Cardiac imaging detects serious residual septal defects during child open heart surgery

"We focused on intramural ventricular septal defects, which are holes between two chambers of the heart," said Meryl S. Cohen, MD, senior author and pediatric cardiologist at Children's Hospital of Philadelphia (CHOP). She and co-authors previously published a paper in Circulation that recognized these defects as being distinct from other types of residual holes. "These defects, which can occur after initial surgery for another defect, can increase the risk of complications and mortality in children with heart disease, so using imaging tools to quickly identify these defects can improve our care of these children," she added.

The study's first author, Jyoti K. Patel, MD, was a former cardiac fellow in the Cardiac Center at CHOP, and conducted the research during her fellowship. The study team published the research in the September 2016 issue of the Journal of Thoracic and Cardiovascular Surgery.

The scientists reported on the use of intraoperative TEE to identify intramural ventricular septal defects (VSDs) -- holes in the wall between two heart chambers. They performed a retrospective study of 337 children, mostly infants, who underwent surgery at CHOP for conotruncal defects from 2006 to 2013. Conotruncal defects are abnormalities in the heart's outflow tracts -- the pathways that carry blood from the heart to its connected arteries. The resulting abnormal blood circulation may lead to a variety of health problems.

Cardiac surgeons repair some conotruncal defects by sewing a patch from the ventricle to one of the outflows, but a residual hole around the patch may allow blood to flow into the right ventricle. Although this complication is rare, it is potentially life-threatening.

The current study was the first to assess the accuracy of TEE in identifying intramural VSDs. The study team compared intraoperative TEE, which was performed during surgery, to another imaging tool, transthoracic echocardiography (TTE), done after surgery.

Of the 337 surgical patients, 34 had intramural VSDs. Of those 34, both TTE and TEE identified 19 VSDs, while 15 were identified by TTE only. That data showed that TEE had modest sensitivity (56 percent), but high specificity (100 percent) in identifying intramural VSDs. The authors note that "the modest sensitivity suggests that many intramural defects are not detected in the operating room." However, they add, intraoperative TEE was able to identify most of the intramural defects requiring reintervention (e.g., further surgery).

"We hope that this research will increase clinicians' awareness of these intramural defects as an important distinct entity related to surgical complications," said Patel. "If a greater awareness enhances the use of TEE in the operating room, surgeons may better develop strategies to both help prevent these lesions and to consider revising their operations before the patient leaves the operating room if an intramural VSD exists."