Alfred Abuhamad, M.D., chairman of obstetrics and gynaecology at EVMS - recognized worldwide for his skills in using ultrasound to detect foetal heart defects - developed the automation protocol, called Sonography based Volume Computer Aided Diagnosis (SonoVCAD).
"This is going to change the way ultrasound is practised", stated Dr. Abuhamad. "With some heart defects, infants can die without surgery soon after birth. With an earlier diagnosis months before birth, clinicians and the mother can plan delivery in tertiary care centres with surgeons prepared."
GE has incorporated Dr. Abuhamad's automation protocol in the Voluson E8, the next generation of the GE Voluson ultrasound platform for women's health care. This new 3D/4D ultrasound system includes a number of new tools to help improve clinical work flow, including SonoVCAD.
This paves the way for the future of advanced volume ultrasound and image quality, enabling GE to continue its leadership role in consistently delivering clinically relevant technologies that transform health care.
According to the American Heart Association, congenital heart defects rank as the most common birth defect and the number one cause of death during the first year of life. Nearly twice as many children die from congenital heart disease in the United States each year as die from all forms of childhood cancers combined. (American Heart Association Web site, 2007, "Congenital Heart Defects: How Serious is the Problem�")
"Diagnosing defects in the foetal heart requires one of the most challenging diagnostic protocols. It requires a view of the dime-sized heart that shows all four chambers, as well as several precisely angled views of other planes of the heart. If one plane is unobtainable by conventional sonography on the moving foetus, diagnosis is extremely difficult", Dr. Abuhamad stated.
Dr. Abuhamad's protocol automates the acquisition of images to display the planes that are needed for a complete ultrasound evaluation of the foetal heart. "Even for well-trained personnel, manipulation of these planes can be difficult to perform, particularly with relatively complex anatomic organs such as the foetal heart", stated Dr. Abuhamad.
This proprietary SonoVCAD technology displays all of the 2D planes, which complies with the recommended standard screening exam of the foetal heart, as outlined by the American Institute of Ultrasound in Medicine (AIUM), the American College of Obstetrics and Gynaecology (ACOG), the American College of Radiology (ACR) and the International Society of Ultrasound in Obstetrics and Gynaecology (ISUOG). This includes identification of the four-chamber, left outflow tract and right outflow tract views of the foetal heart.
With the software, an ultrasound clinician identifies a standard starting point, for the four-chamber view of the foetal heart. Dr. Abuhamad has created algorithms that allow the other planes to be generated from that four-chamber view. Those views allow physicians to identify the type and severity of foetal heart defects.
"With the insight of healthcare's top physicians, GE is developing innovative ultrasound systems that address some of today's most pressing health care issues", stated Terri Bresenham, vice president of GE Healthcare's Diagnostic Ultrasound and IT business. "The Voluson E8 is yet another example of ultrasound's potential to unlock the future of advanced imaging by helping detect diseases early, when they can be more effectively treated."
"SonoVCAD introduces standardization into ultrasound imaging and helps to reduce the risk of operator exam misinterpretation. By simplifying the technical aspects associated with a foetal ultrasound exam, the detection of foetal heart abnormalities should also be enhanced", stated Dr. Abuhamad.