All Publications

  1. Angular integral autocorrelation for speed estimation in shear-wave elastography
    H. Asemani, I. E. Kabir, J. Ormachea, M. M. Doyley, J. P. Rolland, and K. J. Parker
    Acoustics 6(2) , pp. 413 -438  (2024).
  2. Merging single-track location elastographic imaging with the frequency shift method improves shear wave attenuation measurements
    R. Mislati, K. T. Iliza, S. A. Gerber, and M. M. Doyley
    Front Phys 12 , pp. 1326770-1 -1326770-15  (2024).
  3. Probing tissue viscoelasticity with STL ultrasound shearwave spectroscopy using Cole-Cole diagrams
    S. Khan, S. Goswami, F. Feng, S. Hollenbach, M. M. Doyley, and S. A. McAleavey
    IEEE Trans Biomed Eng 71(3) , pp. 916 -928  (2024).
  4. Dual-modal photoacoustic and ultrasound Imaging: from preclinical to clinical applications
    N. Nyayapathi, E. Zheng, Q. Zhou, M. M. Doyley, and J. Xia
    Front Photon 5 , pp. 1359784-1 -1359784-28  (2024).
  5. Shear wave elastography can stratify rectal cancer response to short-course radiation therapy
    R. Mislati, T. Uccello, Z. Lin, K. T. Iliza, K. C. Toussaint, S. A. Gerber, and M. M. Doyley
    Sci Rep 13(1) , pp. 16149-1 -16149-12  (2023).
  6. Stiffness pulsation of the human brain detected by non-invasive time-harmonic elastography
    T. Meyer, B. Kreft, E. Antes, M. S. Anders, B. Wellge, J. Braun, M. M. Doyley, H. Tzschätzsch, and I. Sack
    Front Bioeng Biotechnol 11 , pp. 1140734-1 -1140734-9  (2023).
  7. Mapping estimates of vascular permeability with a clinical indocyanine green fluorescence imaging system in experimental pancreatic adenocarcinoma tumors
    M. S. Reed, M. Ochoa, K. M. Tichauer, A. Weichmann, M. M. Doyley, and B. W. Pogue
    J Biomed Opt 28(7) , pp. 076001-1 -076001-14  (2023).
  8. Artificial intelligence for diffusion MRI-based tissue microstructure estimation in the human brain- an overview
    A. Faiyaz, M. M. Doyley, G. Schifitto, and M. N. Uddin
    Front Neurol 14 , pp. 1168833-1 -1168833-9  (2023).
  9. Sound speed estimation for distributed aberration correction in laterally varying media
    R. Ali, T. Mitcham, M. V. Singh, M. M. Doyley, R. R. Bouchard, J. Dahl, and N. Duric
    IEEE Trans Comp Imaging 9 , pp. 367 -382  (2023).
  10. Reverberant magnetic resonance elastographic imaging using a single mechanical driver
    I. E. Kabir, D. A. Caban-Rivera, J. Ormachea, K. J. Parker, C. L. Johnson, and M. M. Doyley
    Phys Med Biol 68(5) , pp. 055015-1 -055015-16  (2023).
  11. Functional ultrasound imaging reveals 3D structure of orientation domains in ferret primary visual cortex
    W. Hu, S. Zhu, F. Briggs, and M. M. Doyley
    NeuroImage 268 , pp. 119889-1 -119889-12  (2023).
  12. Separation of mainlobe and sidelobe contributions to B-mode ultrasound images based on the aperture spectrum
    R. Ali, T. Mitcham, L. Brickson, W. Hu, M. M. Doyley, D. J. Rubens, Z. Ignjatovic, N. Duric, and J. Dahl
    J Med Imaging 9(6) , pp. 067001-1 -067001-16  (2022).
  13. Volumetric tri-modal imaging with combined photoacoustic, ultrasound, and shear wave elastography
    E. Zheng, H. Zhang, W. Hu, M. M. Doyley, and J. Xia
    J Appl Phys 132(3) , pp. 034902-1 -034902-8  (2022).
  14. Imaging the local nonlinear viscoelastic properties of soft tissues: initial validation and expected benefits
    S. Goswami, R. Ahmed, F. Feng, S. Khan, M. M. Doyley, and S. A. McAleavey
    IEEE Trans Ultrason Ferroelectr Freq Control (69)3 , pp. 975 -987  (2022).
  15. Second-generation dual scan mammoscope with photoacoustic, ultrasound, and elastographic imaging capabilities
    E. Zheng, H. Zhang, S. Goswami, I. E. Kabir, M. M. Doyley, and J. Xia
    Front Oncol 11 , pp. 779071-1 -779071-8  (2021).
  16. Enabling quantitative robot-assisted compressional elastography via the extended Kalman filter
    M. E. Napoli, S. Goswami, S. A. McAleavey, M. M. Doyley, and T. M. Howard
    Phys Med Biol 66(22) , pp. 225014-1 -225014-23  (2021).
  17. Single-shell NODDI using dictionary-learner-estimated isotropic volume fraction
    A. Faiyaz, M. M. Doyley, G. Schifitto, J. Zhong, and M. N. Uddin
    NMR Biomed 35(2) , pp. e4628-1 -e4628-17  (2021).
  18. A robust and fast method for 2-D shear wave speed calculation
    H, K. Lee, D. Kong, K. Choi, R. Mislati, and M. M. Doyley
    IEEE Trans Ultrason Ferroelectr Freq Control 68(7) , pp. 2351 -2360  (2021).
  19. H-scan, shear wave, and bioluminescent assessment of the progression of pancreatic cancer metastases in the liver
    J. Baek, R. Ahmed, J. Ye, S. A. Gerber, K. J. Parker, and M. M. Doyley
    Ultrasound Med Biol 46(12) , pp. 3369 -3378  (2020).
  20. Shear induced non-linear elasticity imaging: elastography for compound deformations
    S. Goswami, R. Ahmed, S. Khan, M. M. Doyley, and S. A. McAleavey
    IEEE Trans Med Imaging 39(11) , pp. 3559 -3570  (2020).
  21. Parallel receive beamforming improves the performance of focused transmit based single track location shear wave elastography
    R. Ahmed and M. M. Doyley
    IEEE Trans Ultrason Ferroelectr Freq Control 67(10) , pp. 2057 -2068  (2020).
  22. High-resolution ex vivo elastography to characterize tumor stromal heterogeneity in situ in pancreatic adenocarcinoma
    P. Vincent, H. Wang, M. D. Nieskoski, J. Gunn, K. Marra, P. J. Hoopes, K. S. Samkoe, M. M. Doyley, T. Hasan, and B. W. Pogue
    IEEE Trans Biomed Eng 67(9) , pp. 2490 -2496  (2020).
  23. Preclinical imaging using single track location shear wave elastography: monitoring the progression of murine pancreatic tumor liver metastasis in vivo
    R. Ahmed, J. Ye, S. A. Gerber, D. Linehan, and M. M. Doyley
    IEEE Trans Med Imaging 39(7) , pp. 2426 -2439  (2020).
  24. Natriuretic peptide receptor 2 locus contributes to carotid remodeling
    V. A. Korshunov, E. M. Smolock, M. E. Wines-Samuelson, A. Faiyaz, D. M. Mickelsen, B. Quinn, C. Pan, G. J. Dugbartey, C. Yan, M. M. Doyley, A. J. Lusis, and B. C. Berk
    J Am Heart Assoc 9(10) , pp. 014257-1 -014257-12  (2020).
  25. Shear wave elastography can differentiate between radiation-responsive and non-responsive pancreatic tumors: an ex vivo study with murine models
    H. Wang, B. Mills, R. Mislati, R. Ahmed, S. A. Gerber, D. Linehan, and M. M. Doyley
    Ultrasound Med Biol 46(2) , pp. 393 -404  (2020).
  26. The protective role of natriuretic peptide receptor 2 against high salt injury in the renal papilla
    G. J. Dugbartey, B. Quinn, L. Luo, D. M. Mickelsen, S. K. Ture, C. N. Morrell, J. Czyzyk, M. M. Doyley, C. Yan, B. C. Berk, and V. A. Korshunov
    Am J Pathol 189(9) , pp. 1721 -1731  (2019).
  27. Nonlinear shear modulus estimation with bi-axial motion registered local strain
    S. Goswami, R. Ahmed, M. M. Doyley, and S. A. McAleavey
    IEEE Trans Ultrason Ferroelectr Freq Control 66(8) , pp. 1292 -1303  (2019).
  28. Strain-selective efficacy of sacubitril/valsartan on carotid fibrosis in response to injury in two inbred mouse strains
    V. A. Korshunov, B. Quinn, A. Faiyaz, R. Ahmed, M. P. Snowden, M. M. Doyley, and B. C. Berk
    Br J Pharmacol 176(15) , pp. 2795 -2807  (2019).
  29. Distributing synthetic focusing over multiple push-detect events enhances shear wave elasticity imaging performance
    R. Ahmed and M. M. Doyley
    IEEE Trans Ultrason Ferroelectr Freq Control 66(7) , pp. 1170 -1184  (2019).
  30. Elastography can map the local inverse relationship between shear modulus and drug delivery within the pancreatic ductal adenocarcinoma microenvironment
    H. Wang, R. Mislati, R. Ahmed, P. Vincent, S. F. Nwabunwanne, J. Gunn, B. W. Pogue, and M. M. Doyley
    Clin Cancer Res 25(7) , pp. 2136 -2143  (2019).
  31. Senescent phenotype induced by p90RSK-NRF2 signaling sensitizes monocytes and macrophages to oxidative stress in HIV+ individuals: implications for atherogenesis
    M. V. Singh, S. Kotla, N. T. Le, K. A. Ko, K. S. Heo, Y. Wang, Y. Fujii, H. T. Vu, E. McBeath, T. N. Thomas, Y. J. Gi, Y. T. Tao, J. L. Medina, J. Taunton, Nancy Carson, Vikram Dogra, M. M. Doyley, A. Tyrell, W. Lu, X. Qiu, N. E. Stirpe, K. Gates, C. Hurley, K. Fujiwara, S. Maggirwar, G. Schifitto, and J. Abe
    Circulation 139(9) , pp. 1199 -1216  (2019).
  32. Plane-wave imaging improves single-track location shear wave elasticity imaging
    R. Ahmed, S. A. Gerber, S. A. McAleavey, G. Schifitto, and M. M. Doyley
    IEEE Trans Ultrason Ferroelectr Freq Control 65(8) , pp. 1402 -1404  (2018).
  33. Visualizing angle-independent principal strains in the longitudinal view of the carotid artery: phantom and in vivo evaluation
    Rohit Nayak, G. Schifitto, and M. M. Doyley
    Ultrasound Med BIol 44(7) , pp. 1379 -1391  (2018).
  34. Elastographic assessment of xenograft pancreatic tumors
    H. Wang, M. D. Nieskoski, K. Marra, J. Gunn, B. S. Trembly, B. W. Pogue, and M. M. Doyley
    Ultrasound Med BIol 43(12) , pp. 2891 -2903  (2017).
  35. Model-based vascular elastography improves the detection of flow-induced carotid artery remodeling in mice
    V. A. Korshunov, H. Wang, R. Ahmed, D. M. Mickelsen, Q. Zhou, C. Yan, and M. M. Doyley
    Sci Rep 7 , pp. 12081-1 -12081-12  (2017).
  36. Collagen complexity spatially defines micro regions of total tissue pressure in pancreatic cancer
    M. D. Nieskoski, K. Marra, J. Gunn, P. J. Hoopes, M. M. Doyley, T. Hasan, B. S. Trembly, and B. W. Pogue
    Sci Rep 7 , pp. 10093-1 -10093-12  (2017).
  37. Combining subharmonic and ultraharmonic modes for intravascular ultrasound imaging: a preliminary evaluation
    Himanshu Shekhar, J. Rowan, and M. M. Doyley
    Ultrasound Med Biol 43(11) , pp. 2725 -2732  (2017).
  38. Noninvasive carotid artery elastography using multielement synthetic aperture imaging: phantom and in vivo validation
    Rohit Nayak, G. Schifitto, and M. M. Doyley
    Med Phys 44(8) , pp. 4068 -4082  (2017).
  39. Revisiting the Cramér Rao lower bound for elastography: predicting the performance of axial, lateral and polar strain elastograms
    P. Verma and M. M. Doyley
    Ultrasound Med Biol 43(9) , pp. 1780 -1796  (2017).
  40. Separation of solid stress from interstitial fluid pressure in pancreas cancer correlates with collagen area fraction
    M. D. Nieskoski, K. Marra, J. Gunn, S. C. Kanick, M. M. Doyley, T. Hasan, S. P. Pereira, B. S. Trembly, and B. W. Pogue
    J Biomech Eng 139(6) , pp. 061002-1 -061002-8  (2017).
  41. Principal strain vascular elastography: simulation and preliminary clinical evaluation
    Rohit Nayak, Steven Huntzicker, Jacques Ohayon, Nancy Carson, Vikram Dogra, G. Schifitto, and M. M. Doyley
    Ultrasound Med Biol 43(3) , pp. 682 -699  (2017).
  42. Chirp-coded ultraharmonic imaging with a modified clinical vascular ultrasound system
    Himanshu Shekhar, Steven Huntzicker, I. Awuor, and M. M. Doyley
    Ultrason Imaging 38(6) , pp. 403 -419  (2016).
  43. Contrast-enhanced quantitative intravascular elastography: the impact of microvasculature on model-based elastography
    Steven Huntzicker, Himanshu Shekhar, and M. M. Doyley
    Ultrasound Med Biol 42(5) , pp. 1167 -1181  (2016).
  44. The imaging modulography technique revisited for high-definition intravascular ultrasound: theoretical framework
    A. Tacheau, Simon Le Floc'h, Gerard Finet, M. M. Doyley, Roderic I. Pettigrew, G. Cloutier, and Jacques Ohayon
    Ultrasound Med Biol 42(3) , pp. 727 -741  (2016).
  45. Axl modulates immune activation of smooth muscle cells in vein graft remodeling
    S. Batchu, J. Xia, K. A. Ko, M. M. Doyley, J. Abe, C. N. Morrell, and V. A. Korshunov
    Am J Physiol Heart Circ Physiol 309(6) , pp. H1048 -H1058  (2015).
  46. An intravascular coronary plaque elasticity reconstruction method using limited depth penetration ultrasound signals
    A. Tacheau, Simon Le Floc'h, Gerard Finet, M. M. Doyley, Roderic I. Pettigrew, G. Cloutier, and Jacques Ohayon
    Comput Methods Biomech Biomed Engin 18(Suppl 1) , pp. 2066 -2067  (2015).
  47. Visualizing the stress distribution within vascular tissues using intravascular ultrasound elastography: a preliminary investigation
    Michael S. Richards, R. Perucchio, and M. M. Doyley
    Ultrasound Med Biol 41(6) , pp. 1616 -1631  (2015).
  48. A new energy inversion for parameter identification in saddle point problems with an application to the elasticity imaging inverse problem of predicting tumor location
    M. M. Doyley, B. Jadamba, A. A. Khan, M. Sama, and B. Winkler
    Numerical Functional Analysis and Optimization 35(7-9) , pp. 984 -1017  (2014).
  49. A new finite element method for inverse problems in structural analysis: application to atherosclerotic plaque elasticity reconstruction
    Adeline Bouvier, Flavian Deleaval, M. M. Doyley, A. Tacheau, Gerard Finet, Simon Le Floc'h, G. Cloutier, Roderic I. Pettigrew, and Jacques Ohayon
    Comput Methods Biomech Biomed Engin 17(Suppl 1) , pp. 16 -17  (2014).
  50. Quantitative sparse array vascular elastography: the impact of tissue attenuation and modulus contrast on performance
    Steven Huntzicker, Rohit Nayak, and M. M. Doyley
    Journal of Medical Imaging. Vol 1, Issue 2 , pp. 027001-1 -027001-13  (2014).
  51. The delayed onset of subharmonic and ultraharmonic emissions from a phospholipid-shelled microbubble contrast agent
    Himanshu Shekhar, I. Awuor, K. Thomas, J. J. Rychak, and M. M. Doyley
    Ultrasound in Medicine and Biology. Vol 40, Issue 4 , pp. 727 -738  (2014).
  52. Elastography: general principles and practices
    M. M. Doyley and K. J. Parker
    Ultrasound Clinics 9(1) , pp. 1 -11  (2014).
  53. A direct vulnerable atherosclerotic plaque elasticity reconstruction method based on an original material-finite element formulation: theoretical framework
    Adeline Bouvier, Flavian Deleaval, M. M. Doyley, Sammi K. Yazdani, Gerard Finet, Simon Le Floc'h, G. Cloutier, Roderic I. Pettigrew, and Jacques Ohayon
    Phys Med Biol 58(23) , pp. 8457 -8476  (2013).
  54. Modifying the size distribution of microbubble contrast agents for high-frequency subharmonic imaging
    Himanshu Shekhar, J. J. Rychak, and M. M. Doyley
    Medical Physics. Vol 40, Issue 5. [Epub ahead of print] (2013).
  55. The response of phospholipid-encapsulated microbubbles to chirp-coded excitation: Implications for high-frequency nonlinear imaging.
    Himanshu Shekhar and M. M. Doyley
    Journal of the Acoustical Society of America. Vol 133, Issue 5. [Epub ahead of print] (2013).
  56. Non-Rigid Image Registration Based Strain Estimator for Intravascular Ultrasound Elastography.
    Michael S. Richards and M. M. Doyley
    Ultrasound in Medicine and Biology. Vol 39, Issue 3. [Epub ahead of print] (2013).
  57. Non-invasive Vascular Displacement Estimation for Relative Elastic Modulus Reconstruction in Transversal Imaging Planes.
    Hendrik H. G. Hansen, Michael S. Richards, M. M. Doyley, and Chris L. de Korte
    Sensors. Vol 13, Issue 3. [Epub ahead of print] (2013).
  58. Noninvasive Vascular Elastography Using Plane-Wave and Sparse-Array Imaging.
    Sanghamithra Korukonda, Rohit Nayak, Nancy Carson, G. Schifitto, Vikram Dogra, and M. M. Doyley
    IEEE Trans. Ultrasonics, Ferroelectrics and Frequency Control. Vol 60, Issue 2. [Epub ahead of print] (2013).
  59. Delineation of Altherosclerotic Plaque Using Subharmonic Imaging Filtering Techniques and a Commercial Intravascular Ultrasound System.
    Anush Shridharan, John R. Eisenbrey, Priscilla Machado, Ebo D. deMuinck, M. M. Doyley, and Flemming Forsberg
    Ultrasonic Imaging. Vol 35, Issue 1. [Epub ahead of print] (2013).
  60. Visualizing the Radial and Circumferential Strain Distribution Within Vessel Phantoms Using Synthetic-Aperture Ultrasound Elastography.
    Sanghamithra Korukonda and M. M. Doyley
    IEEE Trans. Ultrasonics, Ferroelectrics and Frequency Control. Vol 59, Issue 8. [Epub ahead of print]. (2012).
  61. Nanoparticle uptake in tumors is mediated by the interplay of vascular and collagen density with interstitial pressure.
    S. Torosean, B. Flynn, J. Axelsson, J. Gunn, K. S. Samkoe, T. Hasan, M. M. Doyley, and B. W. Pogue
    Nanomedicine. [Epub ahead of print]. (2012).
  62. Improving the sensitivity of high-frequency subharmonic imaging with coded excitation: A feasibility study.
    Himanshu Shekhar and M. M. Doyley
    Medical Physics.39, 2049 (2012); http://dx.doi.org/10.1118/1.3694101. Epub 2012 March 22. (2012).
  63. Parametric subharmonic imaging using a commercial intravascular ultrasound Scanner - an in vivo feasibility study.
    John R. Eisenbrey, Anush Shridharan, Ebo D. deMuinck, M. M. Doyley, and Flemming Forsberg
    Journal of Ultrasound in Medicine. March 1, 2012 vol. 31 no. 3. , pp. 361 -371  (2012).
  64. Model-based elastography: a survey of approaches to the inverse elasticity problem.
    M. M. Doyley
    Phys Med Biol. 2012 Phys. Med. Biol. 57 R35 doi:10.1088/0031-9155/57/3/R35. (2012).
  65. Investigating the impact of spatial priors on the performance of model-based IVUS elastography.
    Michael S. Richards and M. M. Doyley
    Phys Med Biol. 2011 Oct 28;56(22) , pp. 7223 -7246  (2011).
  66. Estimating axial and lateral strain using a synthetic aperture elastographic imaging system.
    Sanghamithra Korukonda and M. M. Doyley
    Ultrasound Med Biol. 2011 Nov;37(11) , pp. 1893 -1908  (2011).
  67. A three-dimensional quality-guided phase unwrapping method for MR elastography.
    H. Wang, John B. Weaver, I. I. Perreard, M. M. Doyley, and Keith D. Paulsen
    Phys Med Biol. 2011 Jul 7;56(13) , pp. 3935 -3952  (2011).
  68. Imaging the elastic properties of tissue: the 20 year prospective.
    K. J. Parker, M. M. Doyley, and D. J. Rubens
    Phys Med Biol. 2011 Jan 7;56(1):R1-R29. Epub 2010 Nov 30. (2010).
  69. Effects of frequency- and direction-dependent elastic materials on linearly elastic MRE image reconstructions.
    I. M. Perreard, Adam J. Pattison, M. M. Doyley, M. D. McGarry, Z. Barani, E. E. Van Houten, John B. Weaver, and Keith D. Paulsen
    Phys Med Biol. 2010 Nov 21;55(22) , pp. 6801 -6815  (2010).
  70. The performance of steady-state harmonic magnetic resonance elastography when applied to viscoelastic materials.
    M. M. Doyley, Irina Perreard, Adam J. Pattison, John B. Weaver, and Keith M. Paulsen
    Medical Physics. 37, 3970. (2010).
  71. Characterization of atherosclerotic plaques and mural thrombi with intravascular ultrasound elastography: a potential method evaluated in an aortic rabbit model and a human coronary artery.
    R. L. Maurice, J. Fromageau, M. H. R. Cardinal, M. M. Doyley, Ebo D. deMuinck, J. Robb, and G. Cloutier
    IEEE Trans. IT in Biomedicine. 12(3). Epub 2008 May 7. , pp. 290 -298  (2008).
  72. Optimized motion estimation for MRE data with reduced motion encodes.
    H. Wang, John B. Weaver, M. M. Doyley, F. E. Kennedy, and Keith D. Paulsen
    Phys Med Biol. 53(8). Epub 2008 Apr 3. , pp. 2181 -2196  (2008).
  73. Interstitial fluid pressure in soft tissue as a result of an externally applied contact pressure.
    A. L. Darling, P. K. Yalavarthy, M. M. Doyley, Hamid Dehghani, and B. W. Pogue
    Phys Med Biol. 52(14). Epub 2007 Jun 13. , pp. 4121 -4136  (2007).
  74. Performance analysis of steady-state harmonic elastography.
    M. M. Doyley, Q. Feng, John B. Weaver, and Keith D. Paulsen
    Phys Med Biol. 52(10). Epub 2007 Apr 23. , pp. 2657 -2674  (2007).
  75. Anthropomorphic breast phantoms for testing elastography systems.
    E. L. Madsen, M. A. Hobson, G. R. Frank, H. Shi, J. Jiang, T. J. Hall, T. Varghese, M. M. Doyley, and John B. Weaver
    Ultrasound Med Biol. 32(6). , pp. 857 -874  (2006).
  76. Magnetic resonance elastography of the plantar fat pads: Preliminary study in diabetic patients and asymptomatic volunteers.
    Y. Y. Cheung, M. M. Doyley, T. B. Miller, F. E. Kennedy, F. Lynch Jr., J. S. Wrobel, K. Paulson, and John B. Weaver
    J Comput Assist Tomogr. 30(2) , pp. 321 -326  (2006).
  77. Enhancing the performance of model-based elastography by incorporating additional a priori information in the modulus image reconstruction process.
    M. M. Doyley, S. Srinivasan, E. Dimidenko, N. Soni, and J. Ophir
    Phys Med Biol. 51(1). Epub 2005 Dec 15. , pp. 95 -112  (2006).
  78. Comparative evaluation of strain-based and model-based modulus elastography.
    M. M. Doyley, S. Srinivasan, S. A. Pendergrass, Z. Wu, and J. Ophir
    Ultrasound Med Biol. 31(6). , pp. 787 -802  (2005).
  79. A three-parameter mechanical property reconstruction method for MR-based elastic property imaging.
    E. E. Van Houten, M. M. Doyley, F. E. Kennedy, Keith D. Paulsen, and John B. Weaver
    IEEE Trans Med Imaging. 24(3). , pp. 311 -324  (2005).
  80. Imaging the shear modulus of the heel fat pads.
    John B. Weaver, M. M. Doyley, Y. Y. Cheung, F. E. Kennedy, E. L. Madsen, E. E. Van Houten, and K. Paulson
    Clin Biomech, 20(3). , pp. 312 -319  (2005).
  81. Shear modulus estimation using parallelized partial volumetric reconstruction.
    M. M. Doyley, E. E. Van Houten, John B. Weaver, Steven P. Poplack, L. Duncan, F. E. Kennedy, and Keith D. Paulsen
    IEEE Trans Med Imaging. 23(11) , pp. 1404 -1416  (2004).
  82. Magnetic resonance-guided near-infrared tomography of the breast.
    Ben Brooksby, Shudong Jiang, Hamid Dehghani, B. W. Pogue, Keith D. Paulsen, Christine Kogel, M. M. Doyley, John B. Weaver, and Steven P. Poplack
    Rev. Sci. Instrum. 75, 5262 (2004).
  83. Evaluation of the adjoint equation based algorithm for elasticity imaging.
    A. A. Oberai, N. H. Gokhale, M. M. Doyley, and J. C. Bamber
    Phys Med Biol. 49(13) , pp. 2955 -2974  (2004).
  84. Breast deformation modelling for image reconstruction in near infrared optical tomography.
    Hamid Dehghani, M. M. Doyley, B. W. Pogue, Shudong Jiang, J. Geng, and Keith D. Paulsen
    Phys Med Biol. 49(7) , pp. 1131 -1145  (2004).
  85. Automated region detection based on the contrast-to-noise ratio in near-infrared tomography.
    X. Song, B. W. Pogue, Shudong Jiang, M. M. Doyley, Hamid Dehghani, T. D. Tosteson, and Keith D. Paulsen
    Appl Opt. 43(5) , pp. 1053 -1062  (2004).
  86. Near-infrared breast tomography calibration with optoelastic tissue simulating phantoms.
    Shudong Jiang, B. W. Pogue, Troy O. McBride, M. M. Doyley, and Keith D. Paulsen
    J. Electron. Imaging 12, 613 (2003).
  87. Thresholds for detecting and characterizing focal lesions using steady-state MR elastography.
    M. M. Doyley, John B. Weaver, E. E. Van Houten, F. E. Kennedy, and Keith D. Paulsen
    Med Phys. 30(4) , pp. 495 -504  (2003).
  88. Initial in vivo experience with steady-state subzone-based MR elastography of the human breast.
    E. E. Van Houten, M. M. Doyley, F. E. Kennedy, John B. Weaver, and Keith D. Paulsen
    J Magn Reson Imaging. 17(1) , pp. 72 -85  (2003).
  89. Morphological and mechanical information of coronary arteries obtained with intravascular elastography; feasibility study in vivo.
    Chris L. de Korte, S. G. Carlier, F. Mastik, M. M. Doyley, A. F. van der Steen, P. W. Serruys, and N. Bom
    Eur Heart J. 23(5) , pp. 405 -413  (2002).
  90. Progress in Freehand Elastography of the Breast.
    J. C. Bamber, Paul E. Barbone, Nigel L. Bush, David O. Cosgrove, M. M. Doyley, Frank G. Fueschel, Paul M. Meaney, Naomi R. Miller, Tsuyoshi Shiina, and Francois Tranquart
    IEICE Transactions on Information and Systems Vol.E85-D No.1 , pp. 5 -14  (2002).
  91. Advancing intravascular ultrasonic palpation toward clinical applications.
    M. M. Doyley, F. Mastik, Chris L. de Korte, E. I. Céspedes, P. W. Serruys, N. Bom, and A. F. van der Steen
    Ultrasound Med Biol. (11) , pp. 1471 -1480  (2001).
  92. A freehand elastographic imaging approach for clinical breast imaging: system development and performance evaluation.
    M. M. Doyley, J. C. Bamber, Frank G. Fueschel, and Nigel L. Bush
    Ultrasound Med Biol. 27(10) , pp. 1347 -1357  (2001).
  93. Evaluation of an iterative reconstruction method for quantitative elastography.
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