airway and breathing
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Airway and BreathingAirway and BreathingContinuing EducationContinuing Education
Heidi Whitman Intensive Care Paramedic
A&B Topics Covered
Oxygen and Ventilation Anatomy and Physiology Pathophysiology Interventions Best Practices
Upper Airway Tongue Nose
Pharynx Nasopharynx Oropharynx
Epiglottis Trachea Esophagus
Lower Airway
Trachea Cricothyroid Bronchi Bronchioles Alveoli
One cell thick, functional units of the lungs, for gas exchange
Oxygenation
The term “Oxygenation” describes:
Movement of oxygen into the blood stream
Provision of oxygen to the cells
Ventilation
The term “Ventilation” describes:
Movement of air in and out of the lungs
Removal of carbon dioxide, CO2
Oxygenation and Ventilation
A decrease in ventilation = a decrease in oxygenation...usually.
For example, the lungs require ventilation to move the CO2 out of the body, but a hypoventilating patient
with a NRB on will have increased carbon dioxide AND increased oxygen. Not ideal.
Oxygen and Carbon DioxideThe body needs optimal amounts of oxygen and
carbon dioxide to function properly.
Oxygen is affected by: hypoventilation and the oxygen carrying ability of the bloodCO2 is affected by: hypo- or hyperventilation, and the acidity of the body (sepsis, rhabdomyolysis, etc)
More on ETCO2 later...
Oxygen: SPO2 ≥95% or >90% in COPD pts
Carbon dioxide: End tidal CO2 35-45 mmHg
Clinical Assessment
Oxygenation
Pink skin, mucous membranes and nail bedsMental statusPulse oximetry
VentilationDepth of respirationRespiratory rateMental statusCapnography
General Positioning (Tripod); Ability to speak
Tripod position
Respiratory retractions
Perioral cyanosis
AuscultationThe lungs are divided into lobes. The right lung has three lobes while the left lung only has an upper and a lower lobe. The upper lobes of the lungs are more anteriorly placed while the lowers are placed more posteriorly.
AuscultationA minimum auscultation includes bilateral checks of both upper and lower lobes, a four point listen.
Listen to the uppers at just below the clavicles bilaterally.
The lowers are best heard from the back, however patient's cannot always sit forward for you. If so, then listen to the lowers @ midaxillary, just below the armpits, bilaterally. If you are able to listen through the back, auscultate at points around the scapula.
LS: CTA x4
Auscultation
Auscultation
Crackles or rales - A fine, bubbling sound heard on inspiration and associated with fluid in the smaller bronchioles. Secondary to CHF/pulmonary edema, drowning, or an acute cardiac event.
Wheezes – A musical squeaking or whistling sound heard more on expiration, but can also be heard on inspiration. Secondary to bronchospasm associated with asthma, COPD, pneumonia, or allergic reaction.
Types of lung sounds:
Auscultation
Rhonchi - A coarse bubbling or plopping sound heard oninspiration or expiration. Can be emphasized by having the patient exhale forcefully. Secondary to pneumonia. Stridor – A high-pitched
noise heard while inhaling during a partial airway obstruction. Secondary to FBAO, or laryngospasm.
Respiratory Distress – having difficulty getting oxygen into lungs and into blood
Respiratory Failure – unable to take in enough oxygen to meet body's needs
Respiratory Arrest – no longer breathing
Do I need to intervene?
Is the patient adequately
oxygenated?Is the patient adequately ventilated?
Five Reasons to Intervene
Five reasons to intervene
Non-patent airwayMassive facial traumaCopious amount of foreign materialExtreme exacerbation of disease to the airway (epiglottitis, etc)
Five reasons to intervene
Inability to maintain a patent airwayBlood and VomitFacial TraumaDepressed mental status
Five reasons to intervene
Failure to oxygenateSevere difficulty breathing (dyspnea)Impairment of oxygen diffusion (pneumonia, pulmonary edema, pulmonary contusion, etc)
Five reasons to intervene
Failure to ventilateDifficult to maintain an adequate mask sealForeign material in the airwayChest trauma that causes a pneumothorax or rib fractures (hypoventilation due to severe pain)Upper airway trauma
Five reasons to intervene
Anticipated deterioration in the patient or airway patency
Inhalation burns that cause airway edema. Airway edema can occur rapidly, close off the airway, andmay not allow placement of an advanced airway.OverdoseFacial traumaIntoxicantsBrain injury
Oxygenation Interventions
Acute mask: Flow rate @ 4-8 lpm
Non-rebreather: Tighten the seal around the nose and with the elastic band, otherwise it only provides maybe 60% O2. 10-15 lpm, enough to allow the reservoir bag to reinflate between respirations.
Bag Valve Mask (BVM): With a tight face seal. BVM is a 2-3 person job optimally. 10-15 lpm.
Ventilation InterventionsPositioning: Sniffing postion is a position where there is slight flexion of the neck and extension of the head. This position is sometimes helped by placing a folded sheet or towel underneath the patient's occiput. For children, the occiput is much larger than an adult's and will cause enough flexion in the neck to crimp off the softer airway of the child. Place a folded sheet or towel under the child's shoulders to raise them up.Jaw thrust is the position for trauma patients.
Jaw Thrust
Head Tilt/Chin Lift
Ventilation Interventions
Airway Adjuncts: Always use! If the patient can tolerate an oral airway, use it. If the patient cannot tolerate the oral airway, place a nasal airway. It is A-OK to place TWO nasal airways and an oral airway in a difficult to ventilate patient in order to maximize the airway.
Ventilation InterventionsBVM Ventilations: Use the C-E position with the hands. BVM is a two person job, use two people if there is enough manpower.
Two-handed Techniques
In order to do it properly, one-person BVM ventilation
requires a substantial amount ofPractice and Experience
Ventilation Rates:
Adults 10-12 breaths/minuteor a vent q 5-6 secondsPediatrics 12-20 bpm
or a vent q 3-5 secondsAdv airway rate 8-10 bpm
Ventilation InterventionsAssisting Ventilations: If the patient is breathing on
their own, but inadequately, assist their ventilations with a BVM.
Time the squeeze to their breaths. If they are breathing too fast then assist them with every other breath. If they are breathing too slow then sneak in an extra breath in between theirs. This takes a lot of concentration, so this person should not be the team leader.
Sometimes you can feel the patient relax into your assistance.
Ventilation InterventionsDentures: In general, tight fitting dentures can provide
facial support and help you with the seal. Loose fitting dentures can obstruct the airway and should be removed. (Don't lose them!)
Ventilation Volume: Ventilate just enough to get chest rise, preventing
barotrauma to the lungs from too much pressure.
Sellick's Maneuver (Cricoid pressure)
Pressure from anterior to posterior on the cricoid ring of the larynx (Adam's apple).
Moves trachea posterior and compresses esophagus to prevent aspiration and gastric inflation.
Suctioning
Suctioning removes foreign material from the airway
Suctioning also removes oxygen from the patient
SuctioningBSI precautions –
Where are your safety goggles!?!
Gurgling is the most frequent sign of liquid in the airway.
Suction for 5-10 seconds. No more.
Suction only on the way out.
A Word on AspirationAspiration is the active inhalation of stuff into the
airway (stuff = vomitus, saliva, blood, etc)
Pulmonary aspiration secondary to vomitus can be disastrous. The acidity of the gastric acid can
destroy lung surfactant and cause alveolar collapse. It can fill up the alveoli and bronchi
with fluid, causing pulmonary edema, hypoventilation and hypoxemia. These patients have prolonged recovery times and much higher
mortality rates.
Removing jewelry may or may not be feasible
Oropharyngeal Airway (OPA)Indications: Unresponsive patient with no gag reflex
Contraindications: Responsiveness or an intact gag reflex
OPAs
Select the proper size. Measure from corner of pt's mouth to the bottom of ear.
Insert with tip aimed at roof of pt's mouth. Insert gently while rotating 180°, resting the flange on the pt's teeth.
Use a tongue depressor in children, inserting with tip facing floor of pt's mouth.
Nasopharyngeal Airway (NPA)AKA Nose Trumpet
Indications: Responsive or partially responsive patient, intact gag reflex
Contraindications: Facial trauma, head injury/skull fracture
NPAs are wonderful for prolonged seizure or overdose patients where their GCS is waxing and waning.
Chronically underused!!
NPAs Determine proper size. In general, women size
6, mid-sized people size 7, large man size 8. Lube and insert with bevel towards septum.
Insert with a gentle twisting back and forth motion. Advance until flange rests at the nostril.
Assisting an Advanced Provider Provide excellent oxygenation and ventilation This buys time to prepare equipment and place
an advanced airway If the BLS airway is working great, then the ALS
can de-prioritize the advanced airway and tend to other aspects of the call
LMA (Laryngeal Mask Airway)Advantages: BLS level advanced airway;
minimal spinal movement is required for insertionDisadvantages: The patient must be
unresponsive and have no gag reflex; not all pt's can be adequately ventilated with the LMA; the airway must be removed when the pt becomes responsive, agitated or vomits; the airway should be replaced with an ET tube as soon as possible
Contraindications: Presence of a gag reflex; caustic ingestion; esophageal trauma or disease
LMA PlacementCheck the LMA to confirm working order
Gather all your supplies needed (steth, LMA, syringe, confirmation devices, suction, lube)
Insert the LMA thru the mouth into the pharynx, with the black line facing superior towards the nose.
Release the tube while inflating the LMA
Ventilate at 8-10 bpm, or a vent q 6-7 sec.s
Make your first attemptyour Best attempt!
Advanced Airway ConfirmationConfirm placement with at least four Confirm placement with at least four measures, recorded on your PRF:measures, recorded on your PRF:
Bilateral breath sounds and Absence of epigastric sounds (5 point check)ETCO2 SPO2 Equal chest rise and fall Condensation in the tubeDirect visualization of placement (ET)
The LMA sits in the esophagus and closes it off, allowing ventilations through the
larynx.
FBAO
Foreign Body Airway Obstruction inevitably leads to cardiac arrest in all patients if not corrected
within minutes.
Incomplete obstruction: No heimlich, encourage pt to clear obstruction themselves
Complete obstruction: Heimlich maneuver until person loses consciousness
FBAO
Unconscious choking: Rescue breathing and CPR, checking for the foreign object each time you open the airway. No blind finger sweeps. Continue until advanced procedures become possible (magill forceps with laryngoscopy, or
cricothyrotomy)
End Tidal CO2
End Tidal CO2 is an objective measurement of the quality of ventilation and perfusion. It records
carbon dioxide both as a waveform and as a numerical value.
Use of ETCO2 with advanced airways reduced Orlando, Florida's misplacement percentage
from 25% to 0%!
End Tidal CO2The orange bit of the ETCO2 line plugs into the
top-left of the lifepak, above the SPO2 input.
End Tidal CO2The nasal prong line measures CO2 through a flap that hangs over the mouth. It also can deliver oxygen to the patient.
The advanced airway line connects to the top of the LMA or endotracheal tube.The line can become clogged and un-useable if the patient vomits.
ETCO2
The waveform does not automatically show up on the screen, you will need to spin the dial to highlight the bottom section, then switch the waveform to CO2.Have a play with the monitor next time you are on shift.
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