Anesthesia Circuits Flashcards Preview

Patient Monitoring and Instrumentation > Anesthesia Circuits > Flashcards

Flashcards in Anesthesia Circuits Deck (63)
Loading flashcards...
1
Q

Dead space

A

“Dead space” refers to any portion of the airway that does not participate in gas exchange (pharynx, trachea, bronchi)

Dead space in our airway causes all of us to rebreathe CO2 on every single breath

Dead space can also be thought of as any portion of the airway that causes us to rebreathe CO2

“Ventilated, but not perfused”

2
Q

Anatomic dead space

A

Anatomic dead space includes the trachea, bronchi, pharynx, etc

2mL/kg in patients in the upright position

3
Q

Physiological dead space

A

Physiologic dead space refers to alveolar spaces that receive air but no blood flow, usually from pulmonary alveoli that are destroyed (smokers, elderly, etc.)

4
Q

What happens to the physiology of smokers?

A
  1. Alveolar sac fuse into “blebs” or bullae
  2. Excess mucous forms in the bronchioles
  3. Pulmonary capillaries get destroyed

Use lower tidal volumes with smokers and higher respiratory rates

5
Q

Mechanical dead space

A

Mechanical dead space includesanesthesia airway equipment (circuit tubing, humidifiers, endotracheal tubes, etc)

6
Q

Pulmonary shunt

A

A pulmonary shunt means that, although MOST of the blood passing our alveoli picks up oxygen, SOME of the blood in our body “bypasses” the alveoli and doesn’t pick up oxygen

Usually around 3% of cardiac output

7
Q

V/Q ratios

A

“Ventilation,” or “V” refers to “air flow” to an area

Perfusion,” or “Q” refers to ALVEOLAR blood flow

Capital letter is normal, lowercase refers to reduced

8
Q

V/Q mismatch

A

Anytime we get a v (less ventilation) or a q (less perfusion), we have a “V/Q mismatch”

9
Q

What is the most common cause of hypoxia in the recovery room?

A

The most common cause of hypoxemia in the recovery room is “V/Q mismatch,” most likely due to atelectasis

10
Q

V/q

A

In anesthesia, instead of “V/q,” we would say “ventilation without perfusion”

11
Q

v/Q

A

In anesthesia, instead of “v/Q,” we would say, “perfusion without ventilation”

12
Q

Would V/q (normal ventilation, but less alveolar blood flow) represent dead space or a pulmonary shunt?

A

Dead space

13
Q

Would v/Q (less ventilation, but normal alveolar blood flow) represent airway dead space or a pulmonary shunt?

A

Pulmonary shunt

14
Q

Is this an example of dead space (V/q) or pulmonary shunt (v/Q)?

A

Pulmonary shunt (v/Q)?

15
Q

Is this (pulmonary embolism) an example of dead space (V/q)or pulmonary shunt (v/Q)?

A

Dead space (V/q)

16
Q

Is this an example of dead space (V/q) or pulmonary shunt (v/Q)?

A

Pulmonary shunt (v/Q)

17
Q

Is this an example of dead space (V/q) or pulmonary shunt (v/Q)?

A

Pulmonary shunt (v/Q)

18
Q

Will this lead to an increase in dead space (V/q) or pulmonary shunt (v/Q)?

A

Pulmonary shunt (v/Q)

19
Q

Is emphysema an example of dead space (V/q) or pulmonary shunt (v/Q)?

A

Both!

Bullae, along with destroyed pulmonary capillaries

20
Q

Will spontaneous ventilation under GA lead to an increase in dead space (V/q) or pulmonary shunt (v/Q)?

A

Pulmonary shunt (v/Q)

21
Q

A patient has a profound drop in cardiac output (from internal hemorrhage), will this cause more dead space (V/q) or pulmonary shunting (v/Q)?

A

Dead space (V/q)

22
Q

Examples of open circuits?

A
  1. Nasal cannula
  2. Insufflation/”blow by”
  3. Open drop anesthesia

An “open circuit” is open to the atmosphere, meaning that, in addition to going into the patient’s airway, it freely disperses around the face and into the room (because there is nothing to confine the gas to the patient’s airway)

23
Q

Examples of partial re-breathing circuits?

A
  1. Anesthesia circuits
    - Semi-open (Mapleson)
    - Semi-closed (the kinds on our anesthesia machine)
  2. Oxygen masks
    - Simple face mask, “non-rebreather” mask, Venturi (“Venti” mask), self-inflating Ambu bag
24
Q

Examples of non-rebreathing circuits?

A
  1. A T-piece
  2. A “nonrebreather” mask
25
Q

Why should you be catious with open circuits?

A

Since open circuits are primarily used for oxygen delivery, and since the oxygen is dispersed around the face and into the room, and since oxygen is one of the three elements (fuel, ignition source, and oxygen) that kindle fires, there is a higher risk for surgical fires with open circuits, especially if the surgery is around the face.

Contraindicated with facial surgery with drapes

The anesthesia provider needs to communicate with the patient that, because they will not be able to use oxygen, that they won’t be able to give as much sedation

26
Q

How to estimate the FiO2 with a nasal cannula? Max flow?

A

21% FiO2+ 4% per 1L/min flow

Max flow: 44% with 6L/min

27
Q

A patient is breathing a NC running at 2L/min. What is the FiO2?

A

29%

28
Q

Normal TOTAL anatomic dead space

A

2mL/kg or 1/3 of a patients tidal volume

29
Q

Normal EXTRATHORACIC (nose and pharynx only) anatomic dead space in adults

A

70-75mL

30
Q

Endotracheal tube dead space

A

8.0 ETT = 12.6mL dead space

31
Q

LMA dead space

A

Dead space in patients with an LMA is almost half that of patients who are ventilated with a facemask (90mL vs. 162mL)

32
Q

Y-piece and humidifier on the anesthesia circuit dead space in adult and pediatric

A

Adult Y-piece = 8mL

Pediatric Y-piece = 4mL

Humidifier = 10-60mL

33
Q

What is the max Fi02 possible with a nasal cannula?

A

44% with 6L/min

34
Q

What is the limit Fi02 on a patient with facial drapes? How do you prevent C02 from accumulating under the drape?

A

If Fi02 is over 30% there can be a fire

Place the breathing circuit under the drape, turn air to 15L/min, insufflate the air around the patients face, and create a path under the drape for the air (and C02) to escape!

35
Q

What are three types of partial rebreathing circuits?

A
  1. Semi-closed partial rebreathing circuits/circle system (our machines)
  2. Semi-open (Mapleson) partial rebreathing circuits
  3. Partial rebreathing oxygen masks (simple face mask, venturi mask, nonrebreathing mask, ambu bag)
36
Q

What are two ways we can adjust the extent to which gases are rebreathed?

A
  1. APL valve
  2. Adjusting the FGF rate
37
Q

If you want to provide general anesthesia with an endotracheal tube or LMA outside the OR, what are your two options?

A
  1. Transport an anesthesia machine to the remote location you’ll be in (must have at minimum wall supply of oxygen/if no scavenging use TIVA)
  2. Use a “Mapleson circuit”
38
Q

Which Mapleson circuit is best for SV?

Best for CV?

A
39
Q

What are Mapleson circuits primarily used for?

A
  1. Deliver 02; not anesthetics
  2. Used outside the OR or during transport of patients from one hospital location to another
40
Q

Advantage of Mapelson Circuits?

A
  1. Ability to be hooked up to endotracheal tubes or LMAs, in which we can now use TIVA outside the operating room
  2. They can provide positive pressure ventilation
41
Q

Disadvantages of Mapleson Circuits?

A

A lot more dead space, much greater potential to rebreathe CO2 because:

  • Only one tube for inhalation and exhalation
  • No CO2 absorber
  • No inspiratory and expiratory valves
42
Q

Since the biggest concern with Mapleson circuits are rebreathing, what are three ways we can mimimize it?

A
  1. Use a higher fresh gas flow
  2. Opening the APL valve
  3. Shortening the circuit volume
43
Q

Best for spontaneous ventilation (SV)

Worst for control ventilation (CV)

A
44
Q

Best for control ventilation (CV)

Worst for spontaneous ventilation (SV)

A

Mapleson D

45
Q

What’s a Bain circuit?

A

The Bain circuit is basically a Mapleson D circuit, but with the fresh gas flow inside the breathing limb

CoAxial design, inspiratory inner tube and expiratory outside inner tube

46
Q

What is a Mapelson E circuit?

A

Ayre’s T-piece

47
Q

Advantages/Disadvantages of T-piece

A

Advantages: Virtually no rebreathing in this circuit

Disadvantages: Positive pressure ventilation is not possible, it can only be used on spontaneously breathing patients

48
Q

What is a Mapelson F circuit?

A

This is basically a T piece that allows positive pressure ventilation because it has a breathing bag

Jackson-Rees’ Modification

49
Q

What are the components of a semi-closed circuit?

A
  1. Circuit tubing
  2. Elbow adapter
  3. Inspiratory & expiratory unidirectional valves
  4. CO2 absorber
  5. Breathing bag
  6. Humidifier
50
Q

What are the different types of anesthesia circuit tubing?

A
  1. Circuit with inhalation and exhalation tubing
  2. “Coaxial circuit” In a coaxial circuit, the inspiratory lumen (purple) is inside the expiratory lumen (clear)
51
Q

Does stretching out the semi-closed anesthesia circuit cause a patient to rebreathe more CO2?

A

No

52
Q

What will dried out C02 absorbers do?

A
  1. Degrade all volatile agents into carbon monoxide, desflurane the most
  2. Accelerate the degradation of Sevoflurane into compound A
53
Q

At what flow rates is the C02 absorber basically negligible?

A

>5L/min

54
Q

Recommended humidity in the OR?

A

“A relative humidity of 50 to 60% inhibits bacterial growth and decreases the potential for static electricity.”

“AIAAAH recommends a humidity range of 30 to 60% for the OR.”

55
Q

Simple Face Mask (SFM)

A

Fi02 of 40% at 5L/min and 60% at 10L/min

56
Q

Venturi (Venti) Mask

A

Delivers specific Fi02 that ranges from 24-60%, specific adapter determine the Fi02

Maximum Fi02 can be up to 60% with the right adapter

57
Q

“Nonrebreathing” Mask

A

Fi02 of 80’s at 10L/min and 90’s at 15L/min

Some rebreathing does occur, since you cannot get to 100%

58
Q

The main purpose of supplemental oxygen is to compensate for:

A
  1. Anesthetic induced hypoventilation
  2. Atelectasis
59
Q

These supplemental oxygen devices are commonly used during:

A
  1. Sedation (MAC) anesthesia
  2. Transport from the OR to the PACU
  3. In the PACU
60
Q

What are the clinical uses of an Ambu bag in anesthesia?

A
  1. Mask ventilation for a patient in an emergency
  2. Transferring mechanically ventilated patients from the OR to the PACU or ICU
61
Q

Steps to take when transporting a patient with an Ambu bag

A
  1. Call respiratory therapy to bring a ventilator to the PACU
  2. Ventilate the patient with a self inflating Ambu bag during transport
  3. Place the patient on the ventilator in the PACU until they are ready to be extubated
  4. Administer a propofol drip if the patient is paralyzed
62
Q

What does the Hagen Poiseuille Equation tell us?

A
  1. Adding dead space (length) to a circuit increases airway resistance
  2. Resistance can be minimized if:
    - The diameter of the equipment is bigger
    - The length of the equipment is shorter
63
Q

How do you determine compliance loss in the breathing circuit?

A

Peak inspiratory pressure (cmH20) times the compliance (mL/cmH20)