I. Anesthesia Breathing Circuit

Question 1

What are the two main goals of the anesthesia breathing circuit?

Answer 1

1. Deliver oxygen and anesthetic gases.
2. Eliminate carbon dioxide ( either by wash out with adequate fresh gas flow or by absorption)

Question 2

The volume of gas inspired or expired with each respiratory cycle.

Answer 2

Tidal volume (Vt)

Tidal Volume is measured as the amount of air inspired or the amount of air expired (depending on the configuration of the anesthesia machine – it is not a measure of both (combined amount).

During normal breathing, inspiration should roughly equal the volume of expiration.

Question 3

What is the normal tidal volume (ml/kg/breath)?

Answer 3

6-8 ml/kg/breath

Question 4

Breaths per minute

Answer 4

Respiratory rate

Question 5

What is the normal respiratory rate?

Answer 5

12-16 breaths/min

Question 6

Total volume of gas entering/leaving lungs per minute

Answer 6

Minute ventilation

Question 7

How do you calculate minute ventilation (Ve)?

Answer 7

Ve = Vt x RR

Question 8

What is the normal minute ventilation??

Answer 8

70-100 ml/kg/min

Question 9

Volume of breath that does not participate in gas exchange (ventilation without perfusion)

Answer 9

Dead space (Vd)

Question 10

Vd/Vt = _____

Answer 10

1/3 tidal volume

Question 11

What is it called when some expired alveolar gas (containing ____ CO2) is inspired in the next tidal volume?

Answer 11

• Rebreathing
• 5%

Question 12

What are a few variables that affect rebreathing?

Answer 12

1. Circuit design
2. FGF rate
3. Scavenging

Question 13

What is the main reason we would want to mitigate rebreathing?

Answer 13

In order to disallow carbon dioxide levels in the blood from increasing

Question 14

Resistance to flow can be minimized by:

Answer 14

1. Reduction in circuit length.
2. Increase circuit diameter.
3. Avoid Sharpe bends in circuit.
4. Eliminate unnecessary valves.
5. Maintain laminar flow. 

Question 15

What are two main breathing circuit design considerations intended to ensure the patient breathes in a satisfactory way?

Answer 15

1. Decrease the work of breathing
2. Decrease physiological dead space

Question 16

What classification of anesthetic breathing systems is employed on modern anesthesia machines??

Answer 16

Semi closed

Question 17

What are the four different classifications of anesthetic breathing systems??

Answer 17

1. Open.
2. Semiopen.
3. Semi closed
4. Closed

Question 18

Which anesthetic breathing system is subdivided into various Mapleson systems?

Answer 18

Semiopen

Question 19

How many unidirectional valves are featured on the semi closed system?

Name them.

Answer 19

3

APL, Inspiratory, Expiratory

Question 20

Which breathing circuit has virtually no connection between the breathing circuit and the patient’s airway?

Answer 20

Open circuit

Question 21

Nasal cannula, open drop ether, and insufflation are all examples of what type of circuit?

Answer 21

Open circuit

Question 22

An open circuit has no:

Answer 22

Rebreathing
Scavenging (No unidirectional valves)
Reservoir
Neutralization of CO2

Question 23

A nonrebreather circuit is what type of circuit?

Answer 23

Semi-open

Question 24

Semi-open breathing systems feature what characteristics?

Answer 24

1. No neutralization of CO2
2. No rebreathing BUT requires high fresh gas flow
3. Work of Breathing is Low because there are no unidirectional valves or absorption canisters that can increase resistance
4. May have an APL valve
5. May have a gas reservoir bag

Question 25

What are the 5 basic components of the Mapleson breathing circuit?

Answer 25

1. Facemask.
2. Reservoir bag.
3. Corrugated tube.
4. Fresh gas, flow inlet.
5. Expiratory valve or adjustable pressure limiting (APL) valve

Question 26

What Mapleson component stores fresh gas flow for following inspiration?

Answer 26

Reservoir bag

Question 27

Apart from fresh gas storage, what are two other uses for the Reservoir bag?

Answer 27

1. Acts as a monitor of patients ventilation.
2. Used to assist or control ventilation

Question 28

What Mapleson component connects the components of the circuit to the patient, and can also act as an additional reservoir for gases?

Answer 28

Corrugated tube (b/w facemask and Reservoir bag)

Question 29

In terms of length and diameter, what would allow a corrugated tube to have the most optimal gas flow?

Answer 29

Increased diameter

Shortened length

Question 30

One-way adjustable, spring-loaded valve that allows gases to escape when the pressure exceeds a set limit.

Answer 30

Expiratory or APL valve

Question 31

What Mapleson System s good fro spontaneous breathing patients due to its low resistance?

Answer 31

Mapleson A

Hint: spontAneous breathing

has low minimum FGF rate to eliminate rebreathing

2 Modifications of A: Magill & Lack

Question 32

What is an inconvenience of the Mapleson A circuit?

Answer 32

Pressure relief valve is located inconveniently close to the patient

Fresh gas inlet is near the reservoir bag

Question 33

What two systems require FGF of 2x the minute ventilation in order to eliminate rebreathing, thus making these systems obsolete?

Answer 33

Mapleson B & C

*However, these systems are frequently used all over the hospital for emergency resuscitation and/or manual ventilation**

Question 34

What is the major advantage to the Mapleson C system?

Answer 34

It is very light and Compact

Ambu bag

Question 35

What type of system is the Ambu bag?

Answer 35

Mapleson C

Question 36

Which system is also known as the Bain system?

Answer 36

Mapleson D

Question 37

Which system has an inner tube for FGF, while the exhaled gas exits through the corrugated outer tube?

Answer 37

Mapleson D (Bain)

Question 38

What are the major disadvantages of the Mapleson D?

Answer 38

• Inefficient for SPONTANEOUS VENTILATION Requires FGF 3x Ve
• Unrecognized O2 disconnects
• Kinking of inner FGF tube
• Not easily converted to portable

Hint: NUKI

Question 39

What are the advantages of the Mapleson D?

Answer 39

• Efficient for CONTROLLED VENTILATION (only requires FGF 1x Ve)
• FGF warmed by surrounding exhaled gases
• Improved humidification with partial rebreathing
• Ease of scavenging waste gases
• Easily accessible APL valve
• Disposable/sterile

Question 40

What is the major difference in the Mapleson E & F systems compared to others?

Answer 40

They are valveless

Question 41

In the Mapleson ____ system, tubing is added to the expiratory circuit which effectively becomes the FG reservoir during inspiration.

Answer 41

E

Question 42

The Mapleson F is a modification of the E system, but with what major addition?

Answer 42

A reservoir bag

Allows us to observe ventilation during SV as well as controlled ventilation & support breathing

Question 43

What are the 2 major disadvantages of both the E & F systems?

Answer 43

1. Poor waste gas removal (requires high FGF 3x Ve)
2. Poor humidification preservation

Question 44

What anesthesia niche do the E & F systems accommodate?

Answer 44

Popular with pediatrics (Mostly F system: Jackson-Rees Modification)

Easy to assemble, Inexpensive, LOW RESISTANCE (NO VALVES)

Question 45

Mapleson ____ has the FGF inlet and APL valve near the facemask.

Answer 45

Mapleson B

Question 46

Mapleson ____ features the APL valve near the reservoir bag.

Answer 46

Mapleson D

Question 47

Mapleson _____ has no APL valve or reservoir bag.

Answer 47

Mapleson E

Question 48

Which system has an open ended Reservoir bag but no APL valve?

Answer 48

Maplson F

Question 49

Efficiency in spontaneous ventilation Mnemonic:

Answer 49

All Dogs Can Bite

A>DFE>CB

Question 50

Efficiency and controlled ventilation mnemonic:

Answer 50

Dog Bites Can Ache

DFE>BC>A

Question 51

What circuit as EFFECTIVE for both controlled and spontaneous ventilation?

Answer 51

Mapleson D

Question 52

What system is used for resuscitation with manual ventilation because they are small and light weight (no corrugated tubing)?

Answer 52

Mapleson C

Question 53

Which circuit issues for both the spontaneous and controlled ventilation in pediatric patients?

Answer 53

Jackson-Rees (F)

Question 54

Hey circle system can be what three types of circuits, depending on the amount of fresh gas flow?

Answer 54

1. Semi open.
2. Semi closed.
3. Closed.

Question 55

Which type of system is associated with partial rebreathing of gases with moderate fresh gas flow?

Answer 55

Semi-closed

Question 56

Which system is associated with total rebreathing of exhaled gases with low fresh gas flow?

Answer 56

Closed system

Question 57

Which breathing system has a low fresh gas flow requirement, and therefore requires the carbon dioxide to be mostly absorbed, leading to frequently, exhausted absorbent.

Answer 57

Closed breathing circuit

• this type of circle system is not utilized in current practice, however, it’s basic function can be mimicked with modern machines*

Question 58

Characteristics of the closed breathing system

Answer 58

• Always has a gas reservoir bag
• Total rebreathing of exhaled gases
• provides for chemical neutralization of carbon dioxide
• • absorbent exhausted quickly due to low fresh gas flow*
• Fresh gas flow requirement is much less than Ve
• contains three unidirectional valves
• • work of breathing is higher than open or semi-open systems

Question 59

Characteristics of the semi closed breathing system

Answer 59

• Partial rebreathing of exhaled gases
• Provides for a chemical neutralization of carbon dioxide
• Fresh gas flow requirement is less than Ve (moderate fresh gas flow)
• contains three unidirectional valves
• • work of breathing is higher than open or semi open systems*

Question 60

Advantages of the circle breathing system

Answer 60

• Stability of inspired gas concentrations
• Conservation of respiratory moisture and Heat
• Prevention of operating room Pollution
• Can be used for all Ages
• Closed system or low flow possible
• Low Resistance

SHARP Circle

Question 61

Disadvantages of the circle breathing system

Answer 61

• Complex design
• Increased dead space (normal = .33/ intubated = .46/ mask = .65)
• malfunctions of unidirectional valves are possible

Question 62

What are the six components of the circle system?

Answer 62

1. Fresh gas Inlet (B/w absorber & inspiratory valves)
2. Unidirectional check valves. (Close to pt in both the inspiratory and expiratory limbs)
3. APL valves (before absorber)
4. Reservoir bag (in expiratory limb)
5. CO2 absorbent Canister. (B/w inspiratory and expiratory limbs)
   6 . Y-Piece connector 

I Ate CURY

Question 63

what component conserves absroption capacity and minimizes loss of fresh gas?

component of the circle system

Answer 63

APL Valve

Question 64

what are two ways that CO2 absorbants minimize waste?

Answer 64

1. Allows reduction of fresh gas flow (w/o absorbant, FGF would have to be ↑)
2. Allows exhaled anesthetic agents to get rebreathed (circulate back through the system)

Question 65

3 types of CO2 absorbant

Answer 65

1. Soda Lime (Sodium hydroxide)
2. Baralyme (Barium hydroxide)
3. Amsorb Plus (Ca Chloride)

Baralyme removed from market in 2005 due to fire/explosion risk

Question 66

What are the two types of dead space?

Answer 66

1. Anatomical Dead Space: this relates to the volume of air that remains in the airways after completion of an inspiration, and does not reach the alveoli for oxygen exchange. Approximately 1/3 of each inspiration remains in anatomical dead space (trachea, bronchi, & bronchioles).
2. Physiological Dead Space: air reaches the alveoli, but due to abnormality, oxygen is unable to be exchanged. There could little/no perfusion or other lung disease or condition (embolism).

Question 67

Mapleson Circuits Image

Answer 67

Question 68

Mapleson Circuit Mnemonic

Answer 68

A: APL near pt.

B/C: “Both Combined” - APL & FGF near pt
(C: Corrugated tube absent)

D: Distant APL away from patient
(FGF still neat pt)

E: “Everything Absent” No APL/No Bag
(FGF still near pt)

F: “Free-Flow” No APL valve

Question 69

All Mapleson circuits have this one thing in common?

Answer 69

FGF inlet

Question 70

Mapleson E & F both are missing what?

Answer 70

No APL

Question 71

All mapleson circuits have a reservoir bag except?

Answer 71

Mapleson E

Question 72

Halothane color

Answer 72

Red

Question 73

Enflurane color

Answer 73

Orange