Pediatric Cardiology in the ED

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Transcript Pediatric Cardiology in the ED

Pediatric Cardiology in the ED
Jenn D’Mello and Roger Galbraith
Objectives
• Have an approach to neonatal/infant
presentations of CHD (shock, CHF, tet spell).
• Have an approach to the older child with
acquired CHF/cardiogenic shock.
• Have an approach to pediatric ED patients
presenting with syncope, palpitations, or chest
pain.
• Tips for looking at CXRs when evaluating a child in
the ED for cardiac pathology.
• Have an approach to the child with known CHD
presenting to the ED.
Case 1
• 10 day-old infant brought to ED by mother for
rapid breathing and poor breast feeding,
worsening over past 24 hours.
• Previously well with unremarkable prenatal
history.
• Becoming more lethargic. Initially gasping with
feeds, now just not interested in feeding.
Case 1
• Afebrile. HR 180, RR 80, BP 85/50, sats 88%.
• Infant looks unwell, in respiratory distress,
fussy, and has a weak cry.
• Nasal flaring and occasional grunting.
• Pale, decreased cap refill centrally and in all
extremities, and sweaty to touch.
• What is your differential diagnosis for
neonatal shock?
Neonatal Cardiac Physiology
Congenital Heart Lesions- Cyanotic vs.
Acyanotic?
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ASD
VSD
TOF
TGA
PDA
TAPVR
PAPVR
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Truncus
Tricuspid atresia
Ao stenosis
Pulmonary stenosis
Ebstein’s anomaly
Hypoplastic left heart
Coarctation of aorta
Congenital Heart Lesions- Cyanotic vs.
Acyanotic?
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ASD
VSD
TOF
TGA
PDA
TAPVR
PAPVR
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Truncus
Tricuspid atresia
Ao stenosis
Pulmonary stenosis
Ebstein’s anomaly
Hypoplastic left heart
Coarctation of aorta
Age of CHD presentation by lesion
First Week
• TGA
• TAPVR
• HLH
• Tricuspid atresia
First Month (ductal dependent
lesions)
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1-6 months (often lead to CHF)
• VSD
• PDA
• Coronary anomalies
• TOF
• AV canal defect
Later
Coarctation
• ASD
Severe AS
• PAPVR
Severe PS
TOF with pulmonary atresia • Valve stenosis
Crashing Neonate
• CHD presenting as neonatal shock in the first
1-4 weeks is usually due to closure of the
ductus arteriosus in a ductal dependent
lesion.
• Pulmonary or systemic blood flow becomes
rapidly compromised.
• Most common lesion to present this way is a
coarct- make sure you feel the femorals and
check a 4 limb BP if in doubt.
Management of Neonatal Shock
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ABCs
Oxygen
IV access and fluids, investigations and ? abx
PGE1 infusion
-start at 0.05 mcg/kg/min, titrate up to 0.2.
-should see an effect within 15 minutes.
• Call cardiology/arrange transport.
PGE1 Side Effects
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Apnea
Hypotension
Fever
Flushing
So be prepared to intubate!!
Case 2
• 8 week old infant presents with 2 days of
cough and congestion.
• Today breathing more quickly, sucking in
chest, having a hard time feeding than usual.
• No fever, vomiting, or diarrhea.
• 3 year old sibling has a URTI.
Case 2
• Afebrile, HR 160, RR70, BP 80/50, sats 90%.
• Nursing describes an alert infant with nasal
congestion and respiratory distress with
moderate indrawing and retractions.
• Sounds like bronchiolitis….but how do you
know it’s not CHF?
• What do you need to know on history and
exam to help you find out?
Infant in CHF
• Inability of heart to pump adequate blood to
meet circulatory and metabolic needs.
• Structural causes= VSD, PDA, ASD, AV canal
defect, Ao stenosis, PAPVR, anomalous
coronary.
• Other cardiac causes= SVT, AV block,
cardiomyopathy, myocarditis.
• May present when pulmonary vascular
resistance has dropped to near normal levels
so there is gradually increasing L → R
shunting.
• Can also present when they are tipped into
failure by a new illness (e.g. bronchiolitis)
Infant in CHF
• Need a detailed feeding history.
• History of tiring and sweating with feeds or
taking a long time to finish feeds should alert
you.
• May have FTT.
• Exam may show grunting, tachypnea,
hepatomegaly, FTT, abnormal cardiac exam.
• Should always be on your ddx for a wheezing
infant.
Unrepaired Large VSD
Management of Infant in CHF
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ABCs- may need to support ventilation.
Elevate head/chest
Oxygen
Cardiorespiratory monitoring
IV access and blood work
EKG and CXR
Diuretics (reduce preload)
Inotropes if in shock
Admit/consult cardiology/arrange echo
• http://www.youtube.com/watch?v=YsBM8ep2-M&feature=related
• What’s happening? Why?
Tet Spell
• Occurs in children with CHD causing reduced
pulmonary blood flow- classically in TOF.
• An episode of severe hypoxia caused by
increased R to L shunting and decreased
pulmonary blood flow.
• Etiology often unclear, can be precipitated by
release of valsalva maneuvers when there’s a
sudden increase in venous return.
Tet Spell
• One or more of the following will lead to
increased R → L shunting and decreased
pulmonary blood flow:
– increase in venous return to R heart
– decrease in SVR (lower L heart pressures)
– increase in PVR (higher R heart pressures)
– increase in RV outflow tract obstruction
Tet Spell
• Child presents with a paroxysm of hyperpnea,
prolonged crying, intense cyanosis, and
decreased intensity of the murmur of pulmonic
stenosis.
• They often squat to try and increase their SVR.
• Once the spell starts it leads to a vicious cyclethe hypoxia and acidosis cause hyperventilation
which further decreases SVR.
• This is a medical emergency- it can lead to
syncope, seizure, stroke and death.
Tet Spell Management
• Need to try and decrease hyperventilation,
increase SVR, decrease hypoxia.
• Knee-chest position
• Give oxygen
• Try to calm infant- avoid pokes if you can.
• If not improving get IV access, give fluids.
• Sedate with morphine.
• Propranolol 0.2mg/kg over 5 min.
• Phenylephrine and bicarbonate.
• Likely need ICU/cardiology involvement. May
need to use a general anesthetic.
Case 3
• 10-year-old boy presents with shortness of
breath.
• 5 days of cold and cough symptoms, now has
worsening fever and cough.
• Could just be a pneumonia, but could be
acquired heart disease- how will you know?
• What types of heart disease are acquired by
children?
Myocarditis
• Inflammation of the myocardium resulting
from infectious, toxic, and autoimmune
etiologies.
• Usually infectious, presents in the winter
following a viral prodrome.
• Inflammation causes myocardial destruction
and results in ventricular dysfunction.
Myocarditis
• Consider myocarditis in any child with:
– Weakness
– SOB
– Chest pain
– Especially if associated with preceding prodromal
viral illness
– Wheezing child not responding to bronchodilators
– Distant heart sounds
– Enlarged heart on CXR
Myocarditis Management
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ABCs- may need to support ventilation.
Elevate head/chest
Oxygen
Cardiorespiratory monitoring
IV access and blood work
EKG and CXR
Inotropes usually needed- dopamine, dobutamine,
milrinone
Consider diuretics, afterload reduction (nitroprusside)
Don’t forget antibiotics, ?antivirals
ICU, cardiology, may need ECMO
Basic management is similar to CHF but they are more
likely to need inotropes, can deteriorate more rapidly.
Other Acquired Heart Disease
• Acute Rheumatic Fever
– Preceding strep infection
– Carditis, migratory arthritis, subcutaneous
nodules, erythema marginatum, chorea
• Pericarditis
– Can look very similar to myocarditis, chest pain
may be more prominent
– Can develop tamponade
Acquired Heart Disease
• Endocarditis
– Child usually has predisposing factor like artificial
valve or central line.
– Look for signs of septic emboli.
• Kawasaki’s Disease
– Fever, irritability +++, conjunctivitis,
lymphadenopathy, mucous membranes,
palms/soles, rash.
– Can develop myocarditis or MI from coronary
artery thrombosis.
Peds Cardiology- CXR Tips
Cardiomegaly
• Think about:
– CHD
– Myocarditis
– Pericarditis (effusion, tamponade)
– Cardiomyopathy
– Ischemia (Kawasaki, congenital)
– Arrhythmia
– High output failure (anemia, thyrotoxicosis, AVM)
Vascularity
• Shouldn’t see vessels extending all the way
out into the periphery of the lungs- normal is
about 2/3.
• Most CHD or acquired cardiac pathology
causes ↑ blood to go to the lungs but in some
there is restriction of pulmonary blood flowpulmonary vascularity on CXR can help you
distinguish.
Increased Pulmonary
Vascularity
Decreased Pulmonary
Vascularity
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ASD
VSD
PDA
TGA
TAPVR
HLHS
Truncus
Myocarditis
Pericarditis
Cardiomyopathy
Pulmonary hypertension
TOF
Tricuspid atresia
Ebstein’s
Pulmonary atresia/stenosis
Increased Vascularity
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Decreased
Vascularity
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CXR Anatomy
Classics- The Boot
Egg on a string…sure
Snowman
Big Circle
Bigger Circle
Biggest Circle
Case 4
• 16 year old male presenting with chest pain.
• Not in distress, normal vital signs
• What cardiac causes of chest pain do you
need to rule out?
• How will you rule them out (history, exam,
investigations)?
Chest Pain
• Very broad differential- cardiac, respiratory,
MSK, GI, psych.
• Most commonly it’s related to MSK,
respiratory infections, asthma, or GE reflux
but there are serious causes that need to be
ruled out.
• Life-threatening non-cardiac causes to think
about= traumatic injury, pneumothorax,
pulmonary embolism, asthma, sickle cell crisis.
Cardiac Chest Pain
• Accounts for <5% of all chest pain.
• Causes:
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Pericarditis
Myocarditis
MI (Kawasaki, ALCAPA, cocaine use)
Arrhythmias
Aortic aneurysm
HOCM
• Should be able to distinguish with exam, ECG, and CXR.
• Chest pain on exertion should be referred for further
work-up.
Case 5
• 13 year old female presents with “heart beating
funny” and feeling faint.
• Was at karate practice, felt fine prior. During
practice felt like she might faint. Sat down and
felt better but noticed heart beat felt strange.
• Didn’t go away after practice so came to ED.
• Has felt this many times before in past 6 months
but not concerned because it goes away and “all
kinds of strange things have been happening
since puberty started”.
• Also her mom gets the same thing so obviously
nothing to worry about right?....
Case 5
• Has normal vitals except for HR 130.
• In no distress, exam normal except for
irregularly irregular heart beat and pulse with
discordance.
• EKG done.
Palpitations
• May be benign but generally warrant a fairly
extensive work-up to be sure.
• Prevalence of WPW ~1/500, long QT ~1/5000.
• If it’s still occurring ECG should obviously give
you the diagnosis.
• ECG may also be helpful in sinus rhythm for
WPW or long QT.
Palpitations
• In addition to ECG, also consider:
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CBC
Electrolytes (with calcium, magnesium, glucose)
Tox screen
Thyroid function
CXR
• Even if work-up is normal, should consider
cardiology referral unless there’s an obvious
benign etiology.
• Recurrent palpitations or palpitations with
exercise should always be referred to cardiology.
Case 6
• 14 year-old girl presents to ED after fainting at
a school dance.
• Pale but normal vital signs, alert and
embarrassed.
• What are cardiac causes of syncope?
• How will you rule them out (history, exam,
investigations)?
Syncope
• Much more common and potentially
diagnostically challenging ED presentation.
• Usually a benign etiology (vasovagal,
orthostatic, hyperventilation, or breath
holding), but can represent life-threatening
pathology.
• Approximately 10% are related to migraines,
8% are actually seizures, and 5% have a
cardiac cause.
Syncope
• Cardiac warning signs:
– History of known heart disease.
– Sudden fainting without prodrome.
– Syncope during exercise.
– Incontinence during syncope.
– Significant injury resulting from syncope.
– Family history of sudden death (including single
person MVC, drowning).
– Family/personal history of deafness.
Syncope
• Don’t want to miss long QT or HOCM.
• ECG should always be part of your work-up.
• Consider referring those with normal ECGs but
cardiac warning signs (especially syncope
during exercise and significant family history)
to cardiology.
• Anyone with known heart disease and
syncope should probably get an urgent echo.
Case 7
• A 4 month old infant presents with increasing
cyanosis.
• Had low grade fever, cough, rhinorrhea and poor
feeding for preceding 4 days.
• Today developed increased WOB and
progressively worsening cyanosis.
• Has a history of tricuspid atresia and a BlalockTaussig shunt.
• T 38.3, HR 170, RR 70, BP 80/50, sats 75%, infant
is crying, cyanotic, grunting and has retractions.
• Other than change your pants, what should you
do??? What could be going on?
Known CHD in the ED
• In one study 50% of patients with CHD that
presented to the ED required admission, and
10% of those admitted died.
• These patients often have complex physiology
and are at risk of decompensation for a
number of reasons.
• So yes, you should panic.
CHD in the ED
• Most common presentations of CHD patients
to the ED are for:
– Respiratory tract infection
– Dehydration
– CHF
– Arrhythmia
– Tet spell
– PLE
– Endocarditis
CHD in the ED
• Patients with poor pulmonary blood flow due
to their underlying pathology become
profoundly hypoxic with any increase in their
PVR (eg. bronchiolitis) and behave like a tet
spell.
• Patients that already have limited or passive
pulmonary or systemic blood flow due to their
underlying pathology are very intolerant of
any dehydration.
CHD in the ED
• Bottom line:
– You probably won’t have enough time or
information to figure out exactly what’s causing
their problem- an extensive inpatient work-up is
often required.
– Have a low threshold for admission, possibly ICU.
– Have a low threshold for cardiology consult.
– Don’t be stingy with fluids and oxygen, they often
need one or both, just monitor their response
closely.
The End
• Savitsky et al. Emergency department
presentations of pediatric congenital heart
disease. Journal of Emergency Medicine 2003;
Vol 24:239-45.
• Fleisher et al. Textbook of Pediatric Emergency
Medicine 5th edition.
• APLS- Advanced Pediatric Life Support
Cardiovascular System Lectures I and II
• Thanks to Gavin Burgess and Roger Galbraith