Noninvasive Blood Pressure Measurement Methods

• Autorzy: Sorvoja H. , Myllylä R.
• Języki publikacji: EN

Abstrakty

EN

This paper review the historical background of noninvasive blood pressure measurement methods with their accuracies achieved and explains the requirements for common national and international standards of accuracy. Also are shortly described the development of blood pressure measurement system and a method, named electronic palpation method (EP), suitable for the long-term measurement of heart rate and blood pressure using a cuff on the upper arm and a pressure sensor array on the radial artery.

Słowa kluczowe

EN

pressure transducer; blood pressure monitoring; pulse transit time

• Wydawca: Silesian Division of Polish Acoustical Society
• Czasopismo: Molecular and Quantum Acoustics
• Rocznik: 2006
• Tom: Vol. 27
• Strony: 239--264
• Opis fizyczny: Bibliogr. 58 poz., rys.

Twórcy

autor

Sorvoja H.

autor

Myllylä R.

• University of Oulum Department of Electrical and Information EngineeringOptoelectronics and Measurement Techniques LaboratoryP.O. Box 4500 FI-90014 University of Oulu, Finland,

Bibliografia

• 1.http://www.dableducational.org/index.html
• 2.Association for the Advancement of Medical Instrumentation, American national standard. Electronic or automated sphygmomanometers, ANSI/AAMI SP 10-1987, Arlington, VA: AAMI, 1987, 25.
• 3.Association for the Advancement of Medical Instrumentation, American national standard. Electronic or automated sphygmomanometers, ANSI/AAMI SP 10-1992, Arlington, VA: AAMI, 1993,1-40.
• 4.E. O'Brien, J. Petrie, W. Littler et al., The British Hypertension Society protocol for the evaluation of automated and semi-automated blood pressure measuring device with special reference to ambulatory systems, J. Hypertension 8:607-619, (1990).
• 5.E. O'Brien, J. Petrie, W. Littler, M. de Swiet, P. L. Padfield, D. G. Altman, M. Bland, A. Coats, N. Atkins, An outline of the revised British Hypertension Society protocol for the evaluation of blood pressure measuring devices, J. Hypertens. 11:677-679, (1993).
• 6.E. O'Brien, B. Waeber, G.. Parati, J. Staessen & M. G. Myers, Clinical Review: Blood pressure measuring devices: recommendations of the European Society of Hypertension. BMJ. 322:531-536, (2001).
• 7.E. O'Brien, T. Pickering, R. Asmar, M. Myers, G. Parati, J. Staessen, T. Mengden, Y. Imai, B. Waeber, P. Palatini with the statistical assistance of N. Atkins & W. Gerin on behalf of the Working Group on Blood Pressure Monitoring of the European Society of Hypertension. International protocol for validation of blood pressure measuring devices in adults, Blood Press. Monitor. 7:3-17, (2002).
• 8.L. A. Geddes, Handbook of Blood Pressure Measurement, Humana Press, 1991.
• 9.R. R. Cozby & R. R. Adhami, Low-Frequency Korotkoff signal analysis and application, IEEE Trans. Biomed. Eng. 40(10):1067-1070, (1993).
• 10.Rogueiro-Gómez & R. Pallás-Areny, A new method for automated blood pressure measurement, Physiol. Meas. 19:205-212, (1998).
• 11.D. J. Sebald, D. E. Bahr & A. R. Kahn, Narrowband auscultatory blood pressure measurement, IEEE Trans. Biomed. Eng. 49(9):1038-1044, (2002).
• 12.M. Ramsey, Noninvasive automatic determination of mean arterial pressure, Med. Biol. Eng. Comput. 17:11-18, (1979).
• 13.M. Yelderman & A. K. Ream, Indirect measurement of blood pressure in the anesthetized patient. Anesthesiol. 50:253-256, (1979).262 Sorvoja H., Myllylä R.
• 14.K. J. Kimble, R. A. Darnall & M. Yelderman et al., An automatic oscillometric technique for estimating mean arterial pressure in clinically ill neonates, Anesthesiology 54(5):423-5, (1981).
• 15.H. Alexander, M. Cohen & L. Steinfeld, Criteria in the choice of an occluding cuff for the indirect measurement of the blood pressure, Med. Biol. Eng. Comput. 15:2-10, (1977).
• 16.R. H. Friesen & I. L. Lichter, Indirect measurement of blood pressure in neonates and infants utilizing an automatic noninvasive oscillometric monitor, Anesth. Analg. 10:742-745, (1981).
• 17.L. A. Geddes, M. Voelz & C. Combs, Characterization of the oscillometric method for measuring indirect blood pressure, Ann. Biomed. Eng. 10:271-280, (1983).
• 18.G.. Drzewiecki, R. Hood & A. Apple, Theory of the oscillometric maximum and the systolic and diastolic detection ratios, Ann. Biomed. Eng. 22:88-96, (1994).
• 19.M. Ursino & C. Cristalli, A mathematical study of some biomechanical factors affecting the oscillometric blood pressure measurement, IEEE Trans. Biomed. Eng. 43(8):761-778, (1996).
• 20.J. C. T. B. Moraes & M. Cerulli, P. S. Ng Development of a new oscillometric blood pressure measurement system. Comp in Card, 1: 467-470, (1999).
• 21.JCTB Moraes & M Cerulli, A strategy for determination of systolic, mean and diastolic blood pressures from oscillometric pulse profiles. Com. in Cardiol. 1: 211-214, (2000).
• 22.Bur, M.M. Hirschl, H. Herkner, E. Oschatz, J. Kofler, S. Woisetschlager & A. N. Laggner, Accuracy of oscillometric blood pressure measurement according to the relation between cuff size and upper-arm circumference in critically ill patients, Crit. Care Med. 28(2):371-376, (2000).
• 23.V. Reeben & M. Epler, Indirect continuous measurement of mean arterial pressure, Advanges in Cardiovascular Physics 5, Cardiovasc. Eng. Part II, 90-118, (1983)
• 24.K. Jagomägi, J. Talts, R. Raamat & E. Lansimies, Continuous non-invasive measurement of mean blood pressure in fingers by volume-clamp and differential oscillometric method, Clin. Physiol. 16(5):551-560, (1996).
• 25.R. Raamat, J. Talts, K. Jagomägi & E. Lansimies, Mathematical modelling of non-invasive oscillometric finger mean blood pressure measurement by maximum oscillation criterion, Med. Biol. Eng. Comput. 37(6):784-788, (1999).
• 26.R. Raamat, K. Jagomägi & J. Talts, Different responses of Finapres and the oscillometric finger blood pressure monitor during intensive vasomotion. J. Med. Eng. Technol. 24(3):95-101, (2000).
• 27.R. Raamat, K. Jagomägi, J. Talts, E. Lansimies, J. Jurvelin & P. Kolari, Continuous mean arterial pressure measurement in the fingers: the influence of local arm cooling, Med. Biol. Eng .Comput. 39(5):584-589, (2001).
• 28.K. Jagomägi, R. Raamat & J. Talts, Effect of altering vasoactivity on the measurement of finger blood pressure, Blood Press. Monitor. 6(1):33-40, (2001).
• 29.G. P. Molhoek, K. H. Wesseling, J. J. Settels, E. van Vollenhoven, H. W. Weeda, B. de Wit & A. C. Arntzenius, Evaluation of the Penaz servo-plethysmo-manometer for the continuous, non-invasive measurement of finger blood pressure, Basic Res. Cardiol. 79:598-609, (1984).
• 30.J. S. Gravenstein, D. A. Paulus, J. Feldman & G. McLaughlin, Tissue hypoxia distal to a Peñaz finger blood pressure cuff, J. Clin. Monit. 1(2):120-5, (1985).Molecular and Quantum Acoustics vol. 27, (2006) 263
• 31.D. A. Boehmer, Continuous, real-time, noninvasive monitor of blood pressure: Penaz methodology applied to the finger, J. Clin. Monit. 3(4):282-287, (1987).
• 32.T. Kurki, N. T. Smith, N. Head, H. Dec-Silver & A. Quinn, Noninvasive continuous blood pressure measurement from the finger: optimal measurement conditions and factors affecting reliability, J. Clin. Monit. 3(1):6-13, (1987).
• 33.R. H. Epstein, S. Kaplan, B. L. Leighton, M. C. Norris & C. A. DeSimone, Evaluation of a continuous noninvasive blood pressure monitor in obstetric patients undergoing spinal anesthesia, J. Clin. Monit. 5(3):157-163, (1989).
• 34.J. Kugler, J. Rollnik & N. Schmitz, Retest-reliability and convergent validity of noninvasive blood pressure determination: arm sphygmomanometry vs. Penaz-method, Int. J. Clin. Monit. Comput. 14(4):251-254, (1997).
• 35.T. S. Kurki, N. T. Smith, T. J. Sanford & N. Head, Pulse oximetry and finger blood pressure measurement during open-heart surgery, J. Clin. Monit. 5(4):221-228, (1989).
• 36.H. Sorvoja, Noninvasive blood pressure pulse detection and blood pressure determination, Department of Electrical and Information Engineering, Infotech Oulu, University of Oulu, P.O.Box 4500, FI-90014 University of Oulu, Finland, Acta Univ. Oul. C 259, 2006, Oulu, Finland, pp. 86, http://herkules.oulu.fi/isbn9514282728/
• 37.D. B. Friedman, F. B. Jensen, S. Matzen & N. H. Secher, Non-invasive blood pressure monitoring during head-up tilt using the Penaz principle, Acta Anaesthesiol. Scand. 34(7):519-522, (1990).
• 38.G. J. Langewouters, J. J. Settels, R. Roelandt & H. Wesseling, Why use Finapres or Portapres rather than intra-arterial or intermittent non-invasive techniques of blood pressure measurement? J. Med. Eng. Technol. 22(1):37-43, (1998)
• 39.G.. Drzewiecki, J. Melbin & A. Noordengraaf, Arterial tonometry: review and analysis, J. Biomech. 16:141-152, (1983).
• 40.C. S. Weaver, J. S. Eckerle, P. M. Newgard, C. T. Warnke, J. B. Angell, S. C. Terry & J. Robinson, A study of noninvasive blood pressure measurement technique. Noninvasive Cardiovascular Measurements. Soc. Photo-optical Instr. Eng .167:189, (1978).
• 41.S. Terry, J. Eckerle, R. Kornbluh, T. Low & C. Ablow, Silicon pressure transducer arrays for blood-pressure measurement, Sensors and Actuators A21-A23:1070-1079, (1990).
• 42.E. A. Zorn, M. B. Wilson, J. Angel, J. Zanella & B. S. Alpert, Validation of an automated arterial tonometry monitor using Association for the Advancement of Medical Instrumentation standards, Blood Press. Monitor. 2(4):185-188, (1997).
• 43.C.-H. Chen, E. Nevo, B. Fetics, P. H. Pak, F. C. Yin, W. L. Maughan & D. A. Kass, Estimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure; validation of generalized transfer function, Circulation 95(7):1827-1836, (1997).
• 44.B. Fetics, E. Nevo, C.-H. Chen & D. Kass, Parametric model derivation of transfer function for noninvasive estimation of aortic pressure by radial tonometry, IEEE Trans. Biomed. Eng. 46(6):698-706, (1999).
• 45.G. Drzewiecki, Noninvasive assessment of arterial blood pressure and mechanics. In: Bronzino J.D. (ed) The Biomedical Engineering Handbook. Trinity College, Hartford, Connecticut, USA, 1995, 1198.
• 46.R. Asmar, Arterial Stiffness and Pulse Wave Velocity, Clinical Applications. Éditions scientifiques et médicales Elsevier SAS. 23, rue Linois, 75724 Paris cedex 15, 1999.264 Sorvoja H., Myllylä R.
• 47.L. A. Geddes, M. Voelz, S. James & D. Reiner, Pulse wave velocity as a method of obtaining systolic and diastolic blood pressure, Med. Biol. Eng. Comput. 19:671-672, (1981).
• 48.M. Okada, Possible determinants of pulse-wave velocity in vivo. IEEE Trans. Biomed. Eng. 35(5):357-361, (1988).
• 49.D. Franchi, R. Bedini, F. Manfredini, S. Berti, G. Palagi, S. Ghione & A. Ripoli, Blood pressure evaluation based on arterial pulse wave velocity, Computers in Cardiology 1:397-400, (1996).
• 50.W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi & T. Togawa, Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent, Med. & Biol. Eng. & Comput. 38(5):569-574, (2000).
• 51.S. Rhee, B-H. Yang & H. H. Asada, Artifact-resistant power-efficient design of finger-ring plethysmographic sensors, IEEE Trans. Biomed. Eng. 48(7):795-805, (2001).
• 52.H.H. Asada, P. Shaltis, A. Reisner, S. Rhee & R. C. Hutchinson, Mobile monitoring with wearable photoplethysmographic biosensors, IEEE Eng. Med. and Biol. Magazine 22(3):28-40, (2003).
• 53.C. C. Y. Poon, Y. T. Zhang, Cuff-less and Noninvasive Measurements of Arterial Blood Pressure by Pulse Transit Time, 27th Annual International Conference of the IEEE-EMBS, 5877 - 5880, (2005).
• 54.Ruha, Detection of Heart Beat in Ambulatory Heart Rate Measurements, Methods and Integrated Circuits. Oulu, Finland: Doctoral thesis, University of Oulu, Department of Electrical Engineering: 36-42. (1998).
• 55.H. Sorvoja, J. Hast, R. Myllylä, P. Kärjä-Koskenkari, S. Nissilä & M. Sorvisto, Blood pressure measurement method using pulse-transit-time, Mol. Quant. Acoust. 24:169-181, (2003).
• 56.H. Sorvoja & R. Myllylä, Accuracy of the electronic palpation blood pressure measurement method versus the intra-arterial method. Tech. Health Care, International Journal of Health Care Engineering 12(2): 145-146, (2004).
• 57.H. Sorvoja, R. Myllylä, P. Kärjä-Koskenkari, J. Koskenkari, M. Lilja & Y. A. Kesäniemi, Accuracy comparison of oscillometric and electronic palpation blood pressure measuring methods using intra-arterial method as a reference, Mol. Quant. Acoust. 26: 235-260, (2005).
• 58.H. Sorvoja, V-M. Kokko, R. Myllylä & J. Miettinen, Use of EMFi as a blood pressure pulse transducer, IEEE Trans. Instr. & Meas. 54(6):2505-2512, (2005).