ГОСТ Р МЭК 61391-2-2012 ГСИ. Оборудование медицинское ультразвуковое диагностическое. Общие требования к методикам измерения максимальной глубины зондирования и динамического диапазона
Библиография
[1] | ALIUM (1990). Standard Methods for Measuring Performance of Pulse-Echo Ultrasound Imaging Equipment. American Institute of Ultrasound in Medicine 14750 Sweitzer Lane, Laurel, MD20707 |
[2] | GOODSITT M., CARSON P.L., WITT S., HYKES D.I., and KOFLER J.M. Real Time B-mode Ultrasound Quality Control Test Procedures. Med. Physics, 1998, 25, pp.1385-1406 |
[3] | SHI H, AL-SADAH J., MACKIE Т., ZAGZEBSKI J. Signal to noise ratio estimates of ultrasound depth of penetration. Med. Physics, 2003. 30 (6): 1367-1367 June (Abstract) |
[4] | USTUNER K. and HOLLEY G. Ultrasound Imaging System Performance Assessment. In Proceedings of the 2003 Meeting of the American Association of Physicists in Medicine, Pittsburgh, PA, USA, July. Text available at: http://www.aapm.orq/meetinqs/03AM/pdf/9905-9858. pdf, AAPM Symposium, 2003 |
[5] | GORNY K.R., TRADUP D.J., BERNATZ S., STEKEL S., and HANGIANDREOU N.J. Evaluation of automated DOP measurement for the purpose of ultrasound scanner comparison. J Ultrasound Med, 1004, 23, S76 (Abstract) |
[6] | GORNY K.R, TRADUP D.J, HANGIANDREOU N.J. Implementation and validation of three automated methods for measuring maximum depth of penetration: application to ultrasound quality control. Med. Phys, 2004, Aug.32 (8), pp.2615-2628 |
[7] | TRADUP D., JOHNSON L., STEKEL S., HANGIANDREOU N. Initial experience with an automated system for measuring ultrasound image quality. J. Ultrasound Med, 2005, 26: S230, March, (Abstract) |
[8] | GIBSON N., DUDLEY N., and GRIFFITH K. A computerized quality control testing system for B-mode ultrasound. Ultrasound Med & Biol, 2001, 27, pp.1697-1711 |
[9] | ICRU Report 61 (1998): Tissue Substitutes, Phantoms and Computational Modelling in Medical Ultrasound. International Commission on Radiation Units and Measurements, Bethesda, MD, USA |
[10] | MADSEN E., ZAGZEBSKI J., BANJAVIC R. and JUTILA R. Tissue-mimicking materials for ultrasound phantoms. Medical Physics, 1978, 5. pp.391-394 |
[11] | MADSEN E. "Ultrasonically soft-tissue-mimicking materials". In The Medical Physics of CT and Ultrasound: Tissue Imaging and Characterization, Fullerton G. and Zagzebski J., editors, AAPM Monograph 6, American Association of Physicists in Medicine, 335 E. 45th Street, New York, NY, 10017, pp.531-550, 1980 |
[12] | MADSEN E., ZAGZEBSKI J., MACDONALD M. and FRANK G. Ultrasound focal lesion detectability phantoms. Medical Physics, 1991, 18. pp.1171-1180 |
[13] | MADSEN E., ZAGZEBSKI J., MEDINA I., FRANK G., Performance Testing of Transrectal US Scanners. Radiology, 1994, 190 (1). pp.77-80 |
[14] | MADSEN E.L, FRANK G.R, Dong F. Liquid or solid ultrasonically tissue-mimicking materials with very low scatter. Ultrasound Med & Biol, 1998, 24 (4), pp.535-542 |
[15] | WILSON Т., ZAGZEBSK J., LI Y.D. A test phantom for estimating changes in the effective frequency of an ultrasonic scanner. J. Ultrasound in Med, 2002, 21 (9), pp.937-945 |
[16] | THIJSSEN J.M., WEIJERS G. and KORTE C.L. Objective Performance Testing and Quality Assurance of Medical Ultrasound Equipment. Ultrasound Med & Biol., 2007, 33, pp.460-471 |
[17] | DUGGAN T. and SILK M., (1983):"Assessment of ultrasound scanners by acoustic signal injection". Proceedings of the Third Meeting of the World Federation for Ultrasound in Medicine and Biology. R. Lerski and P. Morley, Eds., 1983, (Pergamon Press, New York) |
[18] | REUTER R., TRIER H.G. and LEPPER R.D. Der Echosimulator, ein Funktionsgenerator zur Messung relevanter Eigenschaften von Ultraschalldiagnostik - Geraten. Biomed. Technik, 1980, 25, pp.163-166 |
[19] | TRIER H.G., REUTER R. and LEPPER R.D. Quality assurance by equipment performance testing : Merits of electric test generators. Proc. 4 |
[20] | CARSON, P. Rapid Evaluation of Many Pulse Echo System Characteristics by use of a Triggered Pulse Burst Generator with Exponential Decay. J. Clin. Ultrasound, 1976, 4, pp.259-276 |
[21] | NEMA (2004), Digital imaging and communications in medicine (DICOM) Part 1: Introduction and overview, National Electrical Manufacturers Association, Rosslyn , VA, USA, p.21 |
[22] | VAN WIJK M.C. and THIJSSEN J.M. Performance Testing of Medical Ultrasound Equipment: fundamentals and harmonic modes. Ultrasonics, 2002, 40, pp.585-591 |
[23] | LU Z., ZAGZEBSKI J., and LEE F. (1999), Ultrasound backscatter and attenuation in human liver with diffuse disease. Ultrasound Med & Biol, 1999, 25, pp.1047-1054 |
[24] | LU Z., ZAGZEBSKI J., O'BRIEN W. and STEINBERG H. Ultrasound attenuation and backscatter in the liver during prednisone administration. Ultrasound Med & Biol, 1997, 25, pp.1-8 |
[25] | ALUM (1995), Methods for Specifying Acoustic Properties of Tissue Mimicking Phantoms and Objects: Stage 1. American Institute of Ultrasound in Medicine 14750 Sweitzer Lane, Laurel, MD 20707 |
[26] | WEAR K., STILES Т., FRANK G. et al. Interlaboratory comparison of ultrasonic backscatter coefficient measurements from 2 to 9 MHz. J. Ultrasound Med, 2005, 24, pp.1235-1250 |
[27] | MADSEN E., DOHG F., FRANK G. et al. Interlaboratory comparison of ultrasonic backscatter, attenuation, and speed measurements. J. Ultrasound Med, 1999, 18, pp.615-631 |
[28] | CARSON P., OUGHTON T. Performance Measurements on a real time ultrasound scanner. Proceedings of the 29th Annual Conference on Engineering in Medicine and Biology, Boston, MA |
[29] | LUBBERS J., and GRAAFF R. Flat ended steel wires, backscattering targets for calibrating over a large dynamic range. Ultrasound Med & Biol, 2006, 32, pp.1585-1599 |
[30] | SELFRIDGE A.R. Approximate Material Properties in Isotropic Materials. IEEE Transactions on Sonics and Ultrasonics, 1985, SU-32 (3), pp.381-394 |
[31] | HAIGIS W. and BUSHMANN W. Echo reference standards in ophthalmic ultrasonography. Ultrasound Med & Biol, 1985, 11, pp.149-155 |
[32] | PRESTON R.C. and BOND A.D. An experimental study of the reflection from spherical and flat ended cylindrical targets suitable for fetal Doppler performance. Ultrasound Med & Biol, 1997, 23, pp.117-128 |
УДК 616.073.43.71:006.354 | ОКС 17.140.50 |
Ключевые слова: медицинское ультразвуковое диагностическое оборудование, мишень, сканирование, тест-объект, тканеимитирующий материал, ультразвуковой сканер, фантом | |
Электронный текст документа
подготовлен АО "Кодекс" и сверен по:
официальное издание
М.: Стандартинформ, 2019