The feasibility of prostate cancer detection by triple spectroscopy.

Georg Salomon; Thorsten Hess; Andreas Erbersdobler; Christian Eichelberg; Siegfried Greschner; Andrey N Sobchuk; Anna K Korolik; Nicolai A Nemkovich; Jürgen Schreiber; Martin Herms; Markus Graefen; Hartwig Huland

The feasibility of prostate cancer detection by triple spectroscopy.

Standard

The feasibility of prostate cancer detection by triple spectroscopy. / Salomon, Georg; Hess, Thorsten; Erbersdobler, Andreas; Eichelberg, Christian; Greschner, Siegfried; Sobchuk, Andrey N; Korolik, Anna K; Nemkovich, Nicolai A; Schreiber, Jürgen; Herms, Martin; Graefen, Markus; Huland, Hartwig.

In: EUR UROL, Vol. 55, No. 2, 2, 2009, p. 376-383.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Salomon, G, Hess, T, Erbersdobler, A, Eichelberg, C, Greschner, S, Sobchuk, AN, Korolik, AK, Nemkovich, NA, Schreiber, J, Herms, M, Graefen, M & Huland, H 2009, 'The feasibility of prostate cancer detection by triple spectroscopy.', EUR UROL, vol. 55, no. 2, 2, pp. 376-383. <http://www.ncbi.nlm.nih.gov/pubmed/18359147?dopt=Citation>

APA

Salomon, G., Hess, T., Erbersdobler, A., Eichelberg, C., Greschner, S., Sobchuk, A. N., Korolik, A. K., Nemkovich, N. A., Schreiber, J., Herms, M., Graefen, M., & Huland, H. (2009). The feasibility of prostate cancer detection by triple spectroscopy. EUR UROL, 55(2), 376-383. [2]. http://www.ncbi.nlm.nih.gov/pubmed/18359147?dopt=Citation

Vancouver

Salomon G, Hess T, Erbersdobler A, Eichelberg C, Greschner S, Sobchuk AN et al. The feasibility of prostate cancer detection by triple spectroscopy. EUR UROL. 2009;55(2):376-383. 2.

Bibtex

@article{f1ab76ab608b426e85a1657704ed9da7,

title = "The feasibility of prostate cancer detection by triple spectroscopy.",

abstract = "OBJECTIVES: To determine the feasibility of ex situ prostate cancer detection by triple spectroscopy. A positive surgical margin following radical prostatectomy is an adverse factor for recurrence-free survival. Detection of residual cancer cells in vivo would be the most useful, allowing the resection of such tissue during the procedure. Aside from the use of frozen sections, the ability to detect positive surgical margins is limited. Laser-induced autofluorescence, white-light remission, and high-frequency impedance spectroscopy are methods that allow discrimination of tissues of different dignities based on their specific signature. We tested whether the combination of these techniques can differentiate malignant and benign prostate tissue ex vivo. MATERIALS AND METHODS: In preparation for future in vivo measurements, an ex vivo study was performed to detect characteristics of prostate tissue. Ninety-five tissue samples from 32 patients undergoing radical prostatectomy for clinically localized prostate cancer were taken immediately after removal of the prostate and stored in liquid nitrogen. Tissue samples were thawed for laser-induced autofluorescence, white-light remission, and high-frequency impedance spectroscopy. Based on these results, a computerized algorithm was developed for tissue differentiation. RESULTS: The statistical analysis of laser-induced autofluorescence and white-light remission data demonstrated a differentiation of benign and malignant prostate tissue with a sensitivity of 87.5% and a specificity of 87.3%. By adding the acquired high-frequency impedance data to the statistical analysis, sensitivity and specificity were increased to 93.8% and 92.4%. CONCLUSION: A highly accurate differentiation of prostate tissue was achieved in an ex vivo model. In vivo studies need to be performed to evaluate whether this technique can be successful in an intraoperative setting to detect positive surgical margins.",

author = "Georg Salomon and Thorsten Hess and Andreas Erbersdobler and Christian Eichelberg and Siegfried Greschner and Sobchuk, {Andrey N} and Korolik, {Anna K} and Nemkovich, {Nicolai A} and J{\"u}rgen Schreiber and Martin Herms and Markus Graefen and Hartwig Huland",

year = "2009",

language = "Deutsch",

volume = "55",

pages = "376--383",

journal = "EUR UROL",

issn = "0302-2838",

publisher = "Elsevier",

number = "2",

}

RIS

TY - JOUR

T1 - The feasibility of prostate cancer detection by triple spectroscopy.

AU - Salomon, Georg

AU - Hess, Thorsten

AU - Erbersdobler, Andreas

AU - Eichelberg, Christian

AU - Greschner, Siegfried

AU - Sobchuk, Andrey N

AU - Korolik, Anna K

AU - Nemkovich, Nicolai A

AU - Schreiber, Jürgen

AU - Herms, Martin

AU - Graefen, Markus

AU - Huland, Hartwig

PY - 2009

Y1 - 2009

N2 - OBJECTIVES: To determine the feasibility of ex situ prostate cancer detection by triple spectroscopy. A positive surgical margin following radical prostatectomy is an adverse factor for recurrence-free survival. Detection of residual cancer cells in vivo would be the most useful, allowing the resection of such tissue during the procedure. Aside from the use of frozen sections, the ability to detect positive surgical margins is limited. Laser-induced autofluorescence, white-light remission, and high-frequency impedance spectroscopy are methods that allow discrimination of tissues of different dignities based on their specific signature. We tested whether the combination of these techniques can differentiate malignant and benign prostate tissue ex vivo. MATERIALS AND METHODS: In preparation for future in vivo measurements, an ex vivo study was performed to detect characteristics of prostate tissue. Ninety-five tissue samples from 32 patients undergoing radical prostatectomy for clinically localized prostate cancer were taken immediately after removal of the prostate and stored in liquid nitrogen. Tissue samples were thawed for laser-induced autofluorescence, white-light remission, and high-frequency impedance spectroscopy. Based on these results, a computerized algorithm was developed for tissue differentiation. RESULTS: The statistical analysis of laser-induced autofluorescence and white-light remission data demonstrated a differentiation of benign and malignant prostate tissue with a sensitivity of 87.5% and a specificity of 87.3%. By adding the acquired high-frequency impedance data to the statistical analysis, sensitivity and specificity were increased to 93.8% and 92.4%. CONCLUSION: A highly accurate differentiation of prostate tissue was achieved in an ex vivo model. In vivo studies need to be performed to evaluate whether this technique can be successful in an intraoperative setting to detect positive surgical margins.

AB - OBJECTIVES: To determine the feasibility of ex situ prostate cancer detection by triple spectroscopy. A positive surgical margin following radical prostatectomy is an adverse factor for recurrence-free survival. Detection of residual cancer cells in vivo would be the most useful, allowing the resection of such tissue during the procedure. Aside from the use of frozen sections, the ability to detect positive surgical margins is limited. Laser-induced autofluorescence, white-light remission, and high-frequency impedance spectroscopy are methods that allow discrimination of tissues of different dignities based on their specific signature. We tested whether the combination of these techniques can differentiate malignant and benign prostate tissue ex vivo. MATERIALS AND METHODS: In preparation for future in vivo measurements, an ex vivo study was performed to detect characteristics of prostate tissue. Ninety-five tissue samples from 32 patients undergoing radical prostatectomy for clinically localized prostate cancer were taken immediately after removal of the prostate and stored in liquid nitrogen. Tissue samples were thawed for laser-induced autofluorescence, white-light remission, and high-frequency impedance spectroscopy. Based on these results, a computerized algorithm was developed for tissue differentiation. RESULTS: The statistical analysis of laser-induced autofluorescence and white-light remission data demonstrated a differentiation of benign and malignant prostate tissue with a sensitivity of 87.5% and a specificity of 87.3%. By adding the acquired high-frequency impedance data to the statistical analysis, sensitivity and specificity were increased to 93.8% and 92.4%. CONCLUSION: A highly accurate differentiation of prostate tissue was achieved in an ex vivo model. In vivo studies need to be performed to evaluate whether this technique can be successful in an intraoperative setting to detect positive surgical margins.

M3 - SCORING: Zeitschriftenaufsatz

VL - 55

SP - 376

EP - 383

JO - EUR UROL

JF - EUR UROL

SN - 0302-2838

IS - 2

M1 - 2

ER -