Blue Babies

Blue Babies

I am not an expert when it comes to pediatric emergencies. The mean age of most of my patients is over 50, and the kid calls are far and few between... well usually. In the past two shifts I have had two unstable kids. When it comes to cardiac or adult respiratory calls, I am top notch. My comfort level doesn't go far below the age of 16. I handled the calls efficiently of coarse, but with an added sense of pucker. This has initiated a need for further education.

So let me provide some information on the two congenital conditions these kids suffered from.

Hypoplastic Left Heart Syndrome

In a child with Hypoplastic Left Heart Syndrome, all of the structures on the left side of the heart (the side which receives oxygen-rich blood from the lungs and pumps it out to the body) are severely underdeveloped.

The mitral and aortic valves are either completely "atretic" (closed), or they are very small. The left ventricle itself is tiny, and the first part of the aorta is very small, often only a few millimeters in diameter.

This results in a situation where the left side of the heart is completely unable to support the circulation needed by the body's organs, though the right side of the heart (the side that delivers blood to the lungs) is typically normally developed.

What will we see in the prehospital environment?
Chronic hypoxia. Most-likely, your patient will already be diagnosed, and hopefully receiving the needed treatments.

What is the definitive treatment?
The management of the newborn with Hypoplastic Left Heart Syndrome can be divided into the initial stabilization period and the operative / post-operative period.

Even while diagnostic tests may be going on, the rapid stabilization of infants with Hypoplastic Left Heart Syndrome must begin as soon as the diagnosis is suspected.

Catheters are placed, usually in the umbilical blood vessels, which allow medications to be given and blood to be obtained for testing. An infusion of prostaglandin, a medication that prevents the patent ductus arteriosus from closing, is begun, thus maintaining the pathway for blood to reach the body from the right ventricle.

Even though the infant may have low oxygen saturations, supplemental oxygen is avoided since it tends to promote more blood flow to the lungs which may steal blood flow from the body and place excessive demands on the already stressed single right ventricle.

Manipulations of medications and respiratory treatments (including possible mechanical ventilation) are performed to optimally balance the flow of blood to the body and the flow of blood to the lungs.

Close monitoring is essential to detect any organ dysfunction and maintain cardiopulmonary stability because infants with this anomaly may be very unpredictable and undergo quite sudden changes.

There are essentially three treatment options that have been proposed for children with Hypoplastic Left Heart Syndrome.

In the past, due to poor outcomes with available treatments at that time, no treatment was often recommended. Today it is rare that a family may choose not to treat a child with Hypoplastic Left Heart Syndrome, though in cases when the infant is unable to be satisfactorily stabilized no treatment may be advised.

Cardiac transplantation in the newborn period is performed as primary treatment for Hypoplastic Left Heart Syndrome at some centers in this country. While transplantation has the advantage of replacing the very abnormal heart of a child with Hypoplastic Left Heart Syndrome with one of normal structure, this treatment is limited by the scarcity of newborn organs available for transplantation and the life-long need for anti-rejection therapy. Additionally, although outcomes for transplantation continue to improve, and the incidence of rejection is lowest in patients transplanted as newborns, the average life span of the transplanted heart is limited (currently less than 15 years).

The most commonly pursued treatment for Hypoplastic Left Heart Syndrome is "staged reconstruction" in which a series of operations, usually three, are performed to reconfigure the child's cardiovascular system to be as efficient as possible despite the lack of an adequate left ventricle. These surgeries do not correct the lesion, and are instead considered "palliative".

The first operation in the staged approach is known as the Norwood operation and is typically performed in the first week of life. With the Norwood operation, the right ventricle become the systemic or main ventricle pumping to the body. A "new" or "neo" aorta is made from part of the pulmonary artery and the original, tiny aorta, which is reconstructed / enlarged to provide blood flow to the body. Finally, to provide blood flow to the lungs, a small tube graft is placed either from an artery to the lung vessels (called a modified Blalock-Taussig shunt) or from the right ventricle to the lung vessels (called a Sano modification). Because of the extensive reconstruction of the aorta that must be done, this operation is one of the most challenging heart surgeries in pediatrics.

The subsequent operations in the staged reconstruction plan are the bi-directional Glenn procedure, typically done at 3 to 6 months of age, and the Fontan operation, typically done in children older than 2 or 3 years. These operations are described in more detail in the Heart Encyclopedia chapter on "Single Ventricle Cardiac Anomalies."
"Blue Baby Syndrome"

The first heart surgery ever done was on a blue baby at Johns Hopkins. There is a great movie about this Something The Lord Made, which I highly recommend.

Hypoplastic Left Heart Syndrome is a form of "Blue Baby Syndrome" as well as the following:

Tetralogy of Fallot - Pulmonary stenosis, overriding aorta, ventricular septal defect, and right ventricular hypertrophy.

Dextro-Transposition of the Great Arteries (d-TGA) - With d-TGA, blue blood from the right heart is pumped immediately through the aorta and circulated to the body and the heart itself, bypassing the lungs altogether, while the left heart pumps red blood continuously back into the lungs through the pulmonary artery.

Tricuspid Atresia - Complete absence of the tricuspid valve.

Most information and images courtesy of Wikipedia.


Rogue Medic said...

It is good to review this information, since we see these conditions so rarely and can make them so much worse.

WVmedicgirl said...

Thanks for the info!

Penny said...

Great info! I was just surf the web to see if there was any new info about my husband heart D-TGA. I thank the lord every day that my husband is here and he was well take care of in 1965. Thanks for share more info about people born with D-TGA.