Exam 4 Restrictive lung disease part I (bri)

Question 1

restrictive lung diseases affect ____ and ____

Answer 1

lung expansion and compliance

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Question 2

what is the hallmark of restirctive lung disease?

Answer 2

an inability to increase lung volume in proportion to an increase in alveolar pressure

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Question 3

restricitve lung diesease is related to:

Answer 3

• connective tissue diseases
• environmental factors
• pulmonary fibrosis
• conditions that increase alveolar or interstitial fluid
• diseases that limit excursion of the chest/diaphragm

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Question 4

the disorders that cause RLD lead to ____ surface area for gas diffusion, causing ____ and ____

Answer 4

• reduced
• V/Q mismatching and hypoxia

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Question 5

As lung elasticity worsens, pts become symptomatic d/t

Answer 5

• hypoxia
• inability to clear secretions
• hypoventilation

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Question 6

worsend lung elasticity in RLD causes what changes in FEV1, FVC, FEV1:FVC raito, and diffusing capacity?

Answer 6

• reduced FEV in the first second (FEV1)
• forced vital capacity (FVC),
• with a normal or increased FEV1:FVC ratio
• a reduced diffusing capacity for carbon monoxide (DLCO)

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Question 7

TLC is used to classify RLD as mild, moderate, or severe:
* Mild disease:
* Moderate disease:
* Severe disease:

Answer 7

• Mild disease: TLC 65-80% of the predicted value
• Moderate disease: TLC 50-65% of the predicted value
• Severe disease: TLC < 50% of the predicted value

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Question 8

what is pulmonary edema caused by?

Answer 8

intravascular fluid leakage into the interstitium & alveolar space

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Question 9

acute pulmonary edema can be caused by

Answer 9

• increased capillary pressure or by
• increased capillary permeability

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Question 10

what 2 things lead to capillarry stress failure?

Answer 10

• increased capillary pressure
• increased capillary permeability

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Question 11

How does pumonary edema appear on CXR?

Answer 11

• appears as bilateral, symmetric perihilar opacities

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Question 12

butterfly fluid pattern on CXR is more commonly seen w/

Answer 12

increased capillary pressure than increased capillary permeability

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Question 13

Pulmonary edema c/b increased capillary permeability is characterized by

Answer 13

a high concentration of protein and secretory products in the edema fluid

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Question 14

Diffuse alveolar damage is typically present with the increased-permeability pulmonary edema, which is associated with ____

Answer 14

ARDS

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Question 15

what is cardiogenic pulmonary edema charcterized by?

Answer 15

• marked dyspnea
• tachypnea
• elevated cardiac pressures, and
• SNS activation

is more pronounced than pts with increased-permeability pulmonary edema

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Question 16

when should cardiogenic pulmonary edema be suspected?

Answer 16

if pt has decreased systolic or diastolic cardiac function

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Question 17

cardiogenic pulonary edema risk is increased w/conditions that acutely increase preload such as:

Answer 17

• acute aortic regurgitation
• acute mitral regurgitation

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Question 18

cardiogenic pulmonary edema risk is also increased w/conditions that increase afterload or SVR such as:

Answer 18

• LV outflow tract obstruction
• mitral stenosis, and
• reno-vascular HTN

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Question 19

what is negative pressure pulmonary edema AKA?

Answer 19

post-obstructive pulmonary edema

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Question 20

____ results after the relief of an acute upper airway obstruction

Answer 20

negative pressure pulmonary edema

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Question 21

causes of negative pressure pulm edema

Answer 21

• laryngospasm
• epiglottitis
• tumors
• obesity
• hiccups, or
• OSA

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Question 22

Negative pressure pulm edema

• ____ ventilation is necessary to create negative pressure, drawing in fluid
• onset of pulmonary edema after relief of obstruction ranges from a few minutes to ____ hrs.

Answer 22

• spontaneous
• 2-3 hrs

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Question 23

what are common signs of negative pressure pulmonary edema that may be confused with aspiration or pulmonary embolism

Answer 23

• hypnea
• cough, and
• failure to maintain Sp02 >95%

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Question 24

pathogenesis of negative pressure pulm edema is related to the

Answer 24

development of high negative intrapleural pressure against an obstructed upper airway

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Question 25

Negative intrapleural pressure ____ the interstitial hydrostatic pressure, ____ venous return, and ____ left ventricular afterload

Answer 25

• decreases
• increases
• increases

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Question 26

negative pressure leads to:

Answer 26

• intense SNS activation
• HTN, and
• central displacement of blood volume

Together these factors produce acute pulmonary edema by increasing the transcapillary pressure gradient

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Question 27

How do you treat negative pressure pulmonary edema?

Answer 27

• supplemental 02 and maintenance of a patent upper airway is usually sufficient, as this form of pulmonary edema is typically self-limited
• mechanical ventilation may occasionally be needed for a brief period
• radiographic evidence of NPPE resolves within 12-24 hours

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Question 28

____ develops in a small fraction of acute brain injury pts, and occurs minutes-hours after CNS injury and may manifest during the periop period

Answer 28

neurogenic pulmonary edema

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Question 29

What type of pulmonary edema is this: massive outpouring of SNS impulses from the injured CNS that results in generalized vasoconstriction and blood volume shift into the pulmonary circulation

Answer 29

neurogenic pulmonary edema

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Question 30

in neurgenic pulmonary edema the increased pulmonary capillary pressure c/b translocation of blood volume leads to

Answer 30

transfer of fluid into the interstitium and alveoli

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Question 31

____ and ____ can also injure blood vessels in the lungs

Answer 31

Pulmonary HTN and hypervolemia

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Question 32

The rapid expansion of a collapsed lung may lead to

Answer 32

re-expansion pulm edema

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Question 33

The risk of REPE after relief of pneumothorax or pleural effusion is related to:

Answer 33

1. amount of air/liquid that was in the pleural space (>1 L increases the risk)
2. the duration of collapse (>24 hours increases the risk)
3. speed of re-expansion

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Question 34

The high protein content of pulmonary edema fluid suggests enhanced capillary membrane permeability as a factor in its development

Answer 34

re-expansion pulmonary edema

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Question 35

what is treatment for REPE?

Answer 35

tx is supportive care

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Question 36

____ pulmonary edema can occur after the administration of several drugs, especially opioids (heroin) and cocaine

Answer 36

acute noncardiogenic

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Question 37

Drug induced pulm edema

the high protein concentration of pulmonary edema fluid suggests what?

Answer 37

a high-permeability pulmonary edema

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Question 38

cocaine causes what?

Answer 38

• pulmonary vasoconstriction
• acute myocardial ischemia, and
• myocardial infarction

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Question 39

does naloxone speed up the resolution of opioid induced pulmonary edema?

Answer 39

there is no evidence

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Question 40

another condition in the differential of DIPE is?

Answer 40

diffuse alveolar hemorrhage (DAH)

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Question 41

what does it mean if pul edema on CXR does not respond to diuretics?

Answer 41

diffuse alveolar hemorrhage (DAH)
is likely

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Question 42

what is the tx for drug induced pulm edema?

Answer 42

• supportive
• may include intubation and mechanical ventilation

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Question 43

____ may occur at heights ranging from 2500-5000m and is influenced by the rate of ascent to that altitude

Answer 43

high altitude pulm edema HAPE

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Question 44

HAPE onset?

Answer 44

Onset is often gradual but typically occurs within 48-72 hours at high altitude

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Question 45

Sudden pulmonary edema may be preceded by the less severe symptoms of ____

Answer 45

acute mountain sickness

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Question 46

what is the cause of HAPE?

Answer 46

the cause of this high-permeability pulmonary edema is presumed to be hypoxic pulmonary vasoconstriction, which increases pulmonary vascular pressure

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Question 47

treatment for HAPE?

Answer 47

• O2 administration
• quick descent from the high altitude
• inhalation of nitric oxide may improve oxygenation

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Question 48

elective surgery should be delayed in pts with pulmonary edema, and every effort must be made to optimize ____ function before surgery

Answer 48

cardiorespiratory

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Question 49

Anesthesia Implicaions

• large ____ may need to be drained
• Persistent ____ may require mechanical ventilation and PEEP
• ____ monitoring useful in the assessment and treatment

Answer 49

• pleural effusions
• hypoxemia
• hemodynamic

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Question 50

current evidence shows benefit from ventilation using low TV & a RR of ____ while attempting to keep end-inspiratory plateau pressure < ____ cmH2O

Answer 50

• 14-18
• < 30 cmH2O

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Question 51

Anesthesia implications

• careful titration of PEEP in conjunction with inspiratory pause is recommended to ____
• pts with restrictive lung dz typically have ____ breathing
• ____ should not be used as the sole criteria for delaying extubation if gas exchange and other assessments are satisfactory

Answer 51

• optimize lung compliance
• rapid, shallow
• tachypnea

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Question 52

Pts w/ decreased airway reflexes are at risk for ____

Answer 52

aspiration

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Question 53

Many CRNA’s recommend keeping the HOB elevated for ____ to decrease aspiration risk

Answer 53

intubation & extubation

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Question 54

Chemical pneumonitis symptoms:

Answer 54

• abrupt onset dyspnea
• tachycardia, and
• decreased SPO2

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Question 55

• When gastric fluid is aspirated, it distributes throughout the lungs and destroys what?
• What happens as a result of this??

Answer 55

• surfactant-producing cells and pulmonary capillary endothelium
• there is atelectasis and leakage of intravascular fluid into the lungs, producing capillary-permeability pulmonary edema

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Question 56

acute lung injury (ALI) might present with

Answer 56

• tachypnea
• bronchospasm
• acute pulmonary HTN
• arterial hypoxemia

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Question 57

CXR may not demonstrate evidence of aspiration pneumonitis for ____ hrs

Answer 57

6-12

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Question 58

Evidence of aspiration is most likely where if the pt aspirated in supine position

Answer 58

in the superior segment of the RLL

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Question 59

what should you do if aspiration is noticed?

Answer 59

the oropharynx should be suctioned and the pt turned to the side

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Question 60

can trendelenburg stop gastric reflux?

Answer 60

no, but can prevent aspiration once gastric contents are in the pharynx

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Question 61

how long should a pt be monitored after aspiration?

Answer 61

24-48 hrs

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Question 62

why is measurement of gastric fluid pH useful?

Answer 62

it reflects the pH of the aspirated fluid

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Question 63

why is lavage only if there has been an aspiration of particulate material?

Answer 63

The aspirated gastric fluid is also rapidly redistributed to peripheral lung regions, so lavage is not useful unless there has been an aspiration of particulate material

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Question 64

Aspiration pneumonitis is best treated w/

Answer 64

supplemental O2 & PEEP

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Question 65

in chemical pneumonitis what may be needed to relieve bronchospasm?

Answer 65

bronchodilation

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Question 66

• is there evidence that abx decrease incidence of pulmonary infection or alter outcomes?
• abx may be considered when?

Answer 66

• no evidence
• if pt is symptomatic after 48 hrs and + culture results

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Question 67

1. Interstitial lung disease (ILD) can be caused by several factors, including?
2. What additives have been associated with E-Cigaretter associated lung injury [EVALI]?

Answer 67

1. inhalation of dusts, gases, fumes, and drugs
2. Additives such as tetrahydrocannabinol (THC), vitamin E acetate, nicotine, cannabinoids (CBD), and other oils have been associated with EVALI

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Question 68

EVALI: E-Cigaretter associated lung injury

1. Who is EVALI seen in?
2. EVALI is a form of _____ and is commonly associated with?

Answer 68

1. EVALI is now seen in pts using e-cigarettes & vaping
2. EVALI is a form of ALI and is commonly associated with:
   * pneumonia
   * diffuse alveolar damage
   * bronchiolitis

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Question 69

EVALI: E-Cigaretter associated lung injury

What are the sx of EVALI?

Answer 69

• Dyspnea
• cough
• N/V/D, abd pain
• pleuritic or nonpleuritic chest pain
• Pt may be febrile, tachycardia, tachypnea, and hypoxic

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Question 70

EVALI: E-Cigaretter associated lung injury

For EVALI, for will radiological findings show? What is the tx?

Answer 70

• Radiologic findings are similar to diffuse alveolar damage as seen in ARDS
• Antibiotics, systemic steroids, and supportive care are mainstays of therapy

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Question 71

Survivors of severe acute SARS-CoV-2 have can have what?
What are their pulmonary sx?

Answer 71

• Survivors of severe acute SARS-CoV-2 have can have persistent inflammatory interstitial lung disease
• Pulmonary sx’s range from dyspnea to ventilator dependance and pulmonary fibrosis

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Question 72

1. What is the most commonly reported finding of COVID-19 induced restrictive lung disease?
2. Who is at the highest risk for long term pulmonary complications?
3. Survivors have what?

Answer 72

1. A drop in diffusion capacity is the most commonly reported finding and it directly r/t the severity of initial disease process
2. Pts who need mechanical ventilation are at the highest risk.
3. Survivors have decreased exercise capacity, hypoxia, and opacities on CT

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Question 73

Acute respiratory failure is present when?

Answer 73

• ARF is present when the Pa02 is <60 mmHg despite 02 supplementation and in the absence of a right-to-left intracardiac shunt

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Question 74

A PaC0 >______ in the the absence of respiratory-compensated metabolic alkalosis is consistent with diagnosis of _____

Answer 74

• A PaC0 > 50 mmHg in the the absence of respiratory-compensated metabolic alkalosis is consistent with diagnosis of ARF
• PaC02 can be increased, unchanged, or decreased d/o the relationship of alveolar ventilation to C02 production

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Question 75

How is ARF is distinguished from chronic respiratory failure

Answer 75

• ARF is distinguished from chronic respiratory failure based on the relationship of PaC02 to arterial pH
• ARF is typically accompanied by abrupt increases in PaC02 and decreases in pH
• In chronic respiratory failure, pH is normal despite the increased PaC02. This normal pH reflects renal compensation for respiratory acidosis

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Question 76

What are the 3 tx goals for ARF?

Answer 76

1. a patent airway
2. hypoxemia correction
3. removal of excess C02

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Question 77

02 can be provided via NC, venturi mask, nonrebreather, or T-piece.
1. These devices provide what type of O2 concentration?
2. What are the valuble in treating?

Answer 77

1. These devices seldom provide 02 concentrations >50%
2. they are only valuable in correcting hypoxemia c/b mild-moderate V/Q mismatching

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Question 78

When these methods fail to maintain Pa02 >60 mmHg, what can be initiated? How does this increase lung volumes?

Answer 78

• continuous positive airway pressure (CPAP) may be initiated
• CPAP may increase lung volumes by opening collapsed alveoli and decreasing right-to-left intrapulmonary shunting

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Question 79

Maintaining a Pa02 >____ mmHg is as adequate as Sp02 is >90%

Answer 79

Maintaining a Pa02 >60 mmHg is as adequate as Sp02 is >90%

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Question 80

List the different vent modes discussed in class

Answer 80

1. Volume-cycled ventilation (VCV)
2. A/C ventilation
3. SIMV
4. Pressure-cycled ventilation

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Question 81

What is Volume-cycled ventilation (VCV)

Answer 81

• fixed tidal volume w/inflation pressure as dependent variable
• A pressure limit can be set
• Tidal volume is maintained despite small changes in peak airway pressure

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Question 82

In Volume-cycled ventilation (VCV), what is the benefit of the pressure relief valve?

Answer 82

• When inflation pressure exceeds this value, the pressure relief valve prevents further gas flow, preventing high airway pressure
• This valve also warns that a change in pulmonary compliance has occurred

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Question 83

What does a significant increase in peak airway pressure reflect ?

Answer 83

• worsening pulmonary edema
• pneumothorax
• kinked ETT,
• a mucous plug

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Question 84

What is a disadvantage of volume-cycled ventilaiton [VCV]

Answer 84

• the inability to compensate for leaks in the delivery system

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Question 85

What are the primary modes of volume-cycled ventilaiton [VCV]

Answer 85

• assisted/controlled ventilation (A/C)
• synchronized intermittent mandatory ventilation (SIMV)

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Question 86

A/C ventilation

Answer 86

• a set RR ensures the number of breaths even if there is no inspiratory effort.
• If negative pressure is sensed, a tidal volume will be delivered

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Question 87

SIMV

Answer 87

• allows SV, while providing a predefined minute ventilation.
• The circuit provides sufficient gas flow and periodic mandatory breaths that are synchronous with the pt’s inspiratory efforts

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Question 88

Advantages of SIMV over A/C include

Answer 88

• continued use of respiratory muscles
• lower mean airway and mean intrathoracic pressure
• prevention of respiratory alkalosis
• improved pt–ventilator coordination

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Question 89

Pressure-cycled ventilation
1. provides gas flow to the lungs until?
2. What is the dependent variable

Answer 89

• provides gas flow to the lungs until a preset airway pressure is reached.
• Tidal volume is the dependent variable and varies with changes in compliance and airway resistance

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Question 90

list the complications of mechanical ventilation

Answer 90

1. infection
2. barotrauma
3. atelactasis

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Question 91

In mechanically ventilated pts w/acute respiratory failure, what is the most important predisposing factor for developing nosocomial pneumonia (ventilator-associated pneumonia)?

Answer 91

• intubation
• The primary cause is micro-aspiration of contaminated secretions around the ETT cuff

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Question 92

Nosocomial sinusitis is strongly related to

Answer 92

• the presence of a nasotracheal tube

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Question 93

Tx of nosocomial sinusitis includes

Answer 93

• antibiotics
• Replacement of nasal tubes with oral tubes
• decongestants
• head elevation to facilitate sinus drainage

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Question 94

What can barotrauma present as?

Answer 94

1. subcutaneous emphysema
2. pneumomediastinum
3. pulmonary interstitial emphysema
4. pneumoperitoneum
5. pneumopericardium
6. arterial gas embolism
7. tension pneumothorax

These examples of extra-alveolar air almost always reflect dissection or passage of air from overdistended and ruptured alveoli

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Question 95

Infection increases the risk of what? how?

Answer 95

Infection increases the risk of barotrauma, by weakening pulmonary tissue

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Question 96

What is the common cause of hypoxemia during mechanical ventilation

Answer 96

Atelectasis

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Question 97

What do you as a CRNA do in acute hypo-oxygenation state?

Answer 97

• check for ETT migration, kinks, or mucous plugs
• Bronchoscopy may be necessary to remove mucous plugs

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Question 98

Hypoxemia d/t atelectasis is not responsive to what?

Answer 98

Hypoxemia d/t atelectasis is not responsive to an increase in Fi02

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Question 99

Other causes of sudden hypoxemia in mechanically ventilated pts include:

Answer 99

• tension PTX and PE, which are usually accompanied by HoTN

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Question 100

How can atelectasis may be identified on bedside lung ultrasound

Answer 100

By the presence of static air bronchograms

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Question 101

How do you monitor the progression of complications from mechincal ventilation?

Answer 101

• Monitor progress by evaluating pulmonary gas exchange and cardiac function

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Question 102

1. Pa02 reflects the adequacy of?
2. How is the efficacy of this exchange is measured?

Answer 102

1. Pa02 reflects the adequacy of 02 exchange across alveolar capillary membranes
2. The efficacy of this exchange is measured by the difference btw the calculated alveolar Pa02 and the measured Pa02

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Question 103

What is measured Pa02 is useful for?

Answer 103

• measured Pa02 is useful for evaluating gas exchange and distinguishing the cause of arterial hypoxemia

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Question 104

Mechanism of arterial hypoxemia

Answer 104

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Question 105

Significant desaturation of arterial blood occurs only when ?

Answer 105

• the Pa02 is <60mmHg

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Question 106

3 main causes of arterial hypoxemia?
how can you tx these?

Answer 106

1. V/Q mismatch
2. right-to-left pulmonary shunting
3. hypoventilation

Increasing the inspired 02 concentration is likely to improve Pa02 in all of these conditions, except for a significant right-to-left pulmonary shunting

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Question 107

Compensatory responses to arterial hypoxemia vary.
1. How are these responses stimulated?
2. Who are these compensatory responses also present in?

Answer 107

1. These responses are stimulated by an acute drop in Pa02 <60 mmHg
2. Compensatory responses are also present in chronic hypoxemia when Pa02 is <50

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Question 108

List the compensatory responses

Answer 108

1. Carotid body–induced increase in alveolar ventilation
2. Hypoxic pulmonary vasoconstriction to divert pulmonary blood flow away from hypoxic alveoli
3. Increased SNS activity to increase COP and enhance tissue oxygen delivery

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Question 109

Chronic hypoxemia leads to an increase in

Answer 109

RBC mass to improve 02-carrying capacity

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Question 110

The PaC02 reflects

Answer 110

the adequacy of alveolar ventilation relative to C02 production

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Question 111

Dead space

Answer 111

TV ratio (VD:VT) reflects the efficacy of C02 transfer across alveolar capillary membranes

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Question 112

VD:VT ratio indicates areas in the lungs that?

Answer 112

• This ratio indicates areas in the lungs that receive adequate ventilation but inadequate or no pulmonary blood flow
• Ventilation to these alveoli is described as wasted or dead space

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Question 113

Normally the VD:VT is _____ but it may increase to ≥_____when there is an _____ in dead space ventilation

Answer 113

• <0.3
• 0.6
• increase

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Question 114

When does an increased VD:VT occurs

Answer 114

In the presence of ARF, a decreased COP, and pulmonary embolism

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Question 115

1. Hypercarbia is defined as
2. Sx of hypercarbia d/o

Answer 115

1. a PaC02 >45mmHg
2. level and rate of C02 increase

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Question 116

What is Permissive hypercapnia

Answer 116

strategy of allowing PaC02 to increase to ≥55 to avoid or delay the need for intubation & ventilation

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Question 117

Acute increases in PaC02 are assoc w/

Answer 117

• increased CBF and ICP

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Question 118

Extreme increases in PaC02 to >80mmHg result in

Answer 118

CNS depression

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Question 119

Mixed venous partial pressure of oxygen (Pv02)

Answer 119

• The difference btw mixed venous partial pressure of oxygen (Pv02) and arterial venous oxygen (Ca02 − Cv02)
• Reflects the overall adequacy of COP relative to tissue oxygen extraction
• changes reflect the continued extraction of the same amount of oxygen during a time of decreased tissue blood flow

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Question 120

A Pv02 <30 mmHg or an arterial venous oxygen >6 mL/dL indicates

Answer 120

the need to increase COP to facilitate oxygenation

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Question 121

A pulmonary artery catheter permits sampling of

Answer 121

mixed venous blood, measurement of Pv02, and calculation of Cv02

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Question 122

Measurement of pHa is necessary to detect

Answer 122

acidemia or alkalemia

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Question 123

Metabolic acidosis accompanies

Answer 123

arterial hypoxemia

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Question 124

Acidemia c/b respiratory or metabolic derangements is associated with

Answer 124

dysrhythmias and pulmonary hypertension

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Question 125

Alkalemia is often associated with

Answer 125

mechanical hyperventilation and diuretic use, which leads to loss of chloride and potassium ion

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Question 126

_____ may be increased by respiratory alkalosis

Answer 126

Dysrhythmias

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Question 127

Alkalemia in pts recovering from ARF may exhibit what? How is this bad?

Answer 127

• Alkalemia in pts recovering from ARF may exhibit compensatory hypoventilation
• may delayweaning from theventilator

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