Istituto di Ingegneria, Biomedica Consiglio Nazionale Delle Ricerch, via Salaria km 29, 300-00016 Monterotondo S. (RM), Italy Dip.to di Ingegneria, Universit Del Sannio, Corso Garibaldi 107, 82100 Benevento, Italy Dip. to di Ingegneria, Universit Del Sannio, Corso Garibaldi 107, 82100 Benevento, Italy
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(2010), http://www.dableducational.org/sphygmomanometers/devices-1-clinical.html, Dabl Educational TrustDe Hert, S.G., Robert, D., Cromheecke, S., Michard, F., Nijs, J., Rodrigus, I.E., Evaluation of Left Ventricular Function in Anesthetized Patients Using Femoral Artery dP/dtmax (2006) Journal of Cardiothoracic and Vascular Anesthesia, 20 (3), pp. 325-330. , DOI 10.1053/j.jvca.2005.11.006, PII S1053077005004544
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Schutte, A.E., Huisman, H.W., Van Rooyen, J.M., Malan, N.T., Schutte, R., Validation of the finometer device for measurement of blood pressure in black women (2004) J. Hum. Hypertens, 18 (2), pp. 79-84
Soncini, M., Manfredi, G., Redaelli, A., Attanasio, A., Tosoni, A., Venturino, M., Susini, G., A computerized method to measure systolic pressure variation (SPV) in mechanically ventilated patients (2002) J. Clin. Monit. Comput., 17 (2), pp. 141-146
Sorvoja, H., Kokko, V.M., Myllylä, R., Miettinen, J., Use of EMFi as a blood pressure pulse transducer (2005) IEEE Trans. Meas. Instrum., 54 (6), pp. 2505-2512
Tanaka, S., Gao, S., Nogawa, M., Yamakoshi, K., Noninvasive measurement of instantaneous radial artery blood pressure. An instrument based on the volume-compensation method (2005) IEEE Eng. Med. Biol. Mag., 24 (4), pp. 32-37
Tartiere, J.M., Logeart, D., Beauvais, F., Chavelas, C., Kesri, L., Tabet, J.Y., Cohen-Solal, A., Non-invasive radial pulse wave assessment for the evaluation of left ventricular systolic performance in heart failure (2007) Eur. J. Heart Fail., 9 (5), pp. 477-483
Zorn, E.A., Wilson, M.B., Angel, J.J., Zanella, J., Albert, B.S., Validation of an automated arterial tonometry monitor using Association for Advancement of Medical Instrumentation standards (1997) Blood Press. Monit., 2, pp. 185-188
Altman, D. G., Bland, J. M., Measurement in medicine: The analysis of method comparison studies (1983) Statistician, 32 (3), pp. 307-31
(2002) ANSI/AAMI SP10: Manual, Electronic or Automated Sphygmomanometers
Bendat, J. S., Piersol, A. G., (1986) Random Data: Analysis and Measurement Procedures
Birch, A. A., Morris, S. L., Do the Finapres and Colin radial artery tonometer measure the same blood pressure changes following deflation of thigh cuffs (2003) Physiol. Meas., 24 (3), pp. 653-660
Chen, C. -H., Nevo, E., Fetics, B., Pak, P. H., Yin, F. C. P., Maughan, W. L., Kass, D. A., Estimation of Central aortic pressure waveform by mathematical transformation of radial tonometry pressure: Validation of generalized transfer function (1997) Circulation, 95 (7), pp. 1827-1836
(2010), http: //www. dableducational. org/sphygmomanometers/devices-1-clinical. html, Dabl Educational TrustDe Hert, S. G., Robert, D., Cromheecke, S., Michard, F., Nijs, J., Rodrigus, I. E., Evaluation of Left Ventricular Function in Anesthetized Patients Using Femoral Artery dP/dtmax (2006) Journal of Cardiothoracic and Vascular Anesthesia, 20 (3), pp. 325-330. , DOI 10. 1053/j. jvca. 2005. 11. 006, PII S1053077005004544
Foo, J. Y. A., Lim, C. S., Pulse transit time based on piezoelectric technique at the radial artery (2006) Journal of Clinical Monitoring and Computing, 20 (3), pp. 185-192. , DOI 10. 1007/s10877-006-9019-y
Leung, J. M., Romson, J. L., Cardiovascular monitoring (2004) Cardiac and Vascular Anesthesia: The Requisites, p. 19
Marino, P. L., (1998) The ICU Book
Matthys, K. S., (2004) Assessment of Vascular Haemodynamics: Investigation of Non-invasive and Minimally Invasive Methods for Assessment of Vascular Function at Rest and during Cardiovascular Challenge, , PhD Thesis
Matthys, K. S., Kalmar, A. F., Struys, M. M. R. F., Mortier, E. P., Avolio, A. P., Segers, P., Verdonck, P. R., Long-term pressure monitoring with arterial applanation tonometry: A non-invasive alternative during clinical intervention? (2008) Technology and Health Care, 16 (3), pp. 183-193
(2006) Piezo Film Sensor Technical Manual
Milnor, W. R., (1989) Hemodynamic
Nichols, W. W., Clinical measurement of arterial stiffness obtained from noninvasive pressure waveforms (2005) Am. J. Hypertens., 18, p. 3
Nichols, W. W., O'Rourke, M. F., (2005) Mcdonald'S, Blood Flow in Arteries
Papaioannou, T. G., Stamatelopoulos, K. S., Gialafos, E., Vlachopoulos, C., Karatzis, E., Nanas, J., Lekakis, J., Monitoring of arterial stiffness indices by applanation tonometry and pulse wave analysis: Reproducibility at low blood pressures (2004) Journal of Clinical Monitoring and Computing, 18 (2), pp. 137-144. , DOI 10. 1023/B: JOCM. 0000032809. 71793. b8
Pressman, G. L., Newgard, P. M., A transducer for external measurement of arterial system (1963) IEEE Trans. Bio-Med. Electron., 10 (2), pp. 73-81
Schutte, A. E., Huisman, H. W., Van Rooyen, J. M., Malan, N. T., Schutte, R., Validation of the finometer device for measurement of blood pressure in black women (2004) J. Hum. Hypertens, 18 (2), pp. 79-84
Tartiere, J. M., Logeart, D., Beauvais, F., Chavelas, C., Kesri, L., Tabet, J. Y., Cohen-Solal, A., Non-invasive radial pulse wave assessment for the evaluation of left ventricular systolic performance in heart failure (2007) Eur. J. Heart Fail., 9 (5), pp. 477-483
Zorn, E. A., Wilson, M. B., Angel, J. J., Zanella, J., Albert, B. S., Validation of an automated arterial tonometry monitor using Association for Advancement of Medical Instrumentation standards (1997) Blood Press. Monit., 2, pp. 185-188
A piezo-film-based measurement system for global haemodynamic assessment
A non-invasive piezo-film-based measurement method for haemodynamic assessment is proposed. The design of a system, able to reconstruct the blood pressure waveform online by dealing with problems arising from the piezo-film capacitive nature in the targeted frequency range (from quasi-dc up to 12 Hz), is illustrated. The system is based on a commercial piezo-film placed easily on the radial artery with a special brace without any discomfort for the patient. The analogical conditioning circuit and digital signal processing are continuously tuned with the signal from the sensor to reconstruct the blood pressure signal online. Diagnostic schema, based on physio-pathological models, have been implemented in order to compute online trends of max[dP(t)/d(t)] and volemic status highly useful for the intensivist and anaesthesiologist. The system was characterized by numerical simulation and experimental in vivo comparison to the traditional reference system.
A piezo-film-based measurement system for global haemodynamic assessment
Petraglia F, Singh AA, Carafa V, Nebbioso A, Conte M, Scisciola L, Valente S, Baldi A, Mandoli A, Petrizzi VB, Ingenito C, De Falco S, Cicatiello V, Apicella I, Janssen-megens EM, Kim B, Yi G, Logie C, Heath S, Ruvo M, Wierenga ATJ, Flicek P, Yaspo ML, Della Valle V, Bernard O, Tomassi S, Novellino E, Feoli A, Sbardella G, Gut I, Vellenga E, Stunnenberg HG, Mai A, Martens JHA, Altucci L * Combined HAT/EZH2 modulation leads to cancer-selective cell death(199 visite) Oncotarget (ISSN: 1949-2553electronic, 1949-2553linking), 2018 May 22; 9(39): 25630-25646. Impact Factor:5.008 DettagliEsporta in BibTeXEsporta in EndNote
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Malvindi MA, Greco A, Conversano F, Figuerola A, Corti M, Bonora M, Lascialfari A, Doumari HA, Moscardini M, Cingolani R, Gigli G, Casciaro S, Pellegrino T, Ragusa A * MR Contrast Agents(224 visite) Small Animal Imaging, 2011 Jul 8; 21(13): 2548-2555. Impact Factor:1.784 DettagliEsporta in BibTeXEsporta in EndNote
Bruni AC, Bernardi L, Colao R, Rubino E, Smirne N, Frangipane F, Terni B, Curcio SA, Mirabelli M, Clodomiro A, Di Lorenzo R, Maletta R, Anfossi M, Gallo M, Geracitano S, Tomaino C, Muraca MG, Leotta A, Lio SG, Pinessi L, Rainero I, Sorbi S, Nee L, Milan G, Pappata S, Postiglione A, Abbamondi N, Forloni G, St George Hyslop P, Rogaeva E, Bugiani O, Giaccone G, Foncin JF, Spillantini MG, Puccio G * Worldwide distribution of PSEN1 Met146Leu mutation: A large variability for a founder mutation(399 visite) Neurology (ISSN: 0028-3878, 1526-632x, 1526-632xelectronic), 2010 Mar 9; 74(10): 798-806. Impact Factor:8.017 DettagliEsporta in BibTeXEsporta in EndNote