An instrument for prosthesis osseointegration assessment by electrochemical impedance spectrum measurement (280 views)
Measurement (ISSN: 0263-2241), 2008 Nov; 41(9): 1040-1044.
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Paper type: Journal Article,
Impact factor: 0.662, 5-year impact factor: 0.891
Url: Not available.
Keywords: Biomedical Equipment, Biomedical Measurements, Electrochemical Devices, Impedance Measurements, Electrochemical Corrosion, Electronic Equipment Testing, Prosthetics, Electrochemical Impedance Spectroscopy,
Affiliations:
*** IBB - CNR ***
Dipartimento di Ingegneria, Università del Sannio, Corso Garibaldi 107, 82100 Benevento, Italy
Consiglio Nazionale delle Ricerche, Istituto di Ingegneria Biomedica, Via Salaria km 29, 300, 00016 Monterotondo S. (RM), Italy
References:
Arpaia, P., Clemente, F., Zanesco, A., Low-invasive diagnosis of metallic prosthesis osseointegration by electrical impedance spectroscopy (2007) IEEE Trans. Instrum. Meas., 56 (3), pp. 784-78
P. Arpaia, F. Clemente, C. Romanucci, Impedance spectroscopy-based measurement of cochlear prosthesis osseointegration: in-vivo test procedure and characterization, in: Proceedings of IMTC 2007, Warsaw (Poland), pp. 1786-1791Albrektsson, T., Branemark, P.I., Hansson, H.A., The interface zone of inorganic implants in vivo: titanium implants in bone (1983) Ann. Biomed. Eng., 11, pp. 1-27
Kienapfel, H., Sprey, C., Wilke, A., Griss, P., Implant fixation by bone ingrowth (1999) J. Arthroplasty, 14 (3), pp. 355-368
Webster, J.G., (1988) Encyclopedia of Medical Devices and Instrumentation, , John Wiley pp. 195-226
Krizaj, D., Jan, J., Valencic, V., Numerical computation of impedances of a human tooth for estimation of the root canal length (2002) IEEE Trans. Biomed. Eng., 49 (7), pp. 746-748
P. Arpaia, P. Cimmino, F. Clemente, C. Romanucci, A microcontroller-based instrument for prostheses osseointegration measurement by electrochemical impedance spectroscopy, in: Proceedings of the 15th IMEKO TC4 Symposium, Iasi (Romania), 2007, F047Barsoukov, E., Macdonald, J.R., (2005) Impedance Spectroscopy: Theory, Experiment, and Applications, , John Wiley & Sons
IEEE Std 1057-1994 (R2001), IEEE Standard for Digitizing Waveform RecordersRamos, P., Cruz Serra, A., A new sine-fitting algorithm for accurate amplitude and phase measurements in two channel acquisition systems (2008) Measurement, 41 (2), pp. 135-143
Regione Campania (POR 3.17), Grant 915, A low-cost micro system to monitoring cochlear osseointegrated prosthesis for deaf patients (in Italian)UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-53849093769&partnerID=40&md5=fe8e8e8a054ac8a25baec530e8306e13
Webster, J. G., (1988) Encyclopedia of Medical Devices and Instrumentation, , John Wiley pp. 195-226
Measurement (ISSN: 0263-2241), 2008 Nov; 41(9): 1040-1044.
Export to BibTeX Export to EndNote
Paper type: Journal Article,
Impact factor: 0.662, 5-year impact factor: 0.891
Url: Not available.
Keywords: Biomedical Equipment, Biomedical Measurements, Electrochemical Devices, Impedance Measurements, Electrochemical Corrosion, Electronic Equipment Testing, Prosthetics, Electrochemical Impedance Spectroscopy,
Affiliations:
*** IBB - CNR ***
Dipartimento di Ingegneria, Università del Sannio, Corso Garibaldi 107, 82100 Benevento, Italy
Consiglio Nazionale delle Ricerche, Istituto di Ingegneria Biomedica, Via Salaria km 29, 300, 00016 Monterotondo S. (RM), Italy
References:
Arpaia, P., Clemente, F., Zanesco, A., Low-invasive diagnosis of metallic prosthesis osseointegration by electrical impedance spectroscopy (2007) IEEE Trans. Instrum. Meas., 56 (3), pp. 784-78
P. Arpaia, F. Clemente, C. Romanucci, Impedance spectroscopy-based measurement of cochlear prosthesis osseointegration: in-vivo test procedure and characterization, in: Proceedings of IMTC 2007, Warsaw (Poland), pp. 1786-1791Albrektsson, T., Branemark, P.I., Hansson, H.A., The interface zone of inorganic implants in vivo: titanium implants in bone (1983) Ann. Biomed. Eng., 11, pp. 1-27
Kienapfel, H., Sprey, C., Wilke, A., Griss, P., Implant fixation by bone ingrowth (1999) J. Arthroplasty, 14 (3), pp. 355-368
Webster, J.G., (1988) Encyclopedia of Medical Devices and Instrumentation, , John Wiley pp. 195-226
Krizaj, D., Jan, J., Valencic, V., Numerical computation of impedances of a human tooth for estimation of the root canal length (2002) IEEE Trans. Biomed. Eng., 49 (7), pp. 746-748
P. Arpaia, P. Cimmino, F. Clemente, C. Romanucci, A microcontroller-based instrument for prostheses osseointegration measurement by electrochemical impedance spectroscopy, in: Proceedings of the 15th IMEKO TC4 Symposium, Iasi (Romania), 2007, F047Barsoukov, E., Macdonald, J.R., (2005) Impedance Spectroscopy: Theory, Experiment, and Applications, , John Wiley & Sons
IEEE Std 1057-1994 (R2001), IEEE Standard for Digitizing Waveform RecordersRamos, P., Cruz Serra, A., A new sine-fitting algorithm for accurate amplitude and phase measurements in two channel acquisition systems (2008) Measurement, 41 (2), pp. 135-143
Regione Campania (POR 3.17), Grant 915, A low-cost micro system to monitoring cochlear osseointegrated prosthesis for deaf patients (in Italian)UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-53849093769&partnerID=40&md5=fe8e8e8a054ac8a25baec530e8306e13
Webster, J. G., (1988) Encyclopedia of Medical Devices and Instrumentation, , John Wiley pp. 195-226
An instrument for prosthesis osseointegration assessment by electrochemical impedance spectrum measurement
A method based on electrochemical impedance spectroscopy (EIS) for the diagnosis of prosthesis osseointegration was proposed by the authors in previous works [P. Arpaia, F. Clemente, A. Zanesco, Low-invasive diagnosis of metallic prosthesis osseointegration by electrical impedance spectroscopy, IEEE Trans. Instrum. Meas. 56 (3) (2007) 784-789; P. Arpaia, F. Clemente, C. Romanucci, Impedance spectroscopy-based measurement of cochlear prosthesis osseointegration: in vivo test procedure and characterization, in: Proceedings of IMTC 2007, Warsaw (Poland), pp. 1786-1791]. In this paper, the design, the implementation, and the metrological characterization of a microcontroller-based prototype conceived as a stand alone instrument to be used for in vivo clinical applications are presented. Particulars on the preliminary experimental results of laboratory evaluation are presented. (C) 2008 Elsevier Ltd. All rights reserved.
A method based on electrochemical impedance spectroscopy (EIS) for the diagnosis of prosthesis osseointegration was proposed by the authors in previous works [P. Arpaia, F. Clemente, A. Zanesco, Low-invasive diagnosis of metallic prosthesis osseointegration by electrical impedance spectroscopy, IEEE Trans. Instrum. Meas. 56 (3) (2007) 784-789; P. Arpaia, F. Clemente, C. Romanucci, Impedance spectroscopy-based measurement of cochlear prosthesis osseointegration: in vivo test procedure and characterization, in: Proceedings of IMTC 2007, Warsaw (Poland), pp. 1786-1791]. In this paper, the design, the implementation, and the metrological characterization of a microcontroller-based prototype conceived as a stand alone instrument to be used for in vivo clinical applications are presented. Particulars on the preliminary experimental results of laboratory evaluation are presented. (C) 2008 Elsevier Ltd. All rights reserved.
An instrument for prosthesis osseointegration assessment by electrochemical impedance spectrum measurement
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An instrument for prosthesis osseointegration assessment by electrochemical impedance spectrum measurement
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2013 E Health And Bioengineering Conference, 2013; N/D: N/D-N/D.
Impact Factor: 0
View Export to BibTeX Export to EndNote
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Impact Factor: 0.318
View Export to BibTeX Export to EndNote
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6 Records (3 excluding Abstracts).
Total impact factor: 1.046 (0.318 excluding Abstracts).
Total 5 year impact factor: 1.097 (0.316 excluding Abstracts).
Total impact factor: 1.046 (0.318 excluding Abstracts).
Total 5 year impact factor: 1.097 (0.316 excluding Abstracts).
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