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Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols

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Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols. / Boehm, Katharina; Salomon, Georg; Beyer, Burkhard; Schiffmann, Jonas; Simonis, Kathrin; Graefen, Markus; Budäus, Lars.

In: J UROLOGY, Vol. 193, No. 3, 03.2015, p. 794-800.

Research output: SCORING: Contribution to journalSCORING: Journal articleResearchpeer-review

Harvard

Boehm, K, Salomon, G, Beyer, B, Schiffmann, J, Simonis, K, Graefen, M & Budäus, L 2015, 'Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols', J UROLOGY, vol. 193, no. 3, pp. 794-800. https://doi.org/10.1016/j.juro.2014.09.100

APA

Boehm, K., Salomon, G., Beyer, B., Schiffmann, J., Simonis, K., Graefen, M., & Budäus, L. (2015). Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols. J UROLOGY, 193(3), 794-800. https://doi.org/10.1016/j.juro.2014.09.100

Vancouver

Boehm K, Salomon G, Beyer B, Schiffmann J, Simonis K, Graefen M et al. Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols. J UROLOGY. 2015 Mar;193(3):794-800. https://doi.org/10.1016/j.juro.2014.09.100

Bibtex

@article{0066765fcbdf48aca264b8fe79937bba,
title = "Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols",
abstract = "PURPOSE: Shear wave elastography allows the detection of cancer by using focused ultrasound pulses for locally deforming tissue. The differences in tissue elasticity and stiffness have been used increasingly in breast cancer imaging and help detect potential tumor lesions in the prostate. In this study we localized prostate cancer lesions using shear wave elastography before radical prostatectomy and assessed the examiner independent elasticity threshold for cancer foci detection.MATERIALS AND METHODS: Shear wave elastography scanning of the whole prostate was performed before radical prostatectomy in 60 consecutive patients with high, intermediate and low risk disease. Localization of suspected lesions and density threshold (kPa) were recorded in up to 12 areas and resulted in 703 different fields. Shear wave elastography findings were correlated with final pathology. Initially 381 areas were used to establish shear wave elastography cutoffs (development cohort 32 patients). Subsequently these cutoffs were validated in 322 areas (validation cohort 28 patients).RESULTS: Using shear wave elastography significant differences were recorded for the elasticity of benign tissue vs prostate cancer nodules at 42 kPa (range 29 to 71.3) vs 88 kPa (range 54 to 132) (all p <0.001). Median cancer lesion diameter was 26 mm (range 18 to 41). Applying the most informative cutoff of 50 kPa to the validation cohort resulted in 80.9% and 69.1% sensitivity and specificity, respectively, and 74.2% accuracy for detecting cancer nodules based on final pathological finding. The corresponding positive and negative predictive values were 67.1% and 82.2%, respectively.CONCLUSIONS: Shear wave elastography allows the identification of cancer foci based on shear wave elastography differences. Moreover, reliable cutoffs for this approach can be established, allowing examiner independent localization of prostate cancer foci.",
keywords = "Biopsy, Clinical Protocols, Elasticity, Elasticity Imaging Techniques, Humans, Male, Prostate, Prostatic Neoplasms, Watchful Waiting",
author = "Katharina Boehm and Georg Salomon and Burkhard Beyer and Jonas Schiffmann and Kathrin Simonis and Markus Graefen and Lars Bud{\"a}us",
note = "Copyright {\textcopyright} 2015 American Urological Association Education and Research, Inc. Published by Elsevier Inc. All rights reserved.",
year = "2015",
month = mar,
doi = "10.1016/j.juro.2014.09.100",
language = "English",
volume = "193",
pages = "794--800",
journal = "J UROLOGY",
issn = "0022-5347",
publisher = "Elsevier Inc.",
number = "3",

}

RIS

TY - JOUR

T1 - Shear wave elastography for localization of prostate cancer lesions and assessment of elasticity thresholds: implications for targeted biopsies and active surveillance protocols

AU - Boehm, Katharina

AU - Salomon, Georg

AU - Beyer, Burkhard

AU - Schiffmann, Jonas

AU - Simonis, Kathrin

AU - Graefen, Markus

AU - Budäus, Lars

N1 - Copyright © 2015 American Urological Association Education and Research, Inc. Published by Elsevier Inc. All rights reserved.

PY - 2015/3

Y1 - 2015/3

N2 - PURPOSE: Shear wave elastography allows the detection of cancer by using focused ultrasound pulses for locally deforming tissue. The differences in tissue elasticity and stiffness have been used increasingly in breast cancer imaging and help detect potential tumor lesions in the prostate. In this study we localized prostate cancer lesions using shear wave elastography before radical prostatectomy and assessed the examiner independent elasticity threshold for cancer foci detection.MATERIALS AND METHODS: Shear wave elastography scanning of the whole prostate was performed before radical prostatectomy in 60 consecutive patients with high, intermediate and low risk disease. Localization of suspected lesions and density threshold (kPa) were recorded in up to 12 areas and resulted in 703 different fields. Shear wave elastography findings were correlated with final pathology. Initially 381 areas were used to establish shear wave elastography cutoffs (development cohort 32 patients). Subsequently these cutoffs were validated in 322 areas (validation cohort 28 patients).RESULTS: Using shear wave elastography significant differences were recorded for the elasticity of benign tissue vs prostate cancer nodules at 42 kPa (range 29 to 71.3) vs 88 kPa (range 54 to 132) (all p <0.001). Median cancer lesion diameter was 26 mm (range 18 to 41). Applying the most informative cutoff of 50 kPa to the validation cohort resulted in 80.9% and 69.1% sensitivity and specificity, respectively, and 74.2% accuracy for detecting cancer nodules based on final pathological finding. The corresponding positive and negative predictive values were 67.1% and 82.2%, respectively.CONCLUSIONS: Shear wave elastography allows the identification of cancer foci based on shear wave elastography differences. Moreover, reliable cutoffs for this approach can be established, allowing examiner independent localization of prostate cancer foci.

AB - PURPOSE: Shear wave elastography allows the detection of cancer by using focused ultrasound pulses for locally deforming tissue. The differences in tissue elasticity and stiffness have been used increasingly in breast cancer imaging and help detect potential tumor lesions in the prostate. In this study we localized prostate cancer lesions using shear wave elastography before radical prostatectomy and assessed the examiner independent elasticity threshold for cancer foci detection.MATERIALS AND METHODS: Shear wave elastography scanning of the whole prostate was performed before radical prostatectomy in 60 consecutive patients with high, intermediate and low risk disease. Localization of suspected lesions and density threshold (kPa) were recorded in up to 12 areas and resulted in 703 different fields. Shear wave elastography findings were correlated with final pathology. Initially 381 areas were used to establish shear wave elastography cutoffs (development cohort 32 patients). Subsequently these cutoffs were validated in 322 areas (validation cohort 28 patients).RESULTS: Using shear wave elastography significant differences were recorded for the elasticity of benign tissue vs prostate cancer nodules at 42 kPa (range 29 to 71.3) vs 88 kPa (range 54 to 132) (all p <0.001). Median cancer lesion diameter was 26 mm (range 18 to 41). Applying the most informative cutoff of 50 kPa to the validation cohort resulted in 80.9% and 69.1% sensitivity and specificity, respectively, and 74.2% accuracy for detecting cancer nodules based on final pathological finding. The corresponding positive and negative predictive values were 67.1% and 82.2%, respectively.CONCLUSIONS: Shear wave elastography allows the identification of cancer foci based on shear wave elastography differences. Moreover, reliable cutoffs for this approach can be established, allowing examiner independent localization of prostate cancer foci.

KW - Biopsy

KW - Clinical Protocols

KW - Elasticity

KW - Elasticity Imaging Techniques

KW - Humans

KW - Male

KW - Prostate

KW - Prostatic Neoplasms

KW - Watchful Waiting

U2 - 10.1016/j.juro.2014.09.100

DO - 10.1016/j.juro.2014.09.100

M3 - SCORING: Journal article

C2 - 25264337

VL - 193

SP - 794

EP - 800

JO - J UROLOGY

JF - J UROLOGY

SN - 0022-5347

IS - 3

ER -