Publications

  1. Zhou J, Zhang X. Effect of a Thin Fluid Layer on Surface Wave Speed Measurements: A Lung Phantom Study. J Ultrasound Med. 2019 May; 38 (5):1361-1365 Epub 2018 Sept 12
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  2. Zhou B, Bartholmai BJ, Kalra S, Osborn TG, Zhang X. Lung US Surface Wave Elastography in Interstitial Lung Disease Staging. Radiology. 2019 May; 291 (2):479-484 Epub 2019 Mar 05
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  3. Zhang X, Zhou B, Bartholmai B, Kalra S, Osborn T. A quantitative method for measuring the changes of lung surface wave speed for assessing disease progression of interstitial lung disease. Ultrasound Med Biol. 2019 Mar; 45 (3):741-748 Epub 2018 Dec 29
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  4. Zhang X, Zhou B, VanBuren WM, Burnett TL, Knudsen JM. Transvaginal Ultrasound Vibro-elastography for Measuring Uterine Viscoelasticity: A Phantom Study. Ultrasound Med Biol. 2019 Feb; 45 (2):617-622 Epub 2018 Nov 19
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  5. Zhou B, Zhang X. The effect of pleural fluid layers on lung surface wave speed measurement: Experimental and numerical studies on a sponge lung phantom. J Mech Behav Biomed Mater. 2019 Jan; 89:13-18 Epub 2018 Sept 06
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  6. Xu H, Shi L, Chen S, Zhang X, An KN, Luo ZP. Viscoelasticity measurement of ex vivo bovine cartilage using Lamb wave method. Phys Med Biol. 2018 Nov 28; 63 (23):235019
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  7. Zhou J, Zhang X. A Lung Phantom Model to Study Pulmonary Edema Using Lung Ultrasound Surface Wave Elastography. Ultrasound Med Biol. 2018 Nov; 44 (11):2400-2405 Epub 2018 Aug 02
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  8. Zhang X, Zhou B, Osborn T, Bartholmai B, Kalra S. Lung ultrasound surface wave elastography for assessing interstitial lung disease. IEEE Trans Biomed Eng. 2018 Oct 1 Epub 2018 Oct 01
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  9. Zhou B, Zhang X. Lung mass density analysis using deep neural network and lung ultrasound surface wave elastography. Ultrasonics. 2018 Sep; 89:173-177 Epub 2018 May 23
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  10. Zhou B, Zhang X. Comparison of five viscoelastic models for estimating viscoelastic parameters using ultrasound shear wave elastography. J Mech Behav Biomed Mater. 2018 Sep; 85:109-116 Epub 2018 May 30
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  11. Cheng YS, Zhou B, Kubo K, An KN, Moran SL, Amadio PC, Zhang X, Zhao C. Comparison of two ways of altering carpal tunnel pressure with ultrasound surface wave elastography. J Biomech. 2018 Jun 6; 74:197-201 Epub 2018 Apr 12
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  12. Clay R, Bartholmai BJ, Zhou B, Karwoski R, Peikert T, Osborn T, Rajagopalan S, Kalra S, Zhang X. Assessment of Interstitial Lung Disease Using Lung Ultrasound Surface Wave Elastography: A Novel Technique With Clinicoradiologic Correlates. J Thorac Imaging. 2018 Jun 5 Epub 2018 June 05
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  13. Zhang X, Zhou B, Miranda AF, Trost LW. A Novel Noninvasive Ultrasound Vibro-elastography Technique for Assessing Patients With Erectile Dysfunction and Peyronie Disease. Urology. 2018 Jun; 116:99-105 Epub 2018 Mar 13
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  14. Zhang X. A noninvasive surface wave technique for measuring finger's skin stiffness. J Biomech. 2018 Feb 8; 68:115-119 Epub 2017 Dec 16
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  15. Zhang X, Zhou B, Kalra S, Bartholmai B, Greenleaf J, Osborn T. An Ultrasound Surface Wave Technique for Assessing Skin and Lung Diseases. Ultrasound Med Biol. 2018 Feb; 44 (2):321-331 Epub 2017 Dec 01
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  16. Kubo K, Cheng YS, Zhou B, An KN, Moran SL, Amadio PC, Zhang X, Zhao C. The quantitative evaluation of the relationship between the forces applied to the palm and carpal tunnel pressure. J Biomech. 2018 Jan 3; 66:170-174 Epub 2017 Nov 04
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  17. Kubo K, Zhou B, Cheng YS, Yang TH, Qiang B, An KN, Moran SL, Amadio PC, Zhang X, Zhao C. Ultrasound elastography for carpal tunnel pressure measurement: A cadaveric validation study. J Orthop Res. 2018 Jan; 36 (1):477-483 Epub 2017 Aug 14
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  18. Sit AJ, Lin SC, Kazemi A, McLaren JW, Pruet CM, Zhang X. In Vivo Noninvasive Measurement of Young's Modulus of Elasticity in Human Eyes: A Feasibility Study. J Glaucoma. 2017 Nov; 26 (11):967-973
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  19. Zhou B, Sit AJ, Zhang X. Noninvasive measurement of wave speed of porcine cornea in ex vivo porcine eyes for various intraocular pressures. Ultrasonics. 2017 Nov; 81:86-92 Epub 2017 June 07
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  20. Kashani KB, Mao SA, Safadi S, Amiot BP, Glorioso JM, Lieske JC, Nyberg SL, Zhang X. Association between kidney intracapsular pressure and ultrasound elastography. Crit Care. 2017 Oct 19; 21 (1):251
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  21. Zhang X, Osborn T, Zhou B, Meixner D, Kinnick RR, Bartholmai B, Greenleaf JF, Kalra S. Lung Ultrasound Surface Wave Elastography: A Pilot Clinical Study. IEEE Trans Ultrason Ferroelectr Freq Control. 2017 Sep; 64 (9):1298-1304
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  22. Zhang X. A surface wave elastography technique for measuring tissue viscoelastic properties. Med Eng Phys. 2017 Apr; 42:111-115 Epub 2017 Jan 31
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  23. Zhang X. Identification of the Rayleigh surface waves for estimation of viscoelasticity using the surface wave elastography technique. J Acoust Soc Am 2016 Nov; 140 (5):3619
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  24. Zhang X, Osborn T, Kalra S. A noninvasive ultrasound elastography technique for measuring surface waves on the lung. Ultrasonics. 2016 Sep; 71:183-188 Epub 2016 June 27
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  25. Zielinski MD, Kuntz M, Zhang X, Zagar AE, Khasawneh MA, Zendejas B, Polites SF, Ferrara M, Harmsen WS, Ballman KS, Park MS, Schiller HJ, Dries D, Jenkins DH. Botulinum toxin A-induced paralysis of the lateral abdominal wall after damage-control laparotomy: A multi-institutional, prospective, randomized, placebo-controlled pilot study. J Trauma Acute Care Surg. 2016 Feb; 80 (2):237-42
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  26. Zhang X, Meixner D, Kinnick R, Osborn T, Barthalmai B, Greenleaf J, Kalra S. Lung ultrasound surface wave elastography IEEE International Ultrasonics Symposium, IUS. 2016; 2016-November:7728512.
  27. Zhang X, McLaren J, Kazemi A, Lin SC, Pruet CM, Sit AJ. Ultrasound surface wave elastography of the living human eye IEEE International Ultrasonics Symposium, IUS. 2016; 2016-November:7728510.
  28. Qiang B, Brigham JC, Aristizabal S, Greenleaf JF, Zhang X, Urban MW. Modeling transversely isotropic, viscoelastic, incompressible tissue-like materials with application in ultrasound shear wave elastography. Phys Med Biol. 2015 Feb 7; 60 (3):1289-306 Epub 2015 Jan 16
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  29. Urban MW, Lopera M, Aristizabal S, Amador C, Nenadic I, Kinnick RR, Weston A, Qiang B, Zhang X, Greenleaf JF. Characterization of transverse isotropy in compressed tissue mimicking phantoms. IEEE Transactions on Ultrasonics Ferroelectrics, and Frequency Control. 2015; 62(6):1036-1046.
  30. Wang Y, Qiang B, Zhang X, Greenleaf JF, An KN, Amadio PC, Zhao C. A non-invasive technique for estimating carpal tunnel pressure by measuring shear wave speed in tendon: a feasibility study. J Biomech. 2012 Nov 15; 45: (16)2927-30.
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  31. Qiang B, Greenleaf J, Oyen M, Zhang X. Estimating material elasticity by spherical indentation load-relaxation tests on viscoelastic samples of finite thickness. IEEE Trans Ultrason Ferroelectr Freq Control. 2011 Jul; 58: (7)1418-29.
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  32. Zhang X, Qiang B, Hubmayr RD, Urban MW, Kinnick R, Greenleaf JF. Noninvasive ultrasound image guided surface wave method for measuring the wave speed and estimating the elasticity of lungs: A feasibility study. Ultrasonics. 2011 Apr; 51: (3)289-95.
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  33. Zhang X, Qiang B, Greenleaf J. Comparison of the surface wave method and the indentation method for measuring the elasticity of gelatin phantoms of different concentrations. Ultrasonics. 2011 Feb; 51 (2):157-64 Epub 2010 Aug 05
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  34. Zhang X, Osborn TG, Pittelkow MR, Qiang B, Kinnick RR, Greenleaf JF. Quantitative assessment of scleroderma by surface wave technique. Med Eng Phys. 2011 Jan; 33: (1)31-7.
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  35. Qiang B, Greenleaf J, Zhang X. A noninvasive surface wave method for measuring the complex modulus of viscoelastic tissues. Proceedings - 2011 International Conference on Intelligent Computation and Bio-Medical Instrumentation, ICBMI 2011. 2011; 275-8.
  36. Qiang B, Greenleaf J, Oyen M, Zhang X. Estimating material elasticity by shperical indentation load-relaxation tests on viscoelastic samples of finite thickness. IEEE Transactions on Ultrasonics Ferroelectrics, and Frequency Control. 2011; 57(7):1418-1429.
  37. Qiang B, Greenleaf J, Zhang X. Quantifying viscoelasticity of gelatin phantoms by measuring impulse response using compact optical sensors. IEEE Trans Ultrason Ferroelectr Freq Control 2010 Jul; 57 (7):1696-700
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  38. Qiang B, Greenleaf JF, Zhang X. Measuring the speed of surface waves in a two-layer gelatin phantom in water. Proceedings - IEEE Ultrasonics Symposium. 2010; 1027-30.
  39. Zhang X, Qiang B, Hubmayr RD, Greenleaf JF. Preliminary study of human lung elasticity with the noninvasive surface wave technique. Proceedings - IEEE Ultrasonics Symposium. 2010; 1153-5.
  40. Zhang X, Kinnick RR, Greenleaf JF. Air-coupled ultrasound stimulated optical vibrometry for resonance analysis of rubber tubes. Ultrasonics. 2009 Jan; 49 (1):26-30 Epub 2008 Apr 14
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  41. Zhang XM, Greenleaf JF. An anisotropic model for frequency analysis of arterial walls with the wave propagation approach. Applied Acoustics. 2007 Sep; 68(9):953-69.
  42. Zhang X, Zeraati M, Kinnick RR, Greenleaf JF, Fatemi M. Vibration mode imaging. IEEE Trans Med Imaging. 2007 Jun; 26(6):843-52.
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  43. Zhang X, Greenleaf JF. Estimation of complex arterial elastic modulus from ring resonance excited by ultrasound radiation force. Ultrasonics. 2006 Dec 22; 44 Suppl 1:e169-72.
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  44. Zhang X, Greenleaf JF. Generation of a torsion wave and measuring its propagation velocity in the circumferential direction of arterial wall. Ultrasonics. 2006 Dec 22; 44 Suppl 1:e165-8.
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  45. Zhang X, Greenleaf JF. Measurement of wave velocity in arterial walls with ultrasound transducers. Ultrasound Med Biol. 2006 Nov; 32: (11)1655-60.
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  46. Zhang X, Greenleaf JF. The stiffening of arteries by the tissue-mimicking gelatin. IEEE Trans Ultrason Ferroelectr Freq Control 2006 Aug; 53 (8):1534-9
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  47. Zhang X, Greenleaf JF. Noninvasive generation and measurement of propagating waves in arterial walls. J Acoust Soc Am. 2006 Feb; 119: (2)1238-43.
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  48. Zhang XM, Greenleaf JF. Resonance of rubber tubes generated by air force ultrasound transducers. American Society of Mechanical Engineers, Bioengineering Division (Publication) BED. 2006.
  49. Zhang X, Greenleaf JF. Noninvasive estimation of local elastic modulus of arteries with the ring resonance measurement. Proceedings - IEEE Ultrasonics Symposium. 2006; 1:1161-4.
  50. Zhang X, Kinnick RR, Fatemi M, Greenleaf JF. Noninvasive method for estimation of complex elastic modulus of arterial vessels. IEEE Trans Ultrason Ferroelectr Freq Control. 2005 Apr; 52: (4)642-52.
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  51. Zhang XM, Kinnick RR, Fatemi M, Greenleaf JF. Experimental study of resonant frequency of thick rubber tubes. Journal of Sound & Vibration. 2004 Jun 7; 273(3):677-80.
  52. Li W, Liu GR, Zhang XM. Size identification of underwater objects from backscattering signals of arbitrary looking angles. Journal of Computational Acoustics. 2004; 12(No. 3):301-17.
  53. Zhang XM, Fatemi M, Kinnick RR, Greenleaf JF. A model for vibration transmission of light-heavy structures. Appl Acoust. 2003 Feb; 64(2):213-27.
  54. Zhang XM. Frequency analysis of submerged cylindrical shells with the wave propagation approach. Int J Med Sci. 2002 Jul; 44(7):1259-73.
  55. Zhang XM. Reply to "comments on vibration analysis of thin cylindrical shells using wave propagation approach." Journal of Sound & Vibration. 2002 Jun 20; 253(5):1140-2.
  56. Zhang XM. Parametric studies of coupled vibration of cylindrical pipes conveying fluid with the wave propagation approach. Comput Struct. 2002 Feb; 80(3-4):287-95.
  57. Zhang XM, Li W, Liu GR. A new technique in ramp response for acoustic imaging of underwater objects. Appl Acoust. 2002; 63:453-65.
  58. Zhang XM. Parametric analysis of frequency of rotating laminated composite cylindrical shells with the wave propagation approach. Comput Methods Appl Mech and Engin. 2002; 191: 2029-43.
  59. Zhang X, Fatemi M, Greenleaf JF. Vibro-acoustography for modal analysis of arterial vessels Proceedings - International Symposium on Biomedical Imaging. 2002; 2002:513-6.
  60. Zhang XM. Vibration analysis of cross-ply laminated composite cylindrical shells using wave propagation approach. Appl Acoust. 2001; 62(No. 11):1221-8.
  61. Zhang XM, Liu GR, Lam KY. Vibration analysis of thin cylindrical shells using wave propagation approach. Journal of Sound and Vibration. 2001; 239(3):397-403.
  62. Zhang XM, Liu GR, Lam KY. Coupled vibration analysis of fluid-filled cylindrical shells using wave propagation approach. Appl Acoust. 2001; 62:229-43.
  63. Zhang XM, Liu GR, Lam KY. Frequency analysis of cylindrical panels using a wave propagation approach. Appl Acoust. 2001; 62:527-43.
  64. Zhang XM, Liu GR, Lam KY. The effects of baffles and end-caps on coupled vibration and sound radiation of finite cylindrical shells. International Journal of Engineering Simulation. 2001; 2(No.2).
  65. Xu MB, Zhang XM, Zhang WH. The effect of wall joint on the vibrational power flow propagation in a fluid-filled shell. Journal of Sound and Vibration. 1999; 224(3):395-410.
  66. Xu MB, Zhang XM. Forced vibrational power flow input and transmission in a fluid-filled shell. Chinese Journal of Acoustics. 1999; 18(No.2):152-62.
  67. Xu MB, Zhang XM, Zhang WH. Space-harmonic analysis of input power flow in a periodically stiffened shell filled with fluid. Journal of Sound and Vibration. 1999; 222(4):531-46.
  68. Xu MB, Zhang XM. Vibration power flow in a fluid-filled cylindrical shell. Journal of Sound and Vibration. 1998; 218:587-98.
  69. Li TI, Zhang XM. Vibrational power flow analysis on combined plates partially covered layer of discontinuous material [Chinese]. Acta Acustica. 1997; 22(No.3).
  70. Xu MB, Zhang XM. The vibrational energy flow in a cylindrical shell filled with fluid [Chinese]. J Huazhong Univ Sci Technolog Med Sci. 1997; 25(No.2):85-7.
  71. Xu MB, Zhang XM. Characteristics of wave propagation and vibrational power flow in a fluid-filled cylindrical shell [Chinese]. Journal of Vibration Engineering. 1997; 10:230-5.
  72. Zuo Y, Zhang XM. Dispersion characteristics of an infinite thin cylindrical shell immersed in acoustic medium. J Huazhong Univ Sci Technolog Med Sci. 1997; 25(No.6):37-9.
  73. Li TY, Zhang XM. Structural power flow analysis for a floating raft isolation system consisting of constrained damped beams. Journal of Sound and Vibration. 1997; 202:47-54.
  74. Li TY, Zhang XM. Mobility Power flow analysis on a L-shaped stiffened plates. Journal of Vibration Engineering. 1997; 10:112-7.
  75. Li TY, Zhang XM. Power flow analysis of beam-beam raft isolations [Chinese]. Journal of Vibration and Shock. 1997; 16:30-4.
  76. Xu MB, Zhang XM. The effects of the wall joint on the wave propagation in cylindrical shells [Chinese]. J Huazhong Univ Sci Technolog Med Sci. 1996; 24(No.2):72-5.
  77. Xu MB, Zhang XM. The control of wall joint on the coupled wave propagation in a fluid-filled shell [Chinese]. Journal of Vibration Engineering. 1996; 9:389-94.
  78. Li TI, Zhang XM. The coupled longitudinal-flexural wave and power flow of a curved free beam [Chinese]. J Huazhong Univ Sci Technolog Med Sci. 1995; 23(No.3):89-93.
  79. Li TI, Zhang XM. The vibration wave and power flow in a periodical simply supported curved beam [Chinese]. J Huazhong Univ Sci Technolog Med Sci. 1995; 24(No.9):112-5.
  80. Mead DJ, White RG, Zhang XM. Power transmission in a periodically supported infinite beam excited at a single point. Journal of Sound and Vibration. 1994; 169:558-61.
  81. Zhang XM, Zhang WH. The reduction of vibrational energy flow in a periodically supported beam. Journal of Sound and Vibration. 1991; 151:1-7.