Skip to main content

Michael Jay Campbell, MD

Associate Professor of Pediatrics
Campus mail: Box 3090 Med Ctr, Durham, NC 27710
Phone: (919) 684-3574
Email address: michael.campbell2@duke.edu

Clinical interests include pediatric echocardiography, fetal echocardiography, pediatric/congenital cardiac MRI, treatment of children with acquired and congenital heart disease.

Educational interests include the education of pediatric cardiology fellows, pediatric residents and medical students in pediatric cardiology.

Research interests include cardiac imaging research (echocardiography and cardiac MRI) in children and adults with congenital heart disease. Clinical research interests also include fetal echocardiography. Basic science research interests include the genetics of congenital and acquired aortic stenosis.

Education and Training

  • Pediatric Cardiology Fellowship, Pediatrics, Vanderbilt University, 2004 - 2007
  • Pediatric Internship & Residency, Pediatrics, Vanderbilt University, 2001 - 2004
  • M.D., University of South Carolina, Columbia, 2001

Publications

Carothers, B., M. Carboni, J. F. Rhodes, M. J. Campbell, J. W. Delaney, A. S. Green, and P. Barker. “Myocardial Strain by Velocity Vector Imaging as a Marker for Function and Rejection in Pediatric Heart Transplant Recipients,” n.d.

Scholars@Duke

Chu, P., C. Hornik, J. S. Li, M. J. Campbell, and K. D. Hill. “National Trends in RSV Hospitalization in Children with Hemodynamically Significant Heart Disease, 1997-2009,” n.d.

Scholars@Duke

Campbell, M. J., B. Zhou, M. Langworthy, L. Batts, S. Fazio, M. Linton, and S. Baldwin. “NFATc1 and acquired aortic stenosis,” n.d.

Scholars@Duke

Campbell, M. J., B. Zhou, M. Langworthy, L. Batts, S. Fazio, M. Linton, and S. Baldwin. “NFATc1 and acquired aortic stenosis,” n.d.

Scholars@Duke

Chamberlain, R., E. C. Smith, and M. J. Campbell. “Novel dystrophin rod domain duplication in patient with X-linked dilated cardiomyopathy,” n.d.

Scholars@Duke

Tunks, R. D., P. Barker, R. Kim, and M. J. Campbell. “Prevalence and Pattern Characterization of Abnormal Findings on Delayed Enhancement Cardiac Magnetic Resonance Imaging in Pediatrics and Congenital Heart Disease,” n.d.

Scholars@Duke

Huang, S., P. Barker, H. Kim, M. J. Campbell, and R. Kim. “Prevalence of myocardial scarring in congenital heart disease. A comparison between left ventricular pressures and volume overload using a novel black blood delayed enhancement imaging technique,” n.d.

Scholars@Duke

Campbell, Michael, Han Kim, and Stephen Darty. “Rare aortic arch anomaly identified by CMR in patient with Klippel-Feil syndrome.” Society of Cardiovascular Magnetic Resonance, n.d.

Scholars@Duke

Kropf, P., P. Barker, S. Miller, G. Tatum, and M. J. Campbell. “Realizing the Promise for a Criss-Cross Heart: Accurate Physical Representation of Complex 3-Dimensional Anatomy,” n.d.

Scholars@Duke

Campbell, M. J., P. Barker, and J. S. Li. “Utility of Adenosine Cardiac Stress MRI to Evaluate Ischemia in Patients with Kawasaki Disease,” n.d.

Scholars@Duke

Pages