Incorporating coronary CT angiography into the initial evaluation of low-risk patients coming to hospital emergency departments with chest pain appears to reduce the time patients spend in the hospital without incurring additional costs or exposing patients to significant risks.
CT angiography speeds emergency diagnosis of heart disease in low-risk patients
Patients released from hospital much faster without increased costs or risk of missed diagnosis
Incorporating coronary CT angiography (CCTA) into the initial evaluation of low-risk patients coming to hospital emergency departments (EDs) with chest pain appears to reduce the time patients spend in the hospital without incurring additional costs or exposing patients to significant risks. The report of a study conducted at nine U.S. hospitals appears in the July 26 New England Journal of Medicine.
"We found that the use of CCTA in emergency department evaluation of acute chest pain very effectively identified which patients did or did not have coronary artery obstruction, allowing clinicians to focus the use of resources on patients with heart disease," says Udo Hoffmann, MD, MPH, director of the Cardiac MR PET CT program at Massachusetts General Hospital (MGH) and corresponding author of the NEJM article. "Although the use of CCTA added to the amount of diagnostic testing used in the evaluation process, compared with current standard protocols it significantly reduced length of stay without increasing costs."
CCTA combines advanced CT scanning with the use of intravenous contrast material to produce detailed images of blood vessels supplying the heart without the need for cardiac catheterization. Several previous studies, including an immediate predecessor to the current one, have indicated that CCTA can effectively distinguish chest pain patients that do not have coronary artery disease, but those studies all had such limitations as lack of a control group or limited analysis of factors like costs and radiation exposure. The current study – ROMICAT (Rule Out Myocardial Infarction/Ischemia Using Computer Assisted Tomography)-II – was designed to determine whether a CCTA-based evaluation strategy could improve clinical decision making at different hospitals across the country.
From April 2010 to January 2012, patients arriving at the participating hospitals' EDs for evaluation of chest pain who had no history of cardiovascular disease and whose initial tests – ECG and measurement of the biomarker troponin – did not clearly indicate a heart attack were invited to participate in the trial. Those who agreed to participate were randomly assigned to one of two groups. The control group proceeded with standard evaluation, with all diagnostic and treatment decisions being made by hospital physicians not part of the study group. The other group had CCTA as part of their ED evaluation, with the results being shared with attending physicians who, again, made all clinical decisions. Participants who were discharged from the hospital within 24 hours of arrival were called within 72 hours to assess their status, and all participants were called 28 days after hospital discharge and asked whether any return ED visits or rehospitalizations had taken place. Participant responses were verified by checking their medical records. About 1,000 patients completed the study, including the 28-day followup.
The investigators found that participants in the CCTA group had significant reductions in the amount of time from ED arrival until discharge either from the ED or after a hospital stay, with half of the CCTA group being discharged within 8.6 hours but only 10 percent of the control group being released so quickly. The amount of time until a diagnosis of heart disease was either ruled out or confirmed was also shorter for the CCTA group than for the controls, and more patients receiving CCTA were discharged directly from the ED rather than being admitted to an observation unit. The percentage of patients actually diagnosed with heart disease was similar in both groups at around 8 percent, and there were no missed diagnoses in either group.
Analysis of total clinical resources used from arrival to discharge indicated that CCTA participants had more diagnostic procedures than control group members, but the difference was not statistically significant. Neither were there any significant differences between groups in total costs through the 28-day followup in those participants for whom cost information was available. CCTA group participants were exposed to higher cumulative doses of radiation, but the authors note that recent studies have indicated that CCTA can often be successfully performed using lower doses and suggest that future studies test the utility of low-dose CCTA examination.
"It's very important to strive for the greatest efficiency in diagnostic testing, and in this study, additional testing was primarily carried out in patients found to have coronary artery disease," Hoffmann says. "There also were fewer adverse clinical events in those receiving CCTA, although the study group was too small to conclude that CCTA reduced those risks.
"Showing at a variety of clinical sites that CCTA is at least as good as standard ED evaluation without increasing costs elevates the procedure from one appropriate only for specialized settings to one that can be applied in many centers," he adds. "I'd really like to commend the commitment and teamwork of all the participating sites and departments, which was essential to the successful completion of this study." Hoffmann is an associate professor of Radiology at Harvard Medical School.
Co-authors of the study include Quynh Truong, MD, MPH, MGH Heart Center; David Schoenfeld, PhD, MGH Biostatistics; John Tobias Nagurney, MD, MPH, MGH Emergency Department; Scott Gazelle, MD, MPH, PhD, MGH Institute for Technology Assessment; Eric Chou, MD, Kaiser Permanente Fontana Medical Center; Pamela Woodward, MD, Washington University School of Medicine; Hector Pope, MD, Baystate Medical Center; Steven Wiviott, MD, Brigham and Women's Hospital; Jerome Fleg, MD, National Heart, Lung and Blood Institute (NHLBI); and James Udelson, MD, Tufts Medical Center. The study was supported by grants from NHLBI and the National Institutes of Health.
Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH conducts the largest hospital-based research program in the United States, with an annual research budget of more than $750 million and major research centers in AIDS, cardiovascular research, cancer, computational and integrative biology, cutaneous biology, human genetics, medical imaging, neurodegenerative disorders, regenerative medicine, reproductive biology, systems biology, transplantation biology and photomedicine. In July 2012, MGH moved into the number one spot on the 2012-13 U.S. News & World Report list of "America’s Best Hospitals."
Media Contacts: Ryan Donovan, 617 724-6433, firstname.lastname@example.org