Download - Airway Management
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Airway Management
Yohanes WH George,SpAn
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Topics for Discussion
Airway Maintenance Objectives Airway A&P Review Causes of Respiratory Difficulty & Distress Assessing Respiratory Function Methods of Airway Management Methods of Ventilatory Management Common Out-of-Hospital Equipment Utilized Advanced Methods of Airway Mgmt & Ventilations Risks to the Paramedic
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Objectives of Airway Management & Ventilation
Primary Objective: Ensure optimal ventilation
Deliver oxygen to the bloodEliminate carbon dioxide (C02) from the body
Definitions What is Airway Management? How does it differ from spontaneous,
manual or assisted Ventilations?
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Objectives of Airway Management & Ventilation
Why is this so important? Brain death occurs rapidly; Other tissue
follows EMS providers can reduce additional
injury/disease EMS providers often neglect BLS airway
& ventilation skills
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Airway Anatomy Review
Anatomy of the Upper AirwayAnatomy of the Lower AirwayLung Capacities/VolumesPediatric Airway Differences
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Anatomy of the Upper Airway
Functions: Warm, Filter, HumidifyNasopharynx
formed by union of facial bones nasal floor towards ear not eye lined with mucous membranes and cilia tissues are delicate and vascular
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Anatomy of the Upper Airway
Oropharynx Teeth Tongue
Lg muscle attached at mandible and hyoid bonesMost common airway obstruction
PalateRoof of mouthSeparates oro- & nasopharynxAnterior=hard palate; Posterior=soft palate
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Anatomy of the Upper Airway
Oropharynx Adenoids
lymph tissue - filters bacteriacommonly infected
EpiglottisPrevents aspirationDirects air vs. other
Vallecula“pocket” formed by the base of tongue &
epiglottis
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Anatomy of the Upper Airway
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Anatomy of the Upper Airway
Sinuses cavities formed by
cranial bones act as tributaries
for fluid to & from eustachian tubes & tear ducts
trap bacteria, commonly infected
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Anatomy of the Upper Airway
Larynx attached to hyoid bone
hyoid: horseshoe shaped bone (cartilage)hyoid supports trachea
thyroid cartilagefirst tracheal cartilage - shield shapedcartilage anterior but smooth muscle posterior“Adam’s Apple”Glottic opening directly behind
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Anatomy of the Upper Airway
Larynx (cont) Glottic opening
narrowest part of adult tracheadependent on muscle tonecontains vocal bands
• white bands of cartilage• produce voice
Arytenoid cartilageposterior attachment of vocal bands
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Anatomy of the Upper Airway
Larynx (cont) Cricoid ring
first tracheal ringcompletely cartilaginouscompression occludes esophagus
• Sellick maneuver
Cricothyroid membranemembrane between cricoid & thyroid cartilagesite for surgical and needle airway placement
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Anatomy of the Upper Airway
Larynx (cont) associated & adjacent structures
thyroid gland• below cricoid cartilage• lies across trachea and up both sides
carotid arteries• branches across and lie closely alongside trachea
jugular veins• branch across and lie close to trachea
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Anatomy of the Upper Airway
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Anatomy of the Upper Airway
Pediatric vs Adult Upper Airway Larger tongue in comparison to size of
mouth Floppy epiglottis Delicate teeth and gums Larynx is more superior Funnel shaped larynx due to undeveloped
cricoid cartilage Narrowest point at cricoid ring before 10 yoa
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Anatomy of the Upper Airway
From: CPEM, TRIPP, 1998
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Anatomy of the Upper Airway
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Anatomy of the Lower Airway
Function exchange O2 and CO2
Location From the glottic opening to pulmonary
capillary membrane
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Anatomy of the Lower Airway
Trachea Bifurcates at carina Right and Left mainstem bronchi Right mainstem bronchi has less angle Lined with mucous cells & Beta 2 receptors
Bronchi Branch into secondary & tertiary bronchi
that branch into bronchioles
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Anatomy of the Lower Airway
Bronchioles Branch into alveolar ducts that end at
alveolar sacsAlveoli
“Balloon-like” clusters Site of gas exchange Lined with surfactant
increases surface tension eases expansion surfactant or alveoli not inflated atelectasis
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Anatomy of the Lower Airway
Lungs Right lung = 3 lobes; Left lung = 2 lobes Parenchymal tissue Membranous outer lining called pleura
visceral and parietalpleural space
Specific lung capacities
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Anatomy of the Lower Airway
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Anatomy of the Lower Airway
Occlusion of the bronchiole Smooth muscle Foreign body (not shown) Inflammation
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Lung Volumes & Capacities
Total lung capacity (TLC) in a typical adult male is 6 liters Much of inspired air does not enter
alveoli
Tidal Volume (VT) volume of gas inhaled/exhaled during a
single ventilatory cycle Usually 5-7 cc/kg (typically 500 cc)
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Lung Volumes & Capacities
Dead Space Air (VD) Air remaining in air passageways,
unavailable for gas exchange (usually 150 cc)
Anatomic dead spacetracheabronchi
Physiologic dead spaceformed by factors like disease or obstructionExamples: COPD & atelectasis
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Lung Volumes & Capacities
Minute Volume [Vmin](minute ventilation) amount of gas moved in and out of
respiratory tract per minute (tidal volume - dead space volume) X RR
Functional Reserve Capacity (FRC) after optimal inspiration, the optimum
amount of air that can be forced from the lungs in a single exhalation
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Lung Volumes & Capacities
Alveolar Air (alveolar volume) [VA] Air reaching alveoli for gas exchange Usually 350 cc
Inspiratory Reserve (IRV) Amount of gas that can be inspired in
addition to tidal volumeExpiratory Reserve (ERV)
Amount of gas that can be expired after a passive (relaxed) expiration
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Lung Volumes & Capacities
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VentilationDefined as movement of air into & out of lungs Inspiration
stimulus from respiratory center of brain (medulla) transmitted via phrenic nerve to diaphragm diaphragm flattens during contraction intercostal muscles contract ribs elevate and expand results in intrapulmonic pressure (pressure
gradient) results in air being drawn into lungs & alveoli inflated
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Ventilation
Expiration Stretch receptors in lungs signal
respiratory center via vagus nerve to inhibit inspiration
Hering-Breuer Reflex Natural elasticity of lungs passively
expires air (in non-diseased lung)Control via Pons
Apneustic & Pneumotaxic centers
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Ventilation
Chemoreceptors Carotid bodies & Aortic arch Stimulated by PaO2, PaCO2 or pH
PaCO2 considered normal neuroregulatory control of ventilations
Hypoxic Drive default regulatory control Senses changes in Pa02
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Ventilation
Other stimulations or depressants to ventilatory drive body temp: w/ fever & w/hypothermia drugs/meds: increase or decrease pain: increases but occasionally decreases emotion: increases acidosis: increases sleep: decreases
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Ventilation
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Ventilation
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Measurement of Gases
Total Pressure combined pressure of all atmospheric
gases 760 mm Hg or torr at sea level
Partial Pressure Pressure exerted by each gas of a mixture Atmospheric
Nitrogen 597.0 torr (78.62%); Oxygen 159.0 torr (20.84%); Carbon Dioxide 0.3 torr (0.04%); Water 3.7 torr (0.5%)
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Measurement of Gases
Partial Pressures Alveolar
Nitrogen 569.0 torr (74.9%); Oxygen 104.0 torr (13.7%); CO2 40.0 torr (5.2%); Water 47.0 torr (6.2%)
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Respiration
Ventilation vs. RespirationExchange of gases between a living
organism and its environmentExternal Respiration
exchange between lungs & blood cellsInternal Respiration
exchange between blood cells & tissues
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Respiration
How are O2 and CO2 transported? Diffusion
definitiongases dissolved in water and pass through
alveolar membrane
FiO2
% of oxygen in inspired air (e.g. FiO2 = 0.95)
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Respiration
Oxygen Content of Blood dissolved O2 crosses pulm cap membrane
and binds to Hgb of RBC Transport = O2 bound to hemoglobin
(97%) or dissolved in plasma O2 Saturation: % of hemoglobin saturated
with oxygen (usually carries >96% of total) O2 content divided by O2 carrying capacity
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Respiration
Oxygen saturation affected by: low Hgb (anemia, hemorrhage) inadequate oxygen availability at alveoli poor diffusion across pulm membrane
(pneumonia, pulm edema, COPD) Ventilation/Perfusion (V/Q) mismatch
blood moves past collapsed alveoli (shunting)
alveoli intact but blood flow impaired
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Respiration
Carbon Dioxide content of blood Byproduct of work (cellular respiration) Transported as bicarbonate (HCO3
- ion) 20-30% bound to hemoglobin Pressure gradient causes CO2 diffusion
into alveoli from blood increased level - hypercarbia
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Anatomy of the Lower Airway
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Alveoli PO2 100 & PCO2 40
PO2 40 & PCO2 46 - Pulmonary circulation - PO2 100 & PCO2 40
Heart
PO2 40 & PCO2 46 - Systemic circulation - PO2 100 & PCO2 40
Tissue cell PO2 <40 & PCO2 >46
Inspired Air: PO2 160 & PCO2 0.3
OxygenatedDeoxygenated
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Diagnostic Testing
Pulse OximetryPeak Expiratory Flow TestingPulmonary Function TestingEnd-Tidal CO2 MonitoringLaboratory Testing of Blood
Arterial Venous
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Causes of Hypoxemia
Environment lower partial pressure of atmospheric O2
Transport inadequate hemoglobin level in blood hemoglobin bound by other gas
Medical pulm alveolar membrane distance
pneumonia, pulmonary edema, COPD
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Causes of Hypoxemia
Traumatic Reduced surface area for gas exchange
pneumothorax, hemothorax, atelectasis
Decreased mechanical effortpain, traumatic asphyxiation,
hypoventilationsucking chest wound, obstruction
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Pathologic Causes of Airway and/or Ventilatory Compromise
Obstruction of the Airway Tongue
most commonsnoringreposition airway
Foreign Bodypartial or completechoking, gagging, stridor, aphonia,
dysphonia
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Pathologic Causes of Airway and/or Ventilatory Compromise
Laryngeal Spasm or Edema Spasmotic closure of vocal cords stimulation with intact gag reflex edema results in narrowed airway epiglottitis, anaphylaxis Treatment
calmingventilationmuscle relaxants
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Pathologic Causes of Airway and/or Ventilatory Compromise
Fractured Larynx decreased airway size laryngeal edema increased ventilatory effort
Aspiration increased mortality destroys bronchiolar tissue increased risk of infection increases pulm alveolar membrane distance
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Assessment & Recognition of Airway & Ventilatory Compromise
Respiratory Difficulty & Distress Upper or lower obstruction Inadequate ventilation rate or depth Impaired ventilatory muscles Impaired ventilatory stimulation system
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Assessment & Recognition of Airway & Ventilatory Compromise
Dyspnea (rate, regularity or effort) May be result of or result in hypoxia hypoxia
lack of oxygen availablelack of oxygen to tissuesanoxia = total absence
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Assessment & Recognition of Airway & Ventilatory Compromise
Visual Assessment Position
tripodorthopnea
Rise & Fall of chest Audible gasping,
stridor, or wheezes Obvious pulm
edema (fulminant)
Visual Assessment Skin color Flaring of nares Pursed lips Retractions Accessory Muscle Use Altered Mental Status Inadequate Rate or
depth of ventilations
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Assessment & Recognition of Airway & Ventilatory Compromise
Auscultation Air movement at mouth and nose Tracheal sounds Vesicular lung sounds
Palpation Air movement at mouth and nose chest wall
paradoxical motionretractions
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Assessment & Recognition of Airway & Ventilatory Compromise
Mechanical Ventilation increased resistance or changing
compliance with ventilationsPulsus Paradoxus
Systolic BP drops > 10 mm Hg w/inspirationmay detect change in pulse qualitycommon in COPD, asthma, pericardial
tamponade
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Assessment & Recognition of Airway & Ventilatory Compromise
History Onset
sudden vs gradualKnown cause?
DurationConstantRecurrent
Provocation/Palliation
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Assessment & Recognition of Airway & Ventilatory Compromise
ExacerbationAssociated Signs/Symptoms
Cough, chest pain, feverInterventions
past evals/admits meds ever intubated before?
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Assessment & Recognition of Airway & Ventilatory Compromise
Respiratory Patterns Cheyne-Stokes
brain stem
Kussmaulacidosis
Biot’sincreased ICP
Respiratory Patterns Central Neurogenic
Hyperventilationincreased ICP
Agonalbrain anoxia
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Assessment & Recognition of Airway & Ventilatory Compromise
Inadequate Ventilation body cannot compensate for increased
oxygen demand or maintain balance Causes
infectiontraumabrainstem injurytoxic inhalationrenal failure
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Airway & Ventilation Methods: BLS
Supplemental Oxygen increased FiO2 increases available
oxygen objective is to maximize hemoglobin
saturation
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Airway & Ventilation Methods: BLS
Oxygen source compressed gas liquid oxygen
RegulatorsHumidifier
Delivery Devices nasal cannula partial rebreather
mask non-rebreather
mask venturi mask small volume
nebulizer
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Airway & Ventilation Methods: BLS
Airway Maneuvers Head-tilt/Chin-lift Jaw thrust Sellick’s maneuver
Other Types tracheostomy with
tube tracheostomy with
stoma
Airway Devices Oropharyngeal
airway Nasopharyngeal
airway
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Airway & Ventilation Methods: BLS
Mouth to MouthMouth to NoseMouth to MaskOne person BVMTwo person BVMThree person BVMFlow restricted
powered ventilatorTransport ventilator
One Person BVM difficult to master mask seal often
inadequate may result in
inadequate tidal vol gastric distention
risk ventilate only until
see chest rise
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Airway & Ventilation Methods: BLS
Two person BVM most efficient
method Useful in C-spine inj improved mask seal
and tidal volume
Three person BVM less utilized used when difficulty
with mask seal crowded
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Airway & Ventilation Methods: BLS
Flow-restricted, powered ventilator Cardiac sphincter opens at 30 cm H2O high volume/high conc not recommended for children,
noncompliant or poor tidal volume oxygen delivered on inspiratory effort may cause barotrauma
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Airway & Ventilation Methods: BLS
Automatic transport ventilators Not like a “real” ventilator Usually only controls Volume and rate Useful during prolonged ventilation times Not useful in obstructed airway or
increased airway resistance Frees personnel Can not detect changes
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Airway & Ventilation Methods: BLS
Pediatric considerations mask seal force may obstruct airway best if used with jaw thrust BVM sizes: neonate & infant=450 ml + Children > 8 yoa require adult BVM just enough volume to see chest rise
Squeeze - Release - Release
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Airway & Ventilation Methods: BLS
Stoma patients expose stoma pocket mask BVM
Seal around stoma siteseal mouth and nose if air leak is evident
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Airway & Ventilation Methods: BLS
Airway Obstruction Techniques Positioning OPA/NPA Heimlich maneuver Finger sweep with caution Chest Thrusts Chest thrust and back blows for infants Suctioning Direct laryngoscopy
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Airway & Ventilation Methods: BLS
Suctioning Manual or Powered devices Suction catheters
rigidsoft
Tracheobronchial suctioninglubricate catheter3-5 cc sterile water or salineinsert catheter until resistance is felt
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Airway & Ventilation Methods: BLS
Gastric Distention Common when ventilating without
intubation pressure on diaphragm resistance to BVM ventilation increase time of BVM ventilation
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Airway Management: Part 2
EMS Professions
Temple College
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Airway & Ventilation Methods: ALS
Gastric Tubes nasogastric
caution with esophageal disease or facial traumatolerated by awake patients but is uncomfortablepatient can speakinterferes with BVM seal
orogastricusually used in unresponsive patientslarger tube may be usedsafe in facial trauma
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Airway & Ventilation Methods: ALS
Nasogastric Tube Insertion Select size (french) Measure length
nose to ear to xiphoid
Lubricate end of tubewater soluble
Maintain aseptic technique Position patient sitting up if possible
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Airway & Ventilation Methods: ALS
Nasogastric Tube Insertion (cont) Insert into nare towards base Advance gradually but steadily to
measured length Have patient swallow Assess placement & secure
Instill air & ausculateaspirate gastric contents
May connect to low vacuum (80-100 mm Hg)
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Airway & Ventilation Methods: ALS
Orogastric Tube Insertion Select size (french) Measure length Lubricate end of tube Maintain aseptic technique Position patient (usually supine) Insert into mouth Advance gradually but steadily
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Airway & Ventilation Methods: ALS
Orogastric Tube Insertion (cont) Assess placement & secure
instill air or aspirate
Evacuate contents as needed
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Airway & Ventilation Methods: ALS
Endotracheal Intubation Tube into the trachea to provide
ventilations using BVM or ventilator Sized based upon inside diameter in
mm Lengths increase with increased ID
cm markings along length
Cuffed vs Uncuffed
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Airway & Ventilation Methods: ALS
Endotracheal Intubation Indications
present or impending respiratory failureapneaunable to protect own airway
Advantagessecures airwayroute for a few medicationsoptimizes ventilation and oxygenation
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Airway & Ventilation Methods: ALS
These are NOT Indications Because I can intubate Because they are unresponsive Because I can’t show up at the hospital
without it
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Airway & Ventilation Methods: ALS
Complications of endotracheal intubation Bleeding or dental injury Laryngeal edema Laryngospasm Vocal cord injury Barotrauma Hypoxia Aspiration Dislodged tube or esophageal intubation Right or Left mainstem intubation
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Airway & Ventilation Methods: ALS
Techniques of Insertion Orotracheal Intubation by direct
laryngoscopy Blind Nasotracheal Intubation Digital Intubation Retrograde Intubation Transillumination techniques
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Airway & Ventilation Methods: ALS
Orotracheal Intubation by direct laryngoscopy Position & Ventilate patient Monitor patient
ECGPulse oximeter
Assess patient’s airway for difficulty Assemble & check equipment (suction) Hyperventilate patient (30-120 sec)
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Airway & Ventilation Methods: ALS
Orotracheal Intubation by direct laryngoscopy (cont) Position patient Open mouth & insert laryngoscope blade Attempt to sweep tongue (straight blade) Identify anatomical landmarks Advance laryngoscope blade
Vallecula for curved (Miller) bladeUnder epiglottis for straight (Miller) blade
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Airway & Ventilation Methods: ALS
Orotracheal Intubation by direct laryngoscopy (cont) Elevate epiglottis Directly with straight (miller) blade Indirectly with curved (macintosh) blade Visualize the vocal cords & glottic
opening Enter the mouth with the tube from
corner of mouth
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Airway & Ventilation Methods: ALS
Orotracheal Intubation by direct laryngoscopy (cont) Advance into glottic opening approx.
1/2 inch past vocal cords Continue to hold tube & note location Inflate cuff until firm (approx 10 cc) Ventilate & Auscultate
epigastriumleft and right chest
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Airway & Ventilation Methods: ALS
Orotracheal Intubation by direct laryngoscopy (cont) Secure tube Reassess Ventilation Effectiveness
auscultationclinical signsend-tidal CO2Esophageal detection device
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Airway & Ventilation Methods: ALS
Equipment Laryngoscope Handle
(lighted) & Blades Stylet Syringe Magills Lubricant Suction BVM BAAM (BNI)
Selection Typical Adult ET
Tube SizesMale - 8.0, 8.5Female - 7.0, 7.5, 8.0
BladeMac - 3 or 4Miller - 3
Tube DepthUsually 20 - 22 cm at
the teeth
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Equipment Review
From AHA PALS
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Airway & Ventilation Methods: ALS
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Airway & Ventilation Methods: ALS
Pediatric Equipment Differences Uncuffed tube < 8
yoa Miller blade
preferred Tube Size
Premie: 2.0, 2.5Newborn: 3.0, 3.51 year: 4Then: (age/4)+4
Pediatric Differences Anatomic
Differences Depth (cm)
Tube ID x 312 + (age/2)easily dislodged
Intubation vs BVM
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Airway & Ventilation Methods: ALS
Patient Positioning Goal
Align the 3 planes of view, so that
The vocal cords are most visible
T - trachea P - Pharynx O - Oropharynx
From AHA PALS
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Airway & Ventilation Methods: ALS
Assessing the Possibility of Difficulty in Intubation
Difficulty
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Airway & Ventilation Methods: ALS
What effect would the angle of the mandible have on intubation difficulty?
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Airway & Ventilation Methods: ALS
Curved (Macintosh) Blade Visualize anatomy Insert from right
to left Lift upward and
away Blade in vallecula Lift epiglottis
indirectly
From AHA ACLS
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Airway & Ventilation Methods: ALS
Straight (Miller) Blade Visualize anatomy Insert from right to
left moving tongue away
Lift upward and away Blade past vallecula
and over epiglottis Lift epiglottis directly
From AHA ACLS
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Tube Positioning
From TRIPP, CPEM
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Airway & Ventilation Methods: ALS
Blind Nasotracheal Intubation Position & Oxygenate patient Monitor patient
ECG MonitorPulse oximeter
Assess for BNI difficulty or contraindication Assemble & check equipment
Lubricate end of tube; Do not warmAttach BAAM (if available)
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Airway & Ventilation Methods: ALS
Blind Nasotracheal Intubation (cont) Position patient (preferably sitting upright) Insert tube into largest nare Advance slowly but steadily Listen for sound of whistle via BAAM Advance tube Inflate cuff & Assess placement Secure & Reassess
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Airway & Ventilation Methods: ALS
Digital Intubation Blind technique Variable probability of success Using middle fingers to locate epiglottis Lift epiglottis Slide lubricated tube along side fingers Assess tube placement & depth as with
orotracheal intubation
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Airway & Ventilation Methods: ALS
Digital Intubation
From AMLS, NAEMT
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Airway & Ventilation Methods: ALS
Surgical Cricothyrotomy Indications
absolute need for a definitive airway AND• unable to perform ETT due for structural or anatomic
reasons, AND• risk of not intubating is > than surgical airway risk
OR
absolute need for a definitive airway AND• unable to clear an upper airway obstruction, AND• multiple unsuccessful attempts at ETT, AND• other methods of ventilation do not allow for effective
ventilation and respiration
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Airway & Ventilation Methods: ALS
Surgical Cricothyrotomy Contraindications (relative)
No real demonstrated indicationRisks > benefitsAge < 8 years (some say 10)evidence of fx larynx or cricoid cartilageevidence of tracheal transection
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Airway & Ventilation Methods: ALS
Surgical Cricothyrotomy Tips
Know your anatomyShort incision, avoid inferior tracheaIncise, Do not sawWork quickly. Have a planBe prepared with a backup plan
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Airway & Ventilation Methods: ALS
Needle Cricothyrotomy & Transtracheal Jet Ventilation Indications
Same as surgical cricothyrotomy along withContraindication for surgical cricothyrotomy
ContraindicationsNone when demonstrated needcaution with tracheal transection
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Airway & Ventilation Methods: ALS
Jet Ventilation Usually requires high-
pressure equipment Ventilate 1 sec then
allow 3-5 sec pause Hypercarbia likely Temporary: 20-30
mins High risk for
barotrauma
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Airway & Ventilation Methods: BLS & ALS
Alternative Airways Multi-Lumen Devices (CombiTube, PTLA) Laryngeal Mask Airway (LMA) Esophageal Obturator Airways (EOA,
EGTA) Lighted Stylets
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Airway & Ventilation Methods: BLS & ALS
Pharyngeal Tracheal Lumen Airway
(PTLA)
From AMLS, NAEMT
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Airway & Ventilation Methods: BLS & ALS
No. 1
100 ml
No. 1100 ml
Combitube®
From AMLS, NAEMT
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Airway & Ventilation Methods: BLS & ALS
Combitube® Indications Contraindications
HeightGag reflexIngestion of corrosive or volatile substancesHx of esophageal disease
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Airway & Ventilation Methods: BLS & ALS
Laryngeal Mask Airway (LMA) Use in OR Gaining use in out-
of-hospital Not useful with
high airway pressure
Not a replacement for ETT
Multiple models & sizes
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LMA
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Airway & Ventilation Methods: BLS & ALS
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Airway & Ventilation Methods: BLS & ALS
Esophageal Obturator Airway & Esophageal Gastric Tube Airway Used less frequently today Increased complication rate Significant contraindications Better alternative airways are now
available
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Esophageal Gastric Tube Airway (EGTA)
From AHA ACLS
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Airway & Ventilation Methods: BLS & ALS
Lighted Stylette Not yet widespread use expensive Another method of visual feedback re.
placement in trachea
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Airway & Ventilation Methods: ALS
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Sedation
Reduce anxietyInduce amnesiaDepress gag reflex & spontaneous breathingUsed for
• induction• anxious or agitated patient
Contraindications• hypersensitivity• hypotension
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”)
Common Medications for Sedation/InductionBenzodiazepines (diazepam, midazolam)Narcotics (fentanyl) Anesthesia Induction Agents
• etomidate• ketamine• propofol (Diprivan®)
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Neuromuscular Blockade
Induces temporary skeletal muscle paralysisIndications
• When Intubation is required in a patient who– is awake,– has a gag reflex, or– is agitated or combative
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Neuromuscular Blockade
Contraindications• Most are Specific to the medication• inability to ventilate patient once paralysis is induced
Advantages• enables to provider to intubate patients who otherwise
would be difficult or impossible to intubate• minimizes patient resistance to intubation• reduces risk of laryngospasm
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Mechanism of Action for NMB agent
acts at the neuromuscular junction where ACh normally allows nerve impulse transmission
binds to nicotinic receptor sites at skeletal muscledepolarizes or does not depolarize specific to medblocks further action by ACh at receptor sitestherefore, blocks further depolarization resulting
in muscular paralysis
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Disadvantages & Potential Complications
Does not provide sedation or amnesiaProvider unable to intubate or ventilate after
NMBAspiration during procedureDifficult to detect motor seizure activitySide effects and adverse effects of specific
meds
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Common Used NMB Agents
Depolarizing NMB agents• succinylcholine (Anectine®)
Non-depolarizing NMB agents• vecuronium (Norcuron®)• rocuronium (Zemuron®)• pancuronium (Pavulon®)
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Airway & Ventilation Methods: ALS
Pharmacologic Assisted Intubation (“RSI”) Summarized Procedure
Prep all equipment and medications while ventilating patient
Hyperventilate Administer induction/sedation agents &
pretreatment meds (e.g. lidocaine or atropine)Administer NMB agentSellick maneuverIntubate per usualContinue NMB and sedation/analgesia prn
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Airway & Ventilation Methods: ALS
Examples ofSecondary Tube Placement
Confirmation Devices(From AMLS, NAEMT)
From AMLS, NAEMT
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Airway & Ventilation Methods: ALS
Needle Thoracostomy (chest decompression) Indications
Positive sx/sx of tension pneumothoraxCardiac arrest with PEA or Asystole when
the possibility of trauma and/or tension pneumo exist
ContraindicationsAbsence of indications
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Airway & Ventilation Methods: ALS
Tension Pneumothorax Sx/Sx
severe respiratory distress or absent lung sounds (unilateral
usually) resistance to manual ventilationCardiovascular collapse (shock)asymmetric chest expansionanxiety, restlessness or cyanosis (late)JVD or tracheal deviation (late)
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Airway & Ventilation Methods: ALS
Needle Thoracostomy Prep equipment Locate landmarks: 2nd intercostal space
at midclavicular line one-way valve
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Airway & Ventilation Methods: ALS
Chest Escharotomy Indications
In the presence of severe edema to the soft tissue of the thorax as with circumferential burns:
• inability to maintain adequate tidal volume even with PPV
• inability to obtain adequate chest expansion with PPV
Rarely needed
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Airway & Ventilation Methods: ALS
Chest Escharotomy Considerations
must rule out the possibility of upper airway obstruction
ProcedureIntubate if not already donePrep site and equipmentVertical incision to anterior axillary lineHorizontal incision only if necessaryCover and protect
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Airway & Ventilation: Risks & Protective Measures
BSI Gloves Face & eye shields Respirator if concern for airborne disease Be prepared for
coughingspittingvomitingbiting
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Airway & Ventilation Methods
Saturday’s class Practice using the
equipmentorotracheal intubationnasotracheal
intubationgastric tube insertionsurgical airwaysneedle thoracostomycombituberetrograde intubation