Newest in CT imaging technology -- dual energy source -- now being utilized on patients at Penn

November 06, 2006

(Philadelphia, PA) -- The Hospital of the University of Pennsylvania (HUP) is now offering the newest multi-slice computed tomography (CT) imaging technology to patients, becoming the first hospital in Philadelphia equipped with pioneering dual x-ray source technology -- which produces amazingly detailed 3-D images of the heart.

"This new technology provides us with faster, sharper images of the heart, helping doctors better diagnose potential blockages which could lead to heart attacks," explains Harold Litt, MD, PhD, Chief of Cardiovascular Imaging in Radiology at HUP. "Specifically, it allows us to take a picture of the heart twice as fast as the old 64-slice CT technology - at 83 milliseconds versus the old 165 milliseconds - with twice the imaging power. Since the heart is constantly beating and moving, the ability to 'freeze' that motion is essential to capture high quality images of the coronary arteries."

Another breakthrough benefit to this new imaging technology is that, for the first time ever, it is possible to examine every patient regardless of heart rate. Litt states that because of this faster "shutter speed," it is no longer necessary to try to slow down rapid heart rates in patients, via medication, before imaging their heart -- saving vital time for some problematic patients.

"This new system also has a roomier bore to accommodate larger or claustrophobic patients. Plus, the new system exposes patients to as much as 50% less radiation dose because it obtains images in half the time," adds Litt.

The official name of the new system - which was delivered to HUP at the end of October and is now fully operational and being utilized on patients - is Siemens' SOMATOM® Definition. It is the world's first dual-source computed tomography system. What makes this system so cutting-edge is its use of two different X-ray energy sources (which can be used at two different X-ray energy levels) for two detectors. The interaction between the two with tissues in the body is different and by comparing those differences in the two images, radiologists can differentiate, characterize, isolate and distinguish body tissues and fluid, leading to breakthroughs in medical imaging. In the old 64-slice CT technology, only one X-ray energy source and one X-ray detector could be utilized at one time. Now, radiologists can run the 'dual energy' system simultaneously, allowing them to better freeze the motion of the heart and obtain diverse information about the anatomy in a single scan.

Radiologists utilize these images to search for narrowing or blockages in the coronary arteries of the heart. Litt continues, "We can use these images to figure out the cause when patients are complaining of chest pain. Specifically, we may be able to characterize different types of atherosclerotic plaque, including whether a patient has any of the type more likely to rupture and cause a heart attack."

Nick Bryan, MD, PhD, Chair of Radiology at Penn, comments, "It's interesting to note that some of the initial dual energy CT experimental development work was actually done here at HUP in collaboration with Siemens, the maker of the system, by Penn Radiology's Dr. Peter Joseph, back in the 1970s. Also, in recent years, some of the proof of principle research done specifically on this new dual energy approach was conducted here at HUP in a collaboration between Dr. Litt and a Siemens scientist."

Bryan adds, "When a patient comes to Penn, they can be assured that our team of radiologists and cardiologists are armed with the scientific expertise and clinical knowledge which will result in the best use of this new dual energy technology for excellent cardiovascular diagnosis and care."
Editor's Notes:

For more information on Penn Radiology Services, go on-line to:

For more information on Siemens Medical Solutions, go on-line to:

Images available upon request.

PENN Medicine is a $2.9 billion enterprise dedicated to the related missions of medical education, biomedical research, and high-quality patient care. PENN Medicine consists of the University of Pennsylvania School of Medicine (founded in 1765 as the nation's first medical school) and the University of Pennsylvania Health System.

Penn's School of Medicine is ranked #2 in the nation for receipt of NIH research funds; and ranked #3 in the nation in U.S. News & World Report's most recent ranking of top research-oriented medical schools. Supporting 1,400 fulltime faculty and 700 students, the School of Medicine is recognized worldwide for its superior education and training of the next generation of physician-scientists and leaders of academic medicine.

The University of Pennsylvania Health System includes three hospitals, all of which have received numerous national patient-care honors [Hospital of the University of Pennsylvania; Pennsylvania Hospital, the nation's first hospital; and Penn Presbyterian Medical Center]; a faculty practice plan; a primary-care provider network

University of Pennsylvania School of Medicine

Related Technology Articles from Brightsurf:

December issue SLAS Technology features 'advances in technology to address COVID-19'
The December issue of SLAS Technology is a special collection featuring the cover article, ''Advances in Technology to Address COVID-19'' by editors Edward Kai-Hua Chow, Ph.D., (National University of Singapore), Pak Kin Wong, Ph.D., (The Pennsylvania State University, PA, USA) and Xianting Ding, Ph.D., (Shanghai Jiao Tong University, Shanghai, China).

October issue SLAS Technology now available
The October issue of SLAS Technology features the cover article, 'Role of Digital Microfl-uidics in Enabling Access to Laboratory Automation and Making Biology Programmable' by Varun B.

Robot technology for everyone or only for the average person?
Robot technology is being used more and more in health rehabilitation and in working life.

Novel biomarker technology for cancer diagnostics
A new way of identifying cancer biomarkers has been developed by researchers at Lund University in Sweden.

Technology innovation for neurology
TU Graz researcher Francesco Greco has developed ultra-light tattoo electrodes that are hardly noticeable on the skin and make long-term measurements of brain activity cheaper and easier.

April's SLAS Technology is now available
April's Edition of SLAS Technology Features Cover Article, 'CURATE.AI: Optimizing Personalized Medicine with Artificial Intelligence'.

Technology in higher education: learning with it instead of from it
Technology has shifted the way that professors teach students in higher education.

Post-lithium technology
Next-generation batteries will probably see the replacement of lithium ions by more abundant and environmentally benign alkali metal or multivalent ions.

Rethinking the role of technology in the classroom
Introducing tablets and laptops to the classroom has certain educational virtues, according to Annahita Ball, an assistant professor in the University at Buffalo School of Social Work, but her research suggests that tech has its limitations as well.

The science and technology of FAST
The Five hundred-meter Aperture Spherical radio Telescope (FAST), located in a radio quiet zone, with the targets (e.g., radio pulsars and neutron stars, galactic and extragalactic 21-cm HI emission).

Read More: Technology News and Technology Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to