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3D Printed Tetralogy of Fallot
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by Erler Zimmer Monash University
A trusted GT partner
3D Printed Model
from a real specimen
3D Printed Tetralogy of Fallot
A 21-month old boy was admitted with a history of exhaustion and exertional dyspnoea for the previous 2 to 3 months. During this time there had been several attacks of acute dyspnoea each lasting up to two minutes. Examination revealed central cyanosis, mild finger clubbing, and a harsh systolic bruit maximal at the left sternal edge. Cardiac catheterisation led to a diagnosis of Fallot‘s tetralogy and severe pulmonary oedema. A surgical correction was performed (Willis-Potts anastomosis between the aorta and the origin of the left pulmonary artery). The child developed acute dyspnoea and left lobar consolidation 12 hours post-operatively and died despite treatment.
The child‘s heart is viewed from the anterior aspect. The anterior wall of the right ventricle has been excised to reveal prominent right ventricular hypertrophy and a narrowed pulmonary outflow tract. The pulmonary valve ring is also small, with a bicuspid stenosed valve. There is a patch of endocardial fibrosis in the outflow tract below the pulmonary valve. The origin of the aorta overlies a high ventricular septal defect. A probe could be passes into the aorta from the hypertrophied right ventricle. The further probe was able to be passed from the narrowed pulmonary trunk into a dilated, thin-walled left pulmonary artery and through the surgical anastomosis into the descending aorta. Examination of the posterior aspect of the specimen reveals an opened right atrium and left ventricle. When viewed from the right side of the heart, there is a large atrial septal defect (ASD), 8 mm in diameter at the site of the foramen ovale (large arrow). Another tiny ASD (small arrow) 3 mm in diameter is present posterior to the upper border of the large ASD. Note that the wall of the left ventricle is slightly thinner than the wall of the right ventricle.
The four features of tetralogy of Fallot are: 1. Ventricular septal defect (VSD); 2. An aorta that straddles the VSD with the latter communicating with both ventricles (over-riding aorta) instead of just the left ventricle; 3. Pulmonary stenosis or obstruction of the right ventricular overflow tract; 4. Right ventricular hypertrophy. This condition usually causes cyanosis early in life. Its severity depends on the degree of pulmonary outflow obstruction, which determines whether there is a left-to-right, or right-to-left shunt. In some patients, pulmonary blood flow is increased due to the presence of a patent ductus arteriosus. Patients with this condition may survive untreated into adult life, and a few may reach middle age. However, surgical correction is now possible and is desirable, as the disorder is ultimately fatal. Sometimes additional cardiac abnormalities may be present. (e.g. atrial septal defect, as was found in this case).
In most cases of tetralogy of Fallot, the cause is not known although in some patients, genetic factors play a role. For example, the condition is more common in patients with Down syndrome (Trisomy 21; in association with AV canal defects) or DiGeorge syndrome (22q11 deletion).
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The models are very detailed and delicate. With normal production machines you cannot realize such details like shown in these models.
The printer used is a color-plastic printer. This is the most suitable printer for these models.
The plastic material is already the best and most suitable material for these prints. (The other option would be a kind of gypsum, but this is way more fragile. You even cannot get them out of the printer without breaking them).The huge advantage of the prints is that they are very realistic as the data is coming from real human specimen. Nothing is shaped or stylized.
The users have to handle these prints with utmost care. They are not made for touching or bending any thin nerves, arteries, vessels etc. The 3D printed models should sit on a table and just rotated at the table.