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Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema

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Bibliographische Detailangaben
Zeitschriftentitel: Physiological Measurement
Personen und Körperschaften: Walker, D C, Smallwood, R H, Keshtar, A, Wilkinson, B A, Hamdy, F C, Lee, J A
In: Physiological Measurement, 26, 2005, 3, S. 251-268
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
IOP Publishing
Schlagwörter:
Physiology (medical)
Biomedical Engineering
Physiology
Biophysics
author_facet Walker, D C
Smallwood, R H
Keshtar, A
Wilkinson, B A
Hamdy, F C
Lee, J A
Walker, D C
Smallwood, R H
Keshtar, A
Wilkinson, B A
Hamdy, F C
Lee, J A
author Walker, D C
Smallwood, R H
Keshtar, A
Wilkinson, B A
Hamdy, F C
Lee, J A
spellingShingle Walker, D C
Smallwood, R H
Keshtar, A
Wilkinson, B A
Hamdy, F C
Lee, J A
Physiological Measurement
Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
Physiology (medical)
Biomedical Engineering
Physiology
Biophysics
author_sort walker, d c
spelling Walker, D C Smallwood, R H Keshtar, A Wilkinson, B A Hamdy, F C Lee, J A 0967-3334 1361-6579 IOP Publishing Physiology (medical) Biomedical Engineering Physiology Biophysics http://dx.doi.org/10.1088/0967-3334/26/3/010 Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema Physiological Measurement
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title Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_unstemmed Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_full Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_fullStr Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_full_unstemmed Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_short Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_sort modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
topic Physiology (medical)
Biomedical Engineering
Physiology
Biophysics
url http://dx.doi.org/10.1088/0967-3334/26/3/010
publishDate 2005
physical 251-268
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author Walker, D C, Smallwood, R H, Keshtar, A, Wilkinson, B A, Hamdy, F C, Lee, J A
author_facet Walker, D C, Smallwood, R H, Keshtar, A, Wilkinson, B A, Hamdy, F C, Lee, J A, Walker, D C, Smallwood, R H, Keshtar, A, Wilkinson, B A, Hamdy, F C, Lee, J A
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mega_collection IOP Publishing (CrossRef)
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publishDate 2005
publishDateSort 2005
publisher IOP Publishing
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recordtype ai
series Physiological Measurement
source_id 49
spelling Walker, D C Smallwood, R H Keshtar, A Wilkinson, B A Hamdy, F C Lee, J A 0967-3334 1361-6579 IOP Publishing Physiology (medical) Biomedical Engineering Physiology Biophysics http://dx.doi.org/10.1088/0967-3334/26/3/010 Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema Physiological Measurement
spellingShingle Walker, D C, Smallwood, R H, Keshtar, A, Wilkinson, B A, Hamdy, F C, Lee, J A, Physiological Measurement, Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema, Physiology (medical), Biomedical Engineering, Physiology, Biophysics
title Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_full Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_fullStr Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_full_unstemmed Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_short Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_sort modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
title_unstemmed Modelling the electrical properties of bladder tissue—quantifying impedance changes due to inflammation and oedema
topic Physiology (medical), Biomedical Engineering, Physiology, Biophysics
url http://dx.doi.org/10.1088/0967-3334/26/3/010