Weitere ähnliche Inhalte Ähnlich wie CE oct 12 airway key (20) Kürzlich hochgeladen (20) CE oct 12 airway key1. Continuing Education
October 2012
Airway
Oxygenation & Ventilation
Diana Neubecker RN BSN PM
EMS System In-Field Coordinator
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
2. Objective
Airway Management, Respiration, and Artificial Ventilation
Paramedic Education Standard
Integrate complex knowledge of anatomy,
physiology, and pathophysiology into assessment
to develop and implement a treatment plan
with the goal of assuring a patent airway,
adequate mechanical ventilation, and respiration
for pts of all ages.
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
3. ©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
4. Problem
King LTSD
• Does not protect airway, from
secretions, as well as ETT
• Pts should be preoxygenated
prior to advanced airway, which
often requires BVM use
• BVM ventilation often results in
gastric distention……
• 18 fr soft suction catheter is too
short to reach the stomach
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
5. SOLUTION: KLTSD has
“gastric access lumen”
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
6. NEW: Salem-Sump NGT
Leave
NGT = nasogastric tube Open
Salem-Sump dual lumen NGT
1. Secondary lumen (blue pigtail,
smaller) open to atmosphere
– Vents large lumen
– Keeps suction @ gastric openings
low to prevent mucosal irritation
2. Drainage lumen (larger)
Connect
To Suction
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
Openings
7. Salem-Sump NGT & KLTSD
• Indications when KLTSD in place
– Vomiting
– Gastric distention
– Prolonged BVM ventilation prior
• Contraindications
Same as KLTSD
• NOTE:
Insert AFTER placement & verification of KLTSD
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
8. Salem-Sump NGT & KLTSD
Procedure
1. Measure for insertion depth (Nose Ear Xyphoid)
2. Lubricate
3. Insert into proximal lumen & gently advance
– If resistance felt – abort procedure
4. If concern about proper placement
– Attach capnography (should have no persistent ETCO2)
– Inject 60mL air & auscultation over epigastrium
– Insert end into cup of water & observe for bubbling
5. Connect to suction
– continuous 30-40 mmHg
– Intermittent up to 120 mmHg PRN
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
9. Salem-Sump & KLTSD
How far to insert tube?
Measure from:
tip of nose
around ear
down to xyphoid process
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
10. Review Question
Which is the correct order of steps for KLTSD insertion?
A B C D E
Insert Insert Insert Insert Inflate
Ventilate Withdraw Withdraw Inflate Insert
Auscultate Ventilate Inflate Auscultate Ventilate
Inflate Auscultate Ventilate Ventilate Auscultate
Withdraw Inflate Auscultate Withdraw Withdraw
Insert NGT after above steps completed
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
11. ©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
12. Airway, Oxygenation, & Ventilation
• Without an airway, nothing else matters……
• However, airway management requires
careful risk – benefit analysis.
• Paramedics are expected to assess and
manage pts, beyond using an inflexible
algorithm, and use critical thinking skills,
evidence based practice, and focus on
outcomes-based management.
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
13. Research
1. Review assigned abstract.
2. Prepare 1-2 sentence summary (< 20 words),
that you can verbally report in <1 minute.
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
14. Airway, Oxygenation, & Ventilation
No Resp Resp Resp Cardiac
Distress Distress Failure Arrest Arrest
Goals:
1. prevent from getting worse
2. improve status
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
15. EMS Treatment
Priority:
1. Obtain airway
2. Oxygenate
3. Ventilate
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
16. ©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
17. Assessment
Airway & breathing are assessed on all pts:
• UNconscious – after circulation (CAB)
• Conscious – before circulation (ABC)
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
18. Review Question
When approaching an UNconscious pt,
with a pulse, how should an EMS provider
first determine the airway is patient?
Are they breathing?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
19. Review Question
When approaching a conscious pt,
how should an EMS provider
determine the airway is patent?
– Can they speak
What else can above assessment determine?
– Respiratory distress
• Sound – is voice hoarse/raspy?
• How many words can pt speak?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
21. Airway
The “classic” upper airway dysfunction
often thought of is – the person choking
Far more common….
upper airway obstruction
is the tongue, often due
to altered mental status
Why does this happen?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
22. Airway
Pt w/ AMS lying supine, muscle tone of jaw
allows heavy tongue to fall back & obstruct airway
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
23. Review Question
What are s/s of tongue obstructing airway?
Apnea
Snoring
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
24. Review Question
List other causes of upper airway disorders?
– Laryngeal edema due to allergic reaction
– Epiglottitis
– Tonsillar abscess
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
25. Noisy breathing
is
Obstructed breathing
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
26. Review Question
EMS crew arrives on scene of a pt who is not
breathing, but has a radial pulse. In preparing
to ventilate, which is the LEAST critical piece of
equipment to use during the first few breaths?
– Mask
– Oxygen tank
– Bag-valve device
– Oral/nasal airway
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
27. Review Question
Why is an OP/NPA so important?
• Failure to use an OP/NPA will require an
increased amount of force/pressure to
ventilate past obstruction of tongue
• Increased force/pressure opens esophageal
sphincter and allows gastric distention
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
28. Pressure
<15 cm H2O rarely causes distention
>25 cm H2O often causes gastric distention
Br J Anaesth 1987;59:315
ACTA Anaesth Scand 1961;5:107
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
29. Priority of Care
Airway before Breathing
ALWAYS*
insert an oral/nasal airway
prior to BVM ventilation
*unless contraindicated
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
30. Review Question
When using an oral/nasal airway, how
important is it to use the correct size?
– Critical
– Too small is worse than no airway
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
31. Review Question
How should an oral airway be sized?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
32. Oral Airway Sizing
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33. Review Question
Is this OPA
• too large?
• too small?
• the right size?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
34. Review Question
How should an oral airway be inserted?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
35. Review Question
How should an nasal airway be sized?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
36. Review Question
How should an nasal airway be inserted?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
37. Review Question
How can the use of
OP/NPA’s be optimized?
“Ortinau Airway Method”
NPA - bilateral
with
OPA
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
38. ©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
39. Review Question
When assessing breathing what are the
FIRST 2 things that should be determined?
A. Respiratory rate & lung sounds
B. Respiratory rate & depth
C. Breath sounds & O2 sat
D. O2 sat & ETCO2
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
40. Review Question
What can help an EMS provider determine
if respiratory depth is adequate?
Breath sounds
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
41. Review Question
When doing a quick check of breath sounds
(e.g., to determine they are present bilat)
where is the first place you should listen?
A. Over trachea
B. Anteriorly above 1st ribs
C. Mid-axillary line (under armpits)
D. Upper lobes on posterior chest wall
Why?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
42. Quick Breath Sounds
Lateral chest
• Peripheral lung fields
• Less risk sound transmission
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
43. Auscultation Sites
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
44. Review Question
What are the 2 major goals of breathing?
1. Oxygenation
2. Ventilation
How are they different?
– Oxygenation: taking in and using oxygen
– Ventilation: elimination of carbon dioxide
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
45. Review Question
What are signs of inadequate oxygenation?
– Low O2 sat
What are signs of inadequate ventilation?
– High ETCO2
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
47. ©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
48. Why is head elevation recommended?
Bring oral (OA), pharyngeal (PA), laryngeal (LA)
axis in alignment
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
49. Alternate to
“E-C” Mask Hold
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50. 2 Hand – Mask Seal
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51. What’s wrong with this picture?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
52. What’s wrong with this picture?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
53. Review Question
At what rate should adult pts be ventilated?
10-12/m prior to advanced airway
8-10/m after advanced airway
6-8/m if PMH asthma/COPD
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
54. Review Question
• How much volume should be delivered?
~400 – 600 mL
• Why are bag-valve devices so large (hold
1200-1500 mL of air)?
Designed so only one hand is needed to
squeeze bag to deliver a sufficient tidal volume
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
55. Review Question
Why is hyperventilation harmful? (list 7 causes):
1. Gastric distention diaphragm elevation &
impaired lung expansion
2. Gastric distention vomiting & aspiration
3. Decreased venous return cardiac output
4. Alkalosis
5. Constriction of cerebral vessels
6. Constriction of coronary arteries
7. Barotrauma tension pneumothorax
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
56. Review Question
What can help EMS providers avoid
hyperventilating pts?
capnography
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
57. Review Question
What will happen to EtCO2 w/ hyperventilation?
Will decrease
Why?
Ventilating pt faster than making CO2
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
58. Review Question
What else can cause low ETCO2 levels?
– Perfusion
• Hypotension (shock, cardiac arrest)
• Pulmonary Embolus
– Metabolism
• Hypothermia
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
59. BVM Ventilation Pitfalls
1. Failure to use OP/NPA
2. Inadequate pt positioning
3. Improper mask holding
4. Occluding nostrils w/ mask
5. Poor positioning of ventilator
6. Hyperventilation
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
60. Review Question
What are examples of lower airway disorders?
– Asthma/COPD
– Pulmonary edema due to HF
– Pulmonary embolus
– Pneumonia
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
61. Airway, Oxygenation, & Ventilation
No Resp Resp Resp Cardiac
Distress Distress Failure Arrest Arrest
Goals:
1. prevent from getting worse
2. improve status
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
62. Review Question
What normally happens when a pt
experiences respiratory distress?
– The body attempts to compensate
What signals the body to compensate?
– Increasing CO2
– Decreasing O2
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
63. Review Question
What are signs of compensation for
respiratory distress?
– Increasing respiratory rate
– Accessory muscle use, tripod positioning
– Tachycardia, due to SNS stimulation
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
64. Review Question
What are accessory muscles?
– Neck
– Chest
– Abdomen
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
65. Review Question
How is respiratory failure different from
resp distress?
In respiratory failure,
compensatory mechanisms have failed
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
66. Review Question
How can respiratory failure be differentiated
from respiratory distress?
In addition to resp distress s/s may have:
– Altered mental status
(anxiety, combative, somnolence, unconscious)
– Hypoxia (despite O2 administration)
– Hypercarbia (increased ETCO2)
– Resp rate slowing, irregular, or gasping
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
67. Prompt Tx to STOP the Progression
• QI finding: Treatment not begun where pt found
(or on-scene) and pt deteriorating while moving
to amb (or while transporting to hospital).
• Respiratory DISTRESS should be treated to
prevent respiratory FAILURE
• Respiratory FAILURE should be treated to
prevent respiratory ARREST
• Respiratory ARREST should be treated to
prevent CARDIAC arrest
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
68. Advanced Airways & Intubation
CombiTube
LMA
iGel
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
69. What are complications of intubation?
1. Vagal stimulation bradycardia & hypotension
2. SNS stimulation tachycardia
3. Hypoxia from inadequate preoxygention
4. Hypoxia from prolonged/multiple attempts
5. Infection from contamination of ET tube
6. Trauma to airway
7. Unrecognized esophageal intubation
8. Hyperventilation induced
– Hypotension
– Vasoconstriction of cerebral & coronary arteries
– Gastric distention, vomiting & aspiration
– Alkalosis
– Barotrauma (tension pneumo)
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
70. ETI procedure
If not in cardiac arrest, what should assistant
to intubator be doing? (list 4)
1. Watch monitor – HR (for changes)
2. Watch monitor – O2 sat (for desat)
3. Watch clock – elapsed time
4. Provide assistance as needed
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
71. ETI procedure
Pre-Oxygenation Critical
How long should pts be preoxygenated?
3 minutes
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
72. ETI procedure
How long is allowed for an attempt?
30 seconds
In severe hypovolemic
shock, pts may desaturate
as quickly as 30 seconds
Anes Analgesia 2009;109:303-305
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
73. ETI procedure
• Infection in intubated pt
can be life-threatening
• Contaminated ET tube
– Can lead to pneumonia,
sepsis, & death
– Keep in pkg until scope in
hand & ready to visualize
– Treat ET tube w/ same
sterile technique as IV cath
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
74. ETI procedure
Unrecognized esophageal intubation
• Multiple confirmation techniques
• Redundancy to prevent deadly complication
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
75. Hypo/Hyperoxia
• Know hypoxia kills
• Learning just how harmful hyperoxia is
• Oxygen (~21%) is present in the environment
– However, in higher concentrations it becomes a “drug”
• Like all drugs, dose should be considered
• Prehospital, because ABG (arterial blood gas) is not
available, we rely on other methods to assess
oxygenation
• Pulse oximetry is one method
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
76. Hyperoxia
• When a pt has an O2 sat of 100%, it is
unknown if arterial oxygen level is 100 or 600
– While 100 may be fine, 600 could be harmful
• Thus, oxygen administration should be titrated
based on specific SOP
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
77. Breathing
• Under normal breathing, what type of pressure
do we use used to bring air into our lungs?
– Negative pressure
• When ventilating w/ BVM, what type of
pressure is used?
– Positive pressure ventilation (PPV)
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
78. Breathing
• PPV disrupts normal function, esp. filling of heart
• Leads to venous return & cardiac output/BP
• In hypotensive pts, cardiac output can be lethal
• How can the risks of PPV be minimized?
– Ventilate at prescribed rate, avoid ventilating too fast
– Avoid too much tidal volume or ventilating too deeply
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
79. Critical Thinking &
Outcomes-Based Management
Which pt is at greatest risk of developing a
tension pneumothorax, requiring a pleural
decompression?
A. Breathing pt with an open pneumothorax
B. Any pt receiving assisted ventilation
C. Spontaneous pneumothorax in breathing pt
D. Simple/closed pneumothorax in breathing pt
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
80. Negative vs Positive Pressure Breathing
• Intrapulmonary (inside lung) pressure = atmospheric pressure
– Lung open to outside, so same pressure
• Positive pressure breathing: pressure greater than atmospheric
- increases risk of pneumothorax leading to tension pneumo
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
82. Critical Thinking &
Outcomes-Based Management
Called to restaurant for a choking pt. Upon
arrival, unresponsive adult male, not breathing,
slow, weak radial pulse.
• What should be done?
Attempt to ventilate
• What if that is not successful?
Reposition head, attempt to ventilate
• What if that is not successful?
Begin CPR
Attempt to visualize w/ laryngoscope
& remove w/ forceps/suction
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
83. Choking man continued
• What if that is not successful?
– Attempt to intubate
• What if that is unsuccessful?
– If unable to intubate or ventilate – perform
cricothyrotomy
• What if during surgical cric, PM is unable to
pass ET tube?
– Attempt smaller size ETT
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
84. Critical Thinking &
Outcomes-Based Management
What’s the best method to secure airway,
oxygenate, & ventilate pts in cardiac arrest?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
85. Critical Thinking &
Outcomes-Based Management
1. Does an OP/NPA provide a long-term airway
that the pt in cardiac arrest may need?
2. Do these pts often require ETI?
3. Should compressions be interrupted for ETI?
4. What is more important than ETI?
5. What are alternatives to ETI?
6. Can ETI be performed without interrupting
quality compressions?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
86. Critical Thinking &
Outcomes-Based Management
Called for infant in cardiac arrest.
Should PM’s intubate?
• In peds, ETI should be attempted when BVM
oxygenation/ventilation is not effective
• Peds pts often easier to BVM vent, due to
small head, neck mobility, small tidal volumes
• Critical to use OP/NPA, due to lg tongue
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
87. Critical Thinking &
Outcomes-Based Management
Called for pt w/ blunt chest trauma, RR 40, lung sounds
decreased on (R). Despite O2/NRBM, O2 sat is 75%
• What should be done? Assist ventilation
• At what rate should pt be ventilated (40 or 10)? 10
• How can this be done? Ventilate every 4th breath
• What is the risk of doing this? Gastric distention
• How can that risk be minimized?
– Don’t over-ventilate or use too much TV, attempt cricoid
pressure, consider benefit/risk ETI
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
88. Critical Thinking &
Outcomes-Based Management
What’s the best method to secure airway,
oxygenate, & ventilate pt with head injury?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
89. Critical Thinking &
Outcomes-Based Management
Called for MVC, adult male w/ obvious head injury,
actively vomiting. Breathing (RR ~10) w/ strong radial
pulse, responds to pain by withdrawing (GCS 6).
– What should be the first priority?
– How long should suction attempts be limited to?
– What should be done between suctioning attempts?
Despite suctioning, pt continues to vomit
– How should oxygen be delivered to this pt?
– Should this pt be BVM ventilated?
– Should this pt be intubated?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
90. Critical Thinking &
Outcomes-Based Management
Called for MVC, adult male w/ obvious head injury.
P 70, BP 160/80, RR 10, O2 sat 86% RA, ETCO2 45,
(+) gag reflex, withdraws to pain (GCS 6).
– How should oxygen be delivered to this pt?
– Should this pt be BVM ventilated?
– Should this pt be intubated?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
91. Critical Thinking &
Outcomes-Based Management
70/F w/ difficulty breathing. Sitting upright, looking
scared, not speaking. Family states PMH of COPD,
problems breathing x 3 days, worse today. P = 98, Skin
pale, cool, moist, BP = 164/92, RR = 48, lungs sounds
diminished w/ wheezing, O2 sat = 64%, ETCO2 = 58
sharkfin, GCS 14 confused (not normal), Gluc = 104.
• Is she is respiratory distress or failure?
– Failure
• What treatment would you initiate?
– CPAP w/ albuterol-ipratropium neb
– Be prepared to intubate if no improvement
Family then tells you she has a history of heart failure.
• Will this change your treatment?
– Add NTG
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
92. Critical Thinking &
Outcomes-Based Management
Called for very anxious 35/F sitting upright in sniffing
position, c/o difficulty breathing, fever, difficulty
speaking & swallowing. States if tries to lie down or
lean back it becomes more difficult to breathe.
Skin pale, hot, moist, RR 42, drooling, lungs clear,
O2 sat 90% RA, ETCO2 48, HR 142, BP 162/92.
• What immediate treatment should she receive?
– Oxygen and suction w/ rigid tip for oral secretions
• What should be considered?
– Ideally pt may need intubation, but may be a difficult and
best left to more experienced personnel w/ more resources
• If ETI unsuccessful, may require surgical cric
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
93. 35/F continued
• What should be done if enroute to the hospital the pt
stops breathing?
– Attempt ventilation w/ BVM
• Should intubation be immediately attempted? Why?
– No, may be able to ventilate w/ BVM pressure
• Under what circumstances should ETI be attempted?
– Only if unable to ventilate w/ BVM
• Sometimes, the most difficult intervention of all:
– Doing nothing
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
94. What you know; Not what you can do
• For providers with advanced skills the risk of the
“technological imperative” exists.
• Just because you can, does not mean you should,
perform a skill.
• In many cases, the least invasive skill may be the
most appropriate to use.
• Advanced invasive skills have the highest risk for
serious complications; thus, good judgment (critical
thinking) is essential.
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
95. Critical Thinking &
Outcomes-Based Management
FD rescued pt from house fire who not breathing.
PM’s unable to effectively ventilate pt w/ BVM.
Intubation attempted but unsuccessful.
• What is the next step?
– King LTSD was inserted and pt successfully
oxygenated/ventilated (Good work AHFD)
• Start basic and advance as needed
• What should PM’s have done if pt was unable to be
oxygenated/ventilated using King LTSD?
– Cricothyrotomy
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
96. ©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.
97. What is the
most important thing
you learned?
©2012, D. Neubecker, Northwest Community EMS System, These slides are not to be reproduced without permission of NWCEMSS.