7/24/2014 1 Introduction Normal Anatomy Physiology Airway evaluation Management of normal vs. abnormal airway Difficult airway Almost all of pediatric codes are due to respiratory origin 80% of pediatric cardiopulmonary arrest are primarily due to respiratory distress Majority of cardiopulmonary arrest occur at <1 year old More anterior / cephalad larynx Relatively larger tongue Angled vocal cords Differently shaped epiglottis Funneled shaped larynx-narrowest part of pediatric airway is cricoid cartilage
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Pediatric Airway Management · Airway evaluation Management of normal vs. abnormal airway Difficult airway Almost all of pediatric codes are due to respiratory origin 80% of pediatric
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7/24/2014
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Introduction
Normal Anatomy
Physiology
Airway evaluation
Management of normal vs. abnormal airway
Difficult airway
Almost all of pediatric codes are due to respiratory origin
80% of pediatric cardiopulmonary arrest are primarily due to respiratory distress
Majority of cardiopulmonary arrest occur at <1 year old
More anterior / cephalad larynx
Relatively larger tongue
Angled vocal cords
Differently shaped epiglottis
Funneled shaped larynx-narrowest part of pediatric airway is cricoid cartilage
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Funneled shape larynx
Narrowest part of infant’s larynx is the undeveloped cricoid cartilage, whereas in the adult it is the glottis opening (vocal cord)
Tight fitting ETT may
cause edema and trouble upon extubation
Uncuffed ETT preferred for patients < 8 years old
Fully developed cricoid cartilage occurs at 10-12 years of age
If radius is halved, resistance increases 16 x Image from: http://www.hadassah.org.il/NR/rdonlyres/59B531BD-EECC-4FOE-9E81-14B9B29D139B1945/AirwayManagement.ppt
Increase work of breathing
Tachypnea/tachycardia
Nasal flaring
Drooling
Grunting
Wheezing
Stridor
Head bobbing
Use of accessory muscles/retraction of muscles
Cyanosis despite O2
Irregular breathing/apnea
Altered
consciousness/agitation
Inability to lie down
Diaphoresis
Facial expression Nasal flaring Mouth breathing Drooling Color of mucous membranes Retraction of suprasternal,
intercostal or subcostal Respiratory rate Voice change Mouth opening Size of mouth
Mallampati Loose/missing teeth Size and configuration of
palate Size and configuration of
mandible Location of larynx Presence of stridor
(inspiratory/expiratory) Baseline O2 saturation Global appearance (congenital
anomalies) Body habitus
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BVM
Intubation
Extraglottic Device (Rescue Airway)
Surgical Cricothyroidotomy
“MOANS”
M: Micrognathia, Macroglossia, Midface Hypoplasia
O: Obstruction
A: Atresia Chonae
N: Neck Immobility
S: Stridor (supraglottic edema / FBAO)
“LEMON”
L: Look
E: Evaluate
M: Mallampati
O: Obstruction
N: Neck Immobility
“RODS”
R: Restricted Mouth Opening
O: Obstruction
D: Distortion of Anatomy
S: Stiff Lungs or Cervical Spine
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“SHORT”
S: Surgery
H: Hematoma
O: Obstruction / Obesity
R: Radiation
T: Tumor
Positioning
Adjuncts OPA - good choice if tolerated
NPA - easy to tear mucosa
Effective BVM use is most important skill Get a good seal (two person better)
Don’t over ventilate
Don’t forget the suction
“The difficult airway is something one anticipates…..the failed airway is something one experiences.” -Walls 2002
Progresses rapidly from a sore throat to dysphagia and complete airway obstruction (within hours)
Signs of obstruction: stridor, drooling, hoarseness, tachypnea, chest retraction, preference for upright position
OR intubation/ENT present for emergency surgical airway
Do NOT perform laryngoscopy before induction of anesthesia to avoid laryngospasm
Inhalational induction in Range of ETT one-half to one size smaller
Etiology: Parainfluenza virus
Occurs in children ages 3 months to 3 years
Barking cough
Progresses slowly, rarely requires intubation
Medically managed with oxygen and mist therapy, racemic epinephrine neb and IV dexamethasone (0.25-0.5mg/kg)
Indications for intubation: progressive intercostal retraction, obvious respiratory fatigue, and central cyanosis
Croup (Laryngotracheobronchitis)
Occurs in 1/13000-15000 births
Autosomal dominant
Macroglossia, Exomphalos, Gigantism
Associated with mental retardation, organomegaly, abdominal wall defect, pre- and postnatal overgrowth, neonatal hypoglycemia, earlobe pits, Wilms tumor
Ferry, R “Beckwith-Wiedemann Syndrome” emedicine.com
http://www.emedicine.com/ped/toic218.htm
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Plans “A”, “B”, and “C”
Different: Size of blade Type of blade
Miller Macintosh Specialty
Position (patient & provider)
Hockey stick bend in ETT or Directional tip ETT Gum Elastic Bougie Remove the stylette as you pass through the cords “BURP” Have someone else try
Miller blade is preferred for infants and younger children
Facilitates lifting of the epiglottis and exposing the glottic opening
Care must be taken to avoid using the blade as a fulcrum with pressure on the teeth and gums
Macintosh blades are generally used in older children
Blade size dependent on body mass of the patient and the preference of the anesthesiologist
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If unable to intubate, immediately go to plan:
“B”
Can you ventilate with a BVM?
(Consider an OPA, + Cricoid pressure w/ gentle ventilation)
Combitube
KING – LT-D
LMA
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Used in any age Easy to place Few complications Contraindications:
Gag reflex FBs Airway obstruction High ventilation
pressure
Does not secure airway
LMA Size Patient Size
1 Neonate / Infants < 5 kg
1 ½ Infants 5-10 kg
2 Infants / Children 10-20 kg
2 ½ Children 20-30 kg
3 Children/Small adults 30-50 kg
4 Adults 50-70 kg
5 Large adult >70 kg
Two sizes Small (4 to 5.5 feet tall)
Regular (over 5.5 feet tall)
Not useful in most kids
Easy to place
Contraindications Gag reflex
Esophageal disease
Caustic ingestions
FBs/Airway obstruction
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Plan “C”:
Surgical Cricothyroidotomy
MUST BE > 12 YEARS OLD (Follow Protocol)
Last resort…
Bleeding
Laryngeal or tracheal injury
Infection
Pneumomediastinum
Subglottic stenosis
Cardiac monitor
Monitor for dysrythmias
bradycardia, tachycardia, ectopy
Blood Pressure monitoring (manual or NIBP)
Monitor for hypo- or hypertension
Pulse oximetry
Monitor for hypoxia
Capnography
Monitor for hypo- or hypercarbia
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OBJECTIVE
Direct visualization BEST
CXR (in hospital)
Pulse oximetry
Capnography
CO2 detectors Easy Cap - colormetric
Self-inflating bulb
SUBJECTIVE
Absence of abdominal sounds while ambu- bagged
Mist in the tube
Bilateral breath sounds
Rise/fall in chest
Confirm placement using at least 3 methods, including
capnography waveform.
Capnography
Capnography
Capnography
Capnography
Capnography
Capnography
CAPNORGRAPHY ???
Secure airway device
Immobilize the head
Verify correct placement each time the patient is moved
Document appropriately
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In Summary Thank You!!!
Works Cited Gausche M, et al. Effect of out-of-hospital pediatric endotracheal intubation on survival and neurologic
outcome. JAMA. 2000. 283(6): 783-790. Gilligan BP, et al. Pediatric Resuscitation. In Rosen’s Emergency Medicine: Concepts and Clinical Practice, 6th Ed.
Mosby, 2006. Hazinski MF, et al (Ed). PALS provider manual. AHA, 2005. Lee BS, et al. Pediatric airway management. Clin Ped Emerg Med. 2001. 2(2): 91-106. Lubitz DS. A rapid method of estimating weight and resuscitation drug doses from length in the pediatric age
group. Ann Emerg Med. 1998. 17(6):576-581. Luten R. Error and time delay in pediatric trauma resuscitation: Addressing the problem with color-coded
resuscitation aids. Surg Clin of N Amer. 2002. 82(2). Luten RC. The pediatric patient. In Manual of Emergency Airway Management, 2nd Ed. Lippincott, 2004.