1. Isaacson, D. Distinguishability of conductivities by electric current computed tomography.IEEE Trans. on Medical Imaging MI-5(2):92-95, 1986.

 

2. Gisser, D.G., D. Isaacson and J.C. Newell. Current topics in impedance imaging. Clin. Phys.Physiol. Meas. 8, Suppl. A:39-46, 1987.

 

3. Gisser, D.G., D. Isaacson and J.C. Newell. Theory and performance of an adaptive current tomograph system. Clin. Phys. Physiol. Meas. 9 Suppl. A:35-41, 1988.

 

4. Newell, J.C., D.G. Gisser and D. Isaacson. An electric current tomograph. IEEE Trans.Biomed. Eng.35:828-833, 1988.

 

5. Cheng, K-S., D. Isaacson, J.C. Newell and D.G. Gisser, Electrode models for electric current computed tomography. IEEE Trans. Biomed. Eng. 36:918-924, 1989.

 

6. Cheng, K-S., S.J. Simske, D. Isaacson, J.C. Newell and D.G. Gisser. Errors due to measuring voltage on current-carrying electrodes in electric current computed tomography. IEEE Trans. Biomed. Eng. 37:60-65, 1990.

 

7. Newell, J.C., D. Isaacson and D.G. Gisser. Rapid assessment of electrode characteristics for impedance imaging., IEEE Trans. Biomed. Eng. 37:735-738, 1990.

 

8. Isaacson, D. Process and apparatus for distinguishing conductivities by electric current computed tomography. United States Patent #4920490, April 24, 1990.

 

9. Isaacson, D. and M. Cheney. Current problems in impedance imaging. In: Inverse Problems in Partial Differential Equations, D. Colton et al., ed., Soc. for Industrial & Applied Math, Philadelphia, 1990.

 

10. Gisser, D.G., D. Isaacson and J.C. Newell. Electric current computed tomography and eigenvalues. SIAM J. Appl. Math. 50:1623-1634, 1990.

 

11. Cheney, M., D. Isaacson and E.L. Isaacson. Exact solutions to a linearized inverse boundary value problem. Inverse Problems 6:923-934, 1990.

 

12. Cheney, M., D. Isaacson, J.C. Newell, S. Simske and J. Goble. NOSER: An algorithm for solving the inverse conductivity problem. Int. J. Imaging Systems & Technology 2:66-75, 1990.

 

13. Goble, J.C., D.G. Gisser, D. Isaacson and J.C. Newell. Electrical impedance tomography in three dimensions. Proc. Fall Conf. Biomedical Eng. Soc., Blacksburg, VA, 1990.

 

14. Fuks, L.F., M. Cheney, D. Isaacson, D.G. Gisser and J.C. Newell. Detection and imaging of electric conductivity and permittivity at low frequency. IEEE Trans. Biomed. Eng. 38:1106-1110, 1991.

 

15. Isaacson, D. and M. Cheney. Effects of measurement precision and finite numbers of electrodes on linear impedance imaging algorithms. SIAM J. Appl. Math. 15:1705-1731, 1991.

 

16. Somersalo, E., M. Cheney, D. Isaacson and E. Isaacson. Layer stripping: A direct numerical method for impedance imaging. Inverse Problems 7(6):899-926, 1991.

 

17. Isaacson, D., E. Somersalo and M. Cheney. A linearized inverse boundary-value problem for Maxwell's Equations. J. Comp. & Appl. Math 42:123-136, 1992 .

 

18. Cheney, M. and D. Isaacson. An overview of inversion algorithms for impedance imaging. Contemporary Mathematics 122:29-39, 1991.

 

19. Isaacson, D., M. Cheney and J.C. Newell. Comments on reconstruction algorithms. Clin.Phys. Physiol. Meas. 13(A):83-89, 1992.

 

20. Newell, J.C., D. Isaacson, M. Cheney, G.J. Saulnier, D.G. Gisser, J.C. Goble, R.D. Cook, P.M. Edic and C.A. Newton. In-vivo impedance images using sinusoidal current patterns. Clinical Applications of Impedance Imaging, D. Holder, Ed., Univ. College London Press Chapter 5, pp. 62-71, 1993.

 

21. Cheney, M. and D. Isaacson. Distinguishability in impedance imaging. IEEE Trans. Biomed. Eng. 39(8):852-860, 1992.

 

22. Somersalo, E., M. Cheney and D. Isaacson. Existence and uniqueness for electrode models for electric current computed tomography. Inverse Problems 52(4):1023-1040, 1992.

 

23. Cheney, M. and D. Isaacson. Invariant imbedding, layer-stripping and impedance imaging. Inverse Problems and Invariant Imbedding. ed: J. Corones, G. Kristenson, P. Nelson and D. Seth. SIAM pp.1-10, Philadelphia, 1991.

 

24. Goble, J., M. Cheney and D. Isaacson. Electrical impedance tomography in three dimensions. Applied Computational Electromagnetics Soc. J. 128-147, 1992.

 

25. Newell, J.C., G.J. Saulnier, P.M. Edic, D. Isaacson, M. Cheney, D.G. Gisser and R.D. Cook. Electrical Impedance Imaging. BMES Bulletin 17(2): 19-23, 1993.

 

26. Gisser, D.G., J.C. Newell, D. Isaacson and J.C. Goble. Current patterns for impedance tomography. United States Patent #5,272,624 Dec. 21, 1993.

 

27. Newell, J.C. Electrical Impedance Imaging. NSF Workshop in Non-invasive Diagnosis. Nanjing and Beijing, Peoples Republic of China, April, 1993. Drexel University Press.

 

28. Goble, J.C., D. Isaacson and M. Cheney. Three-dimensional impedance imaging processes. U.S. Patent #5,284,142 Feb. 8, 1994.

 

29. Cheney, M. and D. Isaacson. Three-dimensional impedance imaging processes. U.S. Patent #5,351,697 Oct. 4, 1994.

 

30. Cook, R.D., G.J. Saulnier, D.G. Gisser, J.C. Goble, J.C. Newell and D. Isaacson. ACT 3: A high speed high precision electrical impedance tomograph. IEEE Trans. Biomed. Eng. 41(8):713-722, 1994.

 

31. Cheney, M., D. Isaacson, E. Somersalo and E.L. Isaacson. Layer stripping process for impedance imaging. U.S. Patent #5,390,110 February 14, 1995.

 

32. Edic, P.M., G.J. Saulnier, J.C. Newell and D. Isaacson. A real-time electrical impedance tomograph. IEEE Trans. Biomed. Eng. 42(9):849-859, 1995.

 

33. Isaacson, D., J.C. Newell and D.G. Gisser. Current patterns for electrical impedance tomography. U.S. Patent #5,381,333 Jan 10, 1995.

 

34. Cheney, M. and D. Isaacson. Issues in Electrical Impedance Imaging. IEEE Computational Science and Eng. 2(4):53-62, 1995.

 

35. Newell, J.C., P.M. Edic, X. Ren, J.L. Larson-Wiseman and M.D. Danyleiko. Assessment of acute pulmonary edema in dogs by electrical impedance imaging. IEEE Trans Biomed. Eng 43(2): 1-6, 1996

 

36. Saulnier, G.S., D. G. Gisser, R. D. Cook, J. C. Goble and D. Isaacson. High-speed electric tomography. U.S. Patent # 5,544,662 August 13, 1996.

 

37. Isaacson, D. and M. Cheney. Process for producing optimal current patterns for electrical impedance tomography. U. S. Patent # 5,588,429 Dec. 31, 1996.

 

38. Jain, H., D. Isaacson, P. M. Edic and J. C. Newell. Electrical impedance tomography of complex conductivity distributions with noncircular boundary. IEEE Trans Biomed. Eng 44(11): 1051-1060, 1997.

 

39. Newell, J.C., Y. Peng, P.M. Edic, R.S. Blue, H. Jain and R.T. Newell. Effect of electrode size on impedance images of two- and three-dimensional objects. IEEE Trans. Biomed. Eng. 45(4):531-534, 1998.

 

40. Edic, P.M., D. Isaacson, G.J. Saulnier, H. Jain and J. C. Newell. An iterative Newton-Raphson method to solve the inverse admittivity problem. IEEE Trans. Biomed. Eng. 45(7):899-908, 1998.

 

41. Cheney, M., D. Isaacson and J. C. Newell. Electrical Impedance Tomography. Siam Review. 41(1):85-101, 1999.

 

42. Mueller, J. L., D. Isaacson and J. C. Newell. A reconstruction algorithm for electrical impedance tomography data collected on rectangular electrode arrays. IEEE Trans. Biomed. Eng. 46(11):1379-1386, 1999.

 

43. Mueller, J.L., D. Isaacson and J.C. Newell. Reconstruction of Conductivity Changes Due to Ventilation and Perfusion from EIT Data Collected on a Rectangular Electrode Array. Physiol Meas. 22: 97-106, 2001.

 

44. Blue, R.S., D. Isaacson and J.C. Newell. Real-time three-dimensional electrical impedance imaging. Physiol. Meas. 21: 1-12, 2000.

 

45. Siltanen, S., J. Mueller and D. Isaacson.  An implementation of the reconstruction algorithm of A. Nachman for the 2D inverse conductivity problem.  Inverse Problems 16: 681-699, 2000.

 

46. Saulnier, G. J. , R.S. Blue, J.C. Newell, D. Isaacson and P.M. Edic.  Electrical Impedance Tomography. IEEE Signal Processing Magazine 18(6): 31 - 43,  2001.

 

47. Siltanen, S., J. L. Mueller and D. Isaacson. Reconstruction of High Contrast 2-D Conductivities by the Algorithm of A. Nachman, Contemporary Mathematics 278: 241-254, 2001.

 

48. Newell, J.C., R.S. Blue, D. Isaacson, G.J. Saulnier and A.S. Ross. Phasic three-dimensional impedance imaging of cardiac activity. Physiol. Meas. 23:203-209, 2002.

 

49. Mueller, J.L., S. Siltanen and D. Isaacson. A direct reconstruction algorithm for electrical impedance tomography. IEEE Trans. Med. Imaging 21(6): 555-559, 2002.

 

50. Kao, T-J, J.C. Newell, G.J. Saulnier and D. Isaacson. Distinguishability of inhomogeneities using planar electrode arrays and different patterns of applied excitation. Physiol. Meas. 24(2):403-412, 2003.

 

51. Ross, A.S., G.J. Saulnier, J.C. Newell and D. Isaacson. Current source design for electrical impedance tomography. Physiol. Meas. 24(2):509-516, 2003.

 

52. Isaacson, D., J.L. Mueller, J.C. Newell and S. Siltanen. Reconstructions of chest phantoms by the d-bar method for electrical impedance tomography. IEEE Trans Med Imaging 23(7): 821-828,  2004.

 

53. Newell, J. C. The Rensselaer Experience. In:  "Electrical Impedance Tomography: methods, history and applications" D. Holder, Ed. Institute of Physics, London, 2004

 

54.  Saulnier, G.J. Hardware Design. In:  "Electrical Impedance Tomography: methods, history and applications"  D. Holder, Ed. Institute of Physics, London, 2004

 

55. Kim, K.Y., B.S. Kim, M.C. Kim, S. Kim, D. Isaacson and J. C. Newell.  Dynamic Electrical Impedance Imaging with the Interacting Multiple Model Scheme.  Physiol. Meas. 26:S217-S233. 2005

  57.   Kao, T-J., D. Isaacson, J.C. Newell and G. J. Saulnier. A 3-D reconstruction algorithm for EIT using a handheld probe for breast cancer detection. 
           Physiol. Meas. 27(5):S1-S11, 2006.  http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1513648  PMID: 16636401

  58.     Kao, T-J., B. S. Kim, D. Isaacson, J.C. Newell and G. J. Saulnier.  Reducing boundary effects in static EIT imaging Physiol. Meas. 27(5):S13-S23, 2006
           http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=nihms&artid=1553218  PMID: 16636405

  59.     Isaacson, D., J. L. Mueller, J. C. Newell, and S. Siltanen.   Imaging cardiac activity by the D-bar method for electrical impedance tomography.
           Physiol. Meas.  27(5):S43-S50, 2006   http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1752230  PMID: 16636419

  60.     Kim, Bong Seok, Kyung Youn Kim, Tzu-Jen Kao, Jonathan C. Newell, David Isaacson and Gary J. Saulnier Dynamic electrical impedance imaging of a chest phantom using the
           Kalman Filter    Physiol. Meas. 27(5):S81-S91, 2006   http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1475733  PMID: 16636422

  61.     Saulnier, G.J. A.S. Ross and N. Liu.   A High-Precision Voltage Source for EIT. Physiol. Meas. 27(5):S221-S236, 2006 
            http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1538967   PMID: 16636413

  62.     Babaeizadeh, S., D. H. Brooks, D. Isaacson, and J. C. Newell.  Electrode Boundary Con­ditions and Experimental Validation for BEM-Based EIT Forward and Inverse Solutions.
           IEEE Trans Medical Imaging 25(9):1180-1188, 2006.  PMID: 16967803

  63.    Choi, M.H., T-J. Kao, D. Isaacson, G.J. Saulnier and J.C. Newell.  A Reconstruction Algo­rithm for Breast Cancer Imaging with Electrical Impedance Tomography in 
          Mammogra­phy Geometry.  IEEE Trans. Biomed. Eng. 54(4): 700-710, 2007.  PMID: 17405377

  64.    Saulnier, G. J. and A.S. Ross. "High Output Impedance Current Source” US Patent #7,116,157, October 3, 2006.

  65.     Kao, T-J., G.J. Saulnier, H. Xia, C. Tamma, J.C. Newell and D. Isaacson.  A compensated radiolucent electrode array for combined EIT and mammography. 
          Physiol Meas 28:S291-S299,  2007

  66.     Kim, B.S., D. Isaacson, H. Xia, T-J. Kao, J.C. Newell and G.J. Saulnier.  A method for ana­lyzing electrical impedance spectroscopy data from breast cancer patients.
             Physiol Meas 28:S237-S246, 2007 

  67.     Kim, B.S., G. Boverman, J.C. Newell, G.J. Saulnier and D. Isaacson.   The complete elec­trode model for EIT in a mammography geometry. Physiol Meas 28:S57-S69, 2007

  68.    Murphy, E.K., J. L. Mueller and J. C. Newell.  Reconstructions of conductive and insulat­ing targets using the D-bar method on an elliptical domain.
            Physiol Meas 28:S101-S114, 2007

  69.    Babaeizadeh, S., D. H. Brooks and D. Isaacson.  3-D Electrical Impedance Tomography for Piecewise Constant Domains with Known Internal Boundaries.
            IEEE Trans on Biomedical Engineering 54(1): 2-10, 2007

  70.     Boverman, G., T-J Kao, R. Kulkarni, B.S. Kim, D. Isaacson, G.J Saulnier, and J.C. Newell.  Robust Linearized Image Reconstruction for Multifrequency EIT of the Breast. 
IEEE Trans. Medical Imaging 27(10): 1439 – 1448,   2008.

 

71        Kao, T-J., G. Boverman, B. S. Kim,, D. Isaacson, G. J. Saulnier, J. C. Newell, M. H. Choi, R. H. Moore and D. B. Kopans.  Regional Admittivity Spectra with Tomosynthesis Images for Breast Cancer Detection:  Preliminary Patient Study.  IEEE Trans. Medical Imaging. 27(12):1762-1768, 2008

 

72       Kao, T.J., G. J. Saulnier, D. Isaacson, T. L. Szabo and J.C. Newell.  A Versatile High Permittivity Phantom for EIT.    IEEE Trans. Biomed. Eng.  55(11)2601-2607, 2008

 

73        Choi, M.H., T-J. Kao, D. Isaacson, G.J. Saulnier and J.C. Newell.  An Algorithm for Applying Multiple Currents Using Voltage Sources in Electrical Impedance Tomography. Int. J. Control, Automation, and Systems.   6(4):613-619, 2008

 

74        Kulkarni, R., G. Boverman, D. Isaacson, G.J. Saulnier T-J. Kao and J.C. Newell.  An analytical layered forward model for breasts in Electrical Impedance Tomography.  Physiol  Meas.  29:S27-S40, 2008.  PMID: 70043

 

75        Ijaz, U.Z., B.S. Kim, T-J. Kao, A. K. Khambampati, S. Kim, J. C. Newell, D. Isaacson and K. Y. Kim.  Mammography Phantom Studies Using 3D Electrical Impedance Tomography with Numerical Forward Solver.  Phil. Trans. R. Soc. A.  (In Press 2008)

 

 

©Rensselaer Polytechnic Institute, Created by Alexander S. Ross.
Updated by J.Newell   March 2008