Scavenging/Capnography/CO2 - EXAM 2

Question 0

recommended max level of volatile anesthetic alone

Answer 0

2 ppm

Question 1

Definition of Scavenging

Answer 1

COLLECTION of excess gases from equipment used in administering the anesthesia exhaled by the patient

REMOVAL of these excess gases to an appropriate place of discharge outside of the working environment

Question 2

recommended level of NO

Answer 2

25 ppm

Question 3

recommended level of VA + NO

Answer 3

0.5 ppm

Question 4

5 basic components of a scavenging system

Answer 4

gas collecting assembly
transfer means
scavenging interface
gas disposal tubing 
gas disposal assembly

Question 5

what are the widths of the transfer means tubing?

Answer 5

19 mm or 30 mm

Question 6

Within the gas collecting assembly, what happens when the patient expires and it goes into the reservoir bag…?

Answer 6

the APL will pop off to allow excess pressure or volume out into the scavenge

Question 7

Within the gas collecting assembly, what happens if the patient exhales through the vent?

Answer 7

the ventilator relief valve will pop off for the gas to move into the scavenging system

Question 8

at what point is a little bit of volume removed from the circuit?

Answer 8

at the gas analyzers or capnography part

Question 9

what happens to the volume of gas removed from the circuit?

Answer 9

it also goes into the scavenging system

Question 10

what does the gas collecting assembly do?

Answer 10

captures gas at the site of emission

delivers gasses to the transfer means

Question 11

what does the transfer means do?

Answer 11

conveys gas from the collecting assembly to the interface

Question 12

Describe the structure of tubing in the transfer means

Answer 12

short and wide to accommodate large volumes without a significant increase in pressure

has female-fitting connectors on both ends

must be kink resistant with stiffer tubing

colored yellow

Question 13

what is the function of the scavenging interface?

Answer 13

prevents pressure increases or decreases in the scavenging system from being transmitted into the breathing system

Question 14

How could negative or positive pressure be created in the scavenging system?

Answer 14

positive - created by PPV

negative - created by the vacuum

Question 15

what is the range of pressure that the interface will allow?

Answer 15

0.5 - 5 cmH2O

Question 16

describe the structure of the interface tubing

Answer 16

30 mm male connecter

should be situated very close to the gas collecting assembly

Question 17

what are the 3 basic elements of the interface?

Answer 17

positive pressure relief - protects patient in the event of an occlusion
negative pressure relief - limits subatmospheric pressure
reservoir capacity - matches the gas flow of the collecting assembly to the continuous flow of the disposal system

Question 18

what are the 2 types of interfaces?

Answer 18

open or closed

Question 19

open type interface

Answer 19

hard rigid casing with holes at the top
any excess volume that comes in will blow out the holes
the holes can be connected to a vacuum system to evacuate the gas

Question 20

what are the benefits of the open interface system?

Answer 20

only uses a vacuum and the environment
there are no valves to control
you can’t generate any excess positive or negative pressure

Question 21

what sort of adjustments can you make in the closed type interface?

Answer 21

there are separate valves for positive and negative relief and you can dial them up or down for how much pressure you want to let out of the system

Question 22

In the open type interface, what factor is important to consider when you’re deciding on the suction level of the vacuum?

Answer 22

the rate should be higher than the rate of FGF so as to not create OR pollution

Question 23

how does the positive pressure relief valve work on the closed type interface?

Answer 23

passive disposal – no vacuum used and no reservoir bag needed

it will open when a max pressure is reached

Question 24

How does the negative pressure relief valve work in conjunction with the PPRV in the closed type interface?

Answer 24

• uses a reservoir bag
• has an active disposal system with a vacuum control valve to prevent reservoir bag from overinflation or complete collapse

Question 25

what is the “backup” for the NPRV and PPRV used in a closed system?

Answer 25

a back up negative pressure relief valve will open at -1.8cmH2O if the primary mechanisms have failed for some reason

Question 26

describe the structure of the gas disposal tubing

Answer 26

should be a different COLOR AND SIZE than the breathing system
should be short and wide
usually run overhead to prevent kinking or obstruction

Question 27

Where is the gas disposal tubing located?

Answer 27

between the interface and the disposal assembly

Question 28

what are the 2 types of a gas disposal assembly?

Answer 28

active - gasses move because of mechanical flow which creates negative pressure in the tubing and requires a NPRV

passive - pressure in the system exceeds atmospheric pressure when the patient exhales or the reservoir bag is squeezed (requires positive pressure)

Question 29

What are the advantages and disadvantages of a passive type disposal system?

Answer 29

Advantages - simple to set up, inexpensive

Disadvantages - may be impractical in some buildings

Question 30

How are waste gases removed in a passive system?

Answer 30

through an open window or a fan to the outside air

Question 31

what are the advantages and disadvantages of an active type disposal system?

Answer 31

advantages - convenient in large hospitals with multiple machines running

disadvantages - major expense to set up this system, needle valves need continuous adjustment

Question 32

How is gas removed in an active type disposal system?

Answer 32

the exhaust is connected to a hospital vacuum system via an interface that is controlled by a needle valve

Question 33

how do you do a scavenging system check?

Answer 33

1. ensure proper connection b/w the scavenging system, APL valve, ventilator relief valve
2. occlude the Y piece and completely open the APL valve
3. with minimal O2 flow, allow the reservoir bag to collapse completely and make sure that the pressure gauge reads 0
4. turn on the O2 flush and allow the scavenger bag to fully distend but verify that the pressure gauge read less than 10 cmH20
5. then turn off the O2 flush and make sure that the gauge doesn’t read less than 0

Question 34

what is the danger in forgetting to check the scavenging system before a case?

Answer 34

there is no alarm system if the system fails during a case

Question 35

Why do we use capnography?

Answer 35

confirm ETT placement
to determine if patient has effective ventilation
to detect abnormalities in V/Q ratio

Question 36

What are some of the abnormalities that could potentially be discovered through the use of capnography?

Answer 36

PE - ETCO2 will be low 
MH
disconnect in the system
obstructed airway
hypotension - really low ETCO2 b/c you aren't perfusing

Question 37

under what circumstances would ETCO2 increase?

Answer 37

hypoventilation (low RR or low Vt)
obstructive respiratory disease (patient takes longer to exhale CO2)
increased metabolism (MH, stress, sepsis)
decrease in FGF (CO2 scrubber kicked, rebreathing)

Question 38

When would ETCO2 decrease?

Answer 38

hypothermia
hyperventilation
low CO
hypovolemia
leak in the system (false low CO2)

Question 39

How can you determine PaCO2 from ETCO2?

Answer 39

Under GA, PaCO2 is generally 2-5 mmHg less than ETCO2

Question 40

what are the 2 methods for assessing the CO2 content of expired gas?

Answer 40

colorimetric or infrared absorption spectrophotometry

Question 41

how does colorimetric CO2 measurement work?

Answer 41

CO2 combines with H2O on the paper and forms carbonic acid that turns the paper a different color

Question 42

How does infrared absorption spectrophotometry work?

Answer 42

when the gas is exhaled the proportion of its components is analyzed and each gas will absorb infrared radiation at different wavelengths

Question 43

mainstream capnography

Answer 43

a airway adapter hooked up to a transducer is placed directly on the end of the breathing circuit where the patient exhales

Question 44

what are the disadvantages of using mainstream capnography?

Answer 44

potential for burns b/c it generates lots of heat
it can be heavy, causing kinks in the ETT
mucous can block the system from reading correctly

Question 45

What are the advantages of using mainstream capnography?

Answer 45

there is less of a time delay

Question 46

how does the sidestream capnography work?

Answer 46

takes a fixed volume from the circuit away from the patient and uses IR analysis to compare the CO2 sample with a known quantity

Question 47

What are the advantages of using sidestream capnography?

Answer 47

gas it taken away from the patient and less potential for burns

Question 48

what are the disadvantages of using sidestream capnography?

Answer 48

there is a slight time delay
potential disconnect source
dilution of the sample in pediatric patients r/t lower Vt
water vapor can condense in the system and filters are required

Question 49

What is Phase 1 of the capnography waveform?

Answer 49

inspiratory baseline
no CO2
dead space gas is exhaled

Question 50

What is Phase 2 of the capnography waveform?

Answer 50

the expiratory upstroke that represents rising CO2
mixture of alveolar and dead space gas
slope of the upstroke determined by evenness of alveolar emptying

Question 51

At what point does the machine measure the ETCO2?

Answer 51

at the end of Phase 3

Question 52

What is Phase 3 of the capnography waveform?

Answer 52

the longest phase (called the alveolar plateau)
end expiration
a reflection of PACO2 and PaCO2

Question 53

What is phase 4 of the capnography waveform?

Answer 53

beginning of inspiration

CO2 levels rapidly decline to a normal inspired value

Question 54

What are the 5 characteristics of the capnography waveform that are important to consider?

Answer 54

frequency
rhythm
height
baseline
shape

Question 55

presence of stable CO2 for ***** breaths indicates tracheal intubation

Answer 55

3

Question 56

What type of changes will be noticed on the capnography waveform for a patient with obstructive disease

Answer 56

slow rate of rise in Phase 2

little or no Phase 3

Question 57

What sort of waveform will you have if the ETT has gone into the esophagus?

Answer 57

no consistent waveform, progressively decreasing waves

Question 58

How will you know if rebreathing occurs?

Answer 58

if your inspiratory baseline continues to remain above 0 at the end of phase 4

Question 59

what are some causes of rebreathing?

Answer 59

decrease in FGF, exhausted CO2 scrubber, dead space caused by equipment

Question 60

how can you tell that your patient has started to spontaneously ventilate by using the capnography waveform?

Answer 60

there will be a curare cleft, or a small deflection, in the phase 3 portion of the waveform

means that the patient is starting to wake up from their neuromuscular blockade and the diaphragm is moving

Question 61

what is the problem with noting cardiac oscillations?

Answer 61

NOTHING - they’re normal

Question 62

what are some of the causes of rising CO2 is ventilation-related factors have been excluded?

Answer 62

Malignant hyperthermia
tourniquet release (releases lactic acid and metabolic byproducts)
release of aortic clamp
IV bicarb administration
CO2 blowing into peritoneal cavity
equipment failure (CO2 exhausted, expiratory valve stuck)

Question 63

What are some causes of a decreasing CO2 tracing?

Answer 63

hyper ventilation
cardiac arrest
disconnect within the system
V/Q mismatch (r/t PE??)

Question 64

What compound is the CO2 scrubber actually sensing?

Answer 64

H2CO3 - carbonic acid

Question 65

what is the pattern of absorption in the CO2 scrubber?

Answer 65

from top to bottom

Question 66

What are some of the more common types of absorbent?

Answer 66

Amsorb Plus
Soda Lime
Litholyme

Question 67

Litholyme

Answer 67

made of lithium hydroxide

Question 68

Soda lime composition

Answer 68

80% CaOH2
15% H2O
4% NaOH
trace silica and KOH

Question 69

Why is water added to the CO2 scrubber system?

Answer 69

to facilitate the reaction to CO2 to form the carbonic acid

Question 70

why is silica added to soda lime?

Answer 70

to increase hardness and prevent dust from forming

Question 71

What is the average absorptive capacity of a soda lime scrubber?

Answer 71

26L/100g

Question 72

On average, how much CO2 is released by a non-stressed person each hour?

Answer 72

12L CO2

Question 73

What are the chemical reactions as CO2 moves through a soda lime scrubber?

Answer 73

CO2 + H2O = H2CO3
H2CO3 + 2NaOH = Na2CO3 + 2H2O + heat
Na2CO3 + CaOH2 = CaCO3 + 2NaOH

*can also use KOH;K2CO3

Question 74

Composition of Amsorb

Answer 74

80% calcium hydroxide
16% H2O
1-4% calcium chloride
trace calcium sulfate for hardness

Question 75

absorptive capacity of amsorb

Answer 75

10L/100g

Question 76

What chemical reactions take place when CO2 enters an amsorb scrubber?

Answer 76

CO2 + H2O = H2CO3

H2CO3 + CaOH2 = CaCO3 + 2H2O + heat

Question 77

When should you replace your CO2 absorber?

Answer 77

when its at 50-70% color change

Question 78

what is the ideal shape of the absorbent crystals? why?

Answer 78

4-8 mesh

to create ideal surface area without increasing resistance

Question 79

what should the hardness number be for the granules?

Answer 79

> 75

Question 80

what is “channeling”?

Answer 80

preferential passage of gas through the absorber via pathways of least resistance

results from loosely packed crystals

Question 81

How can you prevent channeling?

Answer 81

shaking the canister around a little bit before you use it

Question 82

dry soda lime may degrade inhaled anesthetics to ****

Answer 82

Carbon monoxide

Question 83

What is the danger with leaving an oxygen source on over night, running through the scrubber?

Answer 83

carbon monoxide will build up in the system and could cause poisoning

Question 84

How can you prevent degradation of the VA/scrubber?

Answer 84

run your flows at a rate of at least 2L/min

Question 85

what can sevoflurane/halothane degrade to when it passes through soda lime?

Answer 85

Compound A = nephrotoxic

Question 86

What are some safety considerations when using a CO2 scrubber?

Answer 86

change it every morning
turn off gas flows when not in use
change all absorbent, not just one canister
keep flows low to preserve humidity