@Article{chd.12673,
AUTHOR = {Shelby C. White, Jennifer Sedler, Trahern W. Jones, Michael Seckeler},
TITLE = {Utility of three‐dimensional models in resident education on simple and complex intracardiac congenital heart defects},
JOURNAL = {Structural and Congenital Heart Disease},
VOLUME = {13},
YEAR = {2018},
NUMBER = {6},
PAGES = {1045--1049},
URL = {http://www.techscience.com/schd/v13n6/39084},
ISSN = {3071-1738},
ABSTRACT = {<b>Objective:</b> Applications of three‐dimensional (3D) printed models in medicine in‐
clude preprocedure planning, patient education, and clinical training. Reproducing
complex anatomy as a 3D printed model can be useful for understanding congenital
heart defects (CHD). We hypothesized that using 3D printed models during didactic
sessions with resident physicians will improve trainees’ understanding of CHD.<br/>
<b>Design and intervention:</b> We performed a prospective, randomized educational in‐
tervention for teaching pediatric and pediatric/emergency medicine residents about
simple (ventricular septal defect [VSD]) and moderately complex (tetralogy of Fallot
[ToF]) CHD. Residents were divided into two groups: intervention and control. Each
group completed a subjective survey about their comfort with the anatomy, evalua‐
tion, and treatment of VSD and ToF and took an objective test on VSD and ToF. They
separately received the same 20 min lecture, including projected two‐dimensional
digital images of VSD and ToF; the intervention group was given 3D printed models
created using the same imaging data. After the lecture, the groups repeated the sur‐
vey and test questions.<br/>
<b>Results:</b> Twenty‐six residents participated in the VSD session, 34 in the ToF. There
were no differences in demographics between control and intervention groups. All
residents had higher subjective comfort with VSD and ToF after the lectures. There
was no difference in baseline test scores for VSD or ToF groups. The control group
scored higher on the VSD postlecture test. The intervention group scored higher on
the ToF postlecture test.<br/>
<b>Conclusion:</b> Incorporation of 3D printed models into lectures about CHD imparts a
greater acute level of understanding, both subjective and objective, for pediatric and
combined pediatric/emergency medicine residents. There does not seem to be an
added benefit for understanding ventricular septal defects, but there is for tetralogy
of Fallot, likely due to increased complexity of the lesion and difficulty visualizing
spatial relationships in CHD with multiple components.},
DOI = {10.1111/chd.12673}
}