Congenital Heart Disease

Question 1

Some of the most common signs to suggest a congenital heart disease?

Answer 1

Shortness of breath
Increased work of breathing
Tachypnea
Cyanosis
Shock
Diaphoresis with feeding
Dehydration

Question 2

What questions do you want to ask mom when considering possibility of CHD?

Answer 2

Where was the child born? What do the parents already know? What information do they have? Have procedures already been done? What is normal for baby?

Question 3

What physical exams should be done for suspected CHD?

Answer 3

Sick kid exam: ABC’s
Liver size: hints at CHF
Femoral pulses: coarctation

Question 4

What are some of the first diagnostic tests done at bedside for CHD?

Answer 4

Pulse ox on right arm and left leg looking for discrepancy

Hyperoxia test with 100% non-rebreather

Question 5

What is the treatment for all CHD patients? What is the dose and side effect?

Answer 5

PGE1 0.05–0.1 mcg/kg/min load then maintenance at 0.01 mcg/kg/min
Causes apnea in 10%–20% and may require intubation before transfer
Don’t hesitate to give PGE1 if CHD is suspected

Question 6

Which of the CHD does not respond to PGE1?

Answer 6

TAPVR

Question 7

What are the 3 major presentations of CHD?

Answer 7

Cyanosis, Shock, CHF

Question 8

What are the CHD’s that cause CHF?

Answer 8

These lead to increased blood to the lungs

Coarctation, VSD, AS, AV canal

Question 9

What exam findings suggest CHF?

Answer 9

Large liver, rales in the lungs, dehydration

Question 10

4 week-old infant presents in respiratory distress. Lungs with rales and you note a large liver. What is the treatment?

Answer 10

PGE1

Question 11

4 week-old infant presents in respiratory distress. Lungs with rales and you note a large liver. Mom says he has a pulmonary artery band. He is hypotensive. What do you do?

Answer 11

Start PGE 1
Consider giving a pressor:
Dopamine, Milrinone, Digoxin

Question 12

Explain the dose dependent function of dopamine

Answer 12

Receptors D —> B —> A

Dopamine then Beta then Alpha effects

Question 13

How does milrinone work?

Answer 13

PDE inhibitor leading to vasodilation and also + inotropy but without chronotropy
Good for CHF patients because of the inotropy and the vasodilation

Question 14

What are the cyanotic CHD’s?

Answer 14

Five T's, or numbers 1–5
Truncus
Transposition
Tricuspid
Tetralogy
TAPVR

Question 15

3Wk infant presents cyanotic, gray, hypotensive, hypoxic, breathing rapidly. What is first intervention and what to do if abnormal?

Answer 15

Hyperoxia test

Give PGE 1!

Question 16

Kid has Hx of a corrective operation for CHD and presents with acute decompensation. What are two things to think of when treating this kid?

Answer 16

Dehydration and Thrombosis
Sometimes shunts are placed that have passive flow. Correcting dehydration and optimizing hemodynamics can sometimes fix the problem
Shunts can clot and Heparin at times must be considered
tPA can also be considered in critical situations

Question 17

Describe how ductal dependent lesions can be affected by changes in flow caused by dehydration.

Answer 17

Flow across ductus is determined by pressure gradient between aorta and the pulmonary artery. When PVR drops, flow can reverse and divert away from the PA into the aorta and bypass the lungs leading to hypoxia. This will be corrected, not by more O2, but by increasing the PVR (maybe with a pressor, or just with hydration) and reverse the flow back into the PA and to the lungs

Question 18

Describe how ductal dependent lesions can worsen clinically with increased supplemental O2, or decreased CO2, or alkalosis?

Answer 18

Flow across ductus is passive and dependent on pressure gradient between aorta and PA
They have chronic PHTN that is reversed when given O2, or hyperventilated causing decreased CO2 and alkalosis which will increase pulmonary flow and cause hypotension and shock
It may be necessary to hypoventilate and allow hypoxia in order to restore normal systemic flow of blood

Question 19

What are three cardiac conditions where change in flow can cause issues between pulmonary and systemic circulation?

Answer 19

Ductal dependent lesions, Truncus, and Tetralogy

Question 20

Describe change in flow in truncus arteriosis and how this changes with different insults

Answer 20

Blood flow to lungs and systemic is with the same pressure. If resistance in the lungs or the system change then flow to both will change.
Septic shock will decrease PVR and flow to the lungs will suffer and a pressor would be needed to correct the balance.
If PHTN is suddenly decreased by giving too much O2, then systemic shock can develop and iatrogenic hypoxia and hypercapnea are needed to restore systemic blood flow

Question 21

Describe the flow patterns in tetralogy of fallot

Answer 21

Flow here is opposite to truncus
There is resistance to RV outflow and a VSD pushing blood to the systemic side. Blood gets to the lungs by ductus. There is at baseline too much blood going to the system and not to the lungs. These kids get in trouble when they are worked up and breath fast leading to increased systemic flow and decreased pulmonary flow. Squatting increases PVR which aids in pushing blood back to the lungs for oxygeniation.

Question 22

What are some interventions to reverse a Tet spell?

Answer 22

Knees to chest to increase PVR
Phenylephrine
Esmolol to dilate pulmonary outflow
Morphine to relax the kid and the RV outflow tract which spasms, leading to the spell

Question 23

What labs are helpful in kids with CHD and why?

Answer 23

O2 sat compared to their baseline
pH, lactate, H/H
If pH and lactate are normal, then the kid is likely at their baseline
Elevated H/H indicate a chronic condition

Question 24

CHD kids have an increased risk of what catastrophic condition that often isn’t thought of in kids?

Answer 24

Stroke because of the abnormal flow patterns and the communication between left and right side of the heart

Question 25

When to suspect CHD?

Answer 25

<6 weeks of age
Born at home
Cyanosis, shock, or CHF
Lethargy
AMS
Poor feeding
Dehydration
Tachypnea
Respiratory distress
Hypotension
Hypoxemia

Question 26

How to confirm CHD in ED?

Answer 26

Pulse Ox tests, pulses, hyperoxia test, Echo

Question 27

You suspect CHD based on history and exam, what next?

Answer 27

Consider:

Supplemental O2, small fluid boluses, PGE 1, intubation, pressors, echo, CARDS CONSULT!

Question 28

What does it mean if there is an O2 sat difference or a BP difference between the RUE and the LLE?

Answer 28

It indicates a ductal dependent lesion, not just coarctation!

Question 29

What kids should for sure be given PGE 1?

Answer 29

Fail hyperoxia test (on O2 for at least 10 minutes and there is minimal change in SpO2)
There is a difference between RUE and LLE pulse ox and BP

Question 30

How long to Prostaglandins take to work?

Answer 30

Should start seeing a response in 15–20 minutes

Question 31

What is the other name for PGE 1?

Answer 31

Alprostadil

Question 32

When is apnea most commonly seen with alprostadil?

Answer 32

In kids less than 2kg and in the first hour of infusion

Question 33

How is alprostadil dosed?

Answer 33

Initial infusion rate of 0.05–0.1 mcg.kg/min until desired effect is seen: in systemic restricted conditions, will see improvement in BP and pH; in pulmonary restricted flow will see improvement in O2

Question 34

What are causes of acyanotic shock? Treatment?

Answer 34

Coarctation

PGE 1

Question 35

What are causes of acyanotic CHF? Treatment?

Answer 35

PDA, ASD, AVSD, VSD
These are open passages for blood flow leading to too much flow to the lungs
Treatment is PPV, diuretics, ACE inhibitors, PDE III inhibitors
Some of these are caused by the Ductus not closing when it should so PGE 1 is not helpful or needed, but might not cause any harm in undifferentiated patient?

Question 36

With higher hemoglobin concentrations, is cyanosis easier or harder to recognize?

Answer 36

Apparently it is EASIER to recognize with higher hemoglobin concentrations

Question 37

How does a PDA respond to supplemental O2?

Answer 37

Cyanotic kids with a PDA may have persistent PHTN that is causing too much blood to bypass the lungs from a PDA. Giving O2 dilates the pulmonary vasculature leading to more blood going to the lungs and improvement of their hypoxemia.

Question 38

What three causes should come to mind when evaluating a hypoxemic kid?

Answer 38

1) Intra-pulmonary shunting
2) Intra-cardiac shunting
3) Hemoglobin issue

This is why the hyperoxia test is done, to differentiate between 1 and 2

Question 39

What is the most common congenital defect?

Answer 39

Congenital heart defects

Question 40

What percentage of CHD kids survive into adulthood?

Answer 40

90%

Question 41

Though there are many causes of congenital cardiac emergencies, the majority are caused by?

Answer 41

Ductal dependent lesions and therefore PGE 1 is reasonable to try in the undifferentiated patient and should not be delayed for ECHO confirmation