The EZ-IO

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Transcript The EZ-IO 

EZ-IO
By Elspeth Richardson
History
• Used in WWII in resusciation of haemorrhagic
shock but then fell out of practice afterwards
• Rediscovered by paediatrician James Orlowski
visiting India during cholera epidemic, and has
been standard of practice in paediatric life support
guidelines since 1980’s
• Used less widely in adults, but now recommended
in some resus guidelines as 1st alternative in
difficult IV access in cardiac arrest setting1
• Central line out of favour in resus setting; ET route
gives lower and more variable concentrations
Science?
• Access through BV’s in BM held open by rigid
non-collapsible bony wall (don’t collapse in
shock) which flow into central venous system
3,4
• Quickly absorbed into systemic circulation nearly identical to IV (ie. within 1 second) 5, 6
• Can deliver any blood products / fluids / drugs
- including high volumes that can’t be given
via ET
• Lasts 24-48hrs
Why?
• “The Golden Hour” - potential for saving
critically ill patients at it’s optimum
• Significant numbers don’t receive necessary
pre-hospital therapy due to difficult IV
access1
• Access can be achieved in <1min without
serious complications assoc with central lines
When?
• APLS: Recommended technique for access
in paediatric cardiac arrest; otherwise
recommended if >3 attempts or >1.5mins to
gain access in critically ill child
• Quick IV access in shock, cardiac arrest,
trauma, combative, disaster/military medicine,
mass casualty scenarios
• Obviously, difficult IV access
• Paediatric patients - IV access unobtainable
in 6% or more2
• Can be considered a ‘bridge’ to a central line
How?
• Little training required, good success rate (95% or more)
in <60secs in most cases1 (central lines take 11-25mins)
• Only 15% will be conscious, but those will need LA
(average pain score on insertion without LA is 2.5/10, or
equivalent to insertion of 18-16 guage peripheral line );
some report significant pain on infusion
• Suggest initial push of 20-40mg 2% lidocaine (0.5mg/kg
paediatric) after insertion to block pressure centres in IO
space (not >3mg/kg/24hrs) --> then, after 15-30secs, give
10ml 0.9% saline flush
• Need pressure bag - flow rate alters by 69-92ml/min
Sites?
• Proximal tibia anteromedial surface, 23cm below tibial
tuberosity, at 90deg to
skin but pointing
caudally to avoid growth
plate
• Distal tibia
• Femoral - anterolateral
surface, 3cm above
lateral condyle
Sites?
• Anterolateral proximal humerus
• Sternum (not good for CPR), superior iliac
crest
• Confirm placement by aspirating 5mls blood
or flushing. Placement successful if sudden
give / needle stands alone / fluid flows easily
• No significant difference between infusion
rates (humeral vs tibial)1
Device?
• Manual device / impact driven device (‘bone injection gun’ spring-loaded needle) / powered drill (EZ-IO - in anyone
>3kg))
• Pink - 3-39kg
• Blue - >40kg
• Yellow - prox humerus >40kg, or much subcutaneous tissue
Cost?
• IV line: $3 - 5, although may be multiple
attempts
• IO line: $65 - 165
• CV line: $200 for kit, $200 for X-ray; much
more costly if gets infected
• Less equipment, less personel, less time,
quicker treatment, less ICU admissions, less
complications
• According to website, EZ-IO has small
environmental footprint!
Complications
• Complications are rare
• Obese - needle not long enough to reach BM space
• 0.6% rate of osteomyelitis - usually only if prolonged or
patient bacteraemic at time of insertion1
• Others: subcutaneous/subperiosteal infiltration during use,
dislodgement, slow flow rate, fracture, compartment
syndrome, skin necrosis, clogging of needle (frequent
flushes), through-and-through penetration, pneumothorax /
vascular injury / mediastinitis if sternal, haematoma, growth
plate injuries
• Contraindicated in: previous sternotomy, fractures above IO
site, previous attempt in same leg/site, previous orthopaedic
surgery in area of insertion, infection at insertion site, local
vascular compromise, osteogenesis imperfecta, osteoporosis