Lecture 4: Breathing systems, scavenging, & intubation supplies (Exam 1)

Question 1

What are some areas to find a leak

Answer 1

• Neck of the reservoir bag
• Breathing circuit hoses
• Any hose connection
• Inlet/outlet to vaporizer
• One-way valves
• CO2 absorbing canister
• Flow meter

Question 2

What is the purpose of breathing machines

Answer 2

Deliver O2 +/- anesthetic gases & eliminate CO2

Question 3

What are the types of breathing systems

Answer 3

• Rebreathing
• non-rebreathing

Question 4

What are the components of the rebreathing system

Answer 4

• Fresh gas source
• Unidirectional valves
• Breathing hoses
• Breathing system pressure gauge
• CO2 absorber
• APL valve
• Reservoir bag

Question 5

How does the rebreathing system work

Answer 5

• Gases flow in a one way circular pattern
• Then into a px via inspiratory hose
• then out of the px through expiratory hose

Question 6

How is rebreathing of CO2 prevented in a rebreathing system

Answer 6

By chemical absorption but other gases can be passed again to the px

Question 7

What are the advantages of a rebreathing system

Answer 7

• Can use lower O2 flow rate
• Easy to set up & use

Question 8

What are the disadvantages of the rebreathing system

Answer 8

• Increased resistance for smaller px
• More components to work w/

Question 9

What are the recommended O2 flow rates for a closed circle (rebreathing) system

Answer 9

• 4 - 11 mL/kg/min
• Oxygen flow approx px’s oxygen consumption which varies w/ metabolic rate

Question 10

What are the advantages & disadvantages of a closed circle system

Answer 10

• Advantages: More economical, retain more heat & humidity, & less likely to cause OR pollution
• Disadvantages: Vaporizer accuracy compromised, N2O can not be used, & CO2 absorption completely dependent on chemical absorbent

Question 11

What is the recommended oxygen flow rates of the low flow circle (rebreathing) system

Answer 11

• 10 to 22 mL/kg/min
• Oxygen flow rater greater than the px oxygen consumption

Question 12

What are the advantages & disadvantages of low flow circle system

Answer 12

• Advantages: Economical, some heat & humidity retained, & reduced waste gas
• Disadvantages: Inadequate delivery of anesthetic from modern vaporizer

Question 13

What is the recommended oxygen flow rates for a semi-closed circle system

Answer 13

• 22 - 44 mL/ kg/min
• Fresh gas inflow exceeds the uptake of oxygen by px

Question 14

What are the advantages & disadvantages of a semi-closed circle system

Answer 14

• Advantages: N2 accumulation insignificant, N2O used safely, rapid changes in inspired anesthetic concentration, & CO2 partially eliminated via pop-off valve
• Disadvantages: less economical & more heat & humidity lost

Question 15

Answer the math problem & Determine what the O2 flow meter should be set at

Answer 15

Question 16

Answer the math problem & Determine what the O2 flow meter should be set at

Answer 16

Question 17

Label the hose & who they are used for

Answer 17

• B = pediatric hose for px < 15lb
• A = Adult hose for px 15 - 300 lb
• C = Universal-F hose generally used in larger px

Question 18

Describe the breathing system pressure gauge

Answer 18

• Measures the existing pressure w/in a breathing system
• Differs from oxygen cylinder pressure gauge which is read in psi
• Should remain @ zero unless giving a manual or mechanical ventilation
• Also used when performing a leak test on the machine

Question 19

1 mmHg = ? cm H2O

Answer 19

1.36

Question 20

Describe the CO2 absorption canister

Answer 20

• Chemical reaction removes CO2 from the rebreathing system
• Once the product is exhausted CO2 will accumulate in the circuit which lead to rebreathing CO2 that will cause respiratory acidosis

Question 21

What can be used to determine when to change soda limem

Answer 21

• Simply mark off # of hours used
• Capnography (increased inspired CO2 & ETCO2)
• Color change (not reliable)
• Lack of heat i canister
• Hardness of granules
• Clinical signs in px

Question 22

How much should be left in the soda lime to avoid tightly packing of granules

Answer 22

1 to 2 cm

Question 23

What are the components of the non-rebreathing system

Answer 23

• Fresh gas source
• Expiratory lib or coaxial breathing hose
• Open/close valve
• Reservoir bag

Question 24

What is the typical O2 flow rates of non-rebreathing sys

Answer 24

200-300 mL/kg/min

Question 25

What px should use a non-rebreathing sys

Answer 25

• If < 3 kg can always use
• 3 to 7 kg is a grey zone & is anesthetist dependent

Question 26

What is the advantages of a non-rebreathing system

Answer 26

• Less resistance to breathing for px
• Little to no dead space
• Fewer components that can leak or malfunction

Question 27

What are the disadvantages of non-rebreathing systems

Answer 27

• Higher O2 glow rates req to get rid of CO2
• Pollution to the environment
• Can contribute to hypothermia

Question 28

What are the common non rebreathing systems used in vet med

Answer 28

• Mapleson D
• Bain circuit (Modified Mapleson D)
• Mapleson F

Question 29

Why is waste air gas (WAG) scavenging important

Answer 29

National institute for occupational safety & Healthy published recommendations that exposure to to halogenated anesthetic agents be kept below 2 ppm

Question 30

How can you prevent exposure

Answer 30

• Engage a scavenging system
• Leak test the machine & breathing system prior to use
• Used cuffed & correctly sized endotracheal tubes
• Use a low flow circle system if possible
• Avoid mask & chamber inductions
• When disconnecting the px turn off the flow meter, vaporize, empty gas from bag in to scavenging & occlude Y piece
• Perform machine & equipment maintenance periodically
• Adequate ventilation of areas where anesthetic gas exposure occurs

Question 31

What are the tips for filling or emptying vaporizers

Answer 31

• Ideally wear a charcoal mask
• Always announce that you are filling a vaporizer if it must occur when other personnel are in the room
• Best to select a time late in the day (or first thing in the am) to refill vaporizers to min unnecessary exposure
• Replace cap on the bottle when done
• Switch to key-fill vaporizers if possible
• Always turn vaporizer dial OFF before filling

Question 32

What are the 2 types of scavenging systems

Answer 32

• Passive (charcoal absorption to outside wall or window)
• Active (Central vacuum collection)

Question 33

Describe charcoal absorption

Answer 33

Absorbs halogenatated anesthetic gases but does NOT absorb CO2 or N2O

Question 34

What are the advantages of charcoal absorption

Answer 34

• Mobil
• Initial cost is low
• Easy to set up

Question 35

What are the disadvantages of charcoal absorption

Answer 35

• Must be replaced after gaining 50 grams in weight (usually 8 to 12 hours of use)
• Use limited to lower oxygen flow rates
• Adds resistance
• Environmental impact

Question 36

Describe active scavenging

Answer 36

• Interface protect the breathing circuit & px from excess positive or negative pressure
• Located btw/ the pop-off valve & disposal system
  *Cost more than passive but is more effective

Question 37

Describe endotracheal tubes (ETT)

Answer 37

• Made of PVC, silicone, or red rubber
• Sized according to internal diameter (ID) or french gauge (in mm)
• Want to use the largest size of ETT that will fit w/out causing trauma to the trachea
• Palpate the trachea to estimate size needed
• Length should not extend distally beyond the thoracic inlet or rostrally beyond incisors

Question 38

What are the types of ETT

Answer 38

• Murphy
• Magill
• Cole
• Guarded or armored

Question 39

Define dead space

Answer 39

• Portions of the breathing passages that contain air but there is no gas exchange
• Ex. Mouth, nasal passages, pharynx, trachea, & end of ET tube/ Y-piece

Question 40

Describe the murphy Edo tube

Answer 40

• “Murphy eye” - Has an oval hole positioned on the bevel facing the opening of the tube
• If distal end of the tube becomes occluded there is still air flow
• Magill tube is the same design just no “eye”

Question 41

Describe the cole tube

Answer 41

• Uncuffed
• Has a “shoulder” near the distal end (Laryngotracheal portion)
• Designed to create a seal by using a smaller end to fit in the arytenoid cartilages
• Smaller portion goes in the trachea

Question 42

Describe large animal ETTs

Answer 42

Much larger (16 - 30 mm size)

Question 43

Describe guarded or armored tubes

Answer 43

• Made of silicone rubber
• Have steel wire or nylon coil embedded in the wall
• Resists kinking (good for optho cases or CSF tap)
• More expensive

Question 44

Describe laryngoscope

Answer 44

• Allows visualization
• Light source (allows for quick detection of abnorm anatomy)
• Easier accessibility to airway
• Apply light pressure to base of tongue, just underneath epiglottis
• Tilts larynx ventrally & opens glottis, frees up the epiglottis if still tucked underneath the soft palate

Question 45

What are the steps for correct Endotracheal intubation placement

Answer 45

Question 46

What are some methods to confirm ET placement

Answer 46

• Canograph reading from ETT registers high enough CO2 values
• Direct observation of ETT going into trachea
• Condensation seen on inside of ETT
• Feel breath from end of ET tube on hand or movement of plucked hairs
• Outward movement of chest wall when positive pressure ventilation given
• Auscultation of breaths sounds bilaterally when breath given
• Reservoir bag & exhalation valve movement
• Absence of two “tubes” palpated b/c ETT is inside the trachea
• Feel the ETT sliding pas tracheal rings

Question 47

What is the cuff inflation tech

Answer 47

• not considered accurate
• Utilize an esophageal stethoscope to accomplish the desired effect
• No escape of gas from around the ETT cuff when delivering a pos pressure ventilation & the bag is squeezed to ~20 cm H2O

Question 48

List some respiratory assist devices

Answer 48