E2 - Breathing System I

Question 1

What are the six functions/definitions of the breathing system?

Answer 1

• Receives gas mixture from machine
• Removes CO2
• Delivers gas to the patient
• Provides heating and humidification of the gas mixture
• Provides gas sampling, measures airway pressure, and monitors the volume
• Allows spontaneous, assisted, or controlled respiration

Question 2

What is considered apparatus dead space?
A. y piece to the patient + inspiratory limb
B. y piece and distal (towards patient)
C. y piece to the patient + insp and exp limbs
D. y piece and proximal (away from patient)

Answer 2

B. Y piece and distal

decrease apparatus DS by having y piece as close to pt as possible

Question 3

What are the six desirable characteristics of a breathing circuit?

Answer 3

• Low resistance to gas flow
• Minimal rebreathing
• Removal of CO2 at rate of production
• Rapid changes in delivered gas when required
• Warmed humidification of inspired gas
• Safe disposal of waste gases

Question 4

Name and Describe the four classifications of breathing circuits.

Answer 4

• Open - No reservoir bag and no rebreathing (nasal cannula)
• Semi-Open - Reservoir bag but no rebreathing d/t FGF > minute ventilation.
• Semi-Closed - Reservoir bag w/ partial rebreathing
• Closed- Reservoir bag and complete rebreathing, FGF equivalent to patient uptake

Question 5

When would you want a closed breathing circuit?

Answer 5

• Conserve patient’s temperature
• Trying to be economical and not waste any gas
• Trying to perform low flow anesthesia

Question 6

Name the components of the breathing system.

Answer 6

• Facemask, LMA, ETT
• Y-piece with mask/ tube connectors
• Breathing tube (corrugated tubing)
• Respiratory Valves (unidirectional)
• Fresh gas inflow site
• APL (Pop-off) Valve leading to scavenger
• CO2 absorption canister
• Reservoir Bag

Question 7

The facemask needs to fit between the _____________ and in the groove between the ___________ and alveolar ridge.

Answer 7

• interpupillary line
• mental process

Question 8

The facemask will connect to the Y-piece/connector, how big is the female connection?

Answer 8

• 22 mm

Question 9

A fitting that joins together 2 or more components.

Answer 9

• Connectors/ Adapters

Question 10

What are the benefits of connectors and adaptors?

Answer 10

• Extends the distance b/w patient and breathing system
• Change the angle of the connection
• Allow more flexibility/ less kinking (The accordion will give you the most flexibility)

Question 11

What are the disadvantages of connectors and adaptors?

Answer 11

• Increased resistance
• Increased dead space
• Additional locations for disconnections

Question 12

How long is the breathing tubing?
What is the internal volume of the breathing tubing?

Answer 12

• 1 meter in length
• 400-500 mL for each meter in length

Question 13

Describe the flow in the corrugated breathing tubing.

Answer 13

• Turbulent Flow

Question 14

True/False: Breathing tubes connected together to increase tube length will increase dead space.

Answer 14

• False
• Longer tubes do not create deadspace
• Dead space is only from Y-piece to patient

Question 15

Pressure check the circuit before use. What value should this be?

Answer 15

• 30 cm H2O

Question 16

With a normal tidal volume. How much air is in the anatomical deadspace?

Answer 16

• 150 mL

That is why we deliver at least 300 mL of tidal volume in simulation for adequate ventilation.

Question 17

What directs respiratory gas flow in the correct direction?

Answer 17

• Unidirectional valves

These unidirectional valves must open widely with very little pressure. Low resistance, high competence. Open/Close rapidly with no backflow.

Question 18

The inspiratory valve opens on ___________.
The inspiratory valve close on _________.
What does the inspiratory valve prevent?

Answer 18

• The inspiratory valve opens on inspiration.
• The inspiratory valve close on exhalation.
• Prevents backflow of exhaled gas

Question 19

The expiratory valve opens on ___________.
The expiratory valve close on _________.
What does the expiratory valve prevent?

Answer 19

• The expiratory valve opens on exhalation.
• The expiratory valve close on inspiration.
• Prevents rebreathing

Question 20

Proper valve placement and functioning prevents any part of the circle system from contributing to _________.

Answer 20

• Apparatus Dead Space

Question 21

What composes the apparatus dead space?

Answer 21

• Distal limb of Y-connector
• Tube/mask/LMA

Question 22

The unidirectional valves are located near what parts of the breathing system?

Answer 22

• CO2 absorber canister
• Fresh gas inflow site
• APL Valve

Question 23

What are the 5 requirements of unidirectional valves?

Answer 23

• Arrows/ Directional words
• Hydrophobic - needs to repel water/moisture
• Must open and close appropriately
• **Clear dome **- need to visualize if valves are working
• Must be placed between patient and reservoir bag

Question 24

How much volume is in a traditional reservoir bag?

Answer 24

• 3 L

Can range from 0.5 to 6 L

Question 25

All reservoir bags must have _____ mm female connector on the neck.

Answer 25

• 22 mm

Question 26

Anesthesia reservoir bags must adhere to pressure standards, which mandate:
- a minimum pressure of approximately ____ cm H2O
- a maximum pressure of approximately ____ cm H2O when the bag is filled to four times its stated capacity.

Answer 26

• 30 cm H2O (minimum)
• 60 cm H2O (maximum)

Although most bags adhere to these standards, some latex-free bags have exceeded the upper pressure limit.

Question 27

Which unidirectional valve is more likely to be stuck? Inspiratory or Expiratory?

Answer 27

• The expiratory valve is more vulnerable because it is subject to** greater moisture exposure**.

Miller pg. 605

Question 28

What are the 4 functions of the reservoir/breathing bag?

Answer 28

(1) Reservoir for anesthetic gases/oxygen

(2) A means of delivering manual ventilation or assisting spontaneous breathing

(3) Serving as a visual or tactile means of monitoring a patient’s spontaneous breathing efforts

(4) Partially protecting patient from excessive positive pressure in the breathing system.

Question 29

What is another name for the Gas Inflow site?

Answer 29

• Fresh gas inlet

Question 30

Where is the preferred location of the fresh gas inflow site?
A. Between patient and inspiratory valve
B. Between CO2 absorber and APL valve
C. Between CO2 absorber and inspiratory valve
D. Between patient and expiratory valve

Answer 30

C. Between CO2 absorber and inspiratory valve

Question 31

When does the fresh gas scrub out the CO2 absorber?

A. during expiration
B. during inspiration
C. during assisted PPV
D. during spontaneous inspiration

Answer 31

A. During expiration

During expiration, the inspiratory valve will be closed. When this occurs, fresh gas will travel to the CO2 absorber.

Question 32

What is the downside of having the fresh gas inflow valve so close to the CO2 absorbent?

A. Fresh gas could wet the absorbent
B. Fresh gas could mix with CO2
C. Fresh gas could explode the absorbent
D. Fresh gas can dry out absorbent

Answer 32

D. Fresh gas can dry out the absorbent

Question 33

What is the Adjustable Pressure-Limiting Valve (APL) / Pop-off Valve?

Answer 33

The APL valve is an operator-adjustable relief valve that vents excess breathing circuit gas to the scavenging system and provides control of the breathing system pressure during spontaneous and manual modes of ventilation.

Tightened screw cap (closed) = more gas pressure required to open it

Question 34

Clockwise motion of the APL valve will ______ pressure.

Answer 34

• Increase

“close”

Question 35

Counterclockwise motion of the APL valve will ______ pressure.

Answer 35

• decrease

“opens” APL valve

Question 36

How many turns does it take for the APL valve to go from fully open to closing fully?

Answer 36

• 1-2 clockwise turn

Question 37

Can the absorbent be replaced in the middle of a surgical case?

Answer 37

• Yes, the housing compartment incorporate valves that closes when removed to prevent gas loss

think of the coffee pot example

Question 38

Name the components of soda lime.

Answer 38

• Calcium hydroxide (80%)
• Sodium hydroxide/ Potassium hydroxide (5%)
• Water (15%)
• Small amount of silica/clay

Question 39

Most absorbents use calcium hydroxide to react with the expired CO2, producing what 3 byproducts?

Answer 39

• Insoluble calcium carbonate (CaCO3)
• Water
• Heat/Energy

Question 40

Because CO2 does not react quickly with calcium hydroxide, what are the catalysts required to speed up the reaction? Select 2.
A. beryllium hydroxide
B. Water
C. Litholyme
D. NaOH
E. potassium hydroxide
F. Lithium Hydroxide

Answer 40

D. Sodium hydroxide
E. Potassium hydroxide

Question 41

How do you know when the soda lime has been fully exhausted?

Answer 41

• It turns from white to purple
• All hydroxides have become carbonates

Question 42

Soda lime can absorb _____% of its weight in CO2.

100 grams of soda lime can absorb _______ L of CO2.

Answer 42

• 19%
• 26 L

Question 43

Name the components of Calcium Hydroxide Lime (Amsorb Plus).

Answer 43

• Calcium hydroxide (70%)
• Calcium chloride (0.7%)
• Calcium sulfate (0.7%)
• Polyvinylpyrrolidone (0.7%)
• Water (14.5%)

Question 44

What is the drawback of Baralyme?

Answer 44

• Compound A formation (found in rats)
• Carbon Monoxide formation
• Destruction of inhaled gases

Calcium hydroxide lime decreases Compound A formation, CO formation, and destruction of inhaled gases.

Question 45

Name This Absorbent:
- Reacts with CO2 to from carbonate
- More CO2 absorption capacity
- Used in submarines and spacecraft
- Not usually used in anesthesia

Answer 45

• Lithium Hydroxide

Question 46

Name This Absorbent:
- Has a Lithium chloride catalyst and does not react with inhaled gases
- No activators/strong bases
- Does not form Compound A and carbon monoxide
- Has color change (white to purple) but no regeneration
- ↓ Fire Risk

Answer 46

• Litholyme

Question 47

Name this Absorbent:
- Anhydrous LiOH powder, hydrated polymer sheets
- No activators/strong bases
- ↓ Temperature production
- Cheap
- No color indicator, no color change

Answer 47

• Spira-Lith

Question 48

Which of the following absorbent **does not ** have any CaOH in it?

A. Amsorb
B. Spiralith
C. Soda Lime
D. Litholyme

Answer 48

B. Spiralith has 0% CaOH2

Soda Lime (Sodasorb) and Litholyme both contain about 75% Calcium Hydroxide

Question 49

Which of the following absorbent is composed of 95% Lithium Hydroxide?

A. Soda Lime
B. Litholyme
C. Spiralith
D. Amsorb

Answer 49

C. Spiralith has 95% LiOH

Question 50

Which of the following absorbent does NOT have color indication?

A. Soda Lime
B. Litholyme
C. Spiralith
D. Amsorb
E. Sodasorb

Answer 50

C. Spiralith

Question 51

What is the most common dye for absorbent indicators?

Answer 51

• Ethyl Violet

Ethyl violet causes soda lime to turn from white to purple when exhausted

Question 52

What color will ethyl orange and cresyl yellow turn when exhausted?

Answer 52

• Yellow

Question 53

Carbonate formation will cause pH to become less (alkaline or acidic) ____ and cause the contents of the CO2 canister to turn from white to _______.

Answer 53

• less alkaline (lower pH)
• blue violet (purple)

Question 54

The soda lime experiences color change at what pH:
A. pH > 10.3
B. pH < 10.3
C. pH > 10.1
D. pH < 10.1

Answer 54

B. pH less than 10.3

purple = exhausted

Question 55

When absorbent is exposed to light for a period, what can happen? Select 2.
A. Regeneration
B. Becomes colorless
C. Bleaching
D. Fire can occur
E. Absorbent indicator doesn’t work as well

Answer 55

C. Bleaching
E. Absorbent indicator does not work as well

Question 56

Absorbents have high reliability indicating CO2 rebreathing, but what is the gold standard?
A. color change
B. capnometry
C. capnography
D. visualization

Answer 56

B. Capnometry

Question 57

CO absorbent granules are measured in what units?
A. mesh units
B. mL
C. mm
D. mL/cmH2O

Answer 57

A. Mesh Size
* 4-8 mesh size (optimal for CO2 absorbers)

Mesh size - the # of openings per linear inch in a sieve through which the granular particles can pass. For example, a 4-mesh screen means that there are four quarter-inch openings per linear inch

Question 58

The ability of the workstation’s absorber to remove CO2 is related to three main factors:

Answer 58

• The amount of absorbent surface area exposed to the exhaled gas
• The intrinsic capacity of the absorbent to remove CO2
• The amount of non-exhausted absorbent remaining.

Question 59

The size and shape of the absorptive granules are intended to maximize ________ while minimizing ________ .

A. drying ; surface area
B. surface area ; absorption
C. surface area ; resistance
D. resistance ; surface area

Answer 59

C. Maximize Surface Area/Absorption while Minimizing resistance to airflow

Question 60

Roughly half of the volume of the CO2 canister will be composed of _______.

Answer 60

• gas

Question 61

What factors can decrease the efficiency of CO2 absorption? Select 2.
A. Excess gas in the canister
B. Increase surface area
C. Decrease surface are
D. Excess water in the canister
E. Increased absorbent in canister

Answer 61

C. Decrease surface area
D. Excess water in the canister **(change canister if you see liquid) **

Question 62

What is the method of small passageways allowing gas to flow through low-resistance areas called?

A. Barreling
B. Cutting
C. Channeling
D. Blowing

Answer 62

C. Channeling

Channeling decreases functional absorptive capacity!

Question 63

What are ways to minimize channeling?
A. Circular baffles (flow-directing panels)
B. Placement for vertical flow
C. Permanent mounting
D. Prepackaged cylinders
E. Avoiding overly tight packing
F. All of the above

Answer 63

F. ALL OF THE ABOVE
* Circular baffles (flow-directing panels)
* Placement for vertical flow
* Permanent mounting
* Prepackaged cylinders
* Avoiding overly tight packing

Question 64

The decomposition of sevoflurane will form this substance.

Answer 64

• Compound A

2-fluoromethyl-2,2-difluoro-1-(trifluoromethyl) vinyl ether

Question 65

Compound A causes what toxicity in rats?

Answer 65

• Nephrotoxic in rats

• Possible in humans

Question 66

Compound A formation occurs with:

Answer 66

• Low FGF (1-2 L/min)
• Increased absorbent temperature
• Higher inspired sevoflurane concentrations (1.5 to 2 MAC)
• dessicated absorbent
• Longer anesthetic
• Absorbent containing** NaOH or KOH**

Question 67

Carbon monoxide can occur due to what factor?

Answer 67

• Dry absorbent from leaving the fresh gas flow on
• If CO2 absorber hasn’t been used for a long period of time (months)
• ‘Monday, 1st case’- gas left on over the weekend
• Increased Temperature
• Increased Concentration of anesthetic gases (ESPECIALLY DESFLURANE)
• Low FGF rate (1-2L/min)
• Smaller patients (can’t rehydrate a desiccated absorbent)
• Strong base absorbents (KOH or NaOH)

Question 68

Rank the order of anesthetic gases from highest to lowest level of carbon monoxide formation.

Answer 68

Desflurane ≥ enflurane > isoflurane > > halothane = sevoflurane

D E I H S

Question 69

How does an exothermic reaction leading to fires and explosions occur with anesthetic gases?

A. Desiccated strong base absorbents interact with sevoflurane
B. Hydrated absorbents interact with sevoflurane
C. The oxygen being left on mixes with sevoflurane and causes an explosion
D. Sevoflurane use sparks oxygen to cause fires

Answer 69

A. Desiccated strong base absorbents interact with sevoflurane
* Examples of strong base absorbents: Baralyme, anhydrous LiOH

Buildup of high temperatures, flammable degradation products (formaldehyde, methanol, and formic acid), and oxygen or nitrous rich gases w/in the absorber all provide basis for combustion

Question 70

Which anesthetic gas should be avoided with desiccated strong base absorbents?
A. Isoflurane
B. Desflurane
C. Halothane
D. Sevoflurane

Answer 70

D. Sevoflurane

Question 71

Anesthesia Patient Safety Foundation Recommendations

Answer 71

• ALL gas flows turned off after each case
• Vaporizers turned off when not in use
• Absorbent changed regularly
• Change when color change indicates exhaustion
• Change all absorbent
• Change absorbent when uncertain about the state of hydration
• If using compact canisters, change more frequently