人体胸腔电阻抗成像系统研究
摘要
引文
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[3]陈亚明,朱代谟,马凤宝,等.人体组织阻抗的无创伤测量.中国医学物理学杂志,1994年,11(02):58
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[6] Sohwan H P. Analysisof Dieleetrie Data: experience with Biologieal Materials. IEEE Trans. on Eleetrical Insulation. 1985, 20(6):913-921
[7] Grant J P, Spyrou N M. Complex permittivity Differences between Normal and Pathological Tissues: Mechanisms and Medical Significance. Joumal of Bioelectricity. 1985, 4(2):419-485
[8]任超世.生物电阻抗测量技术.中国医疗器械信息,2004,10(1):21-25
[9]任超世,王妍.阻抗成像实用化应用技术研究.中国医学装备,2007年,4 (5):1-5
[10]徐桂芝.基于EIT技术的脑内电特性与功能成像研究:[博士学位论文].天津:河北工业大学,2002
[11]何永勃.电阻抗(ECT/ERT)双模态层析成像技术研究:[博士学位论文].天津:天津大学,2006
[12]陈晓艳,王化祥,石小累,等.人体肺功能生物电阻抗成像技术.中国生物医学工程学报,2008,27(5):663-668
[13] Smit H J. Pulmonary vascular responses to hypoxia and hyperoxia in healthy volunteers and COPD patients measured by electrical impedance tomography. Chest, 2003, 123(6):1803-1809.
[14] Holder D S , Temple A J. Effectiveness of the Sheffield EIT system in distinguish patients with pulmonary pathology from a series of normal subject.In: Holder DS eds. Clinical and Physiological Applications of Electrical Impedance Tomography. London: University College London Press, 1993, 277-298.
[15] Boone K G, Barber D C, Brown D C. Imaging with electricity review of the European concerted action on impedance tomography.Journal of Medical Engineering & Technology, 1997, 21(6):201-232.
[16] McArdle F J , Brown B H , Pearse R G, et al. The effective of the skull of low2birth weight neonates on applied potential tomography imaging of centrallised resistivity changes. Clin. Phys. Physiol. Meas., 1988, 9(Suppl):A55-A60.
[17] Noordegraaf V. Validity and reproducibility of electrical impedance tomography for measurement of calf blood flow in healthy subjects. Med Biol Eng Comput, 1997, 25(2):107-112
[18] McArdle FJ, Suggett AJ, Brown BH, et al. An assessment of dynamic images by applied potential tomography for monitoring pulmonary perfusion .Clin Phys Physiol Meas, 1988, 9 (SupplA):91-97.
[19] Frerichs I.“Electrical impedance tomography (EIT) in applications related to lung and ventilation: a review of experimental and clinical activities. Physiol. Meas. 2002, R1–R21
[20] Holder, D. S. Electrical Impedance Tomography: Methods, History and Application. UK: IOP Bristol, 2005.
[21] Wilson A J, P Milnes, A R Waterworth, et al. Mk3.5: a modular, multi-frequency successor to the Mk3a EIS/EIT system. Physiol.Meas. 2001,22:49–54
[22] Xicai Yue, McLeod Chris, et al. FPGA design and implementation for EIT data acquisition. Physiol. Meas.2008, 29(10): 1233-1246
[23] A McEwan, A Romsauerova, R Yerworth, et al. Design and calibration of a compact multi-frequency EIT system for acute stroke imaging. Physiol. Meas. 2006, 27:S199-S210
[24] Yerworth R J, R H Bayford, G Cusick, et al. Design and performance of the UCLH mark 1b 64 channel electrical impedance tomography (EIT) system, optimized for imaging brain function. Physiol. Meas. 2002, 23:149-158
[25] Markova M. 10 MHz electrical impedance spectroscopy system.[Dissertation], Dartmouth College,2002
[26] Ryan Halter, Alex Hartov, Keith D Paulsen. Design and implementation of a high frequency electrical impedance tomography system. Physiol. Meas. 2004, 25:379-390
[27] Wang M, Y Ma, N Holliday, et al. A high-performance EIT system. Sens. J. IEEE, 2005, 5(2):289-299
[28] Gang Y, K H Lim, R George, et al. A 3D EIT system for breast cancer imaging. Biomedical Imaging: Nano to Macro, 2006. 3rd IEEE International Symposium on.2006:1092-1095
[29] Oh T I, Lee K H, Kim S M, et al. Calibration methods for a multi-channel multifrequency EIT system. Physiol. Meas. 2007, 28(10):1175-1188
[30] N J Avis, D C Baber, B H Brown, et al. Back-projections in applied potential tomography images due to non-uniform reference conductivity,Clin. phys. physiol. Meas., 1992, 13(SuppI.A):113-117
[31] Tadakuni Murai, Yukio Kagwaa. Electrical impedance computed tomography based on a finite element model, IEEE Trans. Biomed. Eng, 1985, BME-34(11):177-184
[32] Yorkey T J,Webster J G, Tompkins W J. Comparing reconstruction algorithms of electrical impedance tomography.IEEE Trans Biomed Eng,1987, BME- 34:843-852
[33] Yorkey T J,Webster J G, Tompkins W J. An improved peurtbration technique for electrical impedance imaging with some criticisms,IEEE Trans Biomed Eng,1987, BME-34(11):898-901
[34] M Cheney, D Isaacson, J C Newell, et al. NOSER: An algorithm for solving the inverse conductivity problem.Int.J.Imag.Syst.Technol, 1990, 2:66-75
[35] Yang W Q, Spink D M, York T A, et al. An image reconstruction algorithm Based on Landweber’s iteration method for electrical capacitance tomography,Meas.Sci.Techno., 1999, 10:1065-1069
[36] Heney M, Isaacson D, Newell J C, et al. NOSER: Analgorithm for solving the inverse conductivity problem,International Journal of Imaging Systems and Technolog y, 1990, 2:66-75
[37] Y Ziya Ider, Nevzat G Gencer, Ergin Atalar, et al. Electrical Impedance Tomography of Translationally Uniform Cylindrical Objects with General Cross Sectional Boundaries, IEEE Transactions on Medical Imaging, 1990, 9(1):49-59
[38] Le Hyaric A, Pidcock. M K. An image reconstruction algorithm for three-dimensional electrical impedance tomography. IEEE Transactions on Biomedical Engineering, 2001, 48(2):230 - 235
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