Symbolic Dynamics in cardiotocographic monitoring (309 views)
2013 E Health And Bioengineering Conference, 2013; N/D: N/D-N/D.
Export to BibTeX Export to EndNote
Paper type: Abstract, Conference,
Impact factor: 0, 5-year impact factor: 0
Url: http://www.scopus.com/inward/record.url?eid=2-s2.0-84893744197&partnerID=40&md5=3f4e7b9ae33ab189ee02e8a08b0e7f43
Keywords: Biomedical Signal Processing, Foetal Health Monitoring, Medical Signal Detection, Pregnancy, Symbolic Dynamics, Foetal Heart Rates, Heart Rate Control, Nonlinear Analysis Methods, Time And Frequency Domains,
Affiliations:
*** IBB - CNR ***
DIETI, University of Naples 'Federico II', Naples, Italy
IsIB-CNR Monterotondo S. Roma, Italy
S. Maugeri Foundation, Rehabilitation Institute of Telese, Terme, Italy
References:
The use of electronic fetal monitoring. The use and interpretation of cardiotocography in intrapartum fetal surveillance (2001) Royal College of Obstet. And Gynaecol., , Royal College of Obstetricians and Gynaaecologists RCOG, Evidence-based Clinical Guideline Num.
Voss, A., Schulz, S., Schroeder, R., Baumert, M., Caminal, P., Methods derived from non-linear dynamics for analysing heart rate variability (2009) Phil. Trans. R. Soc. A, 367, pp. 277-296
Romano, M., Bifulco, P., Cesarelli, M., Sansone, M., Bracale, M., Fetal heart rate power spectrum response to uterine contraction (2006) Medical & Biological Engineerin & Computing, 44 (3), pp. 188-201. , March
Porta, A., D'Addio, G., Pinna, G., Maestri, R., Gnecchi Ruscone, T., Montano, N., Symbolic analysis of 24h Holter heart period variability series: Comparison between normal and heart failure patients (2005) Comp Cardiology, 32, pp. 575-578
Voss, A., Kurths, J., Kleiner, H.J., Witt, A., Wessel, N., Saparin, P., The application of methods non-linear dynamics for the improved and predicitive recognition of patients threatened by sudden cardiac death Cardiovascular Research, 31 (1996), pp. 419-4333
Van Leeuwen, P., Cysarz, D., Lange, S., Geue, D., Groenemeyer, D., Quantification of fetal heart rate regularity using symbolic dynamics (2007) Chaos, 17, pp. 1-9. , 015119
Cesarelli, M., Romano, M., Bifulco, P., Fedele, F., Bracale, M., An algorithm for the recovery of fetal heart rate series from CTG data (2007) Computers in Biology and Medicine, 37 (5), pp. 663-669
Improta, G., Romano, M., Amato, F., Sansone, M., Cesarelli, M., Development of a software for automatic analysis of CTG recordings (2012) GNB2012, , June 26th-29th, Rome, Italy
Romano, M., Cesarelli, M., Bifulco, P., Ruffo, M., Fratini, A., Pasquariello, G., Time-frequency analysis of CTG signals (2009) Current Develop. In Theory and Applications of Wavelets, 3 (2), pp. 169-192
Guzzetti, S., Borroni, E., Garbelli, P.E., Ceriani, E., Della Bella, P., Montano, N., Symbolic dynamics of heart rate variability. A probe to investigate cardiac autonomic modulation (2005) Circulation, , July 26
Schulz, S., Adochiei, F.E., Edu, I.R., Schroeder, R., Costin, H., Baer, K.J., Voss, A., Cardiovascular and cardiorespiratory coupling analyses - A review (2013) Philosophical Transactions of the Royal SOCiety, , August 28
2013 E Health And Bioengineering Conference, 2013; N/D: N/D-N/D.
Export to BibTeX Export to EndNote
Paper type: Abstract, Conference,
Impact factor: 0, 5-year impact factor: 0
Url: http://www.scopus.com/inward/record.url?eid=2-s2.0-84893744197&partnerID=40&md5=3f4e7b9ae33ab189ee02e8a08b0e7f43
Keywords: Biomedical Signal Processing, Foetal Health Monitoring, Medical Signal Detection, Pregnancy, Symbolic Dynamics, Foetal Heart Rates, Heart Rate Control, Nonlinear Analysis Methods, Time And Frequency Domains,
Affiliations:
*** IBB - CNR ***
DIETI, University of Naples 'Federico II', Naples, Italy
IsIB-CNR Monterotondo S. Roma, Italy
S. Maugeri Foundation, Rehabilitation Institute of Telese, Terme, Italy
References:
The use of electronic fetal monitoring. The use and interpretation of cardiotocography in intrapartum fetal surveillance (2001) Royal College of Obstet. And Gynaecol., , Royal College of Obstetricians and Gynaaecologists RCOG, Evidence-based Clinical Guideline Num.
Voss, A., Schulz, S., Schroeder, R., Baumert, M., Caminal, P., Methods derived from non-linear dynamics for analysing heart rate variability (2009) Phil. Trans. R. Soc. A, 367, pp. 277-296
Romano, M., Bifulco, P., Cesarelli, M., Sansone, M., Bracale, M., Fetal heart rate power spectrum response to uterine contraction (2006) Medical & Biological Engineerin & Computing, 44 (3), pp. 188-201. , March
Porta, A., D'Addio, G., Pinna, G., Maestri, R., Gnecchi Ruscone, T., Montano, N., Symbolic analysis of 24h Holter heart period variability series: Comparison between normal and heart failure patients (2005) Comp Cardiology, 32, pp. 575-578
Voss, A., Kurths, J., Kleiner, H.J., Witt, A., Wessel, N., Saparin, P., The application of methods non-linear dynamics for the improved and predicitive recognition of patients threatened by sudden cardiac death Cardiovascular Research, 31 (1996), pp. 419-4333
Van Leeuwen, P., Cysarz, D., Lange, S., Geue, D., Groenemeyer, D., Quantification of fetal heart rate regularity using symbolic dynamics (2007) Chaos, 17, pp. 1-9. , 015119
Cesarelli, M., Romano, M., Bifulco, P., Fedele, F., Bracale, M., An algorithm for the recovery of fetal heart rate series from CTG data (2007) Computers in Biology and Medicine, 37 (5), pp. 663-669
Improta, G., Romano, M., Amato, F., Sansone, M., Cesarelli, M., Development of a software for automatic analysis of CTG recordings (2012) GNB2012, , June 26th-29th, Rome, Italy
Romano, M., Cesarelli, M., Bifulco, P., Ruffo, M., Fratini, A., Pasquariello, G., Time-frequency analysis of CTG signals (2009) Current Develop. In Theory and Applications of Wavelets, 3 (2), pp. 169-192
Guzzetti, S., Borroni, E., Garbelli, P.E., Ceriani, E., Della Bella, P., Montano, N., Symbolic dynamics of heart rate variability. A probe to investigate cardiac autonomic modulation (2005) Circulation, , July 26
Schulz, S., Adochiei, F.E., Edu, I.R., Schroeder, R., Costin, H., Baer, K.J., Voss, A., Cardiovascular and cardiorespiratory coupling analyses - A review (2013) Philosophical Transactions of the Royal SOCiety, , August 28
Symbolic Dynamics in cardiotocographic monitoring
Foetal heart rate variability is considered an important parameter, capable to highlight foetal reactivity and wellbeing. Many studies focused their attention on foetal heart rate variability analysis, using different techniques both in time and frequency domain. Proposed parameters have shown some limitations, due to their inability to analyze nonlinear dynamics, involved in heart rate control and relevant for clinical aims. In the last decades, nonlinear analysis methods have gained a growing interest. Here, we described an application of a nonlinear analysis (symbolic dynamic analysis) and introduced a new index to quantify foetal heart rate variability, in a simple and concise way, in healthy foetuses near to term. The index was able to highlight differences in foetal heart rate variability, not always so evident on printed cardiotocographic signals, and resulted significantly correlated with the different kinds of delivery (spontaneous or caesarean); in particular, higher variability index values corresponded to spontaneous delivery.
Foetal heart rate variability is considered an important parameter, capable to highlight foetal reactivity and wellbeing. Many studies focused their attention on foetal heart rate variability analysis, using different techniques both in time and frequency domain. Proposed parameters have shown some limitations, due to their inability to analyze nonlinear dynamics, involved in heart rate control and relevant for clinical aims. In the last decades, nonlinear analysis methods have gained a growing interest. Here, we described an application of a nonlinear analysis (symbolic dynamic analysis) and introduced a new index to quantify foetal heart rate variability, in a simple and concise way, in healthy foetuses near to term. The index was able to highlight differences in foetal heart rate variability, not always so evident on printed cardiotocographic signals, and resulted significantly correlated with the different kinds of delivery (spontaneous or caesarean); in particular, higher variability index values corresponded to spontaneous delivery.
Symbolic Dynamics in cardiotocographic monitoring
No results. |
Symbolic Dynamics in cardiotocographic monitoring
Other filter: ([btitle,keywords] "Biomedical Signal Pr ...
Cesarelli M, Bifulco P, Romano M, Fratini A, D'Addio G, Clemente F
* Spline interpolation to evaluate foveation parameters in Congenital Nystagmus recordings (215 views)
2013 E Health And Bioengineering Conference, 2013; N/D: N/D-N/D.
Impact Factor: 0
View Export to BibTeX Export to EndNote
* Spline interpolation to evaluate foveation parameters in Congenital Nystagmus recordings (215 views)
2013 E Health And Bioengineering Conference, 2013; N/D: N/D-N/D.
Impact Factor: 0
View Export to BibTeX Export to EndNote
1 Records (0 excluding Abstracts).
Total impact factor: 0 (0 excluding Abstracts).
Total 5 year impact factor: 0 (0 excluding Abstracts).
Total impact factor: 0 (0 excluding Abstracts).
Total 5 year impact factor: 0 (0 excluding Abstracts).
309 views. Last view on Saturday 14 January 2023, 17:27:53
ibb.cnr.it
