Electrical Properties of Prostatic Tissues: I. Single Frequency Admittivity Properties

Halter, Ryan J.; Schned, Alan R.; Heaney, John A.; Hartov, Alex; Paulsen, Keith D.

doi:10.1016/j.juro.2009.06.007

Cited by 63 publications

(92 citation statements)

References 16 publications

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“…This may arise from actual variation in the tissue or in the probe construction. Moderate tissue impedance variation between multiple tissue samples has been previously reported to be on the order of 15% [6]. Probe construction took place in a laboratory setting.…”

Section: Discussionmentioning

confidence: 99%

“…The conventional biopsy technique samples a very small volume of prostate gland (typically <1% of 24cm 3 prostate) leading to misdiagnosis and inaccurate assessment of disease severity [1] [2] [3]. Previous studies have shown the significant contrast between electrical properties of benign and malignant tissues [4] [5] [6] [7]. These contrasts are due to morphological differences present in the different prostatic tissue types.…”

Section: Introductionmentioning

confidence: 99%

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Electrical impedance spectroscopy for prostate cancer diagnosis

Mishra

Bouayad

Schned

et al. 2012

2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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Abstract-Electrical impedance was recorded at 21 discrete frequencies (1 to 100 kHz) from 27 ex vivo human prostates. These electrical properties were measured by using custom designed Electrical Impedance Spectroscopy (EIS) sensing biopsy (Bx) needles. EIS-Bx needles gauge the electrical properties of tissue in tandem with the tissue extraction (used for histopathological assessment). The EIS-Bx probe has a signal-tonoise ratio (SNR) of 65 dB across the frequency range (1 kHz to 100 kHz [7]. These contrasts are due to morphological differences present in the different prostatic tissue types. We have developed an electrical impedance spectroscopy (EIS) sensing biopsy (Bx) needle to record bipolar impedance measurements in tandem with tissue core extraction. We have demonstrated that this type of data has the potential to distinguish normal from abnormal tissue across a larger fraction of prostate volume than that sampled during conventional biopsy procedure [8] [9]. We present our most recent analysis of a 27 patient cohort evaluating how well these electrical properties discriminate cancer from non-cancer tissues in the prostate. II. EIS-BX DEVICE OVERVIEWDevice Design A typical biopsy needle is constructed of stainless steel and consists of an inner trocar and an outer cannula. BARD Maxcore Disposable Biopsy Instruments (MC1820, C.R. Bard, Murray Hill, NJ) extract a 22 mm long tissue core and are the standard biopsy needles used for prostate biopsy at our institution. These needles are modified into an EIS-Bx device by electrically isolating the two (inner and outer) needle elements; a thin insulating tube (polyimide) is adhered onto the surface of each of these elements, leaving just the tip of both needles exposed. The tips of inner and outer elements act as two electrodes, through which EIS based bipolar measurements are recoded. The two electrodes are interfaced to an impedance analyzer (HP4284A, Agilent Technologies) through a RCA plug and assembly of coaxial cables. A small current (<1mA) is applied between the tip electrodes. The impedance recorded is the ratio of induced voltage to the applied

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Electrical impedance spectroscopy for prostate cancer diagnosis

Mishra

Bouayad

Schned

et al. 2012

2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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“…More localised measurements using the mechanical [8] or electrochemical (EC) and electrical properties of tissue may offer an alternative to imaging and can arguably deliver a faster route to surgical integration [9][10][11]. Electrical tissue characteristics, measured using the AC technique of Bioimpedance Spectroscopy (BIS), have shown differences between healthy and diseased tissues.…”

Section: Introductionmentioning

confidence: 99%

“…Electrical tissue characteristics, measured using the AC technique of Bioimpedance Spectroscopy (BIS), have shown differences between healthy and diseased tissues. [10][11][12] these differences are often target tissue specific and require specific frequency range selection and complex electronic model analogies to be applied in order to make statistical distinction. A DC biogalvanic method for tissue characterisation has also been investigated as a means of determining the electrical properties of tissue [13].…”

Section: Introductionmentioning

confidence: 99%

A novel multiple electrode direct current technique for characterisation of tissue resistance during surgery

Chandler

Jayne

Neville

et al. 2015

2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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Abstract-Electrochemical and electrical characteristics have the potential to help differentiate between, and assess the health state of, different biological tissues. However, measurement and interpretation of these characteristics is nontrivial. We propose a new DC galvanostatic sensing method for application to laparoscopic cancer surgery. This presents a simple and cost-effective measurement coupled with straightforward data interpretation. This paper describes the electrochemical and electrical theory underpinning the technique. Additionally, we describe a measurement system employing this technique and present an investigation into the feasibility of using it for measuring the resistance of different tissue types. Measurements were performed on ex vivo porcine liver, colon and rectum tissues. Outputs were consistent with theory and showed a significant difference between the resistance of the different tissue types, (one-way ANOVA, F(2, 28) = 1369, p < 0.01). These findings indicate that this novel technique may be viable as a low cost method for the discrimination and health assessment of tissues in clinical scenarios.

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“…[1][2][3][4][5][6][7][8] Currently, EIT is the only known imaging modality which generates conductivity images. In EIT, measurements are normally made by placing 8-32 electrodes on the surface of the imaging object and injecting a low frequency alternating current through a pair of electrodes.…”

Section: Introductionmentioning

confidence: 99%

Feature-space assessment of electrical impedance tomography coregistered with computed tomography in detecting multiple contrast targets

2014

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The authors found a significant improvement in the contrast detectability performance of CT imaging when complemented with functional imaging information from EIT. Along with the feature assessment metrics, the concept of complementing CT with EIT imaging can lead to an EIT/CT imaging modality which might fully utilize the functional imaging abilities of EIT imaging, thereby enhancing the quality of care in the areas of cancer diagnosis and radiotherapy treatment planning.

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Electrical Properties of Prostatic Tissues: I. Single Frequency Admittivity Properties

Cited by 63 publications

References 16 publications

Electrical impedance spectroscopy for prostate cancer diagnosis

Electrical impedance spectroscopy for prostate cancer diagnosis

A novel multiple electrode direct current technique for characterisation of tissue resistance during surgery

Feature-space assessment of electrical impedance tomography coregistered with computed tomography in detecting multiple contrast targets

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