BRTP 05 Oxygen Therapy Equipment

Question 1

Nasal cannula

Answer 1

(LPM)- 1-6

(Oxygen %) 24-44%

Question 2

Simple mask

Answer 2

(LPM) 5-10

(Oxygen %) 35-50%

Question 3

Partial rebreathing mask

Answer 3

LPM 8 or greater

Oxygen %- up to 60%

Question 4

Non rebreathing mask

Answer 4

LPM 8 or greater

Oxygen %- up to 70%

Question 5

Air entrainment mask (Venturi mask)

Answer 5

LPM varies

% is constant 24, 28, 35, 50%

Question 6

Oxyhood with heater humidifier

Answer 6

7 LPM or greater

21-100%

Question 7

Briggs or T tube assembly

Answer 7

8-12 LPM (can go higher)

Question 8

SaO2

Answer 8

% if hemoglobin saturated with oxygen

Mid 90s

96-99

Found in Blood test- very accurate

Question 9

SpO2

Answer 9

Found with skin test- fairly accurate

Question 10

Pulse oximetry

Answer 10

Composed of a photodetector sensor, a microprocessor, an infrared light emitter

Non invasive, transcutaneous technique for periodically or continuously monitoring the oxygen saturation of blood (SpO2)

Question 11

PaO2

Answer 11

80-100 mmHg

Question 12

3 types of oxygen delivery systems

Answer 12

Low flow systems
High flow systems
Reservoir systems

Question 13

Low flow devices

Answer 13

Provide supplemental O2 directly to the airway at a flow of 8 L/ min or less.

O2 provided by a low flow device is always diluted with room air. The result is a low and variable FiO2.

Example: 8 L of flow + 22 L of room air is 30 L of flow

Question 14

Normal inspiratory flow rate

Answer 14

30-40 L

Question 15

Low flow explanation

Answer 15

Low flow is a minor assistance/ the patient will breathe but low flow helps add more flow.

Example: nasal cannula

Question 16

What factors determine FiO2 delivered by a low flow system?

Answer 16

Patients ventilatory pattern
The flow going to the device
The patients tidal volume

Question 17

Low flow O2 delivery systems include

Answer 17

Nasal cannula, nasal catheters, simple mask, tracheostomy collar

Question 18

What is the determinant if the adequacy of a low flow 02 delivery system?

Answer 18

Patient observation and ABG assessment

Question 19

What is the most commonly used low flow O2 delivery device

Answer 19

Nasal cannula

Question 20

When is a humidifier used with a nasal cannula?

Answer 20

When the patient complains of nasal irritation/ drying or if flow rate exceeds 3-4 L/ min

Question 21

Nasal cannula flow

Answer 21

1 L.  24% O2
2 L.   28% O2
3 L.   32%  O2
4 L.   36% O2
5 L.   40% O2
6 L.   44% O2

Question 22

Desired FiO2 formula

Answer 22

Desired FiO2=(desired PaO2 x current FiO2)/ Current PaO2

Question 23

Desired PaO2 for normal person

Answer 23

80

Question 24

Diaries PaO2 for COPD

Answer 24

60

Question 25

Simple mask

Answer 25

O2 delivered at no less than 5L/ min

5-10 L/ min

O2 35-50%

Question 26

Simple mask description

Answer 26

Fits over the nose and mouth and allows atmospheric air to enter and exit through side ports

Allows for higher level of O2
Used on patients who breath through the mouth

Allows some CO2 to be re-inhaled

Question 27

Partial rebreather mask description

Answer 27

Patient inhales O2 from both the O2 source and O2 contained in the reservoir bag along with atmospheric air. Inhales higher concentration of O2 than a simple mask

Used in emergencies and short term

Sources of O2 are tubing, reservoir and room air

Question 28

Partial rebreather flow rates

Answer 28

Minimum of 8-10 L/ min to prevent reservoir bag from collapsing more than 1/2 way.

If reservoir bag collapses more than 1/2 way, increase flow.

O2 variable at approximately 60%

Question 29

Non rebreather mask description

Answer 29

Look similar to partial rebreather except they have 2 valves attached to device

This mask provides more O2 without the patient breathing their own CO2.

Question 30

Flow rates for no breather mask

Answer 30

Flow 8-10 L/ min to prevent bag from closing more than halfway. If bag collapses more than halfway increase flow.

O2 70%

Question 31

When is partial rebreather used

Answer 31

In emergencies, short-term therapy requiring MODERATE TO HIGH FiO2

Question 32

When non rebreather is used and what affects performance

Answer 32

Emergencies, short term therapy requiring high FiO2

Affecting performance: liter flow into mask, size of reservoir bag, the fit of the mask

Question 33

Nasal cannula flow

Answer 33

1-6 LPM

24-44% FiO2

add 4 for every liter

Question 34

Simple mask flow

Answer 34

5-10 LPM

35-50%

Question 35

Trach mask

Answer 35

8-12 LPM

FiO2 varies

Question 36

Partial rebreather

Answer 36

8 or greater LPM

up to 60%

Question 37

Non rebreather

Answer 37

8 or greater

Up to 70%

Question 38

Dead space (VD)

Answer 38

Volume of gas that does not participate in diffusion across the alveolar capillary membrane

Air no blood flow

Question 39

4 types of dead space

Answer 39

1. Anatomical (normal)
2. Alveolar
3. Physiological
4. Mechanical

Question 40

Anatomical dead space

Answer 40

Dead space in airways that does not participate in gas exchange. (Also known as normal)

Question 41

Alveolar dead space

Answer 41

Volume of gas ventilating unperfused alveoli

Question 42

Physiological dead space

Answer 42

a combination of anatomical and alveolar dead space

Question 43

Mechanical

Answer 43

Volume of expired air that is rebreathed through connecting apparatus or tubing

Rebreathing your own CO2

This will be with machine assistance (anything outside the body)

Question 44

High flow O2 systems facts

Answer 44

Supplies a given O2 concentration at flow rates equaling or exceeding a patients peak Inspiratory flow (meets patients needs)

No room air will be used with high flow systems

This will have fixed and precise settings.

Question 45

What kind of patient is high flow good for?

Answer 45

Good for patients with “marked” variation in minute ventilation

Marked means significant

Question 46

Types of high flow?

Answer 46

Air entrainment masks (AEM) aka Venturi mask / or blending system

Both systems ensure a fixed or precise FiO2

Question 47

How does a Venturi mask work

Answer 47

Mixes O2 and atmospheric air with color coded adapters that are regulated by a dial system allow specific amounts of room air to mix with O2z

EXACT AMOUNT OF O2 prescribed

Question 48

Flow rates for Venturi mask (AEM)

Answer 48

Flow rates set to a varying range for constant O2 %: 24-50% (sometimes higher). (24,28,35,50)

Question 49

What patient is a Venturi mask best for?

Answer 49

COPD Patients

Most appropriate O2 device for chronic CO2 patients in mild to moderate respiratory distress.

Question 50

Bernoullis principle

Answer 50

As O2 from the outlet port is driven through the small jet hole, it’s velocity increases, the pressure around it drops and it entrains(draws in) air through the holes in the body of the device

Question 51

Calculating total flow for high flow devices

Answer 51

Use tic tac toe
100 on top
20 on bottom
Given Fi02 in middle
Take the differences of 100 and 20 from the middle number
Have a fraction
Add numerator and denominator of fraction
Multiple product by initial prescribed flow

Question 52

What would happen if the entrainment port was cover of occluded?

Answer 52

Flow goes down, O2 goes up

Question 53

Something to remember about high flow

Answer 53

Increasing flow will never affect or create an increase in O2 concentration

Question 54

CPAP (continuous positive airway pressure) devices

Answer 54

When a patient has a decreased functional residual capacity (FRC)
-sleep apnea, COPD, cardiogenix pulmonary edema. Immunosuppressed patients with pulmonary infiltrates, and hypoxia or atelectasis.

Question 55

In order to use CPAP a patient needs to show what

Answer 55

That they can ventilate on their own.

CPAP Only helps with oxygenation, not ventilation

Question 56

Advantages of CPAP?

Answer 56

Increases FRC (function residual capacity)

Increases lung compliance 
Can open collapsed alveoli
Improve distribution of breath
High total flows and FiO2
Increase removal of secretions

Question 57

Disadvantages of CPAP

Answer 57

First 3 most important

1. Barotrauma (excessive amounts of pressure)
2. Gastric insufflation (stomach filled with air)
3. Decreased venous return to the heart

Vomiting on aspiration
Requires adequate ventilation from patient

Question 58

What kind of device does CPAP fall under

Answer 58

High flow O2 device

Question 59

Aerosol delivery devices

Answer 59

Face shield
Tracheostomy collar
Aerosol mask 
Briggs or T tube assembly
Oxyhood

Question 60

Face shield (tent) description

Answer 60

Open on top, fits around lower face, used to avoid claustrophobia

Used for patients with facial trauma, facial/ nasal surgery or facial burns

If used with humidifier it will be COOL mist

Question 61

Disadvantage of face shield (tent)

Answer 61

O2 can actually be inconsistent due to wide opening, may need tandem devices (2 nebulizers) to increase total flow

Question 62

Tracheostomy collar

Answer 62

O2 deliver near artificial opening in neck (blow by or flow by O2)

Provides oxygenation and humidification because it bypasses the nose( the bodies nature humidifier)

Warm aerosol used.

Question 63

Aerosol mask

Answer 63

Looks similar to simple mask but has larger holes in mask.

Heated or cooled, usually heated.

Used after surgery to help with swelling of throat or to administer drugs

Needs enough flow to flush out CO2

Question 64

Briggs or T-Tube

Answer 64

Flow rates of 8-15 L/ min

“50 ml reservoir tubing to maintain FiO2”

“Adequate flow is demonstrated by visible mist”

Question 65

Disadvantages of Briggs or t-tube assembly

Answer 65

Moisture accumulates, could go down patients lung

Weight of t tube could yank on trach and cause irritation and coughing

Maybe need double the devices to keep up flow

If reservoir detaches, the amount of inspired O2 will decrease

Question 66

When you don’t know someone’s inspiratory flow rate what do you set it at?

Answer 66

60 will meet or exceed needs

Question 67

Oxyhood

Answer 67

Usually set up with a heated humidifier for perspire infants, not a nebulizer

“Delivers precise amount of oxygen that is heated and humidified”

7 lpm or greater -21-100%

Question 68

Oxygen (croup) tent

Answer 68

Large tent like device used to deliver high levels of oxygen to a bedridden patient requiring a cool environment.

Tent will cover entire head.

Recommended flow rate of 12-15 L/min to flush exhaled CO2 from the enclosure.

VARIABLE oxygen from 21-40%, up to 50%.

Question 69

Incubator

Answer 69

Keeps babies heated, stable, and can add oxygen but it will be separate from incubator.

For infants in stable condition

premature infants/ infants use these.

NICU can add O2 if needed but will be from separate device.

Question 70

Humidified High Flow Nasal Cannula (HFNC)

Answer 70

An oxygen delivery system which blends oxygen/ air from 21-100%.

Can be administered via wide bore nasal cannula or trach adapter from 1 Lpm to 60 Lpm.

Provides humidity enriched oxygen therapy for patients in mild to moderate respiratory distress.

Doesn’t augment tidal volume nor does it facilitate CO2 removal.

Question 71

5 Key benefits to Humidified high flow nasal cannula (HFNC)

Answer 71

1. Delivers a high FiO2 accurately
2. Meets the patients ventilatory demands (inspiratory flow rate)
3. Provides patient comfort and decreases work of breathing.
4. May provide positive airway pressure.
5. Optimizes mucociliary clearance.

Question 72

Humidified HFNC benefits

Answer 72

Flow rate that exceeds patients inspiratory flow rate at various minute ventilation.

Can be used as a bridge from a more invasive O2 device to a noninvasive O2 device

Question 73

Types of HFNC systems

Answer 73

Optiflow
Airvo 2
Vapotherm
Comfort flow

Question 74

Optiflow and Airvo System

Answer 74

Flow rate ranges from 1 L/min to 60 L/min
Oxygen deliverey 21-100%
Delivered via nasal cannula or trach adaptor
4 cannula sizes

Question 75

Vapotherm

Answer 75

Flow rates 1 L/min to 40 L/min
O2 delivery 21-100%
Delivery only by nasal cannula
7 different sizes

CAN BE USED FOR IN HOSPITAL TRANSIT

REMEMBER THIS SYSTEM HAS LESS FLOW CAPPING AT 40 L/MIN

Question 76

Comfort flow

Answer 76

Flow rates 1 L/min to 60 L/min
O2 delivery 21-100%
Heated/humidified using conchatherm or conchasmart tech
Delivered via nasal cannula
4 different sizes

Question 77

How should you wean from HFNC?

Answer 77

It is recommended that oxygen be weaned to 30% as tolerated, THEN begin to decrease the flow.

Adult- 10 L/min then change to conventional cannula
Pediatric- 6 L/min then change to conventional cannula
Neonate- 2 L/min then change to conventional cannula

Question 78

Oxygen toxicity

Answer 78

Lung damage that develops when O2 concentrations of more than 50% are administered for longer than 48-72 hours.

TWO PRIMARY FACTORS DETERMINE THE HARMFUL EFFECTS OF O2 TOXICITY

1. FiO2
2. EXPOSURE TIME

Question 79

COPD AND HYPOXIC DRIVE

Answer 79

Normal PaO2 for COPD patient is 60 mmHg

Raising PaO2 above 70 mmHg with supplemental O2 may “knock out” the COPD patients hypoxic drive and cause hypoventilation. (PATIENT WILL BECOME DROWSY OR SOMNOLENT)

Question 80

What devices and FiO2 do you want to stick to for COPD patients?

Answer 80

We want O2 devices that are low in FiO2 less than 30% FiO2

We want low flow nasal cannulas and venturi masks

1-2 lpm nasal cannulas

24-28% AEM (venturi mask)

Question 81

With what exception would you give a COPD patient high FiO2?

Answer 81

One exception is during resuscitation (CPR)

Use 100% FiO2

Question 82

With what exception would you give a COPD patient high FiO2?

Answer 82

One exception is during resuscitation (CPR)

Use 100% FiO2

Question 83

With what exception would you give a COPD patient high FiO2

Answer 83

One exception is during resuscitation (CPR)

Use 100% FiO2

Question 84

Pulse Oximetry

Answer 84

Oximetry utilizes a probe that transmits two wavelengths of light, red and infrared, from a light emitting diode to a photo detector through a capillary bed.

Capillary beds commonly utilized are those found in the finger, toe, or earlobe

Red light associated with deoxygenated

Infrared is associated with oxygenated

Question 85

What oxygen saturations are pulse oximeters accurate for?

Answer 85

Accurate for oxygen saturations higher than 80%.

lower than 80% indicates its not accurate

Question 86

What is the minimum value acceptable for O2 saturation?

Answer 86

90%

Question 87

What does an oxygen saturation less than 90% warrant?

Answer 87

Warrants an increase in delivered oxygen percent to the patient and a physician should be contacted.

Question 88

What is SaO2?

Answer 88

The amount of oxygen bound to hemoglobin

Found with an ABG

Question 89

What is SpO2?

Answer 89

Oxygen saturation measured by a pulse

The % of Hb that is fully saturated

Question 90

PaO2

Answer 90

Amount of oxygen dissolved in the blood plasma

Found with ABG

Question 91

With normal pH and temp, This O2 correlates to PaO2 via ABG analysis

Answer 91

90% O2 saturation to a PaO2 of 60 mmHg

Question 92

Normal SpO2

Answer 92

Normal is 98-99%

Question 93

Other ranges in SpO2

Answer 93

Acceptable for normal people: anything greater than 95%
Acceptable for a COPD patient: 88%
Acceptable in a sick patient: anything less than less than 90%

(A really sick patient may have a SpO2 in the 80’s)

Question 94

What are some indications for Pulse oximetery

Answer 94

When receiving supplemental O2

When weaning patients patients from mechanical ventilation

During sleep apnea studies

During cardiopulmonary stress studies

To determine if an arterial blood gas sample is arterial or mixed venous blood by comparison of saturations
(IF ABG IS DRAWN IT VERIFIES IF NEEDLE POKE ACTUALLY HIT ARTERY)

Question 95

Factors that affect accuracy of pulse oximeter?

Answer 95

External bright
Patients with weak or absent peripheral pulses, low perfusion states
Motion artifact (moving around too much)
Artificial or painted nails
Skin pigmentation
Injection of radiographic dyes

Question 96

What is Methemoglobin?

Answer 96

Oxidized hemoglobin
Saturations read around 85%
(falsely low at high SpO2, falsely high at low SpO2)

Question 97

What Carboxyhemoglobin?

Answer 97

Carbon monoxide poisoning

CO bind to O2 with 250 times the affinity of O2

Readings are artificially high

Question 98

percentages related to Carboxyhemoglobin

Answer 98

Normally less than 5%
Smokers will be 9% or less
Symptoms of CO poisoning start at 15-25% (headache, nausea, fatigue)

Above 30%: dizziness, mental confusion, sever headache, fainting

50% unconscious or death
Treatment for CO poisoning is 100% O2

Question 99

How to ensure accuracy of pulse oximeter?

Answer 99

Compare actual counted heart or ECG rate to the displayed heart rate on the oximeter.

Also look at pleth ( mountain like outline that goes up and down for heart beat)

Irregular pleth or straight line (you can’t trust the reading)

Question 100

Probe placement for pulse oximeter?

Answer 100

Adults: fingers, toes, earlobe
(preferred: non dominate hand)

Children: hand, wrist, foot

Question 101

What does pnuematically powered mean?

Answer 101

Powered by a compressed gas

Question 102

How do you know if you patient needs humidity?

Answer 102

Dry cough aka a nonproductive cough
nose bleeds
increased work of breath
increased incidence of infections
thick secretions

Atelectasis

Question 103

What are the four factors that effect the efficiency of humidifiers?

Answer 103

1. Temperature
2. Time expose
3. surface area
4. Depth of water in reservior

Question 104

What does inpissated mean

Answer 104

Thickened, dried, or made less fluid by evaporation.

Question 105

Humidity deficit results in?

Answer 105

impairs ciliary activity
atelectasis
pneumonia
inflammation
retention of tenacious secretions

Question 106

What is a servo controlled humidifier?

Answer 106

Heated humidifier that regulates the delivery temperature

shuts down heater if theres no water in it

Like a heater in a house it comes on/off when needed

Question 107

What does inpissated mean?

Answer 107

Thickened, dried, made less fluid by evaporation

Question 108

What are four factors that effect humidification?

Answer 108

contact time, temperature, surface area, depth of water reservoir

Question 109

Humidity is water in what form?

Answer 109

Molecular form

Less chance of carrying germs

will be invisible

Question 110

What is bland aerosol?

Answer 110

1. sterile water
2. hypertonic saline (has extra salt)
3. isotonic saline (this is normal saline in body)
4. hypotonic saline (thick secretion)

Question 111

Why would we want to heat the nebulizer?

Answer 111

Increasing the temperature will carry moisture

Question 112

What is the purpose of a baffle?

Answer 112

Makes particles smaller

Question 113

What should you do if your nebulizer is not producing mist?

Answer 113

Make sure jet is inside

Question 114

What does pneumonic mean

Answer 114

Powered by compressed gas

Question 115

What type of matter do aerosols produce?

Answer 115

Particulates

Question 115

What type of matter do aerosols produce?

Answer 115

Particulates

Question 116

How do you add humidity to an AEM( venti) mask?

Answer 116

Large volume nebulizer

Question 117

How do you estimate inspiratory flow?

Answer 117

Inspiratory flow aka minute ventilation

VE= Tidal volume x Respiratory rate

Question 118

When do you need an analyzer?

Answer 118

When FiO2 needs to be known:

COPD patient
oxyhood
briggs adaptor
mist tent
trach collar

Question 119

What does a whistling bubble humidifier mean?

Answer 119

Bubble humidifiers have a safety pressure relief or pop off valve

It will whistle and pop up to RELEASE EXCESSIVE PRESSURE

(can be caused by high flow or kinked tube)

Question 120

what is an aerosol?

Answer 120

Aerosol is the suspension of solid or liquid particles in a gas

Medical aerosols generated by nebulizers, inhalers, and atomizers

REMEMBER AEROSOLS AND NEBULIZERS DELIVER PARTICULATE MOISTURE

Question 121

FACTORS AFFECTING PARTICLE DEPOSITION?

Answer 121

intertial impaction (tend to follow same path)
sedimentation (larger particles are deposited)
size (larger particles deposit faster)
diffusion (movement from an area of higher concentration to an area of lower concentration)

Question 122

inertial impaction

Answer 122

Inspiratory flow rates greater than 30 L/min associated with increased inertial impaction

Larger the particle the more likely to move alone in a set path.

Question 123

turbulent flow

Answer 123

Larger particles are deposited

Question 124

Sedimentation

Answer 124

Particles are deposited due to gravity

Sedimentation is main reason for deposition of particles

Question 125

diffusion

Answer 125

most aerosol particles reach the lungs by diffusion

Question 126

Increased deposition factors

Answer 126

Patient factors: larger Vt, Longer inhalation, breath hold

Other:

Flow- higher the flow the smaller the particle size
Jet orifice: larger the orifice, larger the particle size

Humidity increases particle size

Question 127

Bernoulli’s principle

Answer 127

A fall in pressure in a flowing fluid must always be accompanied by an increase in the speed

Question 128

How to avoid contaminating reservoir

Answer 128

Change water, wash hands, avoid touching inside of reservoir

Question 129

How do jets work?

Answer 129

compressed air expands, and increases velocity

expanding air causes an under pressure and liquid is sucked up to the air orifice

liquid meets rapidly expanding air, forming droplets

the droplets are carried on the air to the baffle system

Question 130

How are large volume nebulizers powered and what about their flow rates?

Answer 130

Pneumatically powered ( powered by compressed gas)

Flow rates meet or exceed patients inspiratory demand

Question 131

How do do you determine total flow?

Answer 131

Use magic box

(tic tac toe)

100 on top

20 on bottom

current Fio2 in middle

Question 132

Heated large volume nebulizers

Answer 132

Used to humidify( add water content) to gas delivered to patients

( this was large container of liquid that screwed into flowmeter)

Question 133

Flow rates for small volume nebulizer

Answer 133

Most effective flow rate is 7-8 L
5 L for infants only

The higher the flow the smaller the particle size

Question 134

Flow for Large volume nebulizers

Answer 134

Typical flows 10-15 L

Need to see mist on inspiration

May need to “t” another flowmeter to provide adequate flow

Question 135

Electrochemical analzyers

Answer 135

calibrate at both 100% O2 and 21% room air before using.

Galvanic analyzers have fuel cells

Polarographic analyzers use batterys

Question 136

PRN
SB
DC

Answer 136

PRN (as needed)
SB (standby)
DC (discontinued)