Mechanical Ventilation

Question 1

What is an example of negative pressure ventilation?

Answer 1

Iron Lung

Question 2

What are some examples of positive pressure ventilation?

Answer 2

Machine ventilator
CPAP
Bagger
Another person

Pressure created outside of the lung for inhalation

Question 3

Why might mechanical ventilation be required?

Answer 3

• Control a patient’s respirations during surgery
• to oxygenate the blood when the patient’s mechanical ventilation efforts are inadequate
• rest the respiratory muscles

Question 4

What are some indications for endotracheal intubation and mechanical ventilation?

Answer 4

• Continuous decrease in oxygenation (PaO2)
• Increase in arterial carbon dioxide levels (PaCo2)
• Persistent acidosis
• Conditions such as thoracic or abdominal surgery, drug overdose, neromuscular disorders, inhalation injury, COPD, multiple trauma, shock, multisystem failure, and coma may all lead to resp failure

Question 5

What are clinical manifestations that indicate mechanical ventilation?

Answer 5

• apnea or bradypnea
• respiratory distress with confusion
• Increased work of breathing not relieved by other interventions
• Confusion with need for airway protection
• Circulatory shock
• Controlled hyperventilation (e.g., patient with a severe head injury)

Question 6

What are three types of positive-pressure ventilators?

Answer 6

• Volume-cycled
• pressure-cycled
• high-frequency oscillatory support

Question 7

What are key steps to respiratory assessment?

Answer 7

• History
• Inspection
• Auscultation
• Palpation
• SpO2 monitoring
• ABG (basic)

Question 8

What is ventilation?

Answer 8

Movement of air in and out of airways

Question 9

What are examples of invasive airways?

Answer 9

• Oral
• Nasal
• Tracheal

Question 10

What are examples of non-invasive airways?

Answer 10

• OPA (oropharyngeal airway)
• NAP (nasopharyngeal airway)

Question 11

What are the characteristics of a volume-cycled ventilator?

Answer 11

• Deliver a pre-set volume of air with each inspiration
• Exhalation occurs passively
• Volume of air is relatively constant, ensuring consistent, adequate breaths despite varying airway pressures

Question 12

What is a disadvantage of a volume-cycled ventilator?

Answer 12

Patient may experience barotrauma because the pressure required to deliver the breaths may be excessive

Question 13

What is barotrauma?

Answer 13

Trauma that causes damage to the alveolar capillary membrane and air to leak into the surrounding tissues.

Question 14

How does a pressure-cycled ventilator work?

Answer 14

When a pressure-cycled ventilator cycles on, it delivers a flow of air (inspiration) until it reaches a pre-set pressure, and the cycles off, and expiration occurs passively.

Question 15

What is a major limitation of pressure-cycled ventilators?

Answer 15

The volume of air or oxygen can vary as the patient’s airway resistance or compliance changes. As a result, the tidal volume delivered may beinconsistent, possible compromising ventilation.

Question 16

How is acute respiratory failure (ARF) clinically defined?

Answer 16

PaCO2 greater than 50 mmHg
pH less than 7.30
and/or
PaO2 less than 60 mmHg

Question 17

What is the most common indication for ventilator support?

Answer 17

Acute ventilatory failure. Inability of the lungs to maintain adequate alveolar ventilation. Diagnosed on the basis of the acid-base balance it creates: acute respiratory acidosis.

Question 18

What is shunting?

Answer 18

Refers to the state in which pulmonary capillary perfusion is normal but alveolar ventilation is lacking. Pulmonery capillary blood can’t pick up oxygen from the nonfunctioning alveolar unit; if there are too many non-functioning units, there can be a decrease in SaO2, causing hypoxemia.

Question 19

What are some common tests to assess pulmonary function?

Answer 19

vital capacity, negative inspiratory force, and respiration rate.

Question 20

What respiratory rate significantly increases the work of breathing, leading to respiratory muscle fatigue?

Answer 20

35 breaths per minute

Question 21

What is the purpose of the cuff at the distal end of the endotracheal tube?

Answer 21

When inflated, the tube seals the space between the tube and the trachea so air is directed through the tube into the lower airway, ensuring a predictable volume or pressure

Question 22

What does the diameter of the ET tube reflect?

Answer 22

the diameter of the inside lumen

Question 23

Which artificial airway is more commonly used on a patient who requires prolonged intubation because of failure to wean from the ventilator?

Answer 23

tracheostomy

Question 24

What is tidal volume?

Answer 24

Amount of air that moves in and out of the lungs in one normal breath.

Question 25

What is the range for normal tidal volume?

Answer 25

500 - 800 mL in an adult

Question 26

When is there an increased risk for lung injury during mechanical ventilation?

Answer 26

When tidal volume is high or peak alveolar pressure increases

Question 27

What is volutrauma?

Answer 27

Overstretching of the alveolar cells triggers release of inflammatory mediators and stimulation of the inflammatory response. Volutrauma increases the permeability of the lung’s microvasculature, which may result in pulmonary edema.

Question 28

What is FiO2 (fraction of inspired oxygen)?

Answer 28

The % (or decimal) of O2 delivered to the patient. A mechanical ventimator is able to deliver a wide range of oxygen, from 0.21 - 1 (21% - at sea level room air is 21% - to 100%)

Question 29

What is minute ventilation?

Answer 29

Amount of air that moves in and out of the lungs in 1 minute.

Question 30

How is minute ventilation measured?

Answer 30

Tidal volume x respiratory rate

Question 31

What is positive end expiratory pressure?

Answer 31

Set to provide pressure @ the end of expiration, to prevent alveolar collapse and improves patient PaO2 without increasing FiO2

Question 32

What is peak airway pressure? (aka peak inspiratory pressure)

Answer 32

The highest level of pressure applied to the lungs during inspiration - measured with all modes of ventilation

Question 33

What are some options for non-invasive intermittent positive pressure ventilation (NIPPV)?

Answer 33

oronasal mask, nasal mask, nasal pillows, full-face masks, helmets, and large cannula-type devices

Question 34

What are features and uses of a CPAP?

Answer 34

• Mode of mechanical assistance that provides a continuous level of positive airway pressure for a spontaneously breathing person
• Does not provide assisted ventilation on inspiration
• improves oxygenation by opening alveoli and is used in pressures ranging from 5 to 20 cm H2O
• Delivered by a special flow generator
• Most commonly used to treat obstructive sleep apnea

Question 35

What kind of alarms may sound when using mechanical ventilation?

Answer 35

• Pressure (high/low)
• Volume (high/low)
• Frequency (high/low)
• Apnea
• MV (minute ventilation)

Question 36

Which mode is more of a weaning mode?

Answer 36

pressure support

Question 37

Which types of support are used more with decreased levels of consciousness?

Answer 37

volume control and pressure control

Question 38

When an alarm goes off, what is important to check first?

Answer 38

Always check the patient before the ventilator

Question 39

What assessment and interventions are in place for a patient on mechanical ventilation?

Answer 39

Clinical
* Vital signs
* ABGs - ventilator changes based on findings
* Work of breathing
* Full respiratory assessment

Mode: settings, measurement

Interventions
* Suctioning
* Mouth care
* Medications (sedation/comfort/anxiety/paralytics)
* Communication
* PT
* Mobilization (positioning)
* Nutrition (for healing)

Question 40

What are cardiovascular complications of mechanical ventilation?

Answer 40

Positive pressure ventilation reduces CO by decreasing venous return in three major ways
1) external pressure on the inferior vena cava decreases blood flow into the right atrium
2) Right ventricular afterload increases due to increased lung volume
3)The pressure being exerted on the alveoli increases pulmonary vascular resistance and right ventricular afterload
Decreased CO results in hypotension
Includes lung and thoracic compliance ,airway resistance, and patients’ volemic state.

Question 41

What cardiovascular assessment alterations should accompany a patient on mechanical ventilation?

Answer 41

Continuous monitoring of V/S – as per policy
Decreased BP (in presence of hypovolemia and heart failure)
Compensation: Normal BP, increased HR and increased SVR
Monitoring I&O to ensure adequate hydration
Minute ventilation and tidal volume
Monitor lytes and acid base balance (to assess for dysrhythmias)

Question 42

What neurovascular complications can be seen in a patient on mechanical ventilation?

Answer 42

• change in neurovascular status: increased ICP and decreased cerebral perfusion pressure (CPP = MAP - ICP)
• If CPP drops too low, cerebral hypoxia can result

Question 43

What pulmonary complications can be seen in a patient on mechanical ventilation?

Answer 43

• Altered ventilation and perfusion
• Barotrauma and volutrauma - can manifest itself as pneumothorax, subcutaneous emphysema, pneumomediastinum
• Oxygen toxicity - damages endothelial lining of the lungs, decreases alveolar macrphage activity, decreases mucus and surfactant production
• Ventilator-associated pneumonia (common when ventilated for more than 48 hours

Question 44

What are renal complications associated with patients on mechanical ventilation?

Answer 44

• decreased urinary output
• Factors contribute to decreased renal function: redistribution of renal blood flow
• Hormonal alterations (May stimulate the release of ADH, renin, aldosterone, atrial natriuretic factor and catecholamines, which may affect renal blood flow and renal function)

Question 45

What gastrointestinal complications are associated with patients on mechanical ventilation?

Answer 45

• TPN - risk of malnutrition
• Constipation risk - laxatives and rectal tube
• Decreased peristalsis - loss of GI function
• Hepatic dysfunction due to increased pressure on liver
• Stress induced ulcers major risk factor with mechanical ventilation >48h, gastric hyperacidity - GI bleeding
• Results from episode of tissue hypoxia with resp failure
• Exhibited through black tarry stools
• If ulcer in stomach NG aspirate my appear bright red
• Decreased hematocrit from bleeding
• Acalculous cholecystitis
• GI hypomotility

Question 46

What psychological complications are associated with patients on mechanical ventilation?

Answer 46

Anxiety and pain
Sleep pattern disturbance
Depression/Delirium/Delusion
Loneliness
Frustration (inability to vocalize)
Communication - inability to vocalise
Confusion
Impaired social support
Disturbed body image
Amnesia
Memory loss
Anger
Despair

Question 47

What are some artificial airway complications?

Answer 47

Airway trauma
Local tissue ischemia
Bypassing normal upper airway defenses that warm and humidify the air
Nasal or oral damage
Cuff trauma
Tracheostomy
* tracheomalcia (weakening or erosion of the tracheal cartilage)
* tracheal stoma erosion
* accidental decannulation

Question 48

What is involved in rapid-weaning from a mechanical ventilator?

Answer 48

Rapid weaning (short term)
Patient placed on spontaneous breathing mode (C P A P, P S V, or T-piece) and provided with humidified oxygen

Question 49

What are some considerations in the weaning process?

Answer 49

• Order
• Patient participation/readiness (LOC, sedation, strength)
• RRT
• Previous experience/attempts

Question 50

What are the characteristics of synchronous intermittent madatory ventilation (SIMV)

Answer 50

• Patient spontaneously breathes through the ventilator circuit, maintaining much of the work of breathing
• Interspersed at regular intervals, the ventilator provides a preset ventilator breath

Question 51

Why might a low exhaled volume alarm go off?

Answer 51

• decreased or low tidal volume (air that moves in and out in one breath)
• Might be a leak in the cuff