMV)
D) Continuous positive airway pressure (CPAP)
Question
Which of the following modes is a good example of adaptive control?

A) Intermittent mandatory ventilation
B) Airway pressure release ventilation
C) Continuous mandatory ventilation (CMV)
D) Pressure-regulated volume control (PRVC)
Question
During mechanical ventilation, a spontaneous breath is defined as one that:

A) initiated and terminated by the machine.
B) begun by the patient and ended by the machine.
C) initiated and terminated by the patient.
D) begun by the machine and ended by the patient.
Question
A mode that allows spontaneously breathing patients to breathe at a positive-pressure level, but drops briefly to a reduced pressure level for CO2 elimination during each breathing cycle is also known as:

A) intermittent mandatory ventilation.
B) airway pressure release ventilation.
C) continuous mandatory ventilation (CMV).
D) continuous spontaneous ventilation.
Question
During volume-targeted ventilation, which of the following setting(s) determine(s) the total cycle time?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)2 and 3 only
C)3 only
D)1, 2, and 3
Question
In which of the following situations is volume-controlled ventilation sometimes used?
1) When a precise PaCO2 has to be maintained (some closed-head injuries)
2) When more even distribution of ventilation is required
3) When ventilating patients with severe, refractory hypoxemia
4) When ventilating patients with unstable or changing ventilatory drives

A)1 and 2 only
B)3 and 4 only
C)1, 2, and 3 only
D)1, 3, and 4 only
Question
During pressure-targeted ventilation, which of the following setting(s) determine(s) VT?
1) Pressure difference
2) Inspiratory time
3) Time constant

A)1 and 2 only
B)2 and 3 only
C)3 only
D)1, 2, and 3
Question
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 10/min. The inspiratory time control is set at 25%. What is the I:E ratio?

A) 1:3
B) 1:2
C) 1:4
D) 1:1
Question
A patient is receiving continuous mandatory ventilation through a constant flow generator in the control mode at a rate of 20/min with a VT of 750 ml. The inspiratory time is 1 sec. What is the flow?

A) 15 L/min
B) 30 L/min
C) 45 L/min
D) 60 L/min
Question
Which of the following is the primary parameter used to alter the breath size in pressure controlled?

A) Positive inspiratory pressure (PIP)-positive end expiratory pressure (PEEP)
B) Continuous positive airway pressure (CPAP)
C) Tidal volume
D) Flow
Question
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 20/min. The inspiratory time is 0.75 sec. What is the percentage inspiratory time?

A) 20%
B) 25%
C) 30%
D) 33%
Question
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 12/min. The inspiratory time control is set at 33%. What is the expiratory time?

A) 1.65 sec
B) 2.45 sec
C) 3.35 sec
D) 3.85 sec
Question
In which of the following situations is pressure-controlled ventilation sometimes used?
1) When a precise PaCO2 has to be maintained (some closed-head injuries)
2) When more even distribution of ventilation is required
3) When ventilating patients with severe, refractory hypoxemia
4) When tidal volume in unstable due to leaks

A)1 and 2 only
B)3 and 4 only
C)1, 2, and 3 only
D)1, 3, and 4 only
Question
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 15/min. The inspiratory time is 0.8 sec. What is the expiratory time?

A) 3.2 sec
B) 2.8 sec
C) 2.4 sec
D) 4.2 sec
Question
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 10/min. The inspiratory time control is set at 40%. What is the inspiratory time?

A) 1.60 sec
B) 1.85 sec
C) 2.40 sec
D) 3.50 sec
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Deck 45: Mechanical Ventilators
1
The volume waveform generated by a ventilator remains the same against changing lung mechanics. Which of the following parameters might this device be controlling?
1) Volume
2) Flow
3) Pressure

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
A
2
Which of the following equations best describes the pressure (P) necessary to drive gas into the airway and inflate the lungs?

A) P = (Elastance . Volume) + (Resistance . Flow)
B) P = (Elastance - Volume) + (Resistance ÷ Flow)
C) P = (Volume + Compliance) + (Resistance ÷ Flow)
D) P = (Volume ÷ Compliance) - (Resistance . Flow)
P = (Elastance . Volume) + (Resistance . Flow)
3
According to the equation of motion of the respiratory system, a ventilator can control which of the following variables?
1) Volume
2) Resistance
3) Pressure
4) Flow

A)1 and 3 only
B)1, 2, and 3 only
C)3 and 4 only
D)1, 3, and 4 only
D
4
A ventilator's pressure waveform changes when a patient's lung mechanics change, but its volume waveform remains the same. The device does not directly control the delivered volume. What is this ventilator?

A) Volume controller
B) Pressure controller
C) Time controller
D) Flow controller
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5
Which of the following are characteristics of a ventilator that function as a true volume controller?
1) Its pressure waveform changes with changes in lung mechanics.
2) It measures and uses volume to control the volume waveform.
3) Its volume waveform stays constant with changes in lung mechanics.

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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6
If the pressure waveform of a ventilator remains the same when a patient's lung mechanics change, then what is the ventilator?

A) Volume controller
B) Pressure controller
C) Time controller
D) Flow controller
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7
During mechanical ventilation, what variable causes a breath to end?

A) Limit
B) Cycle
C) Trigger
D) Baseline
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8
Which of the following major categories of ventilator function are useful in classifying ventilators?
1) Control system
2) Power transmission and conversion
3) Output
4) Input

A)1 and 2 only
B)3 and 4 only
C)1, 3, and 4 only
D)1, 2, 3, and 4
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9
Types of output control valves used in modern ventilators include which of the following?
1) Pneumatic diaphragm valve
2) Proportional valve
3) Electromagnetic poppet or plunger
4) Linear screw valve

A)1 and 3 only
B)1, 2, and 3 only
C)3 and 4 only
D)2, 3, and 4 only
Unlock Deck
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10
Which of the following ventilators is controlled by fluidic logic systems?

A) Siemens Servo 300
B) Bio-Med MVP-10
C) Bird 8400ST
D) Bear 1000
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11
During volume control ventilation, the clinician has control over which of the following?
1) Pressure waveform
2) Volume waveform
3) Flow waveform

A)1 or 2 only
B)2 or 3 only
C)2 only
D)1, 2, and 3
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12
Primary drive mechanisms used by modern ventilators include which of the following?
1) Compressed gas or reducing valve
2) Hydraulic or fluidic compressor
3) Electrical motor or compressor

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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13
During mechanical ventilation, what variable causes a breath to begin?

A) Limit
B) Cycle
C) Trigger
D) Baseline
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14
A complete ventilatory cycle or breath consists of which of the following phases?
1) Expiration
2) Initiation of inspiration
3) Inspiration
4) End of inspiration

A)1 and 4 only
B)2 and 3 only
C)1, 2, and 4 only
D)1, 2, 3, and 4
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15
Which of the following are true of the relationship between flow and volume?
1) Volume is the integral of flow.
2) Volume is the derivative of flow.
3) Flow is the derivative of volume.

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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16
For which of the following uses might you consider the use of a purely pneumatically powered ventilator?
1) As a backup to electrically powered ventilators
2) When electrical device cannot be used (e.g., magnetic resonance imaging)
3) During certain types of patient transport

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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17
A ventilator can derive its input power from which of the following sources?
1) Alternating current (AC) electricity
2) Battery
3) Pneumatic

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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18
How would a ventilatory support device that uses pressure regulators, needle valves, and balloon valves to regulate most or all of the parameters of ventilation be classified?

A) Mechanically controlled
B) Electronically controlled
C) Fluidically controlled
D) Pneumatically controlled
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k this deck
19
Which of the following types of ventilators would you select for use during an MRI procedure?
1) Electronically controlled
2) Pneumatically controlled
3) Fluidically controlled
4) Electrically controlled

A)1 and 4 only
B)2 and 3 only
C)1 only
D)2, 3, and 4 only
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20
The respiratory therapist has been called to transport a patient from the emergency department to obtain a CT scan. Which of the following types of ventilator should the therapist chose to transport the patient?

A) Electric
B) Apneuistic
C) Pneumatic
D) Electronic
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21
In which of the following modes inspiration ends when flow decays to some preset value?

A) Intermittent mandatory ventilation
B) Pressure support ventilation
C) Continuous mandatory ventilation
D) Airway pressure release ventilation
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22
A physician requests that you switch from pressure-triggering a patient to flow-triggering. Which of the following new settings would be appropriate?

A) Base flow = 0 L/min; trigger at 2 L/min
B) Base flow = 10 L/min; trigger at -2 cm H2O
C) Base flow = 10 L/min; trigger at 2 L/min
D) Base flow = 0 L/min; trigger at 10 cm H2O
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23
A patient receiving time-triggered continuous mechanical ventilation at a preset rate of 10/min stops breathing. Which of the following will occur?

A) The high-pressure limit alarm will sound (if properly set).
B) The patient will continue to receive 10 breaths/min.
C) The low tidal volume (VT) alarm will sound (if properly set).
D) Ventilation will drop to zero and the apnea alarm will sound.
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24
Compared to using pressure as the trigger variable, what is the major advantage of flow-triggering?

A) Decreased work of breathing
B) Improved minute ventilation (VE)
C) Decreased physiologic dead space
D) Improved arterial oxygenation
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25
To describe what happens during the expiratory phase of mechanical ventilation, you must know the value of which variable?

A) Limit
B) Cycle
C) Trigger
D) Baseline
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26
When using pressure as the trigger variable, where do you typically set the trigger level?

A) 0.5 to 1.5 cm H2O below the baseline expiratory pressure
B) 0.5 to 1.5 cm H2O above the baseline expiratory pressure
C) 2.0 to 3.5 cm H2O below the baseline expiratory pressure
D) 2.0 to 3.5 cm H2O above the baseline expiratory pressure
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27
When you adjust the pressure drop necessary to trigger a breath on a ventilator, what are you adjusting on the machine?

A) Sensitivity
B) Pressure limit
C) Mode setting
D) Positive end expiratory pressure (PEEP) level
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28
Pure time-triggered ventilation is the same as what type of ventilation?

A) Assist
B) Intermittent mandatory ventilation
C) Assist and control
D) Proportional assist
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29
A volume-cycled ventilator has a rate knob for setting the controlled frequency of breathing. If this control is set to 12/min, which of the following other settings will determine the inspiratory and expiratory times?
1) FiO2
2) Flow
3) Volume

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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30
What parameter serves as the baseline variable on all modern ventilators?

A) Pressure
B) Flow
C) Time
D) Volume
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31
Flow serves as a limit variable whenever a ventilator controls what?

A) Pressure
B) Flow
C) Time
D) Volume
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32
You observe that a ventilator reaches a preset pressure early in inspiration but holds it for a specific time, after which inspiration ends. What mode of ventilatory support is in force?

A) Time cycled
B) Pressure limited
C) Pressure cycled
D) Volume limited
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33
Which of the following is false about the application of flow triggering on a mechanical ventilator?

A) The ventilator measures both input and output flow.
B) Between patient breaths, input flow exceeds output flow.
C) A relative drop in output flow triggers the machine to turn on.
D) Gas flows continuously through the ventilator circuit.
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34
If a patient initiates a ventilator breath, the trigger variable could be which of the following?
1) Pressure
2) Flow
3) Time
4) Volume

A)1 and 3 only
B)1, 2, and 4 only
C)3 and 4 only
D)2, 3, and 4 only
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35
Which of the following parameters can serve as the cycle variable during ventilatory support?
1) Volume
2) Pressure
3) Flow
4) Time

A)1 and 4 only
B)2 and 3 only
C)1, 2, and 4 only
D)1, 2, 3, and 4
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36
A volume-cycled ventilator provides gas under positive pressure during inspiration until what point?

A) The patient receives a preselected volume of gas.
B) An adjustable, preselected airway pressure is reached.
C) The inspiratory time equals or exceeds the expiratory time.
D) A preselected volume of gas is expelled from the device.
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37
What ventilatory variable reaches and maintains a preset level before inspiration ends?

A) Limit
B) Cycle
C) Trigger
D) Baseline
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38
If a ventilator, not the patient, initiates a breath, what is the trigger variable?

A) Time
B) Pressure
C) Flow
D) Volume
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39
A time-cycled constant flow generator is set up with a flow of 35 L/min and an inspiratory time of 1.7 sec. What is the approximate VT?

A) 750 ml (0.75 L)
B) 1000 ml (1.00 L)
C) 1900 ml (1.90 L)
D) 1200 ml (1.20 L)
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40
What is the name of a breath where a patient is able to change the inspiratory time?

A) Patient cycled
B) Patient triggered
C) Machine triggered
D) Machine cycled
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41
What is the mode of ventilatory support in which patient's inspiratory efforts are augmented with a set amount of positive airway pressure?

A) Intermittent mandatory ventilation
B) Continuous mandatory ventilation (CMV)
C) Pressure support ventilation (PSV)
D) Positive end expiratory pressure (PEEP)
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42
Mean airway pressure is highest with what waveform?

A) Rectangular flow
B) Rectangular pressure
C) Ascending ramp flow
D) Sinusoidal flow
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43
During volume-targeted ventilation, which of the following settings determine the machine-delivered minute volume?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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Unlock Deck
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44
During volume-targeted ventilation, which of the following settings determine I:E ratio?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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Unlock Deck
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45
Which of the following ventilator control systems are considered closed loop?
1) Orientation based
2) Servo
3) Adaptive
4) Optimal

A)1 and 3 only
B)1, 2, and 3 only
C)3 and 4 only
D)2, 3, and 4 only
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46
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 15/min. The expiratory time is 2.9 sec. What is the inspiratory time?

A) 1.1 sec
B) 1.3 sec
C) 1.5 sec
D) 1.7 sec
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47
Which of the closed-loop controllers is used by all ventilators?

A) Set point
B) Auto set point
C) Adaptive
D) Servo
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48
Which of the following provides clinicians with measured or calculated date related to ventilatory support over time?

A) Waveforms
B) Trends
C) Compliance
D) Minute ventilation
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49
While observing a patient receiving ventilatory support, you notice that all delivered breaths are initiated or terminated by the machine. Which of the following modes of ventilatory support is in force?

A) Intermittent mandatory ventilation
B) Partial ventilatory support
C) Continuous mandatory ventilation
D) Continuous spontaneous ventilation
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Unlock Deck
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50
While observing a patient receiving ventilatory support, you notice that some delivered breaths are begun or ended by the machine, whereas others are begun and ended by the patient. Which of the following modes of ventilatory support is in force?

A) Intermittent mandatory ventilation (IMV)
B) Pressure support ventilation
C) Continuous mandatory ventilation (CMV)
D) Airway pressure release ventilation
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51
During volume-targeted ventilation, which of the following settings determine the inspiratory time?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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Unlock for access to all 70 flashcards in this deck.
Unlock Deck
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52
During volume-targeted ventilation, which of the following settings determine the expiratory time?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)1 and 3 only
C)2 and 3 only
D)1, 2, and 3
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Unlock Deck
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53
During mechanical ventilation, a mandatory breath is defined as one that is:

A) initiated or terminated by the machine.
B) initiated and terminated by the machine.
C) initiated and terminated by the patient.
D) begun according to a preset time interval.
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54
What is the primary physiological effect of positive end expiratory pressure (PEEP)?

A) Increase the functional residual capacity (FRC).
B) Increase the inspiratory reserve volume (IRV).
C) Decrease the compliance of the lung (CL).
D) Increase the length of expiration.
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Unlock Deck
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55
A patient receiving continuous mandatory ventilation in the control mode has an inspiratory time of 1.5 sec and an expiratory time of 2.5 sec. What is the frequency of breathing?

A) 10/min
B) 12/min
C) 15/min
D) 18/min
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Unlock Deck
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56
What is the application of pressure above atmospheric at the airway throughout expiration during mechanical ventilation?

A) Positive end expiratory pressure (PEEP)
B) Pressure support ventilation
C) Continuous mandatory ventilation (CMV)
D) Continuous positive airway pressure (CPAP)
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57
Which of the following modes is a good example of adaptive control?

A) Intermittent mandatory ventilation
B) Airway pressure release ventilation
C) Continuous mandatory ventilation (CMV)
D) Pressure-regulated volume control (PRVC)
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Unlock Deck
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58
During mechanical ventilation, a spontaneous breath is defined as one that:

A) initiated and terminated by the machine.
B) begun by the patient and ended by the machine.
C) initiated and terminated by the patient.
D) begun by the machine and ended by the patient.
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Unlock Deck
k this deck
59
A mode that allows spontaneously breathing patients to breathe at a positive-pressure level, but drops briefly to a reduced pressure level for CO2 elimination during each breathing cycle is also known as:

A) intermittent mandatory ventilation.
B) airway pressure release ventilation.
C) continuous mandatory ventilation (CMV).
D) continuous spontaneous ventilation.
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Unlock Deck
k this deck
60
During volume-targeted ventilation, which of the following setting(s) determine(s) the total cycle time?
1) Volume
2) Flow
3) Rate

A)1 and 2 only
B)2 and 3 only
C)3 only
D)1, 2, and 3
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Unlock for access to all 70 flashcards in this deck.
Unlock Deck
k this deck
61
In which of the following situations is volume-controlled ventilation sometimes used?
1) When a precise PaCO2 has to be maintained (some closed-head injuries)
2) When more even distribution of ventilation is required
3) When ventilating patients with severe, refractory hypoxemia
4) When ventilating patients with unstable or changing ventilatory drives

A)1 and 2 only
B)3 and 4 only
C)1, 2, and 3 only
D)1, 3, and 4 only
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Unlock Deck
k this deck
62
During pressure-targeted ventilation, which of the following setting(s) determine(s) VT?
1) Pressure difference
2) Inspiratory time
3) Time constant

A)1 and 2 only
B)2 and 3 only
C)3 only
D)1, 2, and 3
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Unlock Deck
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63
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 10/min. The inspiratory time control is set at 25%. What is the I:E ratio?

A) 1:3
B) 1:2
C) 1:4
D) 1:1
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Unlock Deck
k this deck
64
A patient is receiving continuous mandatory ventilation through a constant flow generator in the control mode at a rate of 20/min with a VT of 750 ml. The inspiratory time is 1 sec. What is the flow?

A) 15 L/min
B) 30 L/min
C) 45 L/min
D) 60 L/min
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Unlock Deck
k this deck
65
Which of the following is the primary parameter used to alter the breath size in pressure controlled?

A) Positive inspiratory pressure (PIP)-positive end expiratory pressure (PEEP)
B) Continuous positive airway pressure (CPAP)
C) Tidal volume
D) Flow
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Unlock Deck
k this deck
66
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 20/min. The inspiratory time is 0.75 sec. What is the percentage inspiratory time?

A) 20%
B) 25%
C) 30%
D) 33%
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k this deck
67
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 12/min. The inspiratory time control is set at 33%. What is the expiratory time?

A) 1.65 sec
B) 2.45 sec
C) 3.35 sec
D) 3.85 sec
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Unlock Deck
k this deck
68
In which of the following situations is pressure-controlled ventilation sometimes used?
1) When a precise PaCO2 has to be maintained (some closed-head injuries)
2) When more even distribution of ventilation is required
3) When ventilating patients with severe, refractory hypoxemia
4) When tidal volume in unstable due to leaks

A)1 and 2 only
B)3 and 4 only
C)1, 2, and 3 only
D)1, 3, and 4 only
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Unlock for access to all 70 flashcards in this deck.
Unlock Deck
k this deck
69
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 15/min. The inspiratory time is 0.8 sec. What is the expiratory time?

A) 3.2 sec
B) 2.8 sec
C) 2.4 sec
D) 4.2 sec
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Unlock Deck
k this deck
70
A patient is receiving continuous mandatory ventilation in the control mode at a rate of 10/min. The inspiratory time control is set at 40%. What is the inspiratory time?

A) 1.60 sec
B) 1.85 sec
C) 2.40 sec
D) 3.50 sec
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Unlock Deck
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Unlock Deck
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