Anesthesia Delivery System

Question 1

What is the function of the anesthesia breathing system?

Answer 1

deliver oxygen and anesthetic gases to patient and remove CO2

Question 2

What 2 ways can CO2 be removed from the breathing circuit?

Answer 2

washout with FGF or by use of CO2 absorber

Question 3

What are the essential requirements of a breathing system?

Answer 3

deliver the gases from the machine or device to alveoli in the same concentration as set and in the shortest possible time
effectively eliminate CO2
have minimal apparatus dead space
low resistance

Question 4

What are some desirable requirements of the breathing system?

Answer 4

economy of fresh gas
conservation of heat
adequate humidification of inspired gas
light weight
convenient to use
efficiency during spontaneous and controlled ventilation
adaptability for adults, children & mechanical vents
provision to reduce environmental pollution

Question 5

You want low resistance in the breathing circuit, what are some ways this can be achieved?

Answer 5

short tubing, large diameter tubing, avoid sharp bends, caution with valves, minimize connections

Question 6

Rebreathing may be beneficial, why?

Answer 6

cost reduction and adds humidification and heat to gas

Question 7

What dont you want the patient rebreathing? How can this be prevented?

Answer 7

CO2; higher FGF is associated w/ less rebreathing in ANY type of circuit

Question 8

What increases the chance of rebreathing CO2?

Answer 8

deadspace

Question 9

Deadspace ends where the ___________&_____________gas streams diverge?

Answer 9

inspiratory and expiratory

Question 10

How can apparatus dead space be minimized?

Answer 10

separating the inspiratory and expiratory streams as close to the patient as possible

Question 11

T/F: The concentration inspired is closest to what is delivered from the common gas outlet when rebreathing is minimal or absent.

Answer 11

true

Question 12

What are the 4 classifications of anesthesia delivery systems?

Answer 12

1. open
2. semi-open
3. semi-closed
4. closed

Question 13

What are the characteristics of an open system?

Answer 13

no gas reservoir bag; no valves; no rebreathing of exhaled gases

Question 14

What are the 2 types of open systems?

Answer 14

insufflation/blow by & open drop

Question 15

What are some examples of insufflation?

Answer 15

blow by; tent; bronchoscopy port; nasal cannula; steal induction

Question 16

What are some advantages to insufflation?

Answer 16

avoids direct patient contact; no rebreathing of CO2; no reservoir bag or valves

Question 17

What are some disadvantages to insufflation?

Answer 17

no ability to assist or control ventilation; may have CO2/O2 accumulation under drapes; no control over anesthetic depths/FiO2; environmental pollution

Question 18

Schimmelbusch mask was considered a true “open” circuit because it consisted of what?

Answer 18

piece of cloth saturated w/ ether, chloroform, or halathane and held over a patient’s face

Question 19

The Schimmelbusch mask is an example of what type of open circuit?

Answer 19

open drop method

Question 20

What are some advantages of the open drop method?

Answer 20

simplicity; low cost apparatus; portable

Question 21

What are some disadvantages of the open drop method?

Answer 21

poor control of inspired concentration of anesthetic; accumulation of CO2 under mask; predisposes hypoxia risk; spontaneous ventilation only; OR pollution/healthcare provider risk

Question 22

The semi-open system is characterized by what 5 components?

Answer 22

face mask
pop valve
reservoir tubing
FGF inlet
reservoir bag

Question 23

What are some examples of a semi open system?

Answer 23

Mapleson A-F; Bain; circle

Question 24

How many functional groups are there of the Mapleson systems?

Answer 24

3

Question 25

Group 1 of mapleson is characterized as:

Answer 25

Mapleson A: pop off valve is located near face mask; FGF at opposite end

Question 26

Group 2 of mapleson is characterized as:

Answer 26

Mapleson B & C: pop off valve and FGF both located near facemask

Question 27

Group 3 of mapleson is characterized as:

Answer 27

Mapleson D-F: FGF located near facemask and popoff valve at opposite end opposite of Mapleson A

Question 28

CO2 rebreathing depends on what 3 things?

Answer 28

1. FGF rate
2. MV of patient
3. type of ventilation (controlled, spontaneous)

Question 29

T/F: Mapleson D can be used for both spontaneous and controlled ventilation?

Answer 29

True

Question 30

With the Mapleson D and spontaneous ventilation the FGF should equal what?

Answer 30

FGF=2-3xMV

Question 31

With the Mapleson D and controlled ventilation, the FGF should equal what?

Answer 31

FGF=1-2xMV

Question 32

Mapleson E has no __________and _________.

Answer 32

reservoir bag and popoff valve

Question 33

For a Mapleson E, what is considered the reservoir?

Answer 33

expiratory limb

Question 34

When using the Mapleson E for spontaneous ventilation, FGF should equal what?

Answer 34

FGF=2-3xMV

Question 35

T/F: Modification of Ayre’s T-piece is commonly used to administer O2 in the ICU/ PACU?

Answer 35

true

Question 36

Mapleson E is also known as _________

Answer 36

T piece

Question 37

Mapleson F is a modification of what?

Answer 37

Mapleson E (Ayer’s T piece)

Question 38

What feature does Mapleson F have that the E didnt?

Answer 38

adjustable pop off valve at the end of the reservoir

Question 39

The Mapleson F (aka Jackson-Rees) is very popular in what patient population?

Answer 39

peds

Question 40

A coaxial modification of Mapleson D is called __________

Answer 40

Bain circuit

Question 41

Explain the coaxial design

Answer 41

FGF tube is within the corrugated tubing; this allows for the exhaled gas to warm the FGF or inspired gas. This also preserves heat and humidity

Question 42

T/F: The Bain circuit can only be used for spontaneous ventilation.

Answer 42

false; can be used for controlled or spontaneous

Question 43

What are the FGF requirements for Bain?

Answer 43

FGF=2-3xMV

Question 44

What are some disadvantages to the Bain circuit?

Answer 44

potential for inner tube leaks, kinking, disconnection

Question 45

Ambu bag is a modification of which Mapleson?

Answer 45

A

Question 46

The Ambu bag contains a ________valve.

Answer 46

non-rebreathing

Question 47

What are some characteristics of the ambu bag?

Answer 47

contains non-rebreathing valves capable of delivering high FiO2; reservoir is self filling; requires high FGF; depends on minute ventilation

Question 48

What are some advantages of the Mapleson systems as a whole?

Answer 48

simple components; light weight; can provide positive pressure; portable; if using an inhaled anesthetic: more predictable anesthetic concentration; decreased room pollution

Question 49

What are the disadvantages of the Mapleson system as a whole?

Answer 49

requires calculation of FGF which varies from both types of circuit and mode of ventilation
control of anesthetic depth is variable
if FGF is not maintained, there is an increase in CO2 and rebreathing is present
poor heat and humidity
FGF is costly
requires special assembly and function is complex

Question 50

In the standard circle system, what are the available lengths?

Answer 50

40in, 60in, 72in

Question 51

The circle system can be ___________, ___________ or ____________

Answer 51

semi open, semi closed; closed

depends on the adjustment of APL and FGF rates

Question 52

The circle system prevents rebreathing of ______by chemical of neutralization but allows rebreathing of ___________

Answer 52

CO2; other exhaled gases

Question 53

The circle system is characterized by what 7 components?

Answer 53

1. FGF source
2. Insp/Exp unidirectional valves
3. Insp/Exp limbs and corrugated tubing
4. Y piece connector
5. APL valve
6. reservoir bag
7. CO2 absorber

Question 54

Trace the flow of FGF through the circle system. 9 steps

Answer 54

1. FGF enters through common gas outlet
2. flows through insp unidirectional valve
3. flows through insp breathing tube
4. flows through y piece to patient
5. from patient to exp breathing tube
6. through exp one way vavlve
7. in and out reservoir bag ( excess gas is vented out through APL valve to scavanging system)
8. through CO2 absorber
9. gas goes back to patient

Question 55

How do the unidirectional valves function?

Answer 55

gas flowing into the valve raises the disk off its seat and then pass through the valve; reversing the gas flow causes the disk to contact its seat stopping further retrograde flow

Question 56

The guide (cage) prevents _________ or ___________displacement of the disk in the unidirectional valve.

Answer 56

lateral or vertical

Question 57

What are the characteristics of a reservoir bag?

Answer 57

made of neoprene or rubber; neck-22mm female fitting to a male; tail end opposite of neck

Question 58

What are the functions of the reservoir bag?

Answer 58

accumulation of gas during exhalation; assist/control ventilation; visual/tactile monitor to observe spontaneous respirations; protects against excessive pressure

Question 59

what are some characteristics of the breathing tube?

Answer 59

large bore non rigid corrugated tubing; plastic or rubber; 22mm female fitting w/ machine;
Patient end: 22mm male, 15mm female coaxial fitting

Question 60

What are the other characteristics of the breathing tube?

Answer 60

flexible; low resistance; light weight connection, reservoir

Question 61

What are some other common names for the APL valve?

Answer 61

pop off valve; pressure relief valve; safety relief valve

Question 62

What is the function of the APL valve?

Answer 62

releases gases to the scavanging system

Question 63

Turning the APL valve__________ will increase pressure within the system?

Answer 63

clock wise

Question 64

During spontaneous ventilation the APL valve should be __________

Answer 64

fully open (close partially if reservoir bag collapses)

Question 65

During assisted ventilation the APL valve should be ________

Answer 65

partially open

Question 66

during mechanical ventilation the APL valve should be ___________

Answer 66

fully closed (if machine is not equipped w/ a switch)

Question 67

If the unidirectional valves are working properly, the only dead space in the circle system is between the ___________ and _____________

Answer 67

y piece and patient

Question 68

What are 3 rules regarding the circle system arrangemtn that must be followed?

Answer 68

1. unidirectional valves must be located btw patient and reservoir bag between the insp and exp limbs
2. FGF can not enter btw the pt and the exp valve
3. APL valve cannot be located btw the pt and the insp valve

Question 69

Explain the semi open circle system

Answer 69

not used often: occassionally for sedation
no rebreathing occurs
requires high FGF (10-15L/min) to eliminate rebreathing
no conservation; wastes gas and heat
APL valve open all the way

Question 70

Explain the semi closed circle system

Answer 70

most commonly used breathing system in US
requires relatively low FGF (1-3L/min)
conserves some heat and gas
some rebreathing of agents and exhaled gas (not CO2)
APL valve is partially closed and adjusted as needed

Question 71

Explain the closed system

Answer 71

often used in 3rd world countries
inflow of gas exactly meets metabolic needs/ O2 consumption of the patient using very low flows (200ml/min)
total rebreathing of all gases after absorption of CO2
total conservation of all exhaled gases
APL valve fully closed

Question 72

How do you calculate O2 consumption needs

Answer 72

10xkg^(3/4)

i.e. 70kg pt
10x70^3/4
10x24.2= 242ml O2/min

Question 73

What are the advantages of the circle system?

Answer 73

relative stability of inspired gas
conservation of moisture and heat
prevention of OR pollution
can be used for closed system anesthesia
can be used w/ very low flows with no rebreathing of CO2
economy of anesthetics and gases
can scavenge waste gases

Question 74

What are the disadvantages of circle system

Answer 74

complex design
many connections; possibility of leaks
1/3 of malpractice claims resulted from disconnections or misconnections
potential malfunction of valves
increased resistance for breathing
less portable and convenient compared to mapleson

Question 75

what are the 2 circle system checks?

Answer 75

leak test and flow test

Question 76

How do you perform leak test?

Answer 76

set all gas flows to zero, occlude y piece; close APL valve, pressurized circuit to 30cmH20 using O2 flush valve, ensure pressure hold for 10 second; listen for sustained pressure alarm; open APL valve and ensure pressure decreases
this does not test integrity of unidirectional valves

Question 77

How do you perform flow test?

Answer 77

attach breathing bag to y piece, turn on ventilator, and assess integrity of unidirectional valves

Question 78

what mapleson is best for spontaneous ventilation?

Answer 78

A

Question 79

What mapleson is best for controlled ventilation?

Answer 79

D

Question 80

With a self inflating reservoir bag, what is a disadvantage?

Answer 80

you cant feel if the patient is spontaneously breathing

Question 81

How many liters can the reservoir bag hold?

Answer 81

3L