Bibliography

1

R.S. MacLeod, C.R. Johnson, and M.A. Matheson.
Visualization tools for computational electrocardiography.
In Visualization in Biomedical Computing, pages 433-444, Bellingham, Wash., 1992. Proceedings of the SPIE #1808.

2

R.S. MacLeod, C.R. Johnson, and M.A. Matheson.
Visualization of cardiac bioelectricity -- a case study.
In Proceedings of the IEEE Visualization 92, pages 411-418. IEEE CS Press, 1992.

3

R.S. MacLeod, C.R. Johnson, and M.A. Matheson.
Visualizing bioelectric fields.
IEEE Comp. Graph. & Applic., 13(4):10-12, 1993.

4

R.S. MacLeod and C.R. Johnson.
Map3d: Interactive scientific visualization for bioengineering data.
In Proceedings of the IEEE Engineering in Medicine and Biology Society 15th Annual International Conference, pages 30-31. IEEE Press, 1993.

5

R.S. MacLeod, P.R. Ershler, C.R. Johnson, and M.A. Matheson.
Map3d: Scientific visualization program for multichannel time series data on unstructured, three-dimensional meshes. program user's guide.
Technical Report UUCS-94-016, University of Utah, Department of Computer Science, 1994.

6

R.S. MacLeod, D.H. Brooks, H. On, H. Krim, R.L. Lux, and F. Kornreich.
Analysis of PTCA-induced ischemia using both an electrocardiographic inverse solution and the wavelet transform.
J. Electrocardiol., 27(Suppl):90-96, 1994.

7

R.S. MacLeod, B. Taccardi, and R.L. Lux.
The influence of torso inhomogeneities on epicardial potentials.
In IEEE Computers in Cardiology, pages 793-796. IEEE Computer Society, 1994.

8

R.S. MacLeod, B. Taccardi, and R.L. Lux.
Electrocardiographic mapping in a realistic torso tank preparation.
In Proceedings of the IEEE Engineering in Medicine and Biology Society 17th Annual International Conference, pages 245-246. IEEE Press, 1995.

9

R.S. MacLeod, R.L. Lux, and B. Taccardi.
A possible mechanism for electrocardiographically silent changes in cardiac repolarization.
J. Electrocardiol., 30(Suppl):114-121, 1997.

10

R.S. MacLeod and D.H. Brooks.
Recent progress in inverse problems in electrocardiology.
IEEE Eng. in Med. & Biol. Soc. Magazine, 17(1):73-83, January 1998.

11

R.S. MacLeod, Q. Ni, B. Punske, P.R. Ershler, B. Yilmaz, and B. Taccardi.
Effects of heart position on the body-surface ECG.
J. Electrocardiol., 33((supp)):229-238, 2000.

12

R.S. MacLeod, B. Punske, S. Shome, B. Yilmaz, and B. Taccardi.
The role of heart rate and coronary flow during myocardial ischemia.
J. Electrocardiol., pages 43-51, 2001.

13

B.B. Punske, W.E. Cascio, C. Engle, H.T. Nagle, L.S. Gettes, and T.A. Johnson.
Quantitative characterization of epicardial wave fronts during regional ischemia and elevated extracellular potassium ion concentration.
Ann Biomed Eng, 26(6):1010-1021, Nov-Dec 1998.

14

B.B. Punske, R.L. Lux, R.S. MacLeod, M.S. FUller, P.E. Ershler, T.J. Dustman, Y. Vyhmeister, and B. Taccardi.
Mechanisms of the spatial distribution of QT intervals on the epicardial and body surfaces.
J. Cardiovasc. Electrophysiol., 10(12):1605-1618, 1999.

15

B. Taccardi, R.L. Lux, P.R. Ershler, R.S. MacLeod, C. Zabawa, and Y. Vyhmeister.
Potential distributions and excitation time maps recorded with high spatial resolution from the entire ventricular surface of exposed dog hearts.
In IEEE Computers in Cardiology, pages 1-4. IEEE Press, 1992.

16

B. Taccardi, R.L. Lux, P.R. Ershler, R.S. MacLeod, and Y. Vyhmeister.
Effect of myocardial fiber direction on 3-D shape of excitation wavefronts and associated potential distributions in ventricular walls.
Circ., 86(Suppl):I-752, 1992.

17

B. Taccardi, E. Macchi, R.L. Lux, P.R. Ershler, S. Spaggiari, S. Baruffi, and Y. Vyhmeister.
Effect of myocardial fiber direction on epicardial potentials.
Circ., 90:3076-3090, 1994.

18

B. Taccardi, R.L. Lux, R.S. MacLeod, P.R. Ershler, T.J. Dustman, and Y. Vhymeister.
ECG waveforms and cardiac electric sources.
J. Electrocardiol., 29(Suppl):98-100, 1996.

19

B. Taccardi, R.L. Lux, R.S. MacLeod, P.R. Ershler, T.J. Dustman, M. Scott, Y. Vyhmeister, and N. Ingebrigtsen.
ECG waveforms and cardiac electric sources.
J. Electrocardiol., 29(Suppl):98-100, 1996.

20

B. Taccardi, R.L. Lux, R.S. MacLeod, P.R. Ershler, T.J. Dustman, and N. Ingebrigtsen.
Assessment of spatial resolution of body surface potentials maps in localizing ventricular tachycardia foci.
J. Electrocardiol., 30(Suppl):1-4, 1997.

21

Q. Ni, R.S. MacLeod, R.L. Lux, and B. Taccardi.
A novel interpolation method for electric potential fields in the heart during excitation.
Annal. Biomed. Eng., 26(4):597-607, 1998.

22

Q. Ni, R.S. MacLeod, and R.L. Lux.
Three-dimensional activation mapping in canine ventricles: Interpolation and approximation of activation times.
Annal. Biomed. Eng., 27(5):617-626, 1999.

23

Q. Ni, R.S. MacLeod, B.B. Punske, and B. Taccardi.
Computing and visualizing electric potentials and current pathways in the thorax.
J. Electrocardiol., 33(Suppl):189-198, 2000.

24

R.L. Lux, P.R. Ershler, and B. Taccardi.
Measuring spatial waves of repolarization in canine ventricles using high resolution epicardial mapping.
J. Electrocardiol., 29(Suppl):130-134, 1996.

25

R.L. Lux, M. Akhtar, and R.S. MacLeod.
Mapping and invasive analysis.
In P.M. Spooner and M.R. Rosen, editors, Foundations of Cardiac Arrhythmias: Basic Concepts and Clinical Approaches, chapter 15, pages 393-424. Marcel Dekker, 2001.

26

C.R. Johnson, R.S. MacLeod, and M.A. Matheson.
Computational medicine: Bioelectric field problems.
IEEE Computer, 26(10):59-67, October 1993.

27

C.R. Johnson and R.S. MacLeod.
Nonuniform spatial mesh adaption using a posteriori error estimates: applications to forward and inverse problems.
Appl. Num. Anal., 14:311-326, 1994.

28

C.R. Johnson and R.S. MacLeod.
Local regularization and adaptive methods for the inverse Laplace problem.
In D.N. Ghista, editor, Biomedical and Life Physics, pages 224-234. Vieweg-Verlag, Braunschweig, 1996.

29

B.B. Punske, Q. Ni, R.L. Lux, R.S. MacLeod, P.R. Ershler, T.J. Dustman Ph.D., M.J. Allison, and B. Taccardi.
Spatial methods of epicardial activation time determination.
Annal. Biomed. Eng., 2003.

30

Y. Serinagaoglu, R.S. MacLeod, B. Yilmaz, and D.H. Brooks.
Epicardial mapping from venous catheter measurements, body surface potential maps, and an electrocardiographic inverse solution.
J. Electrocardiol., 35(supp):65-74, 2002.