APA

Ho G., Villongco C. T., Yousefian O., Bradshaw A., Nguyen A., Faiwiszewski Y., Hayase J., Rappel W., McCulloch A. D. & Krummen D. E. (20180618). Rotors exhibit greater surface ECG variation during ventricular fibrillation than focal sources due to wavebreak, secondary rotors, and meander. : Journal of cardiovascular electrophysiology.

Chicago

Ho Gordon, Villongco Christopher T, Yousefian Omid, Bradshaw Aaron, Nguyen Andrew, Faiwiszewski Yonatan, Hayase Justin, Rappel Wouter-Jan, McCulloch Andrew D and Krummen David E. 20180618. Rotors exhibit greater surface ECG variation during ventricular fibrillation than focal sources due to wavebreak, secondary rotors, and meander. : Journal of cardiovascular electrophysiology.

Harvard

Ho G., Villongco C. T., Yousefian O., Bradshaw A., Nguyen A., Faiwiszewski Y., Hayase J., Rappel W., McCulloch A. D. and Krummen D. E. (20180618). Rotors exhibit greater surface ECG variation during ventricular fibrillation than focal sources due to wavebreak, secondary rotors, and meander. : Journal of cardiovascular electrophysiology.

MLA

Ho Gordon, Villongco Christopher T, Yousefian Omid, Bradshaw Aaron, Nguyen Andrew, Faiwiszewski Yonatan, Hayase Justin, Rappel Wouter-Jan, McCulloch Andrew D and Krummen David E. Rotors exhibit greater surface ECG variation during ventricular fibrillation than focal sources due to wavebreak, secondary rotors, and meander. : Journal of cardiovascular electrophysiology. 20180618.